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HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver preliminary version 03 july, 2011 ( doc no. HX8363-A-ds ) http://www..net/ datasheet pdf - http://www..net/
- p.2- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 1. general description ................................ ................................................... .........................................8 2. features ........................................... ................................................... .................................................9 2.1 display............................................ ................................................... ...........................................9 2.2 display module..................................... ................................................... .....................................9 2.3 display/control interface .......................... ................................................... ...............................10 2.4 input power........................................ ................................................... ......................................10 2.5 miscellaneous...................................... ................................................... ....................................10 3. device overview .................................... ................................................... ........................................11 3.1 block diagram ...................................... ................................................... ...................................11 3.2 pin description .................................... ................................................... ....................................12 3.3 pin assignment..................................... ................................................... ...................................16 3.4 pad coordinates .................................... ................................................... .................................17 3.4.1 bump arrangement ................................... ................................................... ..........................28 4. interface .......................................... ................................................... ................................................30 4.1 system interface ................................... ................................................... ..................................30 4.1.1 serial data transfer interface ..................... ................................................... ........................31 4.2 rgb interface...................................... ................................................... ....................................35 4.3 dsi protocol ....................................... ................................................... .....................................40 4.3.1 processor to peripheral direction packets data type s .................................................. .........43 4.3.2 peripheral to processor (reverse direction)........ ................................................... ...............48 5. function description ............................... ................................................... ......................................50 5.1 gamma characteristic correction function........... ................................................... ....................50 5.2 gamma characteristic correction function ........... ................................................... .................51 5.3 gamma curve........................................ ................................................... ..................................94 5.4 oscillator......................................... ................................................... .........................................95 5.5 lcd power generation scheme........................ ................................................... .....................96 5.6 dc/dc converter circuit ............................ ................................................... .............................97 5.6.1 use pfm dc/dc converter ............................ ................................................... ....................97 5.6.2 use hx5186-a....................................... ................................................... ..............................98 5.7 characteristics of i/o............................. ................................................... ..................................99 5.7.1 output or bi-directional (i/o) pins ................ ................................................... .......................99 5.7.2 input pins......................................... ................................................... ....................................99 5.8 sleep out Ccommand and self-diagnostic functions of the display module.........................100 5.8.1 register loading detection ......................... ................................................... ......................100 5.8.2 functionality detection ............................ ................................................... ..........................101 5.9 power on/off sequence .............................. ................................................... .........................102 5.9.1 case 1 C nreset line is held high or unstable by ho st at power on ...............................103 5.9.2 case 2 C nreset line is held low by host at power o n .................................................. .104 5.10 uncontrolled power off ............................. ................................................... ............................104 5.11 content adaptive brightness control (cabc) function ................................................... ........105 5.11.1 module architectures ............................... ................................................... ..........................106 5.11.2 brightness control block ........................... ................................................... ........................107 5.11.3 minimum brightness setting of cabc function........ ................................................... ..........108 6. command............................................ ................................................... ..........................................109 6.1 command list ....................................... ................................................... ................................109 6.1.1 standard command ................................... ................................................... .......................109 6.1.2 user define command list table..................... ................................................... .................112 6.2 command description................................ ................................................... ...........................114 6.2.1 nop................................................ ................................................... ...................................114 HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver l ist of contents july, 2011 http://www..net/ datasheet pdf - http://www..net/
- p.3- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 6.2.2 software reset (01h)............................... ................................................... ..........................115 6.2.3 read red color (06h) ............................... ................................................... ........................116 6.2.4 read green color (07h) ............................. ................................................... .......................117 6.2.5 read blue color (08h).............................. ................................................... .........................118 6.2.6 read display power mode (0ah) ...................... ................................................... ................119 6.2.7 read display madctl (0bh).......................... ................................................... ..................120 6.2.8 read display pixel format (0ch).................... ................................................... ..................122 6.2.9 read display image mode (0dh) ...................... ................................................... ................123 6.2.10 read display signal mode (0eh) ..................... ................................................... .................124 6.2.11 read display self-diagnostic result (0fh) .......... ................................................... .............125 6.2.12 sleep in (10h) ..................................... ................................................... ...............................126 6.2.13 sleep out (11h) .................................... ................................................... .............................127 6.2.14 display inversion off (20h) ........................ ................................................... ........................128 6.2.15 display inversion on (21h)......................... ................................................... .......................129 6.2.16 gamma set (26h) .................................... ................................................... ..........................130 6.2.17 display off (28h).................................. ................................................... ..............................131 6.2.18 display on (29h)................................... ................................................... .............................132 6.2.19 memory access control (36h) ........................ ................................................... ...................133 6.2.20 interface pixel format (3ah) ....................... ................................................... ......................135 6.2.21 read_ddb_start (a1h) ............................... ................................................... ......................136 6.2.22 read_ddb_continue (a8h)............................ ................................................... ...................137 6.2.23 read id1 (dah) ..................................... ................................................... ............................138 6.2.24 read id2 (dbh) ..................................... ................................................... ............................139 6.2.25 read id3 (dch)..................................... ................................................... ............................140 6.2.26 write display brightness (51h) ..................... ................................................... .....................141 6.2.27 read display brightness value (52h)................ ................................................... ................142 6.2.28 write ctrl display (53h)........................... ................................................... .......................143 6.2.29 read ctrl value display (54h) ...................... ................................................... .................144 6.2.30 write content adaptive brightness control (55h) .... ................................................... .........145 6.2.31 read content adaptive brightness control (56h) ..... ................................................... ........146 6.2.32 write cabc minimum brightness (5eh) ................ ................................................... ............147 6.2.33 read cabc minimum brightness (5fh) ................. ................................................... ...........148 6.2.34 setpower: set power (b1h) .......................... ................................................... ...............149 6.2.35 setrgbif: set rgb interface related register (b3h) . ................................................... .....161 6.2.36 setcyc: set display waveform cycle (b4h) ........... ................................................... .......162 6.2.37 setvcom: set vcom voltage (b6h).................... ................................................... ...........168 6.2.38 setextc: enable extension command (b9h) ............ ................................................... .....171 6.2.39 setotp: set otp (bbh) .............................. ................................................... ....................172 6.2.40 setdgclut: set dgc lut (c1h)....................... ................................................... ............173 6.2.41 setid: set id (c3h) ................................ ................................................... ..........................175 6.2.42 setddb: set ddb (c4h) .............................. ................................................... ....................176 6.2.43 setpanel (cch)..................................... ................................................... .........................177 6.2.44 set spi read index (feh)........................... ................................................... .................178 6.2.45 spiread (ffh) ...................................... ................................................... ...........................179 6.2.46 setgamma: set gamma curve related setting (e0h) .... .................................................18 0 7. power supply ....................................... ................................................... ........................................182 7.1 power supply setup................................. ................................................... .............................182 7.1.1 architecture 1 with pfm circuit.................... ................................................... ......................182 7.1.2 architecture 2 with hx5186-a ....................... ................................................... ....................183 7.2 voltage configuration .............................. ................................................... ..............................184 8. electrical characteristics ......................... ................................................... ...................................185 8.1 absolute maximum ratings........................... ................................................... ........................185 8.2 esd protection level ............................... ................................................... .............................185 HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver l ist of contents july, 2011 http://www..net/ datasheet pdf - http://www..net/
- p.4- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 8.3 dc characteristics ................................. ................................................... ...............................186 8.4 ac characteristics................................. ................................................... ................................187 8.4.1 serial interface characteristics (3-pin serial) .... ................................................... ...............187 8.4.2 rgb interface characteristics...................... ................................................... .....................189 8.4.3 the electrical characteristics of d-phy layer ...... ................................................... ...........192 8.4.4 reset input timing ................................. ................................................... ...........................201 8.4.5 power on/off timing ................................ ................................................... .........................202 9. layout recommendation .............................. ................................................... ..............................204 9.1 reference layout ................................... ................................................... ...............................204 9.1.1 reference layout 1 with pfm circuit................ ................................................... .................204 9.1.2 reference layout 2 with hx5186-a ................... ................................................... ...............205 9.2 maximum layout resistance .......................... ................................................... ......................206 10. otp programming .................................... ................................................... ...............................207 10.1 otp table .......................................... ................................................... ....................................207 10.2 otp programming flow ............................... ................................................... ..........................211 10.3 programming sequence ............................... ................................................... .........................212 10.4 otp programming circuitry .......................... ................................................... ........................213 11. ordering information............................... ................................................... ................................214 12. revision history ................................... ................................................... ...................................214 HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver l ist of contents july, 2011 http://www..net/ datasheet pdf - http://www..net/
- p.5- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 figure 4.1: serial data stream, write mode................ ................................................... .............31 figure 4.2: serial interface protocol 3 wire serial interf ace (write mode)................................... 32 figure 4.3 : 3 wire serial interface protocol, read mode .. ................................................... .......33 figure 4.4: 3 wire serial interface protocol, read mode fo r user define command ....................34 figure 4.5: display module data transfer recovery ......... ................................................... .....34 figure 4.6: dck cycle ..................................... ................................................... ........................35 figure 4.7: 16 bit/pixel color order on the rgb i/f ....... ................................................... .........36 figure 4.8: 18 bit/pixel color order on the rgb i/f ....... ................................................... .........37 figure 4.9: 24bit/pixel color order on the rgb i/f ........ ................................................... .........38 figure 4.10: general timing diagram....................... ................................................... ..............39 figure 4.11: multiple hs transmission packets ............. ................................................... .........40 figure 4.12: structure of the short packet ................ ................................................... ..............40 figure 4.13: structure of the long packet................. ................................................... ..............41 figure 4.14: the format of data id........................ ................................................... ..................41 figure 4.15: short- / long- packet transmission command se quence ......................................42 figure 5.1: gamma adjustments different of source driver w ith digital gamma correction ........50 figure 5.2: grayscale control ............................. ................................................... ....................52 figure 5.3: gamma resister stream and gamma reference volt age .....................................54 figure 5.4: gamma resister stream ......................... ................................................... .............55 figure 5.5: gamma curve according to the gc0 to gc3 bit... ..................................................9 4 figure 5.6: oscillation circuit ........................... ................................................... .......................95 figure 5.7: lcd power generation scheme................... ................................................... ........96 figure 5.8: dc/dc converter circuit (pfm)................. ................................................... ...........97 figure 5.9: dc/dc converter circuit (hx5186-a) ............ ................................................... ......98 figure 5.10: sleep out flow chart C command and self-diagn ostic functions.....................100 figure 5.11: sleep out flow chart internal function detect ion...............................................1 01 figure 5.12: case 1 C nreset line is held high or unstable by host at power on...............103 figure 5.13: case 2 C nreset line is held low by host at p ower on ...................................104 figure 5.14: cabc block diagram........................... ................................................... .............105 figure 5.15: module architecture .......................... ................................................... ................106 figure 5.16: cabc_pwm_out output duty ..................... ................................................... ..107 figure 7.1: power supply with pfm circuit ................. ................................................... ...........182 figure 7.2: power supply with hx5186-a .................... ................................................... .........183 figure 8.1: 3-pin serial interface characteristics ........ ................................................... ..........187 figure 8.2: vertical timings for rgb i/f .................. ................................................... .............189 figure 8.3: horizontal timing for rgb i/f................. ................................................... ............190 figure 8.4: general timings for rgb i/f ................... ................................................... ...........191 figure 8.5: electrical functions of a fully d-phy transcei ver ................................................ 192 figure 8.6: shows both the hs and lp signal levels ........ ................................................... ....192 figure 8.7: input glitch rejections of low-power receivers ................................................... 195 figure 8.8: ddr clock definition .......................... ................................................... ................198 figure 8.9: data to clock timing definitions.............. ................................................... ...........199 figure 8.10: reset input timing........................... ................................................... .................201 figure 8.11: power on timing.............................. ................................................... .................202 figure 8.12: power off timing ............................. ................................................... .................203 figure 9.1: reference layout with pfm circuit ............. ................................................... .........204 figure 9.2: reference layout with hx5186-a................ ................................................... ........205 figure 10.1: otp programming sequence..................... ................................................... ......211 figure 10.2: otp programming circuitry.................... ................................................... ..........213 HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver list of figures july, 2011 http://www..net/ datasheet pdf - http://www..net/
- p.6- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 table 4.1: interface selection ........................... ................................................... .......................30 table 4.2: data types for processor-sourced packets...... ................................................... .....43 table 4.3: error report bit definitions.................. ................................................... ...................49 table 4.4: the complete set of peripheral-to-processor da ta types .........................................49 table 5.1: gamma-adjustment registers .................... ................................................... ...........53 table 5.2: offset adjustment 0 ~ 5 ....................... ................................................... ...................56 table 5.3: center adjustment ............................. ................................................... .....................56 table 5.4: vinp 0 ........................................ ................................................... .............................57 table 5.5: vinp 1 ........................................ ................................................... .............................58 table 5.6: vinp 2 ........................................ ................................................... .............................59 table 5.7: vinp 14 ....................................... ................................................... ............................60 table 5.8: vinp 15 ....................................... ................................................... ............................61 table 5.9: vinp 16 ....................................... ................................................... ............................62 table 5.10: vinp5 ........................................ ................................................... ............................64 table 5.11: vinp 11 ...................................... ................................................... ...........................66 table 5.12: vinp 3 ....................................... ................................................... ............................67 table 5.13: vinp 4 ....................................... ................................................... ............................67 table 5.14: vinp 6 ....................................... ................................................... ............................68 table 5.15: vinp 7 ....................................... ................................................... ............................68 table 5.16: vinp 8 ....................................... ................................................... ............................69 table 5.17: vinp 9 ....................................... ................................................... ............................69 table 5.18: vinp 10 ...................................... ................................................... ...........................70 table 5.19: vinp 12 ...................................... ................................................... ...........................70 table 5.20: vinp 13 ...................................... ................................................... ...........................71 table 5.21: vinn 0 ....................................... ................................................... ............................72 table 5.22: vinn 1 ....................................... ................................................... ............................73 table 5.23: vinn 2 ....................................... ................................................... ............................74 table 5.24: vinn 14 ...................................... ................................................... ...........................75 table 5.25: vinn 15 ...................................... ................................................... ...........................76 table 5.26: vinn 16 ...................................... ................................................... ...........................77 table 5.27: vinn5 ........................................ ................................................... ............................79 table 5.28: vinn 11 ...................................... ................................................... ...........................81 table 5.29: vinn 3 ....................................... ................................................... ............................82 table 5.30: vinn 4 ....................................... ................................................... ............................83 table 5.31: vinn 6 ....................................... ................................................... ............................83 table 5.32: vinn 7 ....................................... ................................................... ............................84 table 5.33: vinn 8 ....................................... ................................................... ............................84 table 5.34: vinn 9 ....................................... ................................................... ............................85 table 5.35: vinn 10 ...................................... ................................................... ...........................85 table 5.36: vinn 12 ...................................... ................................................... ...........................86 table 5.37: vinp/n 13.................................... ................................................... ..........................86 table 5.38: voltage calculation formula of 64-grayscale v oltage (positive polarity) ..............88 table 5.39: voltage calculation formula of 64-grayscale v oltage (negative polarity) .............90 table 5.40: voltage calculation formula of 256-grayscale voltage (positive/negative polarity) ................................................... ................................................... ......................................93 table 5.41: characteristics of output or bi-directional ( i/o) pins.......................................... .....99 table 5.42: characteristics of input pins................ ................................................... .................99 table 5.43: cabc timing table ............................ ................................................... ..................107 table 7.1: power supply voltage configuration ............ ................................................... ........184 table 7.2: adoptability of component ..................... ................................................... ..............184 table 8.1: absolute maximum rating....................... ................................................... .............185 table 8.2: esd protection level .......................... ................................................... .................185 table 8.3: dc characteristics............................ ................................................... ....................186 table 8.4: power consumptions ............................ ................................................... ................186 table 8.5: vertical timings for rgb i/f.................. ................................................... ...............189 HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver l ist of table s july, 2011 http://www..net/ datasheet pdf - http://www..net/
- p.7- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 table 8.6: horizontal timings for rgb i/f................ ................................................... .............190 table 8.7: general timings for rgb i/f ................... ................................................... .............191 table 8.8: lp transmitter dc specifications .............. ................................................... ...........193 table 8.9: lp transmitter ac specifications.............. ................................................... ...........193 table 8.10: hs receiver dc specifications ................ ................................................... ..........194 table 8.11: hs receiver ac specifications ................ ................................................... ..........194 table 8.12: lp receiver dc specifications................ ................................................... ...........195 table 8.13: lp receiver ac specifications................ ................................................... ...........195 table 8.14: contention detector dc specifications ........ ................................................... ......196 table 8.15: pin characteristic specifications ............ ................................................... ............197 table 8.16: re verse hs data transmission timing paramete rs............................................199 table 8.17: data to clock timing specifications .......... ................................................... .........200 table 8.18: reset timing................................. ................................................... ......................201 table 9.1: maximum layout resistance ..................... ................................................... ..........206 table 10.1: otp table.................................... ................................................... ........................209 HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver l ist of table s july, 2011 http://www..net/ datasheet pdf - http://www..net/
-p.8- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 1. general description this document describes himaxs HX8363-A is support s wvga resolution driving controller. the HX8363-A is designed to provide a single-chip s olution that combines a source driver, power supply circuit to drive a tft dot matrix lcd with 480rgbx864 dots at maximum. the HX8363-A can be operated in low-voltage (1.65v) condition for the interface and integrated internal boosters that produce the liqui d crystal voltage, breeder resistance and the voltage follower circuit for liquid crystal dri ver. in addition, the HX8363-A also supports various functions to reduce the power consumption o f a lcd system via software control. the HX8363-A also supports 16 / 18 / 24-bit rgb int erface and 3-wire serial peripheral interface, mipi dsi interface mode. via serial peri pheral interface or dsi interface, HX8363-A can receive the initialization settings for the dis play operation and for selecting the display functions. the initialization settings can be store d in the non-volatile memory and are loaded at display start. the HX8363-A is suitable for any small portable bat tery-driven and long-term driving products, such as small pdas, digital cellular phon es and bi-directional pagers. HX8363-A 480rgb x 864 dot, 16.7m color, tft mobile single chip driver preliminary version 03 jul y, 20 11 http://www..net/ datasheet pdf - http://www..net/
-p.9- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2. features 2.1 display resolution: 480rgb x 864 480rgb x 854 480rgb x 800 480rgb x 640 360rgb x 640 display color modes normal display mode on - 65,536 (r(5),g(6),b(5)) colors - 262,144 (r(6),g(6),b(6)) colors - 16,777,216 (r(8),g(8),b(8)) colors 2.2 display module support 1440 source channel outputs adjusted source voltages ( vinp0 ~ vinp16, vinn0 ~ vinn16 ) output voltage level vsp=4.7~5.5v vsn=-5.5~-4.7v positive source output voltage level: vspr to vssa is 3.5v to 5v negative source output voltage level: vsnr to vssa is -5v to -3.5v positive gate driver output voltage level: vgh to v ssa is 15v, 18v, 20v negative gate driver output voltage level: vgl to v ssa is -8v, -10v, -12v vcom= -2v ~ 0v, a step=16mv 1-dot inversion, 2-dot inversion, column inversion http://www..net/ datasheet pdf - http://www..net/
-p.10- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2.3 display/control interface display interface types supported serial data transfer interface 16-/18-/24- data lines parallel video (rgb) interfa ce register control for display and function selection through spi protocol dsi (display serial interface) interface color modes 16 bit/pixel: r(5), g(6), b(5) 18 bit/pixel: r(6), g(6), b(6) 24 bit/pixel: r(8), g(8), b(8) 2.4 input power i/o and interface power supply (vdd1): 1.65v ~ 3.3v analog power supply (vdd2): 2.5v ~ 3.3v logic power supply (vdd3): 2.5v ~ 3.3v dsi power supply (dsi_vcc): 1.65v ~ 3.3v otp programming viltage (pvss): 7.5v 0.2v 2.5 miscellaneous low power consumption, suitable for battery operate d systems gas function for preventing image sticking when abn ormal power off cmos compatible inputs optimized layout for cog assembly temperature range: -40 ~ +85 c hbm esd (human body mode)>2kv, mm(machine mode)>20 0v and latch up >200ma proprietary multi phase driving for lower power con sumption 4 selectable electro-optical transfer function (gam ma) oscillator for display clock generation support inversion mode dc/dc converter for source support dc com driving vcom voltage generator support equalize function support 2 step gate signal support normal black/normal white lcd otp memory to store initialization register setting s (3 times for vcom setting , id setting) support content adaptive brightness control(cabc) f unction support dgc(digital gamma correction) function http://www..net/ datasheet pdf - http://www..net/
-p.11- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 3. device overview 3.1 block diagram latch levelshift source driving dac grayscale voltage generator gamma adjustment circuit v0p~v255p gate control unit timing control voltage referance vspr vddd vdd2 vdd3 vssd vssa instruction control otp cabc g1~g864 vref pvss sdi hsync sdo vtestoutp scl dck cabc_pwm_out test[2:0] ncs vsync db[23:0] rgbinterface (18bit/16bit/24bit) enable 2 3 24 4 3 864 serialdatatransferinterface vcom ts[7:0] dc/dc converter rcosc vgl 1440 vgh vssac vdd1 rso[2:0] vsp vcsw1 vcsw2 vsn s1~s1440 osc v0n~v255n c21ap/c21an c22ap/c22an vsnr vdddn vtestoutn 8 3 dsi interface 2 dsi_cp dsi_cn dsi_d0p dsi_d0n dsi_vcc dsi_vss 2 dsi_ldo dsi_d1p dsi_d1n 2 dgccontrol nreset http://www..net/ datasheet pdf - http://www..net/
-p.12- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 3.2 pin description host interface pins signals i/o pin number connected with description rso0 i 1 mpu rso1 i 1 mpu rso2 i 1 mpu resolution selection pins. rso[2:0] is used for sel ecting resolution. must be connected to vssd or vdd1. rso2 rso1 rso0 resolution 0 0 0 480rgbx864 0 0 1 480rgbx854 0 1 0 480rgbx800 0 1 1 480rgbx640 1 0 0 360 rgbx640 1 0 1 setting disable 1 1 0 setting disable 1 1 1 setting disable bs0 ~ bs1 i 2 vssd/ vdd1 select the mpu interface mode as listed below: bs1 bs0 mpu interface mode db pins 0 0 3 wire serial + rgb interface (scl rising edge) rgb:16/18/24 bit 0 1 dsi video mode dsi_cp, dsi_cn, dsi_d0p, dsi_d0n, dsi_d1p, dsi_d1n 1 0 reserve - 1 1 reserve - must be connected to vssd or vdd1. ncs i 1 mpu chip select signal. low: chip can be accessed. high: chip cannot be accessed. if this pin is not used, please connect it to vssd or vdd1. nreset i 3 mpu or reset circuit reset pin. setting either pin low initializes the l si. must be reset after power is supplied (must be connected to vssd or vdd1). (latch type) scl i 1 mpu serves as a write signal and writes data at the ris ing edge. when operate in serial interface, it serves as scl (serial clock) if not used, let it open or connected to vdd1. db23~0 i/o 24 mpu rgb interface data bus used unused 16-bit bus db21~17, db13~8, db5~1 db23~22, db16~14, db7~6, db0 18-bit bus db21~16, db13~8, db5~0 db23~22, db15~14, db7~6 24-bit bus db23~d0 -- let the unused pins open for each mode. sdo o 3 mpu serial data output. let it to open in mpu interface mode. sdi i 1 mpu serial data input pin in serial interfa ce operation. regvdd - 1 - this pin is no function, please let it open. dsi_ldo_en - 1 - this pin is no function, please let it open. http://www..net/ datasheet pdf - http://www..net/
-p.13- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 clock input and rgb interface signals i/o pin number connected with description hsync i 1 - line synchronizing signal. must be connected to vssd or vdd1 if not used. enable i 1 mpu a data enable signal in rgb i/f mode. has to be fix ed to vssd level in mpu interface mode. vsync i 1 - frame synchronizing signal. must be connected to vssd or vdd1 if not used. dck i 1 - dot clock signal. must be connected to vssd or vdd1 if not used. source and gate driver output pins signals i/o pin number connected with description s1~s1440 o 1440 lcd output voltages applied to the liquid crystal. rgb resolution source channels 360rgb s1~s540, s901~s1440 480rgb s1~s1440 g1 ~ g864 o 864 lcd gate driver output pins. these pins output vgh, vgl . (if not used, should be open) gate resolution gate channels 640 g1 ~ g640 800 g1 ~ g800 854 g1 ~ g854 864 g1 ~ g864 power supply pins signals i/o pin number connected with description pccs0 ~ pccs1 i 2 vssd/ vdd3 select the vsp/vsn bumping method as listed below: pccs1 pccs0 driving mode 0 0 one inductor mode 0 1 two inductor mode 1 0 1 1 charge pump mode (use hx5186-a) must be connected to vssd or vdd3. vdd1 i 9 power supply a power supply for the i/o circuit. vdd1= 1.65 ~ 3. 3v. vdd1 must less than vdd2 and vdd3. vdd2 i 3 power supply a power supply for the analog power. vdd2 = 2.5 ~ 3 .3v. vdd2 input level should be same as vdd3 input level to avoid the level-mismatching at internal level shift er circuit. vdd3 i 9 power supply a power supply for the logic power, dc/dc converter vdd3 = 2.5 ~ 3.3v. vssa p 14 power supply analog ground. vssa = 0v. when using the cog method , connect to vssd on the fpc to prevent noise. vssac p 3 power supply analog ground. must connect to vssa on the fpc. vssd p 26 power supply ground for the internal logic. vssd = 0v. when usin g the cog method, connect to vssa on the fpc to prevent noise. pvss i 5 power supply external high voltage pin used in otp mode and oper ates at 7.5v. if not used, let it open. http://www..net/ datasheet pdf - http://www..net/
-p.14- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 output pins of power and reference voltage signals i/o pin number connected with description vsp i 6 stabilizing capacitor input voltage from the set-up circuit (4.7v to 5.5v ). it is generated from vdd3. vsn i 6 stabilizing capacitor input voltage from the set-up circuit (-4.7v to -5. 5v). it is generated from vdd3. vspc i 1 vsp positive boosting reference voltage in put. vsnc i 1 vsn negative boosting reference voltage in put. vspr o 2 stabilizing capacitor positive regulated voltage output (3.5v ~ vsp - 0.5 ) vsnr o 2 stabilizing capacitor positive regulated voltage output (-3.5v ~ vsn + 0. 5) vddd o 6 stabilizing capacitor internal logic voltage output vdddn o 4 stabilizing capacitor internal logic voltage output (-2.5v fixed) vref o 2 stabilizing capacitor reference voltage from internal band gap cir cuit. the tolerance of vref voltage is 3%(1.8v fixed) vgh o 5 stabilizing capacitor output voltage from the step-up circuit, it is gene rated from vsp and vsn. connect to a stabilizing capacitor bet ween vssa and vgh. vgl o 11 stabilizing capacitor output voltage from the step-up circuit, it is gene rated from vsp and vsn. connect to a stabilizing capacitor bet ween vssa and vgl. place a schottkey barrier diode betwe en vgl and vsn. vcom o 17 stabilizing capacitor the power supply of common voltage in dc com drivin g. the voltage range is set between -2v to 0v. it must be connected a stabilizing capacitor 2.2u to vssd. vcomr i 1 - this pin is used for external vcom inpu t. dsi_ldo o 4 capacitor dsi regulator output pin. (1.2v ~ 1.3v) connect to a stabilizing capacitor between dsi_vss and dsi_ldo. if not used, please open these pins. dc/dc pumping signals i/o pin number connected with description c21ap, c21an i/o 8 step-up capacitor connect to the step-up capacitors according to the dc/dc pumping factor by pumping the vgh voltage. c22ap, c22an i/o 8 step-up capacitor connect to the step-up capacitors according to the dc/dc pumping factor by pumping the vgl voltage. vcsw1 o 5 - boosting control output1, it needs to connect to th e gate pin of nmos on external dc/dc converter circuit. (0~vdd 3) vcsw2 o 4 - boosting control output2, it needs to connect to th e gate pin of pmos on external dc/dc converter circuit. (0~vdd 3) cabc & abc & ambient light sensor signals i/o pin number connected with description cabc_pwm_ out o 2 - backlight on/off control pin. if use cabc function, the pin can connect to external led driver ic. the output v oltage range = 0~ vdd1. http://www..net/ datasheet pdf - http://www..net/
-p.15- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 test pins signals i/o pin number connected with description osc i 1 - oscillator input for test purpose. if not used, please let it open or connected to vss d. (weak pull low) test0 i 1 vssd a test pin. this pin is by internal logic function test. this pin can output on fpc. if not used, let it open or connected to vssd.(weak pull low) test1 i 1 vssd a test pin. this pin is by internal logic function test. this pin can output on fpc. if not used, let it open or conn ected to vssd.(weak pull low) test2 i 1 mpu a test pin. this pin is by internal logic function test. this pin can output on fpc. if not used, let it open or conn ected to vssd.(weak pull low) ts7~0 o 8 open a test pin. disconnect it. vtestoutp o 1 open a test pin. disconnect it. this pin will output gam ma voltage. this pin can output on fpc. vtestoutn o 1 open a test pin. disconnect it. this pin will output gam ma voltage. this pin can output on fpc. dummyr1 dummyr2 - 2 open dummy pads. available for measuring the cog contact resistance. they are short-circuited within the chi p. dummy - 49 open dummy pads. these pins are no function, please let them open. mipi-dsi interface parts signals i/o pin number connected with description dsi_d0p, dsi_d0n i/o 8 dsi host mipi-dsi data differential signal input pins (data lane 0). if not used, let it connected to dsi_vss. dsi_cp, dsi_cn i 8 dsi host mipi-dsi clock differential signal input pins. if not used, let it connected to dsi_vss. dsi_d1p, dsi_d1n i 8 dsi host mipi-dsi data differential signal input pins (data lane 1). if not used, let it connected to dsi_vss. dsi_vcc p 3 power supply power supply for the mipi dsi analog power. dsi_vcc = 1.65v ~ 3.3v. if not used, let it open. dsi_vss p 7 ground mipi dsi analogy ground. dsi_vss = 0v. when using t he cog method, connect to vssa on the fpc to prevent noise. http://www..net/ datasheet pdf - http://www..net/
-p.16- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 3.3 pin assignment http://www..net/ datasheet pdf - http://www..net/
-p.17- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 3.4 pad coordinates no. name x y no. name x y no. name x y no. name x y 1 dummy -11886 -285 61 g317 -11166 -285 121 g197 -10446 -285 181 g77 -9726 -285 2 dummy -11874 -375 62 g315 -11154 -375 122 g195 -10434 -375 182 g75 -9714 -375 3 dummy -11862 -465 63 g313 -11142 -465 123 g193 -10422 -465 183 g73 -9702 -465 4 g431 -11850 -285 64 g311 -11130 -285 124 g191 -10410 -285 184 g71 -9690 -285 5 g429 -11838 -375 65 g309 -11118 -375 125 g189 -10398 -375 185 g69 -9678 -375 6 g427 -11826 -465 66 g307 -11106 -465 126 g187 -10386 -465 186 g67 -9666 -465 7 g425 -11814 -285 67 g305 -11094 -285 127 g185 -10374 -285 187 g65 -9654 -285 8 g423 -11802 -375 68 g303 -11082 -375 128 g183 -10362 -375 188 g63 -9642 -375 9 g421 -11790 -465 69 g301 -11070 -465 129 g181 -10350 -465 189 g61 -9630 -465 10 g419 -11778 -285 70 g299 -11058 -285 130 g179 -10338 -285 190 g59 -9618 -285 11 g417 -11766 -375 71 g297 -11046 -375 131 g177 -10326 -375 191 g57 -9606 -375 12 g415 -11754 -465 72 g295 -11034 -465 132 g175 -10314 -465 192 g55 -9594 -465 13 g413 -11742 -285 73 g293 -11022 -285 133 g173 -10302 -285 193 g53 -9582 -285 14 g411 -11730 -375 74 g291 -11010 -375 134 g171 -10290 -375 194 g51 -9570 -375 15 g409 -11718 -465 75 g289 -10998 -465 135 g169 -10278 -465 195 g49 -9558 -465 16 g407 -11706 -285 76 g287 -10986 -285 136 g167 -10266 -285 196 g47 -9546 -285 17 g405 -11694 -375 77 g285 -10974 -375 137 g165 -10254 -375 197 g45 -9534 -375 18 g403 -11682 -465 78 g283 -10962 -465 138 g163 -10242 -465 198 g43 -9522 -465 19 g401 -11670 -285 79 g281 -10950 -285 139 g161 -10230 -285 199 g41 -9510 -285 20 g399 -11658 -375 80 g279 -10938 -375 140 g159 -10218 -375 200 g39 -9498 -375 21 g397 -11646 -465 81 g277 -10926 -465 141 g157 -10206 -465 201 g37 -9486 -465 22 g395 -11634 -285 82 g275 -10914 -285 142 g155 -10194 -285 202 g35 -9474 -285 23 g393 -11622 -375 83 g273 -10902 -375 143 g153 -10182 -375 203 g33 -9462 -375 24 g391 -11610 -465 84 g271 -10890 -465 144 g151 -10170 -465 204 g31 -9450 -465 25 g389 -11598 -285 85 g269 -10878 -285 145 g149 -10158 -285 205 g29 -9438 -285 26 g387 -11586 -375 86 g267 -10866 -375 146 g147 -10146 -375 206 g27 -9426 -375 27 g385 -11574 -465 87 g265 -10854 -465 147 g145 -10134 -465 207 g25 -9414 -465 28 g383 -11562 -285 88 g263 -10842 -285 148 g143 -10122 -285 208 g23 -9402 -285 29 g381 -11550 -375 89 g261 -10830 -375 149 g141 -10110 -375 209 g21 -9390 -375 30 g379 -11538 -465 90 g259 -10818 -465 150 g139 -10098 -465 210 g19 -9378 -465 31 g377 -11526 -285 91 g257 -10806 -285 151 g137 -10086 -285 211 g17 -9366 -285 32 g375 -11514 -375 92 g255 -10794 -375 152 g135 -10074 -375 212 g15 -9354 -375 33 g373 -11502 -465 93 g253 -10782 -465 153 g133 -10062 -465 213 g13 -9342 -465 34 g371 -11490 -285 94 g251 -10770 -285 154 g131 -10050 -285 214 g11 -9330 -285 35 g369 -11478 -375 95 g249 -10758 -375 155 g129 -10038 -375 215 g9 -9318 -375 36 g367 -11466 -465 96 g247 -10746 -465 156 g127 -10026 -465 216 g7 -9306 -465 37 g365 -11454 -285 97 g245 -10734 -285 157 g125 -10014 -285 217 g5 -9294 -285 38 g363 -11442 -375 98 g243 -10722 -375 158 g123 -10002 -375 218 g3 -9282 -375 39 g361 -11430 -465 99 g241 -10710 -465 159 g121 -9990 -465 219 g1 -9270 -465 40 g359 -11418 -285 100 g239 -10698 -285 160 g119 -9978 -285 220 dummy -9258 -285 41 g357 -11406 -375 101 g237 -10686 -375 161 g117 -9966 -375 221 dummy -9246 -375 42 g355 -11394 -465 102 g235 -10674 -465 162 g115 -9954 -465 222 dummy -9234 -465 43 g353 -11382 -285 103 g233 -10662 -285 163 g113 -9942 -285 223 dummyr1 -9150 -447.5 44 g351 -11370 -375 104 g231 -10650 -375 164 g111 -9930 -375 224 dummyr2 -9075 -447.5 45 g349 -11358 -465 105 g229 -10638 -465 165 g109 -9918 -465 225 pvss -9000 -447.5 46 g347 -11346 -285 106 g227 -10626 -285 166 g107 -9906 -285 226 pvss -8925 -447.5 47 g345 -11334 -375 107 g225 -10614 -375 167 g105 -9894 -375 227 pvss -8850 -447.5 48 g343 -11322 -465 108 g223 -10602 -465 168 g103 -9882 -465 228 pvss -8775 -447.5 49 g341 -11310 -285 109 g221 -10590 -285 169 g101 -9870 -285 229 pvss -8700 -447.5 50 g339 -11298 -375 110 g219 -10578 -375 170 g99 -9858 -375 230 vssa -8625 -447.5 51 g337 -11286 -465 111 g217 -10566 -465 171 g97 -9846 -465 231 vssa -8550 -447.5 52 g335 -11274 -285 112 g215 -10554 -285 172 g95 -9834 -285 232 vssa -8475 -447.5 53 g333 -11262 -375 113 g213 -10542 -375 173 g93 -9822 -375 233 vssa -8400 -447.5 54 g331 -11250 -465 114 g211 -10530 -465 174 g91 -9810 -465 234 vssa -8325 -447.5 55 g329 -11238 -285 115 g209 -10518 -285 175 g89 -9798 -285 235 vssa -8250 -447.5 56 g327 -11226 -375 116 g207 -10506 -375 176 g87 -9786 -375 236 vssa -8175 -447.5 57 g325 -11214 -465 117 g205 -10494 -465 177 g85 -9774 -465 237 vtestoutp -8100 -447.5 58 g323 -11202 -285 118 g203 -10482 -285 178 g83 -9762 -285 238 dsi_vss -8025 -447.5 59 g321 -11190 -375 119 g201 -10470 -375 179 g81 -9750 -375 239 dsi_d1n -7950 -447.5 60 g319 -11178 -465 120 g199 -10458 -465 180 g79 -9738 -465 240 dsi_d1n -7875 -447.5 http://www..net/ datasheet pdf - http://www..net/
-p.18- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 241 dsi_d1n -7800 -447.5 301 db20 -3300 -447.5 361 vddd 1200 -447.5 421 vsp 5700 -447.5 242 dsi_d1n -7725 -447.5 302 db19 -3225 -447.5 362 vddd 1275 -447.5 422 vsp 5775 -447.5 243 dsi_d1p -7650 -447.5 303 db18 -3150 -447.5 363 vddd 1350 -447.5 423 c21ap 5850 -447.5 244 dsi_d1p -7575 -447.5 304 db17 -3075 -447.5 364 vddd 1425 -447.5 424 c21ap 5925 -447.5 245 dsi_d1p -7500 -447.5 305 db16 -3000 -447.5 365 vssd 1500 -447.5 425 c21ap 6000 -447.5 246 dsi_d1p -7425 -447.5 306 vssd -2925 -447.5 366 vssd 1575 -447.5 426 c21ap 6075 -447.5 247 dsi_vss -7350 -447.5 307 db15 -2850 -447.5 367 vssd 1650 -447.5 427 c21an 6150 -447.5 248 dsi_cp -7275 -447.5 308 db14 -2775 -447.5 368 vssd 1725 -447.5 428 c21an 6225 -447.5 249 dsi_cp -7200 -447.5 309 db13 -2700 -447.5 369 vssd 1800 -447.5 429 c21an 6300 -447.5 250 dsi_cp -7125 -447.5 310 db12 -2625 -447.5 370 vssd 1875 -447.5 430 c21an 6375 -447.5 251 dsi_cp -7050 -447.5 311 db11 -2550 -447.5 371 vssd 1950 -447.5 431 c22ap 6450 -447.5 252 dsi_cn -6975 -447.5 312 db10 -2475 -447.5 372 vssd 2025 -447.5 432 c22ap 6525 -447.5 253 dsi_cn -6900 -447.5 313 db9 -2400 -447.5 373 vssd 2100 -447.5 433 c22ap 6600 -447.5 254 dsi_cn -6825 -447.5 314 db8 -2325 -447.5 374 vssd 2175 -447.5 434 c22ap 6675 -447.5 255 dsi_cn -6750 -447.5 315 vssd -2250 -447.5 375 pccs1 2250 -447.5 435 c22an 6750 -447.5 256 dsi_vss -6675 -447.5 316 db7 -2175 -447.5 376 pccs0 2325 -447.5 436 c22an 6825 -447.5 257 dsi_d0n -6600 -447.5 317 db6 -2100 -447.5 377 vdd2 2400 -447.5 437 c22an 6900 -447.5 258 dsi_d0n -6525 -447.5 318 db5 -2025 -447.5 378 vdd2 2475 -447.5 438 c22an 6975 -447.5 259 dsi_d0n -6450 -447.5 319 db4 -1950 -447.5 379 vdd2 2550 -447.5 439 vgl 7050 -447.5 260 dsi_d0n -6375 -447.5 320 db3 -1875 -447.5 380 vdd3 2625 -447.5 440 vgl 7125 -447.5 261 dsi_d0p -6300 -447.5 321 db2 -1800 -447.5 381 vdd3 2700 -447.5 441 vgl 7200 -447.5 262 dsi_d0p -6225 -447.5 322 db1 -1725 -447.5 382 vdd3 2775 -447.5 442 vgl 7275 -447.5 263 dsi_d0p -6150 -447.5 323 db0 -1650 -447.5 383 vdd3 2850 -447.5 443 vgl 7350 -447.5 264 dsi_d0p -6075 -447.5 324 hsync -1575 -447.5 384 vdd3 2925 -447.5 444 vgh 7425 -447.5 265 dsi_vss -6000 -447.5 325 vsync -1500 -447.5 385 vdd3 3000 -447.5 445 vgh 7500 -447.5 266 dsi_vss -5925 -447.5 326 enable -1425 -447.5 386 vdd3 3075 -447.5 446 vgh 7575 -447.5 267 dsi_vss -5850 -447.5 327 dck -1350 -447.5 387 vdd3 3150 -447.5 447 vgh 7650 -447.5 268 dsi_vss -5775 -447.5 328 vssd -1275 -447.5 388 vdd3 3225 -447.5 448 vgh 7725 -447.5 269 dsi_ldo -5700 -447.5 329 ncs -1200 -447.5 389 dummy 3300 -447.5 449 vssac 7800 -447.5 270 dsi_ldo -5625 -447.5 330 scl -1125 -447.5 390 vcsw2 3375 -447.5 450 vssac 7875 -447.5 271 dsi_ldo -5550 -447.5 331 sdi -1050 -447.5 391 vcsw2 3450 -447.5 451 vssac 7950 -447.5 272 dsi_ldo -5475 -447.5 332 sdo -975 -447.5 392 vcsw2 3525 -447.5 452 vref 8025 -447.5 273 dsi_vcc -5400 -447.5 333 sdo -900 -447.5 393 vcsw2 3600 -447.5 453 vref 8100 -447.5 274 dsi_vcc -5325 -447.5 334 sdo -825 -447.5 394 vcsw1 3675 -447.5 454 vssa 8175 -447.5 275 dsi_vcc -5250 -447.5 335 cabc_pwm_out -750 -447.5 395 vcsw1 3750 -447.5 455 vssa 8250 -447.5 276 vssd -5175 -447.5 336 cabc_pwm_out -675 -447.5 396 vcsw1 3825 -447.5 456 vssa 8325 -447.5 277 vssd -5100 -447.5 337 nreset -600 -447.5 397 vcsw1 3900 -447.5 457 vssa 8400 -447.5 278 vssd -5025 -447.5 338 nreset -525 -447.5 398 vcsw1 3975 -447.5 458 vssa 8475 -447.5 279 vssd -4950 -447.5 339 nreset -450 -447.5 399 dummy 4050 -447.5 459 vssa 8550 -447.5 280 vssd -4875 -447.5 340 test0 -375 -447.5 400 vdddn 4125 -447.5 460 vssa 8625 -447.5 281 vssd -4800 -447.5 341 test1 -300 -447.5 401 vdddn 4200 -447.5 461 vcom 8700 -447.5 282 vssd -4725 -447.5 342 test2 -225 -447.5 402 vdddn 4275 -447.5 462 vcom 8775 -447.5 283 vssd -4650 -447.5 343 vssd -150 -447.5 403 vdddn 4350 -447.5 463 vcom 8850 -447.5 284 ts7 -4575 -447.5 344 rso0 -75 -447.5 404 vsnr 4425 -447.5 464 vcom 8925 -447.5 285 ts6 -4500 -447.5 345 vdd1 0 -447.5 405 vsnr 4500 -447.5 465 vcom 9000 -447.5 286 ts5 -4425 -447.5 346 rso1 75 -447.5 406 vspr 4575 -447.5 466 vcomr 9075 -447.5 287 ts4 -4350 -447.5 347 vssd 150 -447.5 407 vspr 4650 -447.5 467 dummy 9150 -447.5 288 ts3 -4275 -447.5 348 rso2 225 -447.5 408 vtestoutn 4725 -447.5 468 dummy 9234 -285 289 ts2 -4200 -447.5 349 vdd1 300 -447.5 409 vsn 4800 -447.5 469 dummy 9246 -375 290 ts1 -4125 -447.5 350 bs0 375 -447.5 410 vsn 4875 -447.5 470 dummy 9258 -465 291 ts0 -4050 -447.5 351 vssd 450 -447.5 411 vsn 4950 -447.5 471 g2 9270 -285 292 osc -3975 -447.5 352 bs1 525 -447.5 412 vsn 5025 -447.5 472 g4 9282 -375 293 vssd -3900 -447.5 353 vdd1 600 -447.5 413 vsn 5100 -447.5 473 g6 9294 -465 294 dsi_ldo_en -3825 -447.5 354 vdd1 675 -447.5 414 vsn 5175 -447.5 474 g8 9306 -285 295 vdd1 -3750 -447.5 355 vdd1 750 -447.5 415 vsnc 5250 -447.5 475 g10 9318 -375 296 regvdd -3675 -447.5 356 vdd1 825 -447.5 416 vspc 5325 -447.5 476 g12 9330 -465 297 vssd -3600 -447.5 357 vdd1 900 -447.5 417 vsp 5400 -447.5 477 g14 9342 -285 298 db23 -3525 -447.5 358 vdd1 975 -447.5 418 vsp 5475 -447.5 478 g16 9354 -375 299 db22 -3450 -447.5 359 vddd 1050 -447.5 419 vsp 5550 -447.5 479 g18 9366 -465 300 db21 -3375 -447.5 360 vddd 1125 -447.5 420 vsp 5625 -447.5 480 g20 9378 -285 http://www..net/ datasheet pdf - http://www..net/
-p.19- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 481 g22 9390 -375 541 g142 10110 -375 601 g262 10830 -375 661 g382 11550 -375 482 g24 9402 -465 542 g144 10122 -465 602 g264 10842 -465 662 g384 11562 -465 483 g26 9414 -285 543 g146 10134 -285 603 g266 10854 -285 663 g386 11574 -285 484 g28 9426 -375 544 g148 10146 -375 604 g268 10866 -375 664 g388 11586 -375 485 g30 9438 -465 545 g150 10158 -465 605 g270 10878 -465 665 g390 11598 -465 486 g32 9450 -285 546 g152 10170 -285 606 g272 10890 -285 666 g392 11610 -285 487 g34 9462 -375 547 g154 10182 -375 607 g274 10902 -375 667 g394 11622 -375 488 g36 9474 -465 548 g156 10194 -465 608 g276 10914 -465 668 g396 11634 -465 489 g38 9486 -285 549 g158 10206 -285 609 g278 10926 -285 669 g398 11646 -285 490 g40 9498 -375 550 g160 10218 -375 610 g280 10938 -375 670 g400 11658 -375 491 g42 9510 -465 551 g162 10230 -465 611 g282 10950 -465 671 g402 11670 -465 492 g44 9522 -285 552 g164 10242 -285 612 g284 10962 -285 672 g404 11682 -285 493 g46 9534 -375 553 g166 10254 -375 613 g286 10974 -375 673 g406 11694 -375 494 g48 9546 -465 554 g168 10266 -465 614 g288 10986 -465 674 g408 11706 -465 495 g50 9558 -285 555 g170 10278 -285 615 g290 10998 -285 675 g410 11718 -285 496 g52 9570 -375 556 g172 10290 -375 616 g292 11010 -375 676 g412 11730 -375 497 g54 9582 -465 557 g174 10302 -465 617 g294 11022 -465 677 g414 11742 -465 498 g56 9594 -285 558 g176 10314 -285 618 g296 11034 -285 678 g416 11754 -285 499 g58 9606 -375 559 g178 10326 -375 619 g298 11046 -375 679 g418 11766 -375 500 g60 9618 -465 560 g180 10338 -465 620 g300 11058 -465 680 g420 11778 -465 501 g62 9630 -285 561 g182 10350 -285 621 g302 11070 -285 681 g422 11790 -285 502 g64 9642 -375 562 g184 10362 -375 622 g304 11082 -375 682 g424 11802 -375 503 g66 9654 -465 563 g186 10374 -465 623 g306 11094 -465 683 g426 11814 -465 504 g68 9666 -285 564 g188 10386 -285 624 g308 11106 -285 684 g428 11826 -285 505 g70 9678 -375 565 g190 10398 -375 625 g310 11118 -375 685 g430 11838 -375 506 g72 9690 -465 566 g192 10410 -465 626 g312 11130 -465 686 g432 11850 -465 507 g74 9702 -285 567 g194 10422 -285 627 g314 11142 -285 687 dummy 11862 -285 508 g76 9714 -375 568 g196 10434 -375 628 g316 11154 -375 688 dummy 11874 -375 509 g78 9726 -465 569 g198 10446 -465 629 g318 11166 -465 689 dummy 11886 -465 510 g80 9738 -285 570 g200 10458 -285 630 g320 11178 -285 690 dummy 11886 285 511 g82 9750 -375 571 g202 10470 -375 631 g322 11190 -375 691 dummy 11874 375 512 g84 9762 -465 572 g204 10482 -465 632 g324 11202 -465 692 dummy 11862 465 513 g86 9774 -285 573 g206 10494 -285 633 g326 11214 -285 693 g434 11850 285 514 g88 9786 -375 574 g208 10506 -375 634 g328 11226 -375 694 g436 11838 375 515 g90 9798 -465 575 g210 10518 -465 635 g330 11238 -465 695 g438 11826 465 516 g92 9810 -285 576 g212 10530 -285 636 g332 11250 -285 696 g440 11814 285 517 g94 9822 -375 577 g214 10542 -375 637 g334 11262 -375 697 g442 11802 375 518 g96 9834 -465 578 g216 10554 -465 638 g336 11274 -465 698 g444 11790 465 519 g98 9846 -285 579 g218 10566 -285 639 g338 11286 -285 699 g446 11778 285 520 g100 9858 -375 580 g220 10578 -375 640 g340 11298 -375 700 g448 11766 375 521 g102 9870 -465 581 g222 10590 -465 641 g342 11310 -465 701 g450 11754 465 522 g104 9882 -285 582 g224 10602 -285 642 g344 11322 -285 702 g452 11742 285 523 g106 9894 -375 583 g226 10614 -375 643 g346 11334 -375 703 g454 11730 375 524 g108 9906 -465 584 g228 10626 -465 644 g348 11346 -465 704 g456 11718 465 525 g110 9918 -285 585 g230 10638 -285 645 g350 11358 -285 705 g458 11706 285 526 g112 9930 -375 586 g232 10650 -375 646 g352 11370 -375 706 g460 11694 375 527 g114 9942 -465 587 g234 10662 -465 647 g354 11382 -465 707 g462 11682 465 528 g116 9954 -285 588 g236 10674 -285 648 g356 11394 -285 708 g464 11670 285 529 g118 9966 -375 589 g238 10686 -375 649 g358 11406 -375 709 g466 11658 375 530 g120 9978 -465 590 g240 10698 -465 650 g360 11418 -465 710 g468 11646 465 531 g122 9990 -285 591 g242 10710 -285 651 g362 11430 -285 711 g470 11634 285 532 g124 10002 -375 592 g244 10722 -375 652 g364 11442 -375 712 g472 11622 375 533 g126 10014 -465 593 g246 10734 -465 653 g366 11454 -465 713 g474 11610 465 534 g128 10026 -285 594 g248 10746 -285 654 g368 11466 -285 714 g476 11598 285 535 g130 10038 -375 595 g250 10758 -375 655 g370 11478 -375 715 g478 11586 375 536 g132 10050 -465 596 g252 10770 -465 656 g372 11490 -465 716 g480 11574 465 537 g134 10062 -285 597 g254 10782 -285 657 g374 11502 -285 717 g482 11562 285 538 g136 10074 -375 598 g256 10794 -375 658 g376 11514 -375 718 g484 11550 375 539 g138 10086 -465 599 g258 10806 -465 659 g378 11526 -465 719 g486 11538 465 540 g140 10098 -285 600 g260 10818 -285 660 g380 11538 -285 720 g488 11526 285 http://www..net/ datasheet pdf - http://www..net/
-p.20- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 721 g490 11514 375 781 g610 10794 375 841 g730 10074 375 901 g850 9354 375 722 g492 11502 465 782 g612 10782 465 842 g732 10062 465 902 g852 9342 465 723 g494 11490 285 783 g614 10770 285 843 g734 10050 285 903 g854 9330 285 724 g496 11478 375 784 g616 10758 375 844 g736 10038 375 904 g856 9318 375 725 g498 11466 465 785 g618 10746 465 845 g738 10026 465 905 g858 9306 465 726 g500 11454 285 786 g620 10734 285 846 g740 10014 285 906 g860 9294 285 727 g502 11442 375 787 g622 10722 375 847 g742 10002 375 907 g862 9282 375 728 g504 11430 465 788 g624 10710 465 848 g744 9990 465 908 g864 9270 465 729 g506 11418 285 789 g626 10698 285 849 g746 9978 285 909 vgl 9222 285 730 g508 11406 375 790 g628 10686 375 850 g748 9966 375 910 vgl 9210 375 731 g510 11394 465 791 g630 10674 465 851 g750 9954 465 911 vgl 9198 465 732 g512 11382 285 792 g632 10662 285 852 g752 9942 285 912 vcom 9150 285 733 g514 11370 375 793 g634 10650 375 853 g754 9930 375 913 vcom 9138 375 734 g516 11358 465 794 g636 10638 465 854 g756 9918 465 914 vcom 9126 465 735 g518 11346 285 795 g638 10626 285 855 g758 9906 285 915 vcom 9114 285 736 g520 11334 375 796 g640 10614 375 856 g760 9894 375 916 vcom 9102 375 737 g522 11322 465 797 g642 10602 465 857 g762 9882 465 917 vcom 9090 465 738 g524 11310 285 798 g644 10590 285 858 g764 9870 285 918 dummy 8922 285 739 g526 11298 375 799 g646 10578 375 859 g766 9858 375 919 dummy 8910 375 740 g528 11286 465 800 g648 10566 465 860 g768 9846 465 920 dummy 8898 465 741 g530 11274 285 801 g650 10554 285 861 g770 9834 285 921 s1440 8886 285 742 g532 11262 375 802 g652 10542 375 862 g772 9822 375 922 s1439 8874 375 743 g534 11250 465 803 g654 10530 465 863 g774 9810 465 923 s1438 8862 465 744 g536 11238 285 804 g656 10518 285 864 g776 9798 285 924 s1437 8850 285 745 g538 11226 375 805 g658 10506 375 865 g778 9786 375 925 s1436 8838 375 746 g540 11214 465 806 g660 10494 465 866 g780 9774 465 926 s1435 8826 465 747 g542 11202 285 807 g662 10482 285 867 g782 9762 285 927 s1434 8814 285 748 g544 11190 375 808 g664 10470 375 868 g784 9750 375 928 s1433 8802 375 749 g546 11178 465 809 g666 10458 465 869 g786 9738 465 929 s1432 8790 465 750 g548 11166 285 810 g668 10446 285 870 g788 9726 285 930 s1431 8778 285 751 g550 11154 375 811 g670 10434 375 871 g790 9714 375 931 s1430 8766 375 752 g552 11142 465 812 g672 10422 465 872 g792 9702 465 932 s1429 8754 465 753 g554 11130 285 813 g674 10410 285 873 g794 9690 285 933 s1428 8742 285 754 g556 11118 375 814 g676 10398 375 874 g796 9678 375 934 s1427 8730 375 755 g558 11106 465 815 g678 10386 465 875 g798 9666 465 935 s1426 8718 465 756 g560 11094 285 816 g680 10374 285 876 g800 9654 285 936 s1425 8706 285 757 g562 11082 375 817 g682 10362 375 877 g802 9642 375 937 s1424 8694 375 758 g564 11070 465 818 g684 10350 465 878 g804 9630 465 938 s1423 8682 465 759 g566 11058 285 819 g686 10338 285 879 g806 9618 285 939 s1422 8670 285 760 g568 11046 375 820 g688 10326 375 880 g808 9606 375 940 s1421 8658 375 761 g570 11034 465 821 g690 10314 465 881 g810 9594 465 941 s1420 8646 465 762 g572 11022 285 822 g692 10302 285 882 g812 9582 285 942 s1419 8634 285 763 g574 11010 375 823 g694 10290 375 883 g814 9570 375 943 s1418 8622 375 764 g576 10998 465 824 g696 10278 465 884 g816 9558 465 944 s1417 8610 465 765 g578 10986 285 825 g698 10266 285 885 g818 9546 285 945 s1416 8598 285 766 g580 10974 375 826 g700 10254 375 886 g820 9534 375 946 s1415 8586 375 767 g582 10962 465 827 g702 10242 465 887 g822 9522 465 947 s1414 8574 465 768 g584 10950 285 828 g704 10230 285 888 g824 9510 285 948 s1413 8562 285 769 g586 10938 375 829 g706 10218 375 889 g826 9498 375 949 s1412 8550 375 770 g588 10926 465 830 g708 10206 465 890 g828 9486 465 950 s1411 8538 465 771 g590 10914 285 831 g710 10194 285 891 g830 9474 285 951 s1410 8526 285 772 g592 10902 375 832 g712 10182 375 892 g832 9462 375 952 s1409 8514 375 773 g594 10890 465 833 g714 10170 465 893 g834 9450 465 953 s1408 8502 465 774 g596 10878 285 834 g716 10158 285 894 g836 9438 285 954 s1407 8490 285 775 g598 10866 375 835 g718 10146 375 895 g838 9426 375 955 s1406 8478 375 776 g600 10854 465 836 g720 10134 465 896 g840 9414 465 956 s1405 8466 465 777 g602 10842 285 837 g722 10122 285 897 g842 9402 285 957 s1404 8454 285 778 g604 10830 375 838 g724 10110 375 898 g844 9390 375 958 s1403 8442 375 779 g606 10818 465 839 g726 10098 465 899 g846 9378 465 959 s1402 8430 465 780 g608 10806 285 840 g728 10086 285 900 g848 9366 285 960 s1401 8418 285 http://www..net/ datasheet pdf - http://www..net/
-p.21- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 961 s1400 8406 375 1021 s1340 7686 375 1081 s1280 6966 375 1141 s1220 6246 375 962 s1399 8394 465 1022 s1339 7674 465 1082 s1279 6954 465 1142 s1219 6234 465 963 s1398 8382 285 1023 s1338 7662 285 1083 s1278 6942 285 1143 s1218 6222 285 964 s1397 8370 375 1024 s1337 7650 375 1084 s1277 6930 375 1144 s1217 6210 375 965 s1396 8358 465 1025 s1336 7638 465 1085 s1276 6918 465 1145 s1216 6198 465 966 s1395 8346 285 1026 s1335 7626 285 1086 s1275 6906 285 1146 s1215 6186 285 967 s1394 8334 375 1027 s1334 7614 375 1087 s1274 6894 375 1147 s1214 6174 375 968 s1393 8322 465 1028 s1333 7602 465 1088 s1273 6882 465 1148 s1213 6162 465 969 s1392 8310 285 1029 s1332 7590 285 1089 s1272 6870 285 1149 s1212 6150 285 970 s1391 8298 375 1030 s1331 7578 375 1090 s1271 6858 375 1150 s1211 6138 375 971 s1390 8286 465 1031 s1330 7566 465 1091 s1270 6846 465 1151 s1210 6126 465 972 s1389 8274 285 1032 s1329 7554 285 1092 s1269 6834 285 1152 s1209 6114 285 973 s1388 8262 375 1033 s1328 7542 375 1093 s1268 6822 375 1153 s1208 6102 375 974 s1387 8250 465 1034 s1327 7530 465 1094 s1267 6810 465 1154 s1207 6090 465 975 s1386 8238 285 1035 s1326 7518 285 1095 s1266 6798 285 1155 s1206 6078 285 976 s1385 8226 375 1036 s1325 7506 375 1096 s1265 6786 375 1156 s1205 6066 375 977 s1384 8214 465 1037 s1324 7494 465 1097 s1264 6774 465 1157 s1204 6054 465 978 s1383 8202 285 1038 s1323 7482 285 1098 s1263 6762 285 1158 s1203 6042 285 979 s1382 8190 375 1039 s1322 7470 375 1099 s1262 6750 375 1159 s1202 6030 375 980 s1381 8178 465 1040 s1321 7458 465 1100 s1261 6738 465 1160 s1201 6018 465 981 s1380 8166 285 1041 s1320 7446 285 1101 s1260 6726 285 1161 s1200 6006 285 982 s1379 8154 375 1042 s1319 7434 375 1102 s1259 6714 375 1162 s1199 5994 375 983 s1378 8142 465 1043 s1318 7422 465 1103 s1258 6702 465 1163 s1198 5982 465 984 s1377 8130 285 1044 s1317 7410 285 1104 s1257 6690 285 1164 s1197 5970 285 985 s1376 8118 375 1045 s1316 7398 375 1105 s1256 6678 375 1165 s1196 5958 375 986 s1375 8106 465 1046 s1315 7386 465 1106 s1255 6666 465 1166 s1195 5946 465 987 s1374 8094 285 1047 s1314 7374 285 1107 s1254 6654 285 1167 s1194 5934 285 988 s1373 8082 375 1048 s1313 7362 375 1108 s1253 6642 375 1168 s1193 5922 375 989 s1372 8070 465 1049 s1312 7350 465 1109 s1252 6630 465 1169 s1192 5910 465 990 s1371 8058 285 1050 s1311 7338 285 1110 s1251 6618 285 1170 s1191 5898 285 991 s1370 8046 375 1051 s1310 7326 375 1111 s1250 6606 375 1171 s1190 5886 375 992 s1369 8034 465 1052 s1309 7314 465 1112 s1249 6594 465 1172 s1189 5874 465 993 s1368 8022 285 1053 s1308 7302 285 1113 s1248 6582 285 1173 s1188 5862 285 994 s1367 8010 375 1054 s1307 7290 375 1114 s1247 6570 375 1174 s1187 5850 375 995 s1366 7998 465 1055 s1306 7278 465 1115 s1246 6558 465 1175 s1186 5838 465 996 s1365 7986 285 1056 s1305 7266 285 1116 s1245 6546 285 1176 s1185 5826 285 997 s1364 7974 375 1057 s1304 7254 375 1117 s1244 6534 375 1177 s1184 5814 375 998 s1363 7962 465 1058 s1303 7242 465 1118 s1243 6522 465 1178 s1183 5802 465 999 s1362 7950 285 1059 s1302 7230 285 1119 s1242 6510 285 1179 s1182 5790 285 1000 s1361 7938 375 1060 s1301 7218 375 1120 s1241 6498 375 1180 s1181 5778 375 1001 s1360 7926 465 1061 s1300 7206 465 1121 s1240 6486 465 1181 s1180 5766 465 1002 s1359 7914 285 1062 s1299 7194 285 1122 s1239 6474 285 1182 s1179 5754 285 1003 s1358 7902 375 1063 s1298 7182 375 1123 s1238 6462 375 1183 s1178 5742 375 1004 s1357 7890 465 1064 s1297 7170 465 1124 s1237 6450 465 1184 s1177 5730 465 1005 s1356 7878 285 1065 s1296 7158 285 1125 s1236 6438 285 1185 s1176 5718 285 1006 s1355 7866 375 1066 s1295 7146 375 1126 s1235 6426 375 1186 s1175 5706 375 1007 s1354 7854 465 1067 s1294 7134 465 1127 s1234 6414 465 1187 s1174 5694 465 1008 s1353 7842 285 1068 s1293 7122 285 1128 s1233 6402 285 1188 s1173 5682 285 1009 s1352 7830 375 1069 s1292 7110 375 1129 s1232 6390 375 1189 s1172 5670 375 1010 s1351 7818 465 1070 s1291 7098 465 1130 s1231 6378 465 1190 s1171 5658 465 1011 s1350 7806 285 1071 s1290 7086 285 1131 s1230 6366 285 1191 s1170 5646 285 1012 s1349 7794 375 1072 s1289 7074 375 1132 s1229 6354 375 1192 s1169 5634 375 1013 s1348 7782 465 1073 s1288 7062 465 1133 s1228 6342 465 1193 s1168 5622 465 1014 s1347 7770 285 1074 s1287 7050 285 1134 s1227 6330 285 1194 s1167 5610 285 1015 s1346 7758 375 1075 s1286 7038 375 1135 s1226 6318 375 1195 s1166 5598 375 1016 s1345 7746 465 1076 s1285 7026 465 1136 s1225 6306 465 1196 s1165 5586 465 1017 s1344 7734 285 1077 s1284 7014 285 1137 s1224 6294 285 1197 s1164 5574 285 1018 s1343 7722 375 1078 s1283 7002 375 1138 s1223 6282 375 1198 s1163 5562 375 1019 s1342 7710 465 1079 s1282 6990 465 1139 s1222 6270 465 1199 s1162 5550 465 1020 s1341 7698 285 1080 s1281 6978 285 1140 s1221 6258 285 1200 s1161 5538 285 http://www..net/ datasheet pdf - http://www..net/
-p.22- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 1201 s1160 5526 375 1261 s1100 4806 375 1321 s1051 3966 465 1381 s991 3246 465 1202 s1159 5514 465 1262 s1099 4794 465 1322 s1050 3954 285 1382 s990 3234 285 1203 s1158 5502 285 1263 s1098 4782 285 1323 s1049 3942 375 1383 s989 3222 375 1204 s1157 5490 375 1264 s1097 4770 375 1324 s1048 3930 465 1384 s988 3210 465 1205 s1156 5478 465 1265 s1096 4758 465 1325 s1047 3918 285 1385 s987 3198 285 1206 s1155 5466 285 1266 s1095 4746 285 1326 s1046 3906 375 1386 s986 3186 375 1207 s1154 5454 375 1267 s1094 4734 375 1327 s1045 3894 465 1387 s985 3174 465 1208 s1153 5442 465 1268 s1093 4722 465 1328 s1044 3882 285 1388 s984 3162 285 1209 s1152 5430 285 1269 s1092 4710 285 1329 s1043 3870 375 1389 s983 3150 375 1210 s1151 5418 375 1270 s1091 4698 375 1330 s1042 3858 465 1390 s982 3138 465 1211 s1150 5406 465 1271 s1090 4686 465 1331 s1041 3846 285 1391 s981 3126 285 1212 s1149 5394 285 1272 s1089 4674 285 1332 s1040 3834 375 1392 s980 3114 375 1213 s1148 5382 375 1273 s1088 4662 375 1333 s1039 3822 465 1393 s979 3102 465 1214 s1147 5370 465 1274 s1087 4650 465 1334 s1038 3810 285 1394 s978 3090 285 1215 s1146 5358 285 1275 s1086 4638 285 1335 s1037 3798 375 1395 s977 3078 375 1216 s1145 5346 375 1276 s1085 4626 375 1336 s1036 3786 465 1396 s976 3066 465 1217 s1144 5334 465 1277 s1084 4614 465 1337 s1035 3774 285 1397 s975 3054 285 1218 s1143 5322 285 1278 s1083 4602 285 1338 s1034 3762 375 1398 s974 3042 375 1219 s1142 5310 375 1279 s1082 4590 375 1339 s1033 3750 465 1399 s973 3030 465 1220 s1141 5298 465 1280 s1081 4578 465 1340 s1032 3738 285 1400 s972 3018 285 1221 s1140 5286 285 1281 dummy 4566 285 1341 s1031 3726 375 1401 s971 3006 375 1222 s1139 5274 375 1282 dummy 4554 375 1342 s1030 3714 465 1402 s970 2994 465 1223 s1138 5262 465 1283 dummy 4542 465 1343 s1029 3702 285 1403 s969 2982 285 1224 s1137 5250 285 1284 dummy 4506 465 1344 s1028 3690 375 1404 s968 2970 375 1225 s1136 5238 375 1285 dummy 4470 465 1345 s1027 3678 465 1405 s967 2958 465 1226 s1135 5226 465 1286 dummy 4434 465 1346 s1026 3666 285 1406 s966 2946 285 1227 s1134 5214 285 1287 dummy 4398 465 1347 s1025 3654 375 1407 s965 2934 375 1228 s1133 5202 375 1288 dummy 4362 465 1348 s1024 3642 465 1408 s964 2922 465 1229 s1132 5190 465 1289 dummy 4350 285 1349 s1023 3630 285 1409 s963 2910 285 1230 s1131 5178 285 1290 dummy 4338 375 1350 s1022 3618 375 1410 s962 2898 375 1231 s1130 5166 375 1291 dummy 4326 465 1351 s1021 3606 465 1411 s961 2886 465 1232 s1129 5154 465 1292 s1080 4314 285 1352 s1020 3594 285 1412 s960 2874 285 1233 s1128 5142 285 1293 s1079 4302 375 1353 s1019 3582 375 1413 s959 2862 375 1234 s1127 5130 375 1294 s1078 4290 465 1354 s1018 3570 465 1414 s958 2850 465 1235 s1126 5118 465 1295 s1077 4278 285 1355 s1017 3558 285 1415 s957 2838 285 1236 s1125 5106 285 1296 s1076 4266 375 1356 s1016 3546 375 1416 s956 2826 375 1237 s1124 5094 375 1297 s1075 4254 465 1357 s1015 3534 465 1417 s955 2814 465 1238 s1123 5082 465 1298 s1074 4242 285 1358 s1014 3522 285 1418 s954 2802 285 1239 s1122 5070 285 1299 s1073 4230 375 1359 s1013 3510 375 1419 s953 2790 375 1240 s1121 5058 375 1300 s1072 4218 465 1360 s1012 3498 465 1420 s952 2778 465 1241 s1120 5046 465 1301 s1071 4206 285 1361 s1011 3486 285 1421 s951 2766 285 1242 s1119 5034 285 1302 s1070 4194 375 1362 s1010 3474 375 1422 s950 2754 375 1243 s1118 5022 375 1303 s1069 4182 465 1363 s1009 3462 465 1423 s949 2742 465 1244 s1117 5010 465 1304 s1068 4170 285 1364 s1008 3450 285 1424 s948 2730 285 1245 s1116 4998 285 1305 s1067 4158 375 1365 s1007 3438 375 1425 s947 2718 375 1246 s1115 4986 375 1306 s1066 4146 465 1366 s1006 3426 465 1426 s946 2706 465 1247 s1114 4974 465 1307 s1065 4134 285 1367 s1005 3414 285 1427 s945 2694 285 1248 s1113 4962 285 1308 s1064 4122 375 1368 s1004 3402 375 1428 s944 2682 375 1249 s1112 4950 375 1309 s1063 4110 465 1369 s1003 3390 465 1429 s943 2670 465 1250 s1111 4938 465 1310 s1062 4098 285 1370 s1002 3378 285 1430 s942 2658 285 1251 s1110 4926 285 1311 s1061 4086 375 1371 s1001 3366 375 1431 s941 2646 375 1252 s1109 4914 375 1312 s1060 4074 465 1372 s1000 3354 465 1432 s940 2634 465 1253 s1108 4902 465 1313 s1059 4062 285 1373 s999 3342 285 1433 s939 2622 285 1254 s1107 4890 285 1314 s1058 4050 375 1374 s998 3330 375 1434 s938 2610 375 1255 s1106 4878 375 1315 s1057 4038 465 1375 s997 3318 465 1435 s937 2598 465 1256 s1105 4866 465 1316 s1056 4026 285 1376 s996 3306 285 1436 s936 2586 285 1257 s1104 4854 285 1317 s1055 4014 375 1377 s995 3294 375 1437 s935 2574 375 1258 s1103 4842 375 1318 s1054 4002 465 1378 s994 3282 465 1438 s934 2562 465 1259 s1102 4830 465 1319 s1053 3990 285 1379 s993 3270 285 1439 s933 2550 285 1260 s1101 4818 285 1320 s1052 3978 375 1380 s992 3258 375 1440 s932 2538 375 http://www..net/ datasheet pdf - http://www..net/
-p.23- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 1441 s931 2526 465 1501 s871 1806 465 1561 s811 1086 465 1621 s751 366 465 1442 s930 2514 285 1502 s870 1794 285 1562 s810 1074 285 1622 s750 354 285 1443 s929 2502 375 1503 s869 1782 375 1563 s809 1062 375 1623 s749 342 375 1444 s928 2490 465 1504 s868 1770 465 1564 s808 1050 465 1624 s748 330 465 1445 s927 2478 285 1505 s867 1758 285 1565 s807 1038 285 1625 s747 318 285 1446 s926 2466 375 1506 s866 1746 375 1566 s806 1026 375 1626 s746 306 375 1447 s925 2454 465 1507 s865 1734 465 1567 s805 1014 465 1627 s745 294 465 1448 s924 2442 285 1508 s864 1722 285 1568 s804 1002 285 1628 s744 282 285 1449 s923 2430 375 1509 s863 1710 375 1569 s803 990 375 1629 s743 270 375 1450 s922 2418 465 1510 s862 1698 465 1570 s802 978 465 1630 s742 258 465 1451 s921 2406 285 1511 s861 1686 285 1571 s801 966 285 1631 s741 246 285 1452 s920 2394 375 1512 s860 1674 375 1572 s800 954 375 1632 s740 234 375 1453 s919 2382 465 1513 s859 1662 465 1573 s799 942 465 1633 s739 222 465 1454 s918 2370 285 1514 s858 1650 285 1574 s798 930 285 1634 s738 210 285 1455 s917 2358 375 1515 s857 1638 375 1575 s797 918 375 1635 s737 198 375 1456 s916 2346 465 1516 s856 1626 465 1576 s796 906 465 1636 s736 186 465 1457 s915 2334 285 1517 s855 1614 285 1577 s795 894 285 1637 s735 174 285 1458 s914 2322 375 1518 s854 1602 375 1578 s794 882 375 1638 s734 162 375 1459 s913 2310 465 1519 s853 1590 465 1579 s793 870 465 1639 s733 150 465 1460 s912 2298 285 1520 s852 1578 285 1580 s792 858 285 1640 s732 138 285 1461 s911 2286 375 1521 s851 1566 375 1581 s791 846 375 1641 s731 126 375 1462 s910 2274 465 1522 s850 1554 465 1582 s790 834 465 1642 s730 114 465 1463 s909 2262 285 1523 s849 1542 285 1583 s789 822 285 1643 s729 102 285 1464 s908 2250 375 1524 s848 1530 375 1584 s788 810 375 1644 s728 90 375 1465 s907 2238 465 1525 s847 1518 465 1585 s787 798 465 1645 s727 78 465 1466 s906 2226 285 1526 s846 1506 285 1586 s786 786 285 1646 s726 66 285 1467 s905 2214 375 1527 s845 1494 375 1587 s785 774 375 1647 s725 54 375 1468 s904 2202 465 1528 s844 1482 465 1588 s784 762 465 1648 s724 42 465 1469 s903 2190 285 1529 s843 1470 285 1589 s783 750 285 1649 s723 30 285 1470 s902 2178 375 1530 s842 1458 375 1590 s782 738 375 1650 s722 18 375 1471 s901 2166 465 1531 s841 1446 465 1591 s781 726 465 1651 s721 6 465 1472 s900 2154 285 1532 s840 1434 285 1592 s780 714 285 1652 s720 -6 285 1473 s899 2142 375 1533 s839 1422 375 1593 s779 702 375 1653 s719 -18 375 1474 s898 2130 465 1534 s838 1410 465 1594 s778 690 465 1654 s718 -30 465 1475 s897 2118 285 1535 s837 1398 285 1595 s777 678 285 1655 s717 -42 285 1476 s896 2106 375 1536 s836 1386 375 1596 s776 666 375 1656 s716 -54 375 1477 s895 2094 465 1537 s835 1374 465 1597 s775 654 465 1657 s715 -66 465 1478 s894 2082 285 1538 s834 1362 285 1598 s774 642 285 1658 s714 -78 285 1479 s893 2070 375 1539 s833 1350 375 1599 s773 630 375 1659 s713 -90 375 1480 s892 2058 465 1540 s832 1338 465 1600 s772 618 465 1660 s712 -102 465 1481 s891 2046 285 1541 s831 1326 285 1601 s771 606 285 1661 s711 -114 285 1482 s890 2034 375 1542 s830 1314 375 1602 s770 594 375 1662 s710 -126 375 1483 s889 2022 465 1543 s829 1302 465 1603 s769 582 465 1663 s709 -138 465 1484 s888 2010 285 1544 s828 1290 285 1604 s768 570 285 1664 s708 -150 285 1485 s887 1998 375 1545 s827 1278 375 1605 s767 558 375 1665 s707 -162 375 1486 s886 1986 465 1546 s826 1266 465 1606 s766 546 465 1666 s706 -174 465 1487 s885 1974 285 1547 s825 1254 285 1607 s765 534 285 1667 s705 -186 285 1488 s884 1962 375 1548 s824 1242 375 1608 s764 522 375 1668 s704 -198 375 1489 s883 1950 465 1549 s823 1230 465 1609 s763 510 465 1669 s703 -210 465 1490 s882 1938 285 1550 s822 1218 285 1610 s762 498 285 1670 s702 -222 285 1491 s881 1926 375 1551 s821 1206 375 1611 s761 486 375 1671 s701 -234 375 1492 s880 1914 465 1552 s820 1194 465 1612 s760 474 465 1672 s700 -246 465 1493 s879 1902 285 1553 s819 1182 285 1613 s759 462 285 1673 s699 -258 285 1494 s878 1890 375 1554 s818 1170 375 1614 s758 450 375 1674 s698 -270 375 1495 s877 1878 465 1555 s817 1158 465 1615 s757 438 465 1675 s697 -282 465 1496 s876 1866 285 1556 s816 1146 285 1616 s756 426 285 1676 s696 -294 285 1497 s875 1854 375 1557 s815 1134 375 1617 s755 414 375 1677 s695 -306 375 1498 s874 1842 465 1558 s814 1122 465 1618 s754 402 465 1678 s694 -318 465 1499 s873 1830 285 1559 s813 1110 285 1619 s753 390 285 1679 s693 -330 285 1500 s872 1818 375 1560 s812 1098 375 1620 s752 378 375 1680 s692 -342 375 http://www..net/ datasheet pdf - http://www..net/
-p.24- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 1681 s691 -354 465 1741 s631 -1074 465 1801 s571 -1794 465 1861 s511 -2514 465 1682 s690 -366 285 1742 s630 -1086 285 1802 s570 -1806 285 1862 s510 -2526 285 1683 s689 -378 375 1743 s629 -1098 375 1803 s569 -1818 375 1863 s509 -2538 375 1684 s688 -390 465 1744 s628 -1110 465 1804 s568 -1830 465 1864 s508 -2550 465 1685 s687 -402 285 1745 s627 -1122 285 1805 s567 -1842 285 1865 s507 -2562 285 1686 s686 -414 375 1746 s626 -1134 375 1806 s566 -1854 375 1866 s506 -2574 375 1687 s685 -426 465 1747 s625 -1146 465 1807 s565 -1866 465 1867 s505 -2586 465 1688 s684 -438 285 1748 s624 -1158 285 1808 s564 -1878 285 1868 s504 -2598 285 1689 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375 1881 s491 -2754 375 1702 s670 -606 465 1762 s610 -1326 465 1822 s550 -2046 465 1882 s490 -2766 465 1703 s669 -618 285 1763 s609 -1338 285 1823 s549 -2058 285 1883 s489 -2778 285 1704 s668 -630 375 1764 s608 -1350 375 1824 s548 -2070 375 1884 s488 -2790 375 1705 s667 -642 465 1765 s607 -1362 465 1825 s547 -2082 465 1885 s487 -2802 465 1706 s666 -654 285 1766 s606 -1374 285 1826 s546 -2094 285 1886 s486 -2814 285 1707 s665 -666 375 1767 s605 -1386 375 1827 s545 -2106 375 1887 s485 -2826 375 1708 s664 -678 465 1768 s604 -1398 465 1828 s544 -2118 465 1888 s484 -2838 465 1709 s663 -690 285 1769 s603 -1410 285 1829 s543 -2130 285 1889 s483 -2850 285 1710 s662 -702 375 1770 s602 -1422 375 1830 s542 -2142 375 1890 s482 -2862 375 1711 s661 -714 465 1771 s601 -1434 465 1831 s541 -2154 465 1891 s481 -2874 465 1712 s660 -726 285 1772 s600 -1446 285 1832 s540 -2166 285 1892 s480 -2886 285 1713 s659 -738 375 1773 s599 -1458 375 1833 s539 -2178 375 1893 s479 -2898 375 1714 s658 -750 465 1774 s598 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1727 s645 -906 285 1787 s585 -1626 285 1847 s525 -2346 285 1907 s465 -3066 285 1728 s644 -918 375 1788 s584 -1638 375 1848 s524 -2358 375 1908 s464 -3078 375 1729 s643 -930 465 1789 s583 -1650 465 1849 s523 -2370 465 1909 s463 -3090 465 1730 s642 -942 285 1790 s582 -1662 285 1850 s522 -2382 285 1910 s462 -3102 285 1731 s641 -954 375 1791 s581 -1674 375 1851 s521 -2394 375 1911 s461 -3114 375 1732 s640 -966 465 1792 s580 -1686 465 1852 s520 -2406 465 1912 s460 -3126 465 1733 s639 -978 285 1793 s579 -1698 285 1853 s519 -2418 285 1913 s459 -3138 285 1734 s638 -990 375 1794 s578 -1710 375 1854 s518 -2430 375 1914 s458 -3150 375 1735 s637 -1002 465 1795 s577 -1722 465 1855 s517 -2442 465 1915 s457 -3162 465 1736 s636 -1014 285 1796 s576 -1734 285 1856 s516 -2454 285 1916 s456 -3174 285 1737 s635 -1026 375 1797 s575 -1746 375 1857 s515 -2466 375 1917 s455 -3186 375 1738 s634 -1038 465 1798 s574 -1758 465 1858 s514 -2478 465 1918 s454 -3198 465 1739 s633 -1050 285 1799 s573 -1770 285 1859 s513 -2490 285 1919 s453 -3210 285 1740 s632 -1062 375 1800 s572 -1782 375 1860 s512 -2502 375 1920 s452 -3222 375 http://www..net/ datasheet pdf - http://www..net/
-p.25- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 1921 s451 -3234 465 1981 s391 -3954 465 2041 s342 -4794 285 2101 s282 -5514 285 1922 s450 -3246 285 1982 s390 -3966 285 2042 s341 -4806 375 2102 s281 -5526 375 1923 s449 -3258 375 1983 s389 -3978 375 2043 s340 -4818 465 2103 s280 -5538 465 1924 s448 -3270 465 1984 s388 -3990 465 2044 s339 -4830 285 2104 s279 -5550 285 1925 s447 -3282 285 1985 s387 -4002 285 2045 s338 -4842 375 2105 s278 -5562 375 1926 s446 -3294 375 1986 s386 -4014 375 2046 s337 -4854 465 2106 s277 -5574 465 1927 s445 -3306 465 1987 s385 -4026 465 2047 s336 -4866 285 2107 s276 -5586 285 1928 s444 -3318 285 1988 s384 -4038 285 2048 s335 -4878 375 2108 s275 -5598 375 1929 s443 -3330 375 1989 s383 -4050 375 2049 s334 -4890 465 2109 s274 -5610 465 1930 s442 -3342 465 1990 s382 -4062 465 2050 s333 -4902 285 2110 s273 -5622 285 1931 s441 -3354 285 1991 s381 -4074 285 2051 s332 -4914 375 2111 s272 -5634 375 1932 s440 -3366 375 1992 s380 -4086 375 2052 s331 -4926 465 2112 s271 -5646 465 1933 s439 -3378 465 1993 s379 -4098 465 2053 s330 -4938 285 2113 s270 -5658 285 1934 s438 -3390 285 1994 s378 -4110 285 2054 s329 -4950 375 2114 s269 -5670 375 1935 s437 -3402 375 1995 s377 -4122 375 2055 s328 -4962 465 2115 s268 -5682 465 1936 s436 -3414 465 1996 s376 -4134 465 2056 s327 -4974 285 2116 s267 -5694 285 1937 s435 -3426 285 1997 s375 -4146 285 2057 s326 -4986 375 2117 s266 -5706 375 1938 s434 -3438 375 1998 s374 -4158 375 2058 s325 -4998 465 2118 s265 -5718 465 1939 s433 -3450 465 1999 s373 -4170 465 2059 s324 -5010 285 2119 s264 -5730 285 1940 s432 -3462 285 2000 s372 -4182 285 2060 s323 -5022 375 2120 s263 -5742 375 1941 s431 -3474 375 2001 s371 -4194 375 2061 s322 -5034 465 2121 s262 -5754 465 1942 s430 -3486 465 2002 s370 -4206 465 2062 s321 -5046 285 2122 s261 -5766 285 1943 s429 -3498 285 2003 s369 -4218 285 2063 s320 -5058 375 2123 s260 -5778 375 1944 s428 -3510 375 2004 s368 -4230 375 2064 s319 -5070 465 2124 s259 -5790 465 1945 s427 -3522 465 2005 s367 -4242 465 2065 s318 -5082 285 2125 s258 -5802 285 1946 s426 -3534 285 2006 s366 -4254 285 2066 s317 -5094 375 2126 s257 -5814 375 1947 s425 -3546 375 2007 s365 -4266 375 2067 s316 -5106 465 2127 s256 -5826 465 1948 s424 -3558 465 2008 s364 -4278 465 2068 s315 -5118 285 2128 s255 -5838 285 1949 s423 -3570 285 2009 s363 -4290 285 2069 s314 -5130 375 2129 s254 -5850 375 1950 s422 -3582 375 2010 s362 -4302 375 2070 s313 -5142 465 2130 s253 -5862 465 1951 s421 -3594 465 2011 s361 -4314 465 2071 s312 -5154 285 2131 s252 -5874 285 1952 s420 -3606 285 2012 dummy -4326 285 2072 s311 -5166 375 2132 s251 -5886 375 1953 s419 -3618 375 2013 dummy -4338 375 2073 s310 -5178 465 2133 s250 -5898 465 1954 s418 -3630 465 2014 dummy -4350 465 2074 s309 -5190 285 2134 s249 -5910 285 1955 s417 -3642 285 2015 dummy -4386 465 2075 s308 -5202 375 2135 s248 -5922 375 1956 s416 -3654 375 2016 dummy -4422 465 2076 s307 -5214 465 2136 s247 -5934 465 1957 s415 -3666 465 2017 dummy -4458 465 2077 s306 -5226 285 2137 s246 -5946 285 1958 s414 -3678 285 2018 dummy -4494 465 2078 s305 -5238 375 2138 s245 -5958 375 1959 s413 -3690 375 2019 dummy -4530 465 2079 s304 -5250 465 2139 s244 -5970 465 1960 s412 -3702 465 2020 dummy -4542 285 2080 s303 -5262 285 2140 s243 -5982 285 1961 s411 -3714 285 2021 dummy -4554 375 2081 s302 -5274 375 2141 s242 -5994 375 1962 s410 -3726 375 2022 dummy -4566 465 2082 s301 -5286 465 2142 s241 -6006 465 1963 s409 -3738 465 2023 s360 -4578 285 2083 s300 -5298 285 2143 s240 -6018 285 1964 s408 -3750 285 2024 s359 -4590 375 2084 s299 -5310 375 2144 s239 -6030 375 1965 s407 -3762 375 2025 s358 -4602 465 2085 s298 -5322 465 2145 s238 -6042 465 1966 s406 -3774 465 2026 s357 -4614 285 2086 s297 -5334 285 2146 s237 -6054 285 1967 s405 -3786 285 2027 s356 -4626 375 2087 s296 -5346 375 2147 s236 -6066 375 1968 s404 -3798 375 2028 s355 -4638 465 2088 s295 -5358 465 2148 s235 -6078 465 1969 s403 -3810 465 2029 s354 -4650 285 2089 s294 -5370 285 2149 s234 -6090 285 1970 s402 -3822 285 2030 s353 -4662 375 2090 s293 -5382 375 2150 s233 -6102 375 1971 s401 -3834 375 2031 s352 -4674 465 2091 s292 -5394 465 2151 s232 -6114 465 1972 s400 -3846 465 2032 s351 -4686 285 2092 s291 -5406 285 2152 s231 -6126 285 1973 s399 -3858 285 2033 s350 -4698 375 2093 s290 -5418 375 2153 s230 -6138 375 1974 s398 -3870 375 2034 s349 -4710 465 2094 s289 -5430 465 2154 s229 -6150 465 1975 s397 -3882 465 2035 s348 -4722 285 2095 s288 -5442 285 2155 s228 -6162 285 1976 s396 -3894 285 2036 s347 -4734 375 2096 s287 -5454 375 2156 s227 -6174 375 1977 s395 -3906 375 2037 s346 -4746 465 2097 s286 -5466 465 2157 s226 -6186 465 1978 s394 -3918 465 2038 s345 -4758 285 2098 s285 -5478 285 2158 s225 -6198 285 1979 s393 -3930 285 2039 s344 -4770 375 2099 s284 -5490 375 2159 s224 -6210 375 1980 s392 -3942 375 2040 s343 -4782 465 2100 s283 -5502 465 2160 s223 -6222 465 http://www..net/ datasheet pdf - http://www..net/
-p.26- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 2161 s222 -6234 285 2221 s162 -6954 285 2281 s102 -7674 285 2341 s42 -8394 285 2162 s221 -6246 375 2222 s161 -6966 375 2282 s101 -7686 375 2342 s41 -8406 375 2163 s220 -6258 465 2223 s160 -6978 465 2283 s100 -7698 465 2343 s40 -8418 465 2164 s219 -6270 285 2224 s159 -6990 285 2284 s99 -7710 285 2344 s39 -8430 285 2165 s218 -6282 375 2225 s158 -7002 375 2285 s98 -7722 375 2345 s38 -8442 375 2166 s217 -6294 465 2226 s157 -7014 465 2286 s97 -7734 465 2346 s37 -8454 465 2167 s216 -6306 285 2227 s156 -7026 285 2287 s96 -7746 285 2347 s36 -8466 285 2168 s215 -6318 375 2228 s155 -7038 375 2288 s95 -7758 375 2348 s35 -8478 375 2169 s214 -6330 465 2229 s154 -7050 465 2289 s94 -7770 465 2349 s34 -8490 465 2170 s213 -6342 285 2230 s153 -7062 285 2290 s93 -7782 285 2350 s33 -8502 285 2171 s212 -6354 375 2231 s152 -7074 375 2291 s92 -7794 375 2351 s32 -8514 375 2172 s211 -6366 465 2232 s151 -7086 465 2292 s91 -7806 465 2352 s31 -8526 465 2173 s210 -6378 285 2233 s150 -7098 285 2293 s90 -7818 285 2353 s30 -8538 285 2174 s209 -6390 375 2234 s149 -7110 375 2294 s89 -7830 375 2354 s29 -8550 375 2175 s208 -6402 465 2235 s148 -7122 465 2295 s88 -7842 465 2355 s28 -8562 465 2176 s207 -6414 285 2236 s147 -7134 285 2296 s87 -7854 285 2356 s27 -8574 285 2177 s206 -6426 375 2237 s146 -7146 375 2297 s86 -7866 375 2357 s26 -8586 375 2178 s205 -6438 465 2238 s145 -7158 465 2298 s85 -7878 465 2358 s25 -8598 465 2179 s204 -6450 285 2239 s144 -7170 285 2299 s84 -7890 285 2359 s24 -8610 285 2180 s203 -6462 375 2240 s143 -7182 375 2300 s83 -7902 375 2360 s23 -8622 375 2181 s202 -6474 465 2241 s142 -7194 465 2301 s82 -7914 465 2361 s22 -8634 465 2182 s201 -6486 285 2242 s141 -7206 285 2302 s81 -7926 285 2362 s21 -8646 285 2183 s200 -6498 375 2243 s140 -7218 375 2303 s80 -7938 375 2363 s20 -8658 375 2184 s199 -6510 465 2244 s139 -7230 465 2304 s79 -7950 465 2364 s19 -8670 465 2185 s198 -6522 285 2245 s138 -7242 285 2305 s78 -7962 285 2365 s18 -8682 285 2186 s197 -6534 375 2246 s137 -7254 375 2306 s77 -7974 375 2366 s17 -8694 375 2187 s196 -6546 465 2247 s136 -7266 465 2307 s76 -7986 465 2367 s16 -8706 465 2188 s195 -6558 285 2248 s135 -7278 285 2308 s75 -7998 285 2368 s15 -8718 285 2189 s194 -6570 375 2249 s134 -7290 375 2309 s74 -8010 375 2369 s14 -8730 375 2190 s193 -6582 465 2250 s133 -7302 465 2310 s73 -8022 465 2370 s13 -8742 465 2191 s192 -6594 285 2251 s132 -7314 285 2311 s72 -8034 285 2371 s12 -8754 285 2192 s191 -6606 375 2252 s131 -7326 375 2312 s71 -8046 375 2372 s11 -8766 375 2193 s190 -6618 465 2253 s130 -7338 465 2313 s70 -8058 465 2373 s10 -8778 465 2194 s189 -6630 285 2254 s129 -7350 285 2314 s69 -8070 285 2374 s9 -8790 285 2195 s188 -6642 375 2255 s128 -7362 375 2315 s68 -8082 375 2375 s8 -8802 375 2196 s187 -6654 465 2256 s127 -7374 465 2316 s67 -8094 465 2376 s7 -8814 465 2197 s186 -6666 285 2257 s126 -7386 285 2317 s66 -8106 285 2377 s6 -8826 285 2198 s185 -6678 375 2258 s125 -7398 375 2318 s65 -8118 375 2378 s5 -8838 375 2199 s184 -6690 465 2259 s124 -7410 465 2319 s64 -8130 465 2379 s4 -8850 465 2200 s183 -6702 285 2260 s123 -7422 285 2320 s63 -8142 285 2380 s3 -8862 285 2201 s182 -6714 375 2261 s122 -7434 375 2321 s62 -8154 375 2381 s2 -8874 375 2202 s181 -6726 465 2262 s121 -7446 465 2322 s61 -8166 465 2382 s1 -8886 465 2203 s180 -6738 285 2263 s120 -7458 285 2323 s60 -8178 285 2383 dummy -8898 285 2204 s179 -6750 375 2264 s119 -7470 375 2324 s59 -8190 375 2384 dummy -8910 375 2205 s178 -6762 465 2265 s118 -7482 465 2325 s58 -8202 465 2385 dummy -8922 465 2206 s177 -6774 285 2266 s117 -7494 285 2326 s57 -8214 285 2386 vcom -9090 285 2207 s176 -6786 375 2267 s116 -7506 375 2327 s56 -8226 375 2387 vcom -9102 375 2208 s175 -6798 465 2268 s115 -7518 465 2328 s55 -8238 465 2388 vcom -9114 465 2209 s174 -6810 285 2269 s114 -7530 285 2329 s54 -8250 285 2389 vcom -9126 285 2210 s173 -6822 375 2270 s113 -7542 375 2330 s53 -8262 375 2390 vcom -9138 375 2211 s172 -6834 465 2271 s112 -7554 465 2331 s52 -8274 465 2391 vcom -9150 465 2212 s171 -6846 285 2272 s111 -7566 285 2332 s51 -8286 285 2392 vgl -9198 285 2213 s170 -6858 375 2273 s110 -7578 375 2333 s50 -8298 375 2393 vgl -9210 375 2214 s169 -6870 465 2274 s109 -7590 465 2334 s49 -8310 465 2394 vgl -9222 465 2215 s168 -6882 285 2275 s108 -7602 285 2335 s48 -8322 285 2395 g863 -9270 285 2216 s167 -6894 375 2276 s107 -7614 375 2336 s47 -8334 375 2396 g861 -9282 375 2217 s166 -6906 465 2277 s106 -7626 465 2337 s46 -8346 465 2397 g859 -9294 465 2218 s165 -6918 285 2278 s105 -7638 285 2338 s45 -8358 285 2398 g857 -9306 285 2219 s164 -6930 375 2279 s104 -7650 375 2339 s44 -8370 375 2399 g855 -9318 375 2220 s163 -6942 465 2280 s103 -7662 465 2340 s43 -8382 465 2400 g853 -9330 465 http://www..net/ datasheet pdf - http://www..net/
-p.27- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 no. name x y no. name x y no. name x y no. name x y 2401 g851 -9342 285 2461 g731 -10062 285 2521 g611 -10782 285 2581 g491 -11502 285 2402 g849 -9354 375 2462 g729 -10074 375 2522 g609 -10794 375 2582 g489 -11514 375 2403 g847 -9366 465 2463 g727 -10086 465 2523 g607 -10806 465 2583 g487 -11526 465 2404 g845 -9378 285 2464 g725 -10098 285 2524 g605 -10818 285 2584 g485 -11538 285 2405 g843 -9390 375 2465 g723 -10110 375 2525 g603 -10830 375 2585 g483 -11550 375 2406 g841 -9402 465 2466 g721 -10122 465 2526 g601 -10842 465 2586 g481 -11562 465 2407 g839 -9414 285 2467 g719 -10134 285 2527 g599 -10854 285 2587 g479 -11574 285 2408 g837 -9426 375 2468 g717 -10146 375 2528 g597 -10866 375 2588 g477 -11586 375 2409 g835 -9438 465 2469 g715 -10158 465 2529 g595 -10878 465 2589 g475 -11598 465 2410 g833 -9450 285 2470 g713 -10170 285 2530 g593 -10890 285 2590 g473 -11610 285 2411 g831 -9462 375 2471 g711 -10182 375 2531 g591 -10902 375 2591 g471 -11622 375 2412 g829 -9474 465 2472 g709 -10194 465 2532 g589 -10914 465 2592 g469 -11634 465 2413 g827 -9486 285 2473 g707 -10206 285 2533 g587 -10926 285 2593 g467 -11646 285 2414 g825 -9498 375 2474 g705 -10218 375 2534 g585 -10938 375 2594 g465 -11658 375 2415 g823 -9510 465 2475 g703 -10230 465 2535 g583 -10950 465 2595 g463 -11670 465 2416 g821 -9522 285 2476 g701 -10242 285 2536 g581 -10962 285 2596 g461 -11682 285 2417 g819 -9534 375 2477 g699 -10254 375 2537 g579 -10974 375 2597 g459 -11694 375 2418 g817 -9546 465 2478 g697 -10266 465 2538 g577 -10986 465 2598 g457 -11706 465 2419 g815 -9558 285 2479 g695 -10278 285 2539 g575 -10998 285 2599 g455 -11718 285 2420 g813 -9570 375 2480 g693 -10290 375 2540 g573 -11010 375 2600 g453 -11730 375 2421 g811 -9582 465 2481 g691 -10302 465 2541 g571 -11022 465 2601 g451 -11742 465 2422 g809 -9594 285 2482 g689 -10314 285 2542 g569 -11034 285 2602 g449 -11754 285 2423 g807 -9606 375 2483 g687 -10326 375 2543 g567 -11046 375 2603 g447 -11766 375 2424 g805 -9618 465 2484 g685 -10338 465 2544 g565 -11058 465 2604 g445 -11778 465 2425 g803 -9630 285 2485 g683 -10350 285 2545 g563 -11070 285 2605 g443 -11790 285 2426 g801 -9642 375 2486 g681 -10362 375 2546 g561 -11082 375 2606 g441 -11802 375 2427 g799 -9654 465 2487 g679 -10374 465 2547 g559 -11094 465 2607 g439 -11814 465 2428 g797 -9666 285 2488 g677 -10386 285 2548 g557 -11106 285 2608 g437 -11826 285 2429 g795 -9678 375 2489 g675 -10398 375 2549 g555 -11118 375 2609 g435 -11838 375 2430 g793 -9690 465 2490 g673 -10410 465 2550 g553 -11130 465 2610 g433 -11850 465 2431 g791 -9702 285 2491 g671 -10422 285 2551 g551 -11142 285 2611 dummy -11862 285 2432 g789 -9714 375 2492 g669 -10434 375 2552 g549 -11154 375 2612 dummy -11874 375 2433 g787 -9726 465 2493 g667 -10446 465 2553 g547 -11166 465 2613 dummy -11886 465 2434 g785 -9738 285 2494 g665 -10458 285 2554 g545 -11178 285 2435 g783 -9750 375 2495 g663 -10470 375 2555 g543 -11190 375 alignment mark x y 2436 g781 -9762 465 2496 g661 -10482 465 2556 g541 -11202 465 a+ 11890 0 2437 g779 -9774 285 2497 g659 -10494 285 2557 g539 -11214 285 a- -11890 0 2438 g777 -9786 375 2498 g657 -10506 375 2558 g537 -11226 375 2439 g775 -9798 465 2499 g655 -10518 465 2559 g535 -11238 465 2440 g773 -9810 285 2500 g653 -10530 285 2560 g533 -11250 285 2441 g771 -9822 375 2501 g651 -10542 375 2561 g531 -11262 375 2442 g769 -9834 465 2502 g649 -10554 465 2562 g529 -11274 465 2443 g767 -9846 285 2503 g647 -10566 285 2563 g527 -11286 285 2444 g765 -9858 375 2504 g645 -10578 375 2564 g525 -11298 375 2445 g763 -9870 465 2505 g643 -10590 465 2565 g523 -11310 465 2446 g761 -9882 285 2506 g641 -10602 285 2566 g521 -11322 285 2447 g759 -9894 375 2507 g639 -10614 375 2567 g519 -11334 375 2448 g757 -9906 465 2508 g637 -10626 465 2568 g517 -11346 465 2449 g755 -9918 285 2509 g635 -10638 285 2569 g515 -11358 285 2450 g753 -9930 375 2510 g633 -10650 375 2570 g513 -11370 375 2451 g751 -9942 465 2511 g631 -10662 465 2571 g511 -11382 465 2452 g749 -9954 285 2512 g629 -10674 285 2572 g509 -11394 285 2453 g747 -9966 375 2513 g627 -10686 375 2573 g507 -11406 375 2454 g745 -9978 465 2514 g625 -10698 465 2574 g505 -11418 465 2455 g743 -9990 285 2515 g623 -10710 285 2575 g503 -11430 285 2456 g741 -10002 375 2516 g621 -10722 375 2576 g501 -11442 375 2457 g739 -10014 465 2517 g619 -10734 465 2577 g499 -11454 465 2458 g737 -10026 285 2518 g617 -10746 285 2578 g497 -11466 285 2459 g735 -10038 375 2519 g615 -10758 375 2579 g495 -11478 375 2460 g733 -10050 465 2520 g613 -10770 465 2580 g493 -11490 465 http://www..net/ datasheet pdf - http://www..net/
-p.28- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 3.4.1 bump arrangement http://www..net/ datasheet pdf - http://www..net/
-p.29- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 bump thickness: 12 +/- 3m input pad output pad 19um 12um 36um 25um 17um http://www..net/ datasheet pdf - http://www..net/
-p.30- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 4. interface 4.1 system interface the HX8363-A supports 3-wire serial peripheral inte rface and rgb interface and mipi dsi interface. serial peripheral interface is always ef fective and it can be used to access internal command and parameter. the rgb interface is only us ed to access display data and display directly via source output. mipi dsi can access bot h internal command and display data. bs1 bs0 interface mode db pins 0 0 3 wire serial + rgb interface (scl rising edge) rgb:16/18/24 bit 0 1 dsi command mode dsi_cp, dsi_cn, dsi_d0p, dsi_d0n, dsi_d1p, dsi_d1n 1 0 reserve - 1 1 reserve - table 4.1: interface selection http://www..net/ datasheet pdf - http://www..net/
-p.31- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 4.1.1 serial data transfer interface the HX8363-A supports 3 wire serial data transfer i nterface. the 3 wire serial bus uses chip select line (ncs), serial input/output data sdi/sdo and the serial transfer clock line scl). serial data write mode the 3-pin serial data packet contains a control bit dnc and a transmission byte. if dnc is low, the transmission byte is command byte. if dnc is high, the transmission byte is stored to command register. the msb is transmitted first. the serial interface is initialized when ncs is high. in this state, scl clock pulse or sdi/sdo data have no effect. a falling edge on ncs enables the serial interface and indicates the star t of data transmission. dnc d7 d6 d1 d2 d3 d4 d5 d0 msb lsb transmissionbyte(tb)maybeacommandoradata 3wireserialdatastreamformat dnc dnc dnc tb tb tb figure 4.1: serial data stream, write mode http://www..net/ datasheet pdf - http://www..net/
-p.32- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 figure 4.2: serial interface protocol 3 wire serial interf ace (write mode) http://www..net/ datasheet pdf - http://www..net/
-p.33- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 serial data read mode the micro controller firstly has to send a command and then the following byte is transmitted in the opposite direction. the read mode has three types of command data transmitted (8- /24- /32-bit) according command code. 3 wire serial interface protocol figure 4.3 : 3 wire serial interface protocol, read mode http://www..net/ datasheet pdf - http://www..net/
-p.34- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 figure 4.4: 3 wire serial interface protocol, read mode fo r user define command if there is a break on data transmission when trans mitting a command before a whole byte has been completed, then the display module will re set the interface so that it will be ready to receive the same byte re-transmitted when the chip select line (ncs) is next activated. see the following figure. figure 4.5: display module data transfer recovery http://www..net/ datasheet pdf - http://www..net/
-p.35- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 4.2 rgb interface the HX8363-A supports rgb interface that is used 3 wire serial data transfer interface to transmit/receive command. the HX8363-A uses 16, 18 or 24-bit parallel rgb int erface which includes: hsync, vsync, enable, dck, db[230] Clines. the interface is acti ve after power on sequence. pixel clock (dck) runs all the time without stopping and it is used to enter hsync, vsync, enable and db[230] Clines states when there is a r ising edge of the dck. the dck cannot be used as continues internal clock for other funct ions of the display module e.g. sleep in Cmode etc. vertical synchronization (vsync ) is used to tell when there is received a new frame of the display. this is negative (-, 0, low) active and its state is read to the display module by a rising edge of the dck-line. ho rizontal synchronization (hsync) is used to tell when a new line of the frame is received. t his is negative (-, 0, low) active and its state is read to the display module by a rising edg e of the dck-line. data enable (enable) is used to tell when there is received rgb informat ion that should be transferred on the display. this is positive (+, 1, high) active a nd its state is read to the display module by a rising edge of the dck-line. db[230] (24 bit: r7-r 0, g7-g0 and b7-b0; 18 bit: r5-r0, g5-g0 and b5-b0; 16 bit: r4- r0, g5-g0 and b4-b0) a re used to tell what is the information of the image that is transferred on the display (wh en enable =1 and there is a rising edge of dck). db[230] C lines can be set to 0 (low) or 1 (high). these lines are read by a rising edge of the dck-line. the pixel clock cycle is described in the following figure. note: dck is an unsynchronized signal (it can be stopped ) figure 4.6: dck cycle http://www..net/ datasheet pdf - http://www..net/
-p.36- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 16 bit/pixel color order on the rgb i/f note: the data order is shown as follows, msb = db23, lsb = db0 and picture data is msb = bit5, lsb = bit0 for green data and msb = bit4, lsb = bit0 for red and bl ue data. db23, db22, db16, db15, db14, db7, db6 and db0 are opened. figure 4.7: 16 bit/pixel color order on the rgb i/f http://www..net/ datasheet pdf - http://www..net/
-p.37- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 18 bit/pixel color order on the rgb i/f note: the data order is shown as follows, msb = db23, lsb = d b0 and picture data is msb = bit5, lsb = bit0 for red, green and blue data. db23, db22, db15, db14, db7 a nd db6 are opened. figure 4.8: 18 bit/pixel color order on the rgb i/f http://www..net/ datasheet pdf - http://www..net/
-p.38- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 24 bit/pixel color order on the rgb i/f note: the data order is shown as follows, msb = db23, lsb = d b0 and picture data is msb = bit7, lsb = bit0 for red, green and blue data. figure 4.9: 24bit/pixel color order on the rgb i/f http://www..net/ datasheet pdf - http://www..net/
-p.39- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 general timing diagram hs hbp hp vertical sync. vbp vs 0 10 1 vdisp vfp vp horizontal sync. visible image = image which can see on the display = active area enable = 1 ( high) invisble image = timing information what is not possible to see on the display = blanking time enable = 0 (low) hdisp hfp figure 4.10: general timing diagram the image information must be correct on the displa y, when the timings are in range on the interface. however, the image information might be incorrect on the display, when timings are out of the range on the interface (out of the r ange timings cannot cause any damage on the display module or it cannot cause any damage on the host side). the correct image information must be displayed automatically (by the display module) on the next frame (vertical sync.), when there is returned from out o f the range to in range interface timings. http://www..net/ datasheet pdf - http://www..net/
-p.40- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 4.3 dsi protocol the protocol layer appends packet-protocol informat ion and headers. the receiver side of a dsi link performs the converse of the transmitter s ide, decomposing the packet into parallel data, signal events and commands. the dsi protocol permit s multiple packets which is useful for events such as peripheral initialization, where man y registers may be loaded separate write commands at system startup. figure 4.11 illustrates multiple hs transmission packets. figure 4.11: multiple hs transmission packets the packet includes two types which are long packet and short packet. the first byte of the packet, the data identifier (di), includes informat ion specifying the length of the packet. command mode systems send commands and an associate d set of parameters, with the number of parameters depending on the command type. short packets specify the payload length using the data type fiel d and are from two to nine bytes in length. short packet is used for most comm and mode commands and associated parameters. where short packets format include an 8-bit data id followed by zero to seven bytes and an 8-bit ecc. figure 4.12 shows the structure of the s hort packet. figure 4.12: structure of the short packet http://www..net/ datasheet pdf - http://www..net/
-p.41- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 long packets specify the payload length using a two-byte word co unt field and then the payload maybe from 0 to 65,541 bytes in length. lon g packets permit transmission of large blocks of pixel or other data. figure 4.13 shows th e structure of the long packet. long packet header composed of three elements: an 8-bit data identifier, a 16-bit word count, and 8-bit ecc. the packet footer has one element, a 16-bit checksum. long packets can be from 6 to 65,541 bytes in length. where 65,541 bytes = (2 16 -1) + 4 bytes ph + 2 bytes pf sot lps packet header (ph) eot lps packetfooter (pf) packetdata (payload) di (data id): containvirtualchannelidentifieranddatatype. wc (word count): thereceiverusewctodefinepacketend. ecc (error correction code): theerrorcorrectioncodeallowssinglebiterrors tobecorrectedand2 biterrorsto bedetectedinthepacketheader. pf(packet footer): mean16bitchecksum. figure 4.13: structure of the long packet according to packet form, basic elements include di and ecc. figure 5.34 the shows format of data id. di7 di6 di5 di4 di3 di2 di1 di0 vc (virtual channel) dt (data type) di[7:6]: these two bits identify the data as direct ed to one of four virtual channels. di[5:0]: these six bits specify the data type, whic h specifies the size, format and, in some cases, the interpretation of the packet contents. figure 4.14: the format of data id http://www..net/ datasheet pdf - http://www..net/
-p.42- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 due to data type (dt) mean format of transmission t ype, figure 4.15 show short- / long- packet transmission command sequence. long packet writes command / parameters / pixel dat as short packet writes command / parameters sot lps di ph ecc eot lps di:writesuitabledatatype. ex:onecmdwrite,di+dcswrcmd cmd+paswrite,di+dcswrcmd+pas dcswrcmd/cmd+pas figure 4.15: short- / long- packet transmission command se quence http://www..net/ datasheet pdf - http://www..net/
-p.43- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 4.3.1 processor to peripheral direction packets dat a types the set of transaction types sent from the host pro cessor to a peripheral, such as a display module, are shown in table 4.2 data types for proce ssor-sourced packets. data type, hex data type, binary description packet size 01h 00 0001 sync event, vsync start short 11h 01 0001 sync event, vsync end short 21h 10 0001 sync event, hsync start short 31h 11 0001 sync event, hsync end short 22h 10 0010 shut down peripheral command short 32h 11 0010 turn on peripheral command short 06h 00 0110 dcs read, no parameters short 37h 11 0111 set maximum return packet size short 09h 00 1001 null packet, no data long 19h 01 1001 blanking packet, no data long 39h 11 1001 dcs long write/write_lut command packet long 0eh 00 1110 packed pixel stream, 16-bit rgb, 5-6-5 format long 1eh 01 1110 packed pixel stream, 18-bit rgb, 6-6-6 format long 2eh 10 1110 loosely packed pixel stream, 18-bit rgb , 6-6-6 format long 3eh 11 1110 packed pixel stream, 24-bit rgb, 8-8-8 format (this project is not use) long x0h and xfh, unspecified xx 0000 xx 1111 do not use all unspecified codes are reserved table 4.2: data types for processor-sourced packets http://www..net/ datasheet pdf - http://www..net/
-p.44- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 under tables list all detail function of all data t ypes sync event (h start, h end, v start, v end), data t ype = xx 0001 (x1h) data type, hex function description number of bytes 01h v sync start, start of vsa pulse. 11h v sync end, end of vsa pulse. 21h h sync start, start of hsa pulse. 31h h sync end, end of hsa pulse. 2 bytes (di + ecc) note: (1) vsync start and vsync end event represents the start and end of the vsa, respectively. similarly hsync start and hsync end event represents the start and end of the hsa, respectively. display status (shutdown command, turn-on command ) data type, hex function description number of bytes 22h shutdown peripheral command that turns off the display in a video mode display for power saving. 32h turn on peripheral command that turns on the displa y in video mode display for normal display. 2 bytes (di + ecc) note: (1) when use shutdown command, interface shall rem ain powered in order to receive the turn-on, or wak e-up, command. dcs command setting data type, hex function description number of bytes 06h dcs read command, the returned data may be of short or long packet format. 3 bytes (di + dcs cmd. + ecc) 39h dcs long write/ write _ lut command is used to send larger blocks of data to a display module that implements the display command set. up to 65541 bytes ( di + wc + ecc + dcs cmd. + payload data + pf ) note: (1) for write part, if dcs short write command, followed by bta, the peripheral shall respon d with ack when without error was detected in the transmission (hos t slave). unless an error was detected, the periphera l shall respond with acknowledge with error report . (2) when use dcs read command, the set max return packet size command will limit the size of returning packets. (3) the peripheral shall respond to dcs read command request in one of the following ways: if an error was detected by the peripheral, it sha ll send acknowledge with error report . so the peripheral shall transmit the requested read data packet with su itable ecc in the same transmission. if no error was detected by the peripheral, it sha ll send the requested read packet (short or long) with appropriate ecc and checksum, if either or both feat ures are enabled. (4) one byte <= length of payload data <= 2 wc -1 http://www..net/ datasheet pdf - http://www..net/
-p.45- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 return packet size setting data type, hex function description number of bytes 37h set maximum return packet size that specifies the maximum size of the payload in a long packet transmitted from peripheral back to the host proces sor. 4 bytes (di + wc + ecc) note: (1) the two-byte value is transmitted with ls byte first. and during a power-on or reset sequence, the maximum return packet size shall be set by the peripheral to a default value of one. variable data packet data type, hex function description number of bytes 09h null packet is a mechanism for keeping the serial data lane(s) in high-speed mode while sending dummy data. 19h blanking packet is used to convey blanking timing information in a long packet. up to 65541 bytes ( di + wc + ecc + dcs cmd. + payload data + pf ) note: (1) when null packet , the payload data belong null data, actual data v alues sent are irrelevant because the peripheral does not capture or store the data. (2) when blanking packet , the packet represents a period between active sca n lines of a video mode display. data stream format data type, hex function description number of bytes 0eh packed pixel stream 16-bit format is used to transm it image data formatted as 16-bit pixels to a video mo de display module. pixel format is (5 bits) red, (6 b its) green and (5 bits) blue. up to 65541 bytes ( di + wc + ecc + dcs cmd. + payload data + pf ) word count ecc data type virtual channel 5b 6b 5b 5b 6b 5b checksum 1 byte 2 bytes 1 byte 1 byte 1 byte 1 byte 1 byte 2 bytes ph (packet header) variable payload data pf (packet footer) pixel 1 pixel n 5b 6b 5b pixel 1 r0 r4 g0 g5 b0 b4 d0 d7d0 d7 1 byte 1 byte note: (1) within a color component, the lsb is sent first , the msb last . http://www..net/ datasheet pdf - http://www..net/
-p.46- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 data stream format data type, hex function description number of bytes 1eh packed pixel stream 18-bit format is used to transm it image data formatted as 18-bit pixels to a video mo de display module. pixel format is (6 bits) red, (6 b its) green and (6 bits) blue. up to 65541 bytes ( di + wc + ecc + dcs cmd. + payload data + pf ) note: (1) within a color component, the lsb is sent first and t he msb last and pixel boundaries only line up with by te boundaries every four pixels (nine bytes). preferabl y, display modules employing this format have a hor izontal extent (width in pixels) evenly divisible by four, so no partial bytes remain at the end of the displa y line data. it is possible to send pixel data that represent a line w idth that is not a multiple of four pixels, but dis play logic on the receiver end shall dispose of the extra bits of the partial byte at the end of active display and ensu re a clean start for the next line. http://www..net/ datasheet pdf - http://www..net/
-p.47- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 data stream format data type, hex function description number of bytes 2eh packed pixel stream 18-bit format, each r, g, or b color component is one byte form, but the valid pix el bits occupy bits [7:2] and bits [1:0] of are ignore d. pixel format is (6 bits) red, (6 bits) green and (6 bits ) blue. up to 65541 bytes ( di + wc + ecc + dcs cmd. + payload data + pf ) note: (1) within a color component, the lsb is sent first, the msb last and with this format, pixel boundaries l ine up with byte boundaries every three bytes. packed pixel stream, 24bit format data type, hex function description number of bytes 3eh packed pixel stream 24-bit format is used to transm it image data formatted as 24-bit pixels to a video mo de display module. pixel format is (8 bits) red, (8 bi ts) green and (8 bits) blue. up to 65541 bytes ( di + wc + ecc + dcs cmd. + payload data + pf ) note: (1) within a color component, the lsb is sent first, the msb last and with this format, pixel boundaries l ine up with byte boundaries every three bytes. http://www..net/ datasheet pdf - http://www..net/
-p.48- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 4.3.2 peripheral to processor (reverse direction) all command mode systems require bidirectional capa bility for returning read data, ack or error information to the host processor. command mo de that use dcs shall have a bidirectional data path. short packets and the head er of long packets may use ecc and checksum to provide a higher level of data integrit y. the checksum feature enables detection of errors in the payload of long packets. the packet structure for peripheral-to-processor transactions is the same as for the processor-to-peripheral direction. in general, if the host processor completes a trans mission to the peripheral with bta asserted, the peripheral shall respond with one or more appropriate packet(s), and then return bus ownership to the host processor. if bta is not asserted following a transmission from the host processor, the peripheral shall not c ommunicate an acknowledge or other error information back to the host processor. the processor-to-peripheral transactions with bta asserted, can contain under form. a. following a non-read command in which no error was detected, the peripheral sha ll respond with acknowledge. b. following a read request in which no error was detected, the peripheral sha ll send the requested read data. c. following a read request in which the ecc error was detected and corrected, the peripheral shall send the requested read data in a long or short packet, followed by a 4-byte (acknowledge with error report) packet in th e same lp transmission. the error report shall have the ecc error flag set. d. following a non-read command in which the ecc error was detected and corrected, the peripheral shall proceed to execute the command , and shall respond to bta by sending a 4-byte (acknowledge with error report ) packet, the error report shall have the ecc error flag set. e. following any command in which sot error, sot sync error, eot sync error, lp transmit sync error, checksum error or dsi vc id in valid was detected, or the dsi command was not recognized, the peripheral shall se nd a 4-byte acknowledge with error report response, with the appropriate error flags s et in the two-byte error field. only the ack/error report packet shall be transmitted; no re ad or write accesses shall take place on the peripheral in response. which, a. acknowledge includes 2 bytes which are di (vc + acknowledge data type) and ecc. b. acknowledge with error report include 4 bytes which are di, 2 bytes error report and ecc. c. response to read request contains 2 types whic h are short packet and long packet. http://www..net/ datasheet pdf - http://www..net/
-p.49- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 an error report is comprised of two bytes following the di byte, with an ecc byte following the error report bytes. table 4.3 shows the error r eport bit definitions. bit description 0 sot error 1 sot sync error 2 reserved 3 escape mode entry command error 4 reserved 5 reserved 6 reserved 7 reserved 8 ecc error, single-bit (detected and corrected) 9 ecc error, multi-bit (detected, not corrected) 10 reserved 11 reserved 12 dsi vc id invalid 13 reserved 14 reserved 15 reserved table 4.3: error report bit definitions data type, hex data type, binary description packet size 02h 00 0010 acknowledge with error report short 1ch 01 1100 dcs long read response long table 4.4 : the complete set of peripheral-to-processor data ty pes acknowledge types data type, hex function description number of bytes 02 get acknowledge with error report when error occurs from processor transmission. 4 bytes (di + error report + ecc) dcs command read types data type, hex function description number of bytes 1ch this is the long-packet response to dcs read request. up to 9 bytes (di + data0 ~ data6 + ecc) http://www..net/ datasheet pdf - http://www..net/
-p.50- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5. function description 5.1 gamma characteristic correction function the HX8363-A offers two kinds of gamma adjustment w ays to come to accord with lc characteristic, one kind is through source driver d irectly, another one is adjusted by the digital gamma correction. the gamma adjustment way is select by internal register dgc_en bit. figure 5.1: gamma adjustments different of source driver w ith digital gamma correction http://www..net/ datasheet pdf - http://www..net/
-p.51- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.2 gamma characteristic correction function the HX8363-A incorporates gamma adjustment function for the 16,777,216-color display. gamma adjustment operation is implemented by decidi ng the 17 grayscale levels firstly in gamma adjustment control registers to match the lcd panel. then total 512 grayscale levels are generated in grayscale voltage generator. these registers are available for both polarities. http://www..net/ datasheet pdf - http://www..net/
-p.52- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8- bit grayscale d/ a converter output driver output driver output driver r g b lcd 04 positive polarity register 8 b 3 b 2 b 1 b 0 g 5 g 3 g 2 g 1 g 0 g 4 b 5 b 4 r 5 r 3 r 2 r 1 r 0 r 4 < r > 8- bit grayscale d/ a converter < g > 8- bit grayscale d/ a converter < b > grayscale voltage generator v0p/v0n 8 8 vrp 03 vrp 02 vrp 01 vrp 00 vrp 05 vrp 14 vrp 13 vrp 12 vrp 11 vrp 10 vrp 15 vrp 24 vrp 23 vrp 22 vrp 21 vrp 20 vrp 25 vrp 34 vrp 33 vrp 32 vrp 31 vrp 30 vrp 35 vrp 44 vrp 43 vrp 42 vrp 41 vrp 40 vrp 45 vrp 54 vrp 53 vrp 52 vrp 51 vrp 50 vrp 55 vrp 04 prp 03 prp 02 prp 01 prp 00 prp 05 prp 14 prp 13 prp 12 prp 11 prp 10 prp 15 prp 04 pkp 03 pkp 02 pkp 01 pkp 00 pkp 14 pkp 13 pkp 12 pkp 11 pkp 10 pkp 24 pkp 23 pkp 22 pkp 21 pkp 20 pkp 34 pkp 33 pkp 32 pkp 31 pkp 30 pkp 44 pkp 43 pkp 42 pkp 41 pkp 40 pkp 54 pkp 53 pkp 52 pkp 51 pkp 50 pkp 64 pkp 63 pkp 62 pkp 61 pkp 60 pkp 74 pkp 73 pkp 72 pkp 71 pkp 70 pkp 84 pkp 83 pkp 81 pkp 81 pkp 80 pkp 04 negative polarity register vrn 03 vrn 02 vrn 01 vrn 00 vrn 05 vrn 14 vrn 13 vrn 12 vrn 11 vrn 10 vrn 15 vrn 24 vrn 23 vrn 22 vrn 21 vrn 20 vrn 25 vrn 34 vrn 33 vrn 32 vrn 31 vrn 30 vrn 35 vrn 44 vrn 43 vrn 42 vrn 41 vrn 40 vrn 45 vrn 54 vrn 53 vrn 52 vrn 51 vrn 50 vrn 55 vrn 04 prn 03 prn 02 prn 01 prn 00 prn 05 prn 14 prn 13 prn 12 prn 11 prn 10 prn 15 prn 04 pkn 03 pkn 02 pkn 01 pkn 00 pkn 14 pkn 13 pkn 12 pkn 11 pkn 10 pkn 24 pkn 23 pkn 22 pkn 21 pkn 20 pkn 34 pkn 33 pkn 32 pkn 31 pkn 30 pkn 44 pkn 43 pkn 42 pkn 41 pkn 40 pkn 54 pkn 53 pkn 52 pkn 51 pkn 50 pkn 64 pkn 63 pkn 62 pkn 61 pkn 60 pkn 74 pkn 73 pkn 72 pkn 71 pkn 70 pkn 84 pkn 83 pkn 81 pkn 81 pkn 80 pkn r r 6 7 g g 6 7 b b 6 7 prn prn 06 16 06 prp 16 prp cgp5 00 cgp4 00 cgp3 01 cgp3 00 cgp2 01 cgp2 00 cgp1 01 cgp1 00 cgp0 01 cgp0 00 cgn5 00 cgn4 00 cgn3 01 cgn3 00 cgn2 01 cgn2 00 cgn1 01 cgn1 00 cgn0 01 cgn0 00 v1p/v1n v255p/v255n graphics (input data) figure 5.2: grayscale control http://www..net/ datasheet pdf - http://www..net/
-p.53- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 gamma-characteristics adjustment register this HX8363-A has register groups for specifying a series grayscale voltage that meets the gamma-characteristics for the lcd panel used. these registers are divided into two groups, which correspond to the gradient, amplitude, and ma cro adjustment of the voltage for the grayscale characteristics. the polarity of each reg ister can be specified independently. (1) offset adjustment registers the offset adjustment variable registers are used t o adjust the amplitude of the grayscale voltage. this function is implemented by controllin g these variable resisters in the top and bottom of the gamma resister stream for reference g amma voltage generation. these registers are available for both positive and negative polari ties. (2) gamma center adjustment registers the gamma center adjustment registers are used to a djust the reference gamma voltage in the middle level of grayscale without changing the dynamic range. this function is implemented by choosing one input of 88 to 1 select or in the gamma resister stream for reference gamma voltage generation. these registers are available for both positive and negative polarities. (3) gamma macro adjustment registers the gamma macro adjustment registers can be used fo r fine adjustment of the reference gamma voltage. this function is implemented by cont rolling the 32-to-1 selectors (pkp/n0~5), each of which has 5 inputs and generate s one reference voltage output (vg(p/n)3, 7, 19, 25, 32, 38, 44, 56, 60). register groups positive polarity negative polarity description prp0 6-0 prn0 6-0 variable resistor (prp/n0) for center adjustment center adjustment prp1 6-0 prn1 6-0 variable resistor (prp/n1)for center adjustment pkp0 4-0 pkn0 4-0 32-to-1 selector (voltage level of grayscale 3) pkp1 4-0 pkn1 4-0 32-to-1 selector (voltage level of grayscale 7) pkp2 4-0 pkn2 4-0 32-to-1 selector (voltage level of grayscale 19) pkp3 4-0 pkn3 4-0 32-to-1 selector (voltage level of grayscale 25) pkp4 4-0 pkn4 4-0 32-to-1 selector (voltage level of grayscale 32 for positive polarity and grayscale 31 for negative polarity) pkp5 4-0 pkn5 4-0 32-to-1 selector (voltage level of grayscale 38) pkp6 4-0 pkn6 4-0 32-to-1 selector (voltage level of grayscale 44) pkp7 4-0 pkn7 4-0 32-to-1 selector (voltage level of grayscale 56) macro adjustment pkp8 4-0 pkn8 4-0 32-to-1 selector (voltage level of grayscale 60) vrp0 5-0 vrn0 5-0 variable resistor (vrp/n0)for offset adjustment vrp1 5-0 vrn1 5-0 variable resistor (vrp/n1)for offset adjustment vrp2 5-0 vrn2 5-0 variable resistor (vrp/n2)for offset adjustment vrp3 5-0 vrn3 5-0 variable resistor (vrp/n3)for offset adjustment vrp4 5-0 vrn4 5-0 variable resistor (vrp/n4)for offset adjustment offset adjustment vrp5 5-0 vrn5 5-0 variable resistor (vrp/n5)for offset adjustment table 5.1: gamma-adjustment registers http://www..net/ datasheet pdf - http://www..net/
-p.54- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 gamma resister stream and 8 to 1 selector figure 5.3: gamma resister stream and gamma reference volt age http://www..net/ datasheet pdf - http://www..net/
-p.55- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 1r 3.5r 1r 1r 1r 3r 3.5r 2.5r 2.5r 2.5r 2r 2r 1.8r 1.5r 2r 2r 0 1 2 3 cgmp/n1 v56 v57 v58 v59 v60 1r 3.5r 1r 1r 1r 3r 3.5r 2.5r 2.5r 2.5r 2r 2r 1.8r 1.5r 2r 2r 0 1 2 3 cgmp/n0 v3 v4 v5 v6 v7 v7 v8 v9 v10 v11 v12 v13 1r 4r 1r 1r 1r 3r 4.5r 3r 4r 3r 3r 0 1 2 3 cgmp/n2 1r 1r 3r 2.5r 2.5r 2.5r 2.5r 3r 3r 2.5r 2.5r 2.5r 2.5r v50 v51 v52 v53 v54 v55 v56 1r 4r 1r 1r 1r 3r 4.5r 3r 4r 3r 3r 0 1 2 3 cgmp/n3 1r 1r 3r 2.5r 2.5r 2.5r 2.5r 3r 3r 2.5r 2.5r 2.5r 2.5r 1r 1r 1r 1r 0 1 cgmp/n5 1r 1r 1.5r 1r 1r 1r 1r 1r v44 v45 v46 v47 v48 v49 v50 1r 1r 1r 1r 0 1 cgmp/n4 1r 1r 1.5r 1r 1r 1r 1r 1r v13 v14 v15 v16 v17 v18 v19 figure 5.4: gamma resister stream http://www..net/ datasheet pdf - http://www..net/
-p.56- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 variable resister there are two types of variable resistors, one is f or center adjustment and the other is for offset adjustment. the resistances are decided by setting values in the center adjustment, offset adjustment registers. their relationships are shown below. value in register vr(p/n)0 5-0 resistance vr(p/n)0 value in register vr(p/n)1 5-0 resistance vr(p/n)1 value in register vr(p/n)2 5-0 resistance vr(p/n)2 000000 0r 000000 0r 000000 0r 000001 20r 000001 2r 000001 2r 000010 22r 000010 4r 000010 4r 000011 24r 000011 6r 000011 6r 011101 76r 011101 58r 011101 58r 011110 78r 011110 60r 011110 60r 011111 80r 011111 62r 011111 62r 100000 82r 100000 64r 100000 64r 100001 84r 100001 66r 100001 66r 100010 86r 100010 68r 100010 68r 111101 140r 111101 122r 111101 122r 111110 142r 111110 124r 111110 124r 111111 144r 111111 126r 111111 126r value in register vr(p/n)3 5-0 resistance vr(p/n)3 value in register vr(p/n)4 5-0 resistance vr(p/n)4 value in register vr(p/n)5 5-0 resistance vr(p/n)2 000000 0r 000000 0r 000000 0r 000001 2r 000001 2r 000001 2r 000010 4r 000010 4r 000010 4r 011101 58r 011101 58r 011101 58r 011110 60r 011110 60r 011110 60r 011111 62r 011111 62r 011111 62r 100000 64r 100000 64r 100000 64r 100001 66r 100001 66r 100001 66r 100010 68r 100010 68r 100010 68r 111100 120r 111100 120r 111100 120r 111101 122r 111101 122r 111101 122r 111110 124r 111110 124r 111110 124r 111111 126r 111111 126r 111111 144r table 5.2: offset adjustment 0 ~ 5 value in register pr(p/n)0 6-0 resistance pr(p/n)0 value in register pr(p/n)1 6-0 resistance pr(p/n)1 0000000 0r 0000000 0r 0000001 2r 0000001 2r 0000010 4r 0000010 4r 1010101 170r 1010101 170r 1010110 172r 1010110 172r 1010111 174r 1010111 174r table 5.3: center adjustment http://www..net/ datasheet pdf - http://www..net/
-p.57- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 the grayscale levels are determined by the followin g formulas. reference voltage macro adjustment value vinp/n0 formula vrp 0 5 - 0 = 000000 vspr vrp 0 5 - 0 = 000001 ((450r - 20r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 000010 ((450r - 22r ) / 45 0r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 000011 ((450r - 24r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 000100 ((450r - 26r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 000101 ((450r - 28r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 000110 ((450r - 30 r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 000111 ((450r - 32r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001000 ((450r - 34r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001001 ((450r - 36r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001010 ((4 50r - 38r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001011 ((450r - 40r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001100 ((450r - 42r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001101 ((450r - 44r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 00 1110 ((450r - 46r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 001111 ((450r - 48r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010000 ((450r - 50r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010001 ((450r - 52r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010010 ((450r - 54r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010011 ((450r - 56r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010100 ((450r - 58r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010101 ((450r - 60r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010110 ((450r - 62r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 010111 ((450r - 64r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011000 ((450r - 66r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011001 ((450r - 68r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011010 ((450r - 70r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011011 ((450r - 72r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011100 ((450r - 74r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011101 ((450r - 76r ) / 450r) * ( vsp r - vgsp ) + vgsp vrp 0 5 - 0 = 011110 ((450r - 78r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 011111 ((450r - 80r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100000 ((450r - 82r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100001 ((450r - 84r ) / 450r ) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100010 ((450r - 86r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100011 ((450r - 88r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100100 ((450r - 90r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100101 ((450r - 92r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100110 ((450r - 94r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 100111 ((450r - 96r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101000 ((450r - 98r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101001 ((450 r - 100r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101010 ((450r - 102r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101011 ((450r - 104r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101100 ((450r - 106r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 1011 01 ((450r - 108r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101110 ((450r - 110r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 101111 ((450r - 112r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110000 ((450r - 114r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110001 ((450r - 116r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110010 ((450r - 118r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110011 ((450r - 120r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110100 ((450r - 122r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110101 ((450r - 124r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110110 ((450r - 126r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 110111 ((450r - 128r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111000 ((450r - 130r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111001 ((450r - 132r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111010 ((450r - 134r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111011 ((450r - 136r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111100 ((450r - 138r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111101 ((450r - 140r) / 450r) * ( vspr - vgsp ) + vgsp vrp 0 5 - 0 = 111110 ((450r - 142r) / 450r) * ( vspr - vgsp ) + vgsp vinp0 vrp 0 5 - 0 = 111111 ((450r - 144r) / 450r) * ( vspr - vgsp ) + vgsp table 5.4: vinp 0 http://www..net/ datasheet pdf - http://www..net/
-p.58- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n1 formula vrp 1 5 - 0 = 000000 (430r / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000001 ((430r - 2r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000010 ((430r - 4r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000011 ((430r - 6r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000100 ((430r - 8r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000101 ((430r - 10r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000110 ((430r - 12r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 000111 ((430r - 14r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001000 ((430r - 16r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001001 ((430r - 18r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001010 ((430r - 20r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001011 ((430r - 22r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001100 ((430r - 24r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001101 ((430r - 26r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001110 ((430r - 28r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 001111 ((430r - 30r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010000 ((430r - 32r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010001 ((430r - 34r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010010 ((430r - 36r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010011 ((430r - 38r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010100 ((430r - 40r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010101 ((430r - 42r ) / 450r) * ( vspr - vgsp ) + vgsp vr p 1 5 - 0 = 010110 ((430r - 44r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 010111 ((430r - 46r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 011000 ((430r - 48r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 011001 ((430r - 50r ) / 450r) * ( vspr - vgsp ) + v gsp vrp 1 5 - 0 = 011010 ((430r - 52r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 011011 ((430r - 54r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 011100 ((430r - 56r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 011101 ((430r - 58r ) / 450r) * ( vspr - v gsp ) + vgsp vrp 1 5 - 0 = 011110 ((430r - 60r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 011111 ((430r - 62r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100000 ((430r - 64r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100001 ((430r - 66r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100010 ((430r - 68r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100011 ((430r - 70r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100100 ((430r - 72r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100101 ((430r - 74r ) / 4 50r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100110 ((430r - 76r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 100111 ((430r - 78r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101000 ((430r - 80r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101001 ((430r - 8 2r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101010 ((430r - 84r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101011 ((430r - 86r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101100 ((430r - 88r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101101 (( 430r - 90r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101110 ((430r - 92r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 101111 ((430r - 94r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110000 ((430r - 96r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 1 10001 ((430r - 98r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110010 ((430r - 100r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110011 ((430r - 102r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110100 ((430r - 104r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110101 ((430r - 106r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110110 ((430r - 108r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 110111 ((430r - 110r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 111000 ((430r - 112r) / 450r) * ( vspr - vgsp ) + vgs p vrp 1 5 - 0 = 111001 ((430r - 114r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 111010 ((430r - 116r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 111011 ((430r - 118r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 111100 ((430r - 120r) / 450r) * ( vspr - vgs p ) + vgsp vrp 1 5 - 0 = 111101 ((430r - 122r) / 450r) * ( vspr - vgsp ) + vgsp vrp 1 5 - 0 = 111110 ((430r - 124r) / 450r) * ( vspr - vgsp ) + vgsp vinp1 vrp 1 5 - 0 = 111111 ((430r - 126r) / 450r) * ( vspr - vgsp ) + vgsp table 5.5: vinp 1 http://www..net/ datasheet pdf - http://www..net/
-p.59- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n2 formula vrp 2 5 - 0 = 000000 (420r / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000001 ((420r - 2r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000010 ((420r - 4r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000011 ((420r - 6r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000100 ((420r - 8r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000101 ((420r - 10r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000110 ((420r - 12r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 000111 ((420r - 14r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001000 ((420r - 16r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001001 ((420r - 18r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001010 ((420r - 20r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001011 ((420r - 22r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001100 ((420r - 24r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001101 ((420r - 26r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001110 ((420r - 28r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 001111 ((420r - 30r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010000 ((420r - 32r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010001 ((420r - 34r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010010 ( (420r - 36r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010011 ((420r - 38r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010100 ((420r - 40r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010101 ((420r - 42r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010110 ((420r - 44r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 010111 ((420r - 46r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011000 ((420r - 48r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011001 ((420r - 50r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011010 ((420r - 52r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011011 ((420r - 54r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011100 ((420r - 56r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011101 ((420r - 58r ) / 450r) * ( vspr - vgsp ) + vg sp vrp 2 5 - 0 = 011110 ((420r - 60r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 011111 ((420r - 62r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 100000 ((420r - 64r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 100001 ((420r - 66r ) / 450r) * ( vspr - vg sp ) + vgsp vrp 2 5 - 0 = 100010 ((420r - 68r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 100011 ((420r - 70r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 100100 ((420r - 72r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 100101 ((420r - 74r ) / 450r) * ( v spr - vgsp ) + vgsp vrp 2 5 - 0 = 100110 ((420r - 76r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 100111 ((420r - 78r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101000 ((420r - 80r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101001 ((420r - 82r ) / 45 0r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101010 ((420r - 84r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101011 ((420r - 86r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101100 ((420r - 88r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101101 ((420r - 90 r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101110 ((420r - 92r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 101111 ((420r - 94r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110000 ((420r - 96r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110001 ((4 20r - 98r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110010 ((420r - 100r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110011 ((420r - 102r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110100 ((420r - 104r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 11 0101 ((420r - 106r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110110 ((420r - 108r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 110111 ((420r - 110r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111000 ((420r - 112r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111001 ((420r - 114r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111010 ((420r - 116r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111011 ((420r - 118r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111100 ((420r - 120r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111101 ((420r - 122r) / 450r) * ( vspr - vgsp ) + vgsp vrp 2 5 - 0 = 111110 ((420r - 124r) / 450r) * ( vspr - vgsp ) + vgsp vinp2 vrp 2 5 - 0 = 111111 ((420r - 126r) / 450r) * ( vspr - vgsp ) + vgsp table 5.6: vinp 2 http://www..net/ datasheet pdf - http://www..net/
-p.60- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n14 formula vrp 3 5 - 0 = 000000 (156r / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 000001 ((156r - 2r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 000010 ((156r - 4r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 000011 ((156r - 6r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 000100 ((156r - 8r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 000101 ((156r - 10r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 000110 ((156r - 12r ) / 450r) * ( vsp r - vgsp ) + vgsp vrp 3 5 - 0 = 000111 ((156r - 14r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001000 ((156r - 16r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001001 ((156r - 18r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001010 ((156r - 20r ) / 450r ) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001011 ((156r - 22r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001100 ((156r - 24r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001101 ((156r - 26r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001110 ((156r - 28r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 001111 ((156r - 30r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010000 ((156r - 32r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010001 ((156r - 34r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010010 ((156 r - 36r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010011 ((156r - 38r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010100 ((156r - 40r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010101 ((156r - 42r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 0101 10 ((156r - 44r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 010111 ((156r - 46r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011000 ((156r - 48r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011001 ((156r - 50r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011010 ((156r - 52r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011011 ((156r - 54r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011100 ((156r - 56r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011101 ((156r - 58r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011110 ((156r - 60r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 011111 ((156r - 62r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100000 ((156r - 64r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100001 ((156r - 66r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100010 ((156r - 68r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100011 ((156r - 70r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100100 ((156r - 72r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100101 ((156r - 74r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100110 ((156r - 76r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 100111 ((156r - 78r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101000 ((156r - 80r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101001 ((156r - 82r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101010 ((156r - 84r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101011 ((156r - 86r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101100 ((156r - 88r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101101 ((156r - 90r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101110 ((156r - 92r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 101111 ((156r - 94r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110000 ((156r - 96r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110001 ((156r - 98r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110010 ((156r - 100r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110011 ((156r - 102r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110100 ((156r - 104r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110101 ((156r - 106r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110110 ((156r - 108r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 110111 ((156r - 110r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 111000 ((156r - 112r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 111001 ((156r - 114r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 111010 ((156r - 116r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 111011 ((156r - 118r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 111100 ((156r - 120r) / 450r) * ( vspr - vgsp ) + vgsp v rp 3 5 - 0 = 111101 ((156r - 122r) / 450r) * ( vspr - vgsp ) + vgsp vrp 3 5 - 0 = 111110 ((156r - 124r) / 450r) * ( vspr - vgsp ) + vgsp vinp14 vrp 3 5 - 0 = 111111 ((156r - 126r) / 450r) * ( vspr - vgsp ) + vgsp table 5.7: vinp 14 http://www..net/ datasheet pdf - http://www..net/
-p.61- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n15formula vrp 4 5 - 0 = 000000 (146r / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000001 ((146r - 2r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000010 ((146r - 4r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000011 ((146r - 6r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000100 ((146r - 8r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000101 ((146r - 10r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000110 ((146r - 12r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 000111 ((146r - 14r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001000 ((146r - 16r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001001 ((146r - 18r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001010 ((146r - 20r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001011 ((146r - 22r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001100 ((146r - 24r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001101 ((146r - 26r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001110 ((146r - 28r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 001111 ((146r - 30r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010000 ((146r - 32r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010001 ((146r - 34r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010010 ((146r - 36r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010011 ((146r - 38r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010100 ((146r - 40r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010101 ((146r - 42r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010110 ((146r - 44r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 010111 ((146r - 46r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011000 ((146r - 48r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011001 ((146r - 50r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011010 ((146r - 52r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011011 ((146r - 54r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011100 ((146r - 56r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011101 ((146r - 58r ) / 450r) * ( vspr - vgsp ) + vgsp vr p 4 5 - 0 = 011110 ((146r - 60r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 011111 ((146r - 62r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 100000 ((146r - 64r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 100001 ((146r - 66r ) / 450r) * ( vspr - vgsp ) + v gsp vrp 4 5 - 0 = 100010 ((146r - 68r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 100011 ((146r - 70r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 100100 ((146r - 72r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 100101 ((146r - 74r ) / 450r) * ( vspr - v gsp ) + vgsp vrp 4 5 - 0 = 100110 ((146r - 76r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 100111 ((146r - 78r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101000 ((146r - 80r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101001 ((146r - 82r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101010 ((146r - 84r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101011 ((146r - 86r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101100 ((146r - 88r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101101 ((146r - 90r ) / 4 50r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101110 ((146r - 92r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 101111 ((146r - 94r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110000 ((146r - 96r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110001 ((146r - 9 8r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110010 ((146r - 100r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110011 ((146r - 102r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110100 ((146r - 104r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110101 (( 146r - 106r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110110 ((146r - 108r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 110111 ((146r - 110r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 111000 ((146r - 112r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 1 11001 ((146r - 114r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 111010 ((146r - 116r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 111011 ((146r - 118r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 111100 ((146r - 120r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 111101 ((146r - 122r) / 450r) * ( vspr - vgsp ) + vgsp vrp 4 5 - 0 = 111110 ((146r - 124r) / 450r) * ( vspr - vgsp ) + vgsp vinp15 vrp 4 5 - 0 = 111111 ((146r - 126r) / 450r) * ( vspr - vgsp ) + vgsp table 5.8: vinp 15 http://www..net/ datasheet pdf - http://www..net/
-p.62- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n16 formula vrp 5 5 - 0 = 000000 (144r / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000001 ((144r - 2r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000010 ((144r - 4r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000011 ((144r - 6r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000100 ((144r - 8r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000101 ((144r - 10r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000110 ((144r - 12r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 000111 ((144r - 14r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001000 ((144r - 16r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001001 ((144r - 18r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001010 ((144r - 20r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001011 ((144r - 22r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001100 ((144r - 24r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001101 ((144r - 26r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001110 ((144r - 28r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 001111 ((144r - 30r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010000 ((144r - 32r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010001 ((144r - 34r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010010 ((144r - 36r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010011 ((144r - 38r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010100 ((144r - 40r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010101 ((144r - 42r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010110 ((144r - 44r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 010111 ((144r - 46r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011000 ((144r - 48r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011001 ((144r - 50r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011010 ((144r - 52r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011011 ((144r - 54r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011100 ((144r - 56r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011101 ((144r - 58r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011110 ((144r - 60r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 011111 ((144r - 62r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100000 ((144r - 64r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100001 ((144r - 66r ) / 450r) * ( vspr - vgsp ) + vgsp v rp 5 5 - 0 = 100010 ((144r - 68r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100011 ((144r - 70r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100100 ((144r - 72r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100101 ((144r - 74r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100110 ((144r - 76r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 100111 ((144r - 78r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101000 ((144r - 80r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101001 ((144r - 82r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101010 ((144r - 84r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101011 ((144r - 86r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101100 ((144r - 88r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101101 ((144r - 90r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101110 ((144r - 92r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 101111 ((144r - 94r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110000 ((144r - 96r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110001 ((144r - 98r ) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110010 ((144r - 100r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110011 ((144r - 102r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110100 ((144r - 104r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110101 ((144r - 106r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110110 ((144r - 108r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 110111 ((144r - 110r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111000 ((144r - 112r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111001 ( (144r - 114r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111010 ((144r - 116r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111011 ((144r - 118r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111100 ((144r - 120r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111101 ((144r - 122r) / 450r) * ( vspr - vgsp ) + vgsp vrp 5 5 - 0 = 111110 ((144r - 124r) / 450r) * ( vspr - vgsp ) + vgsp vinp16 vrp 5 5 - 0 = 111111 vgsp table 5.9: vinp 16 http://www..net/ datasheet pdf - http://www..net/
-p.63- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value v inp/n5 formula prp 0 6 - 0 = 0000000 (350r / 450r) ( vspr - vgsp ) + vgsp prp0 6-0 = 0000001 ((350r - 2r) / 450r) * (vspr - v gsp) + vgsp prp0 6-0 = 0000010 ((350r - 4r) / 450r) * (vspr - v gsp) + vgsp prp0 6-0 = 0000011 ((350r C 6r) / 450r) * (vspr - v gsp) + vgsp prp0 6-0 = 0000100 ((350r C 8r) / 450r) * (vspr - v gsp) + vgsp prp0 6-0 = 0000101 ((350r C 10r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0000110 ((350r C 12r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0000111 ((350r - 14r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001000 ((350r C 16r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001001 ((350r C 18r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001010 ((350r C 20r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001011 ((350r C 22r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001100 ((350r C 24r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001101 ((350r C 26r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001110 ((350r C 28r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0001111 ((350r C 30r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010000 ((350r C 32r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010001 ((350r - 34r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010010 ((350r C 36r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010011 ((350r C 38r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010100 ((350r C 40r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010101 ((350r C 42r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010110 ((350r C 44r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0010111 ((350r C 46r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011000 ((350r C 48r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011001 ((350r C 50r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011010 ((350r C 52r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011011 ((350r - 54r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011100 ((350r C 56r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011101 ((350r C 58r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011110 ((350r C 60r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0011111 ((350r C 62r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100000 ((350r - 64r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100001 ((350r C 66r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100010 ((350r C 68r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100011 ((350r C 70r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100100 ((350r C 72r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100101 ((350r C 74r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100110 ((350r C 76r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0100111 ((350r C 78r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101000 ((350r C 80r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101001 ((350r C 82r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101010 ((350r - 84r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101011 ((350r C 86r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101100 ((350r C 88r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101101 ((350r C 90r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101110 ((350r C 92r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0101111 ((350r C 94r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110000 ((350r C 96r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110001 ((350r C 98r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110010 ((350r C 100r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110011 ((350r C 102r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110100 ((350r C 104r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110101 ((350r C 106r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110110 ((350r C 108r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0110111 ((350r C 110r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111000 ((350r C 112r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111001 ((350r C 114r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111010 ((350r C 116r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111011 ((350r C 118r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111100 ((350r C 120r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111101 ((350r C 122r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111110 ((350r - 124r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 0111111 ((350r C 126r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1000000 ((350r C 128r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1000001 ((350r C 130r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1000010 ((350r - 132r) / 450r) * (vspr - vgsp) + vgsp vinp5 prp0 6-0 = 1000011 ((350r C 134r) / 450r) * (vspr - vgsp) + vgsp http://www..net/ datasheet pdf - http://www..net/
-p.64- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 prp 0 6 - 0 = 1000100 ((350r C 136r) / 450r) * ( vspr - vgsp ) + vgsp prp0 6-0 = 1000101 ((350r C 138r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1000110 ((350r C 140r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1000111 ((350r C 142r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001000 ((350r C 144r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001001 ((350r C 146r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001010 ((350r C 148r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001011 ((350r C 150r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001100 ((350r - 152r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001101 ((350r C 154r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001110 ((350r C 156r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1001111 ((350r C 158r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010000 ((350r C 160r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010001 ((350r C 162r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010010 ((350r C 164r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010011 ((350r C 166r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010100 ((350r C 168r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010101 ((350r C 170r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010110 ((350r C 172r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1010111 ((350r - 174r) / 450r) * (vspr - vgsp) + vgsp prp0 6-0 = 1011000 - prp0 6-0 = 1011001 - prp0 6-0 = 1011010 - prp0 6-0 = 1011011 - prp0 6-0 = 1011100 - prp0 6-0 = 1011101 - prp0 6-0 = 1011110 - prp0 6-0 = 1011111 - prp0 6-0 = 1100000 - prp0 6-0 = 1100001 - prp0 6-0 = 1100010 - prp0 6-0 = 1100011 - prp0 6-0 = 1100100 - prp0 6-0 = 1100101 - prp0 6-0 = 1100110 - prp0 6-0 = 1100111 - prp0 6-0 = 1101000 - prp0 6-0 = 1101001 - prp0 6-0 = 1101010 - prp0 6-0 = 1101011 - prp0 6-0 = 1101100 - prp0 6-0 = 1101101 - prp0 6-0 = 1101110 - prp0 6-0 = 1101111 - prp0 6-0 = 1110000 - prp0 6-0 = 1110001 - prp0 6-0 = 1110010 - prp0 6-0 = 1110011 - prp0 6-0 = 1110100 - prp0 6-0 = 1110101 - prp0 6-0 = 1110110 - prp0 6-0 = 1110111 - prp0 6-0 = 1111000 - prp0 6-0 = 1111001 - prp0 6-0 = 1111010 - prp0 6-0 = 1111011 - prp0 6-0 = 1111100 - prp0 6-0 = 1111101 - prp0 6-0 = 1111110 - prp0 6-0 = 1111111 - table 5.10: vinp5 http://www..net/ datasheet pdf - http://www..net/
-p.65- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n11 formula prp 1 6 - 0 = 0000000 (274r / 450r) ( vspr - vgsp ) + vgsp prp1 6-0 = 0000001 ((274r - 2r) / 450r) * (vspr - v gsp) + vgsp prp1 6-0 = 0000010 ((274r - 4r) / 450r) * (vspr - v gsp) + vgsp prp1 6-0 = 0000011 ((274r C 6r) / 450r) * (vspr - v gsp) + vgsp prp1 6-0 = 0000100 ((274r C 8r) / 450r) * (vspr - v gsp) + vgsp prp1 6-0 = 0000101 ((274r C 10r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0000110 ((274r C 12r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0000111 ((274r - 14r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001000 ((274r C 16r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001001 ((274r C 18r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001010 ((274r C 20r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001011 ((274r C 22r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001100 ((274r C 24r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001101 ((274r C 26r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001110 ((274r C 28r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0001111 ((274r C 30r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010000 ((274r C 32r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010001 ((274r - 34r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010010 ((274r C 36r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010011 ((274r C 38r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010100 ((274r C 40r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010101 ((274r C 42r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010110 ((274r C 44r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0010111 ((274r C 46r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011000 ((274r C 48r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011001 ((274r C 50r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011010 ((274r C 52r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011011 ((274r - 54r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011100 ((274r C 56r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011101 ((274r C 58r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011110 ((274r C 60r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0011111 ((274r C 62r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100000 ((274r - 64r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100001 ((274r C 66r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100010 ((274r C 68r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100011 ((274r C 70r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100100 ((274r C 72r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100101 ((274r C 74r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100110 ((274r C 76r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0100111 ((274r C 78r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101000 ((274r C 80r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101001 ((274r C 82r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101010 ((274r - 84r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101011 ((274r C 86r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101100 ((274r C 88r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101101 ((274r C 90r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101110 ((274r C 92r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0101111 ((274r C 94r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110000 ((274r C 96r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110001 ((274r C 98r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110010 ((274r C 100r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110011 ((274r C 102r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110100 ((274r C 104r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110101 ((274r C 106r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110110 ((274r C 108r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0110111 ((274r C 110r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111000 ((274r C 112r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111001 ((274r C 114r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111010 ((274r C 116r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111011 ((274r C 118r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111100 ((274r C 120r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111101 ((274r C 122r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111110 ((274r - 124r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 0111111 ((274r C 126r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1000000 ((274r C 128r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1000001 ((274r C 130r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1000010 ((274r - 132r) / 450r) * (vspr - vgsp) + vgsp vinp11 prp1 6-0 = 1000011 ((274r C 134r) / 450r) * (vspr - vgsp) + vgsp http://www..net/ datasheet pdf - http://www..net/
-p.66- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 prp 1 6 - 0 = 1000100 ((274r C 136r) / 450r) * ( vspr - vgsp ) + vgsp prp1 6-0 = 1000101 ((274r C 138r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1000110 ((274r C 140r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1000111 ((274r C 142r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001000 ((274r C 144r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001001 ((274r C 146r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001010 ((274r C 148r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001011 ((274r C 150r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001100 ((274r - 152r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001101 ((274r C 154r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001110 ((274r C 156r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1001111 ((274r C 158r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010000 ((274r C 160r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010001 ((274r C 162r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010010 ((274r C 164r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010011 ((274r C 166r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010100 ((274r C 168r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010101 ((274r C 170r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010110 ((274r C 172r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1010111 ((274r - 174r) / 450r) * (vspr - vgsp) + vgsp prp1 6-0 = 1011000 - prp1 6-0 = 1011001 - prp1 6-0 = 1011010 - prp1 6-0 = 1011011 - prp1 6-0 = 1011100 - prp1 6-0 = 1011101 - prp1 6-0 = 1011110 - prp1 6-0 = 1011111 - prp1 6-0 = 1100000 - prp1 6-0 = 1100001 - prp1 6-0 = 1100010 - prp1 6-0 = 1100011 - prp1 6-0 = 1100100 - prp1 6-0 = 1100101 - prp1 6-0 = 1100110 - prp1 6-0 = 1100111 - prp1 6-0 = 1101000 - prp1 6-0 = 1101001 - prp1 6-0 = 1101010 - prp1 6-0 = 1101011 - prp1 6-0 = 1101100 - prp1 6-0 = 1101101 - prp1 6-0 = 1101110 - prp1 6-0 = 1101111 - prp1 6-0 = 1110000 - prp1 6-0 = 1110001 - prp1 6-0 = 1110010 - prp1 6-0 = 1110011 - prp1 6-0 = 1110100 - prp1 6-0 = 1110101 - prp1 6-0 = 1110110 - prp1 6-0 = 1110111 - prp1 6-0 = 1111000 - prp1 6-0 = 1111001 - prp1 6-0 = 1111010 - prp1 6-0 = 1111011 - prp1 6-0 = 1111100 - prp1 6-0 = 1111101 - prp1 6-0 = 1111110 - prp1 6-0 = 1111111 - table 5.11: vinp 11 http://www..net/ datasheet pdf - http://www..net/
-p.67- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp/n3 formula pkp 0 4 - 0 = 00000 (47r / 48r) * ( vinp 2 - vinp 5) + vinp 5 pkp0 4-0 = 00001 ((47r C 1r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 00010 ((47r C 2r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 00011 ((47r C 3r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 00100 ((47r C 4r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 00101 ((47r C 5r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 00110 ((47r C 6r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 00111 ((47r C 7r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 01000 ((47r C 8r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 01001 ((47r C 9r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp0 4-0 = 01010 ((47r - 10r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 01011 ((47r - 11r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 01100 ((47r - 12r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 01101 ((47r - 13r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 01110 ((47r - 14r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 01111 ((47r - 15r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10000 ((47r - 16r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10001 ((47r - 17r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10010 ((47r - 18r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10011 ((47r - 19r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10100 ((47r - 20r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10101 ((47r - 21r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10110 ((47r - 22r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 10111 ((47r - 23r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11000 ((47r - 24r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11001 ((47r - 25r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11010 ((47r - 26r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11011 ((47r - 27r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11100 ((47r - 28r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11101 ((47r - 29r) / 48r) * (vinp2 - vin p5) + vinp5 pkp0 4-0 = 11110 ((47r - 30r) / 48r) * (vinp2 - vin p5) + vinp5 vinp3 pkp0 4-0 = 11111 ((47r - 31r) / 48r) * (vinp2 - vin p5) + vinp5 table 5.12: vinp 3 reference voltage macro adjustment value vinp4 formula pkp1 4-0 = 00000 (32r / 48r) * (vinp2 - vinp5) + vi np5 pkp1 4-0 = 00001 ((32r - 1r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 00010 ((32r - 2r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 00011 ((32r - 3r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 00100 ((32r - 4r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 00101 ((32r - 5r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 00110 ((32r - 6r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 00111 ((32r - 7r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 01000 ((32r - 8r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 01001 ((32r - 9r) / 48r) * (vinp2 - vinp 5) + vinp5 pkp1 4-0 = 01010 ((32r - 10r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 01011 ((32r - 11r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 01100 ((32r - 12r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 01101 ((32r - 13r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 01110 ((32r - 14r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 01111 ((32r - 15r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10000 ((32r - 16r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10001 ((32r - 17r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10010 ((32r - 18r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10011 ((32r - 19r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10100 ((32r - 20r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10101 ((32r - 21r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10110 ((32r - 22r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 10111 ((32r - 23r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11000 ((32r - 24r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11001 ((32r - 25r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11010 ((32r - 26r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11011 ((32r - 27r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11100 ((32r - 28r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11101 ((32r - 29r) / 48r) * (vinp2 - vin p5) + vinp5 pkp1 4-0 = 11110 ((32r - 30r) / 48r) * (vinp2 - vin p5) + vinp5 vinp4 pkp1 4-0 = 11111 ((32r - 31r) / 48r) * (vinp2 - vin p5) + vinp5 table 5.13: vinp 4 http://www..net/ datasheet pdf - http://www..net/
-p.68- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp6 formula pkp2 4-0 = 00000 (220r / 223r) * (vinp5 - vinp11) + vinp11 pkp2 4-0 = 00001 ((220r - 3r) / 223r) * (vinp5 - vi np11) + vinp11 pkp2 4-0 = 00010 ((220r - 6r) / 223r) * (vinp5 - vi np11) + vinp11 pkp2 4-0 = 00011 ((220r - 9r) / 223r) * (vinp5 - vi np11) + vinp11 pkp2 4-0 = 00100 ((220r - 12r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 00101 ((220r - 15r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 00110 ((220r - 18r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 00111 ((220r - 21r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01000 ((220r - 24r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01001 ((220r - 27r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01010 ((220r - 30r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01011 ((220r - 33r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01100 ((220r - 36r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01101 ((220r - 39r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01110 ((220r - 42r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 01111 ((220r - 45r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10000 ((220r - 48r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10001 ((220r - 51r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10010 ((220r - 54r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10011 ((220r - 57r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10100 ((220r - 60r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10101 ((220r - 63r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10110 ((220r - 66r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 10111 ((220r - 69r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11000 ((220r - 72r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11001 ((220r - 75r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11010 ((220r - 78r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11011 ((220r - 81r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11100 ((220r - 84r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11101 ((220r - 87r) / 223r) * (vinp5 - v inp11) + vinp11 pkp2 4-0 = 11110 ((220r - 90r) / 223r) * (vinp5 - v inp11) + vinp11 vinp6 pkp2 4-0 = 11111 ((220r - 93r) / 223r) * (vinp5 - v inp11) + vinp11 table 5.14: vinp 6 reference voltage macro adjustment value vinp7 formula pkp3 4-0 = 00000 (193r / 223r) * (vinp5 - vinp11) + vinp11 pkp3 4-0 = 00001 ((193r - 3r) / 223r) * (vinp5 - vi np11) + vinp11 pkp3 4-0 = 00010 ((193r - 6r) / 223r) * (vinp5 - vi np11) + vinp11 pkp3 4-0 = 00011 ((193r - 9r) / 223r) * (vinp5 - vi np11) + vinp11 pkp3 4-0 = 00100 ((193r - 12r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 00101 ((193r - 15r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 00110 ((193r - 18r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 00111 ((193r - 21r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01000 ((193r - 24r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01001 ((193r - 27r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01010 ((193r - 30r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01011 ((193r - 33r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01100 ((193r - 36r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01101 ((193r - 39r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01110 ((193r - 42r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 01111 ((193r - 45r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10000 ((193r - 48r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10001 ((193r - 51r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10010 ((193r - 54r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10011 ((193r - 57r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10100 ((193r - 60r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10101 ((193r - 63r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10110 ((193r - 66r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 10111 ((193r - 69r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11000 ((193r - 72r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11001 ((193r - 75r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11010 ((193r - 78r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11011 ((193r - 81r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11100 ((193r - 84r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11101 ((193r - 87r) / 223r) * (vinp5 - v inp11) + vinp11 pkp3 4-0 = 11110 ((193r - 90r) / 223r) * (vinp5 - v inp11) + vinp11 vinp7 pkp3 4-0 = 11111 ((193r - 93r) / 223r) * (vinp5 - v inp11) + vinp11 table 5.15: vinp 7 http://www..net/ datasheet pdf - http://www..net/
-p.69- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp8 formula pkp4 4-0 = 00000 (158r / 223r) * (vinp5 - vinp11) + vinp11 pkp4 4-0 = 00001 ((158r - 3r) / 223r) * (vinp5 - vi np11) + vinp11 pkp4 4-0 = 00010 ((158r - 6r) / 223r) * (vinp5 - vi np11) + vinp11 pkp4 4-0 = 00011 ((158r - 9r) / 223r) * (vinp5 - vi np11) + vinp11 pkp4 4-0 = 00100 ((158r - 12r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 00101 ((158r - 15r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 00110 ((158r - 18r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 00111 ((158r - 21r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01000 ((158r - 24r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01001 ((158r - 27r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01010 ((158r - 30r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01011 ((158r - 33r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01100 ((158r - 36r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01101 ((158r - 39r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01110 ((158r - 42r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 01111 ((158r - 45r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10000 ((158r - 48r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10001 ((158r - 51r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10010 ((158r - 54r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10011 ((158r - 57r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10100 ((158r - 60r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10101 ((158r - 63r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10110 ((158r - 66r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 10111 ((158r - 69r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11000 ((158r - 72r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11001 ((158r - 75r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11010 ((158r - 78r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11011 ((158r - 81r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11100 ((158r - 84r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11101 ((158r - 87r) / 223r) * (vinp5 - v inp11) + vinp11 pkp4 4-0 = 11110 ((158r - 90r) / 223r) * (vinp5 - v inp11) + vinp11 vinp8 pkp4 4-0 = 11111 ((158r - 93r) / 223r) * (vinp5 - v inp11) + vinp11 table 5.16: vinp 8 reference voltage macro adjustment value vinp9 formula pkp5 4-0 = 00000 (123r / 223r) * (vinp5 - vinp11) + vinp11 pkp5 4-0 = 00001 ((123r - 3r) / 223r) * (vinp5 - vi np11) + vinp11 pkp5 4-0 = 00010 ((123r - 6r) / 223r) * (vinp5 - vi np11) + vinp11 pkp5 4-0 = 00011 ((123r - 9r) / 223r) * (vinp5 - vi np11) + vinp11 pkp5 4-0 = 00100 ((123r - 12r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 00101 ((123r - 15r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 00110 ((123r - 18r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 00111 ((123r - 21r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01000 ((123r - 24r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01001 ((123r - 27r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01010 ((123r - 30r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01011 ((123r - 33r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01100 ((123r - 36r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01101 ((123r - 39r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01110 ((123r - 42r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 01111 ((123r - 45r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10000 ((123r - 48r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10001 ((123r - 51r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10010 ((123r - 54r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10011 ((123r - 57r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10100 ((123r - 60r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10101 ((123r - 63r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10110 ((123r - 66r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 10111 ((123r - 69r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11000 ((123r - 72r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11001 ((123r - 75r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11010 ((123r - 78r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11011 ((123r - 81r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11100 ((123r - 84r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11101 ((123r - 87r) / 223r) * (vinp5 - v inp11) + vinp11 pkp5 4-0 = 11110 ((123r - 90r) / 223r) * (vinp5 - v inp11) + vinp11 vinp9 pkp5 4-0 = 11111 ((123r - 93r) / 223r) * (vinp5 - v inp11) + vinp11 table 5.17: vinp 9 http://www..net/ datasheet pdf - http://www..net/
-p.70- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp10 formula pkp6 4-0 = 00000 (96r / 223r) * (vinp5 - vinp11) + vinp11 pkp6 4-0 = 00001 ((96r - 3r) / 223r) * (vinp5 - vin p11) + vinp11 pkp6 4-0 = 00010 ((96r - 6r) / 223r) * (vinp5 - vin p11) + vinp11 pkp6 4-0 = 00011 ((96r - 9r) / 223r) * (vinp5 - vin p11) + vinp11 pkp6 4-0 = 00100 ((96r - 12r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 00101 ((96r - 15r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 00110 ((96r - 18r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 00111 ((96r - 21r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01000 ((96r - 24r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01001 ((96r - 27r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01010 ((96r - 30r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01011 ((96r - 33r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01100 ((96r - 36r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01101 ((96r - 39r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01110 ((96r - 42r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 01111 ((96r - 45r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10000 ((96r - 48r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10001 ((96r - 51r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10010 ((96r - 54r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10011 ((96r - 57r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10100 ((96r - 60r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10101 ((96r - 63r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10110 ((96r - 66r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 10111 ((96r - 69r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11000 ((96r - 72r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11001 ((96r - 75r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11010 ((96r - 78r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11011 ((96r - 81r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11100 ((96r - 84r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11101 ((96r - 87r) / 223r) * (vinp5 - vi np11) + vinp11 pkp6 4-0 = 11110 ((96r - 90r) / 223r) * (vinp5 - vi np11) + vinp11 vinp10 pkp6 4-0 = 11111 ((96r - 93r) / 223r) * (vinp5 - vi np11) + vinp11 table 5.18: vinp 10 reference voltage macro adjustment value vinp12 formula pkp7 4-0 = 00000 (47r / 48r) * (vinp11 - vinp14) + vinp14 pkp7 4-0 = 00001 ((47r - 1r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 00010 ((47r - 2r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 00011 ((47r - 3r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 00100 ((47r - 4r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 00101 ((47r - 5r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 00110 ((47r - 6r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 00111 ((47r - 7r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 01000 ((47r - 8r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 01001 ((47r - 9r) / 48r) * (vinp11 - vin p14) + vinp14 pkp7 4-0 = 01010 ((47r - 10r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 01011 ((47r - 11r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 01100 ((47r - 12r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 01101 ((47r - 13r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 01110 ((47r - 14r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 01111 ((47r - 15r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10000 ((47r - 16r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10001 ((47r - 17r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10010 ((47r - 18r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10011 ((47r - 19r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10100 ((47r - 20r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10101 ((47r - 21r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10110 ((47r - 22r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 10111 ((47r - 23r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11000 ((47r - 24r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11001 ((47r - 25r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11010 ((47r - 26r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11011 ((47r - 27r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11100 ((47r - 28r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11101 ((47r - 29r) / 48r) * (vinp11 - vi np14) + vinp14 pkp7 4-0 = 11110 ((47r - 30r) / 48r) * (vinp11 - vi np14) + vinp14 vinp12 pkp7 4-0 = 11111 ((47r - 31r) / 48r) * (vinp11 - vi np14) + vinp14 table 5.19: vinp 12 http://www..net/ datasheet pdf - http://www..net/
-p.71- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinp13 formula pkp8 4-0 = 00000 (32r / 48r) * (vinp11 - vinp14) + vinp14 pkp8 4-0 = 00001 ((32r - 1r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 00010 ((32r - 2r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 00011 ((32r - 3r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 00100 ((32r - 4r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 00101 ((32r - 5r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 00110 ((32r - 6r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 00111 ((32r - 7r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 01000 ((32r - 8r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 01001 ((32r - 9r) / 48r) * (vinp11 - vin p14) + vinp14 pkp8 4-0 = 01010 ((32r - 10r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 01011 ((32r - 11r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 01100 ((32r - 12r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 01101 ((32r - 13r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 01110 ((32r - 14r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 01111 ((32r - 15r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10000 ((32r - 16r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10001 ((32r - 17r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10010 ((32r - 18r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10011 ((32r - 19r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10100 ((32r - 20r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10101 ((32r - 21r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10110 ((32r - 22r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 10111 ((32r - 23r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11000 ((32r - 24r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11001 ((32r - 25r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11010 ((32r - 26r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11011 ((32r - 27r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11100 ((32r - 28r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11101 ((32r - 29r) / 48r) * (vinp11 - vi np14) + vinp14 pkp8 4-0 = 11110 ((32r - 30r) / 48r) * (vinp11 - vi np14) + vinp14 vinp13 pkp8 4-0 = 11111 ((32r - 31r) / 48r) * (vinp11 - vi np14) + vinp14 table 5.20: vinp 13 http://www..net/ datasheet pdf - http://www..net/
-p.72- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn0 formula vrn0 5-0 = 000000 vsnr vrn0 5-0 = 000001 ((450r - 20r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 000010 ((450r - 22r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 000011 ((450r - 24r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 000100 ((450r - 26r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 000101 ((450r - 28r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 000110 ((450r - 30r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 000111 ((450r - 32r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001000 ((450r - 34r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001001 ((450r - 36r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001010 ((450r - 38r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001011 ((450r - 40r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001100 ((450r - 42r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001101 ((450r - 44r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001110 ((450r - 46r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 001111 ((450r - 48r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010000 ((450r - 50r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010001 ((450r - 52r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010010 ((450r - 54r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010011 ((450r - 56r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010100 ((450r - 58r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010101 ((450r - 60r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010110 ((450r - 62r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 010111 ((450r - 64r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011000 ((450r - 66r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011001 ((450r - 68r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011010 ((450r - 70r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011011 ((450r - 72r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011100 ((450r - 74r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011101 ((450r - 76r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011110 ((450r - 78r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 011111 ((450r - 80r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100000 ((450r - 82r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100001 ((450r - 84r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100010 ((450r - 86r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100011 ((450r - 88r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100100 ((450r - 90r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100101 ((450r - 92r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100110 ((450r - 94r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 100111 ((450r - 96r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101000 ((450r - 98r ) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101001 ((450r - 100r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101010 ((450r - 102r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101011 ((450r - 104r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101100 ((450r - 106r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101101 ((450r - 108r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101110 ((450r - 110r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 101111 ((450r - 112r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110000 ((450r - 114r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110001 ((450r - 116r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110010 ((450r - 118r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110011 ((450r - 120r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110100 ((450r - 122r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110101 ((450r - 124r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110110 ((450r - 126r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 110111 ((450r - 128r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111000 ((450r - 130r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111001 ((450r - 132r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111010 ((450r - 134r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111011 ((450r - 136r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111100 ((450r - 138r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111101 ((450r - 140r) / 450r) * (vsnr - vgsn) + vgsn vrn0 5-0 = 111110 ((450r - 142r) / 450r) * (vsnr - vgsn) + vgsn vinn0 vrn0 5-0 = 111111 ((450r - 144r) / 450r) * (vsnr - vgsn) + vgsn table 5.21: vinn 0 http://www..net/ datasheet pdf - http://www..net/
-p.73- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vin n1 formula vrn1 5 - 0 = 000000 (430r / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 000001 ((430r - 2r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 000010 ((430r - 4r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 000011 ((430r - 6r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 000100 ((430r - 8r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 000101 ((430r - 10r ) / 450r) * (vsnr - vgsn) + vgsn v rn1 5 - 0 = 000110 ((430r - 12r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 000111 ((430r - 14r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001000 ((430r - 16r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001001 ((430r - 18r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001010 ((430r - 20r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001011 ((430r - 22r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001100 ((430r - 24r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001101 ((430r - 26r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001110 ((430r - 28r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 001111 ((430r - 30r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010000 ((430r - 32r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010001 ((430r - 34r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010010 ((430r - 36r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010011 ((430r - 38r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010100 ((430r - 40r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010101 ((430r - 42r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010110 ((430r - 44r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 010111 ((430r - 46r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011000 ((430r - 48r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011001 ((430r - 50r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011010 ((430r - 52r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011011 ((430r - 54r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011100 ((430r - 56r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011101 ( (430r - 58r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011110 ((430r - 60r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 011111 ((430r - 62r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100000 ((430r - 64r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100001 ((430r - 66r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100010 ((430r - 68r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100011 ((430r - 70r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100100 ((430r - 72r ) / 450r) * (vsnr - vgsn) + vgsn vrn 1 5 - 0 = 100101 ((430r - 74r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100110 ((430r - 76r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 100111 ((430r - 78r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 101000 ((430r - 80r ) / 450r) * (vsnr - vgsn) + vg sn vrn1 5 - 0 = 101001 ((430r - 82r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 101010 ((430r - 84r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 101011 ((430r - 86r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 101100 ((430r - 88r ) / 450r) * (vsnr - vg sn) + vgsn vrn1 5 - 0 = 101101 ((430r - 90r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 101110 ((430r - 92r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 101111 ((430r - 94r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110000 ((430r - 96r ) / 450r) * (v snr - vgsn) + vgsn vrn1 5 - 0 = 110001 ((430r - 98r ) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110010 ((430r - 100r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110011 ((430r - 102r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110100 ((430r - 104r) / 45 0r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110101 ((430r - 106r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110110 ((430r - 108r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 110111 ((430r - 110r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111000 ((430r - 11 2r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111001 ((430r - 114r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111010 ((430r - 116r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111011 ((430r - 118r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111100 ((4 30r - 120r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111101 ((430r - 122r) / 450r) * (vsnr - vgsn) + vgsn vrn1 5 - 0 = 111110 ((430r - 124r) / 450r) * (vsnr - vgsn) + vgsn vinn1 vrn1 5 - 0 = 111111 ((430r - 126r) / 450r) * (vsnr - vgsn) + vgsn table 5.22: vinn 1 http://www..net/ datasheet pdf - http://www..net/
-p.74- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vin n2 formula vrn2 5 - 0 = 000000 (420r / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000001 ((420r - 2r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000010 ((420r - 4r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000011 ((420r - 6r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000100 ((420r - 8r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000101 ((420r - 10r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000110 ((420r - 12r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 000111 ((420r - 14r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 001000 ((420r - 16r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 001001 ((420r - 18r ) / 450r) * (vsnr - vgsn) + vgsn vrn 2 5 - 0 = 001010 ((420r - 20r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 001011 ((420r - 22r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 001100 ((420r - 24r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 001101 ((420r - 26r ) / 450r) * (vsnr - vgsn) + vg sn vrn2 5 - 0 = 001110 ((420r - 28r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 001111 ((420r - 30r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 010000 ((420r - 32r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 010001 ((420r - 34r ) / 450r) * (vsnr - vg sn) + vgsn vrn2 5 - 0 = 010010 ((420r - 36r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 010011 ((420r - 38r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 010100 ((420r - 40r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 010101 ((420r - 42r ) / 450r) * (v snr - vgsn) + vgsn vrn2 5 - 0 = 010110 ((420r - 44r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 010111 ((420r - 46r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011000 ((420r - 48r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011001 ((420r - 50r ) / 45 0r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011010 ((420r - 52r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011011 ((420r - 54r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011100 ((420r - 56r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011101 ((420r - 58 r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011110 ((420r - 60r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 011111 ((420r - 62r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100000 ((420r - 64r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100001 ((4 20r - 66r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100010 ((420r - 68r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100011 ((420r - 70r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100100 ((420r - 72r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 10 0101 ((420r - 74r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100110 ((420r - 76r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 100111 ((420r - 78r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101000 ((420r - 80r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101001 ((420r - 82r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101010 ((420r - 84r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101011 ((420r - 86r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101100 ((420r - 88r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101101 ((420r - 90r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101110 ((420r - 92r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 101111 ((420r - 94r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 110000 ((420r - 96r ) / 450r) * (vsnr - vgsn ) + vgsn vrn2 5 - 0 = 110001 ((420r - 98r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 110010 ((420r - 100r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 110011 ((420r - 102r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 110100 ((420r - 104r) / 450r) * (vsn r - vgsn) + vgsn vrn2 5 - 0 = 110101 ((420r - 106r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 110110 ((420r - 108r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 110111 ((420r - 110r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111000 ((420r - 112r) / 450r ) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111001 ((420r - 114r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111010 ((420r - 116r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111011 ((420r - 118r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111100 ((420r - 120r ) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111101 ((420r - 122r) / 450r) * (vsnr - vgsn) + vgsn vrn2 5 - 0 = 111110 ((420r - 124r) / 450r) * (vsnr - vgsn) + vgsn vinn2 vrn2 5 - 0 = 111111 ((420r - 126r) / 450r) * (vsnr - vgsn) + vgsn table 5.23: vinn 2 http://www..net/ datasheet pdf - http://www..net/
-p.75- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vin n14 formula vrn3 5 - 0 = 000000 (156r / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 000001 ((156r - 2r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 000010 ((156 r - 4r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 000011 ((156r - 6r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 000100 ((156r - 8r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 000101 ((156r - 10r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 0001 10 ((156r - 12r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 000111 ((156r - 14r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001000 ((156r - 16r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001001 ((156r - 18r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001010 ((156r - 20r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001011 ((156r - 22r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001100 ((156r - 24r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001101 ((156r - 26r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001110 ((156r - 28r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 001111 ((156r - 30r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010000 ((156r - 32r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010001 ((156r - 34r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010010 ((156r - 36r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010011 ((156r - 38r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010100 ((156r - 40r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010101 ((156r - 42r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010110 ((156r - 44r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 010111 ((156r - 46r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011000 ((156r - 48r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011001 ((156r - 50r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011010 ((156r - 52r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011011 ((156r - 54r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011100 ((156r - 56r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011101 ((156r - 58r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011110 ((156r - 60r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 011111 ((156r - 62r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100000 ((156r - 64r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100001 ((156r - 66r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100010 ((156r - 68r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100011 ((156r - 70r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100100 ((156r - 72r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100101 ((156r - 74r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100110 ((156r - 76r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 100111 ((156r - 78r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101000 ((156r - 80r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101001 ((156r - 82r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101010 ((156r - 84r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101011 ((156r - 86r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101100 ((156r - 88r ) / 450r) * (vsnr - vgsn) + vgsn v rn3 5 - 0 = 101101 ((156r - 90r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101110 ((156r - 92r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 101111 ((156r - 94r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110000 ((156r - 96r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110001 ((156r - 98r ) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110010 ((156r - 100r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110011 ((156r - 102r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110100 ((156r - 104r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110101 ((156r - 106r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110110 ((156r - 108r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 110111 ((156r - 110r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111000 ((156r - 112r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111001 ((156r - 114r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111010 ((156r - 116r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111011 ((156r - 118r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111100 ((156r - 120r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111101 ((156r - 122r) / 450r) * (vsnr - vgsn) + vgsn vrn3 5 - 0 = 111110 ((156r - 124r) / 450r) * (vsnr - vgsn) + vgsn vinn14 vrn3 5 - 0 = 111111 ((156r - 126r) / 450r) * (vsnr - vgsn) + vgsn table 5.24: vinn 14 http://www..net/ datasheet pdf - http://www..net/
-p.76- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vin n15formula vrn4 5 - 0 = 000000 (146r / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000001 ((146r - 2r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000010 ((14 6r - 4r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000011 ((146r - 6r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000100 ((146r - 8r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000101 ((146r - 10r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000 110 ((146r - 12r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 000111 ((146r - 14r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001000 ((146r - 16r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001001 ((146r - 18r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001010 ((146r - 20r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001011 ((146r - 22r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001100 ((146r - 24r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001101 ((146r - 26r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001110 ((146r - 28r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 001111 ((146r - 30r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010000 ((146r - 32r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010001 ((146r - 34r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010010 ((146r - 36r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010011 ((146r - 38r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010100 ((146r - 40r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010101 ((146r - 42r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010110 ((146r - 44r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 010111 ((146r - 46r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011000 ((146r - 48r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011001 ((146r - 50r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011010 ((146r - 52r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011011 ((146r - 54r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011100 ((146r - 56r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011101 ((146r - 58r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011110 ((146r - 60r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 011111 ((146r - 62r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100000 ((146r - 64r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100001 ((146r - 66r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100010 ((146r - 68r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100011 ((146r - 70r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100100 ((146r - 72r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 10010 1 ((146r - 74r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100110 ((146r - 76r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 100111 ((146r - 78r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101000 ((146r - 80r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101001 ((146r - 82r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101010 ((146r - 84r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101011 ((146r - 86r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101100 ((146r - 88r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101101 ((146r - 90r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101110 ((146r - 92r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 101111 ((146r - 94r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110000 ((146r - 96r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110001 ((146r - 98r ) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110010 ((146r - 100r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110011 ((146r - 102r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110100 ((146r - 104r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110101 ((146r - 106r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110110 ((146r - 108r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 110111 ((146r - 110r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111000 ((146r - 112r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111001 ((146r - 114r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111010 ((146r - 116r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111011 ((146r - 118r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111100 ((146r - 120r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111101 ((146r - 122r) / 450r) * (vsnr - vgsn) + vgsn vrn4 5 - 0 = 111110 ((146r - 124r) / 450r) * (vsnr - vgsn) + vgsn vinn15 vrn4 5 - 0 = 111111 ((146r - 126r) / 450r) * (vsnr - vgsn) + vgsn table 5.25: vinn 15 http://www..net/ datasheet pdf - http://www..net/
-p.77- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vin n16 formula vrn5 5 - 0 = 000000 (144r / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000001 ((144r - 2r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000010 ((144 r - 4r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000011 ((144r - 6r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000100 ((144r - 8r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000101 ((144r - 10r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000110 ((144r - 12r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 000111 ((144r - 14r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001000 ((144r - 16r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001001 ((144r - 18r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001010 ((144r - 20r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001011 ((144r - 22r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001100 ((144r - 24r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001101 ((144r - 26r ) / 450r) * (vsnr - vgsn) + vgsn vr n5 5 - 0 = 001110 ((144r - 28r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 001111 ((144r - 30r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 010000 ((144r - 32r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 010001 ((144r - 34r ) / 450r) * (vsnr - vgsn) + v gsn vrn5 5 - 0 = 010010 ((144r - 36r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 010011 ((144r - 38r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 010100 ((144r - 40r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 010101 ((144r - 42r ) / 450r) * (vsnr - v gsn) + vgsn vrn5 5 - 0 = 010110 ((144r - 44r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 010111 ((144r - 46r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011000 ((144r - 48r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011001 ((144r - 50r ) / 450r) * ( vsnr - vgsn) + vgsn vrn5 5 - 0 = 011010 ((144r - 52r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011011 ((144r - 54r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011100 ((144r - 56r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011101 ((144r - 58r ) / 4 50r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011110 ((144r - 60r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 011111 ((144r - 62r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100000 ((144r - 64r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100001 ((144r - 6 6r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100010 ((144r - 68r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100011 ((144r - 70r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100100 ((144r - 72r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100101 (( 144r - 74r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100110 ((144r - 76r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 100111 ((144r - 78r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101000 ((144r - 80r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 1 01001 ((144r - 82r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101010 ((144r - 84r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101011 ((144r - 86r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101100 ((144r - 88r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101101 ((144r - 90r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101110 ((144r - 92r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 101111 ((144r - 94r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 110000 ((144r - 96r ) / 450r) * (vsnr - vgsn) + vgs n vrn5 5 - 0 = 110001 ((144r - 98r ) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 110010 ((144r - 100r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 110011 ((144r - 102r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 110100 ((144r - 104r) / 450r) * (vsnr - vgs n) + vgsn vrn5 5 - 0 = 110101 ((144r - 106r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 110110 ((144r - 108r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 110111 ((144r - 110r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 111000 ((144r - 112r) / 450r) * (vs nr - vgsn) + vgsn vrn5 5 - 0 = 111001 ((144r - 114r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 111010 ((144r - 116r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 111011 ((144r - 118r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 111100 ((144r - 120r) / 450 r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 111101 ((144r - 122r) / 450r) * (vsnr - vgsn) + vgsn vrn5 5 - 0 = 111110 ((144r - 124r) / 450r) * (vsnr - vgsn) + vgsn vinn16 vrn5 5 - 0 = 111111 vgsn table 5.26: vinn 16 http://www..net/ datasheet pdf - http://www..net/
-p.78- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn5 formula prn0 6-0 = 0000000 (350r / 450r) (vsnr - vgsn) + vg sn prn0 6-0 = 0000001 ((350r - 2r) / 450r) * (vsnr - v gsn) + vgsn prn0 6-0 = 0000010 ((350r - 4r) / 450r) * (vsnr - v gsn) + vgsn prn0 6-0 = 0000011 ((350r C 6r) / 450r) * (vsnr - v gsn) + vgsn prn0 6-0 = 0000100 ((350r C 8r) / 450r) * (vsnr - v gsn) + vgsn prn0 6-0 = 0000101 ((350r C 10r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0000110 ((350r C 12r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0000111 ((350r - 14r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001000 ((350r C 16r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001001 ((350r C 18r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001010 ((350r C 20r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001011 ((350r C 22r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001100 ((350r C 24r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001101 ((350r C 26r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001110 ((350r C 28r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0001111 ((350r C 30r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010000 ((350r C 32r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010001 ((350r - 34r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010010 ((350r C 36r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010011 ((350r C 38r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010100 ((350r C 40r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010101 ((350r C 42r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010110 ((350r C 44r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0010111 ((350r C 46r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011000 ((350r C 48r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011001 ((350r C 50r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011010 ((350r C 52r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011011 ((350r - 54r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011100 ((350r C 56r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011101 ((350r C 58r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011110 ((350r C 60r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0011111 ((350r C 62r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100000 ((350r - 64r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100001 ((350r C 66r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100010 ((350r C 68r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100011 ((350r C 70r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100100 ((350r C 72r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100101 ((350r C 74r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100110 ((350r C 76r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0100111 ((350r C 78r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101000 ((350r C 80r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101001 ((350r C 82r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101010 ((350r - 84r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101011 ((350r C 86r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101100 ((350r C 88r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101101 ((350r C 90r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101110 ((350r C 92r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0101111 ((350r C 94r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110000 ((350r C 96r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110001 ((350r C 98r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110010 ((350r C 100r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110011 ((350r C 102r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110100 ((350r C 104r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110101 ((350r C 106r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110110 ((350r C 108r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0110111 ((350r C 110r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111000 ((350r C 112r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111001 ((350r C 114r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111010 ((350r C 116r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111011 ((350r C 118r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111100 ((350r C 120r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111101 ((350r C 122r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111110 ((350r - 124r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 0111111 ((350r C 126r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1000000 ((350r C 128r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1000001 ((350r C 130r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1000010 ((350r - 132r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1000011 ((350r C 134r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1000100 ((350r C 136r) / 450r) * (vsnr - vgsn) + vgsn vinn5 prn0 6-0 = 1000101 ((350r C 138r) / 450r) * (vsnr - vgsn) + vgsn http://www..net/ datasheet pdf - http://www..net/
-p.79- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 prn0 6-0 = 1000110 ((350r C 140r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1000111 ((350r C 142r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001000 ((350r C 144r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001001 ((350r C 146r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001010 ((350r C 148r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001011 ((350r C 150r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001100 ((350r - 152r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001101 ((350r C 154r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001110 ((350r C 156r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1001111 ((350r C 158r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010000 ((350r C 160r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010001 ((350r C 162r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010010 ((350r C 164r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010011 ((350r C 166r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010100 ((350r C 168r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010101 ((350r C 170r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010110 ((350r C 172r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1010111 ((350r - 174r) / 450r) * (vsnr - vgsn) + vgsn prn0 6-0 = 1011000 - prn0 6-0 = 1011001 - prn0 6-0 = 1011010 - prn0 6-0 = 1011011 - prn0 6-0 = 1011100 - prn0 6-0 = 1011101 - prn0 6-0 = 1011110 - prn0 6-0 = 1011111 - prn0 6-0 = 1100000 - prn0 6-0 = 1100001 - prn0 6-0 = 1100010 - prn0 6-0 = 1100011 - prn0 6-0 = 1100100 - prn0 6-0 = 1100101 - prn0 6-0 = 1100110 - prn0 6-0 = 1100111 - prn0 6-0 = 1101000 - prn0 6-0 = 1101001 - prn0 6-0 = 1101010 - prn0 6-0 = 1101011 - prn0 6-0 = 1101100 - prn0 6-0 = 1101101 - prn0 6-0 = 1101110 - prn0 6-0 = 1101111 - prn0 6-0 = 1110000 - prn0 6-0 = 1110001 - prn0 6-0 = 1110010 - prn0 6-0 = 1110011 - prn0 6-0 = 1110100 - prn0 6-0 = 1110101 - prn0 6-0 = 1110110 - prn0 6-0 = 1110111 - prn0 6-0 = 1111000 - prn0 6-0 = 1111001 - prn0 6-0 = 1111010 - prn0 6-0 = 1111011 - prn0 6-0 = 1111100 - prn0 6-0 = 1111101 - prn0 6-0 = 1111110 - prn0 6-0 = 1111111 - table 5.27: vinn5 http://www..net/ datasheet pdf - http://www..net/
-p.80- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn11 formula prn1 6-0 = 0000000 (274r / 450r) (vsnr - vgsn) + vg sn prn1 6-0 = 0000001 ((274r - 2r) / 450r) * (vsnr - v gsn) + vgsn prn1 6-0 = 0000010 ((274r - 4r) / 450r) * (vsnr - v gsn) + vgsn prn1 6-0 = 0000011 ((274r C 6r) / 450r) * (vsnr - v gsn) + vgsn prn1 6-0 = 0000100 ((274r C 8r) / 450r) * (vsnr - v gsn) + vgsn prn1 6-0 = 0000101 ((274r C 10r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0000110 ((274r C 12r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0000111 ((274r - 14r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001000 ((274r C 16r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001001 ((274r C 18r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001010 ((274r C 20r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001011 ((274r C 22r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001100 ((274r C 24r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001101 ((274r C 26r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001110 ((274r C 28r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0001111 ((274r C 30r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010000 ((274r C 32r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010001 ((274r - 34r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010010 ((274r C 36r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010011 ((274r C 38r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010100 ((274r C 40r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010101 ((274r C 42r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010110 ((274r C 44r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0010111 ((274r C 46r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011000 ((274r C 48r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011001 ((274r C 50r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011010 ((274r C 52r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011011 ((274r - 54r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011100 ((274r C 56r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011101 ((274r C 58r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011110 ((274r C 60r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0011111 ((274r C 62r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100000 ((274r - 64r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100001 ((274r C 66r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100010 ((274r C 68r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100011 ((274r C 70r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100100 ((274r C 72r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100101 ((274r C 74r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100110 ((274r C 76r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0100111 ((274r C 78r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101000 ((274r C 80r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101001 ((274r C 82r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101010 ((274r - 84r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101011 ((274r C 86r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101100 ((274r C 88r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101101 ((274r C 90r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101110 ((274r C 92r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0101111 ((274r C 94r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110000 ((274r C 96r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110001 ((274r C 98r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110010 ((274r C 100r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110011 ((274r C 102r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110100 ((274r C 104r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110101 ((274r C 106r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110110 ((274r C 108r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0110111 ((274r C 110r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111000 ((274r C 112r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111001 ((274r C 114r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111010 ((274r C 116r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111011 ((274r C 118r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111100 ((274r C 120r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111101 ((274r C 122r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111110 ((274r - 124r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 0111111 ((274r C 126r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1000000 ((274r C 128r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1000001 ((274r C 130r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1000010 ((274r - 132r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1000011 ((274r C 134r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1000100 ((274r C 136r) / 450r) * (vsnr - vgsn) + vgsn vinn11 prn1 6-0 = 1000101 ((274r C 138r) / 450r) * (vsnr - vgsn) + vgsn http://www..net/ datasheet pdf - http://www..net/
-p.81- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 prn1 6-0 = 1000110 ((274r C 140r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1000111 ((274r C 142r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001000 ((274r C 144r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001001 ((274r C 146r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001010 ((274r C 148r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001011 ((274r C 150r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001100 ((274r - 152r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001101 ((274r C 154r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001110 ((274r C 156r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1001111 ((274r C 158r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010000 ((274r C 160r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010001 ((274r C 162r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010010 ((274r C 164r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010011 ((274r C 166r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010100 ((274r C 168r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010101 ((274r C 170r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010110 ((274r C 172r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1010111 ((274r - 174r) / 450r) * (vsnr - vgsn) + vgsn prn1 6-0 = 1011000 - prn1 6-0 = 1011001 - prn1 6-0 = 1011010 - prn1 6-0 = 1011011 - prn1 6-0 = 1011100 - prn1 6-0 = 1011101 - prn1 6-0 = 1011110 - prn1 6-0 = 1011111 - prn1 6-0 = 1100000 - prn1 6-0 = 1100001 - prn1 6-0 = 1100010 - prn1 6-0 = 1100011 - prn1 6-0 = 1100100 - prn1 6-0 = 1100101 - prn1 6-0 = 1100110 - prn1 6-0 = 1100111 - prn1 6-0 = 1101000 - prn1 6-0 = 1101001 - prn1 6-0 = 1101010 - prn1 6-0 = 1101011 - prn1 6-0 = 1101100 - prn1 6-0 = 1101101 - prn1 6-0 = 1101110 - prn1 6-0 = 1101111 - prn1 6-0 = 1110000 - prn1 6-0 = 1110001 - prn1 6-0 = 1110010 - prn1 6-0 = 1110011 - prn1 6-0 = 1110100 - prn1 6-0 = 1110101 - prn1 6-0 = 1110110 - prn1 6-0 = 1110111 - prn1 6-0 = 1111000 - prn1 6-0 = 1111001 - prn1 6-0 = 1111010 - prn1 6-0 = 1111011 - prn1 6-0 = 1111100 - prn1 6-0 = 1111101 - prn1 6-0 = 1111110 - prn1 6-0 = 1111111 - table 5.28: vinn 11 http://www..net/ datasheet pdf - http://www..net/
-p.82- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn3 formula pkn0 4-0 = 00000 (47r / 48r) * (vinn2 - vinn5) + vi nn5 pkn0 4-0 = 00001 ((47r C 1r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 00010 ((47r C 2r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 00011 ((47r C 3r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 00100 ((47r C 4r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 00101 ((47r C 5r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 00110 ((47r C 6r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 00111 ((47r C 7r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 01000 ((47r C 8r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 01001 ((47r C 9r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn0 4-0 = 01010 ((47r - 10r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 01011 ((47r - 11r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 01100 ((47r - 12r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 01101 ((47r - 13r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 01110 ((47r - 14r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 01111 ((47r - 15r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10000 ((47r - 16r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10001 ((47r - 17r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10010 ((47r - 18r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10011 ((47r - 19r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10100 ((47r - 20r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10101 ((47r - 21r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10110 ((47r - 22r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 10111 ((47r - 23r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11000 ((47r - 24r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11001 ((47r - 25r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11010 ((47r - 26r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11011 ((47r - 27r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11100 ((47r - 28r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11101 ((47r - 29r) / 48r) * (vinn2 - vin n5) + vinn5 pkn0 4-0 = 11110 ((47r - 30r) / 48r) * (vinn2 - vin n5) + vinn5 vinn3 pkn0 4-0 = 11111 ((47r - 31r) / 48r) * (vinn2 - vin n5) + vinn5 table 5.29: vinn 3 http://www..net/ datasheet pdf - http://www..net/
-p.83- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn4 formula pkn1 4-0 = 00000 (32r / 48r) * (vinn2 - vinn5) + vi nn5 pkn1 4-0 = 00001 ((32r - 1r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 00010 ((32r - 2r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 00011 ((32r - 3r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 00100 ((32r - 4r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 00101 ((32r - 5r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 00110 ((32r - 6r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 00111 ((32r - 7r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 01000 ((32r - 8r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 01001 ((32r - 9r) / 48r) * (vinn2 - vinn 5) + vinn5 pkn1 4-0 = 01010 ((32r - 10r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 01011 ((32r - 11r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 01100 ((32r - 12r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 01101 ((32r - 13r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 01110 ((32r - 14r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 01111 ((32r - 15r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10000 ((32r - 16r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10001 ((32r - 17r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10010 ((32r - 18r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10011 ((32r - 19r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10100 ((32r - 20r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10101 ((32r - 21r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10110 ((32r - 22r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 10111 ((32r - 23r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11000 ((32r - 24r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11001 ((32r - 25r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11010 ((32r - 26r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11011 ((32r - 27r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11100 ((32r - 28r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11101 ((32r - 29r) / 48r) * (vinn2 - vin n5) + vinn5 pkn1 4-0 = 11110 ((32r - 30r) / 48r) * (vinn2 - vin n5) + vinn5 vinn4 pkn1 4-0 = 11111 ((32r - 31r) / 48r) * (vinn2 - vin n5) + vinn5 table 5.30: vinn 4 reference voltage macro adjustment value vinn6 formula pkn2 4-0 = 00000 (220r / 223r) * (vinn5 - vinn11) + vinn11 pkn2 4-0 = 00001 ((220r - 3r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn2 4-0 = 00010 ((220r - 6r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn2 4-0 = 00011 ((220r - 9r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn2 4-0 = 00100 ((220r - 12r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 00101 ((220r - 15r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 00110 ((220r - 18r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 00111 ((220r - 21r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01000 ((220r - 24r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01001 ((220r - 27r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01010 ((220r - 30r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01011 ((220r - 33r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01100 ((220r - 36r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01101 ((220r - 39r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01110 ((220r - 42r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 01111 ((220r - 45r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10000 ((220r - 48r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10001 ((220r - 51r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10010 ((220r - 54r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10011 ((220r - 57r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10100 ((220r - 60r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10101 ((220r - 63r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10110 ((220r - 66r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 10111 ((220r - 69r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11000 ((220r - 72r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11001 ((220r - 75r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11010 ((220r - 78r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11011 ((220r - 81r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11100 ((220r - 84r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11101 ((220r - 87r) / 223r) * (vinn5 - v inn11) + vinn11 pkn2 4-0 = 11110 ((220r - 90r) / 223r) * (vinn5 - v inn11) + vinn11 vinn6 pkn2 4-0 = 11111 ((220r - 93r) / 223r) * (vinn5 - v inn11) + vinn11 table 5.31: vinn 6 http://www..net/ datasheet pdf - http://www..net/
-p.84- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn7 formula pkn3 4-0 = 00000 (193r / 223r) * (vinn5 - vinn11) + vinn11 pkn3 4-0 = 00001 ((193r - 3r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn3 4-0 = 00010 ((193r - 6r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn3 4-0 = 00011 ((193r - 9r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn3 4-0 = 00100 ((193r - 12r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 00101 ((193r - 15r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 00110 ((193r - 18r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 00111 ((193r - 21r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01000 ((193r - 24r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01001 ((193r - 27r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01010 ((193r - 30r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01011 ((193r - 33r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01100 ((193r - 36r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01101 ((193r - 39r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01110 ((193r - 42r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 01111 ((193r - 45r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10000 ((193r - 48r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10001 ((193r - 51r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10010 ((193r - 54r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10011 ((193r - 57r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10100 ((193r - 60r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10101 ((193r - 63r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10110 ((193r - 66r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 10111 ((193r - 69r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11000 ((193r - 72r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11001 ((193r - 75r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11010 ((193r - 78r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11011 ((193r - 81r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11100 ((193r - 84r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11101 ((193r - 87r) / 223r) * (vinn5 - v inn11) + vinn11 pkn3 4-0 = 11110 ((193r - 90r) / 223r) * (vinn5 - v inn11) + vinn11 vinn7 pkn3 4-0 = 11111 ((193r - 93r) / 223r) * (vinn5 - v inn11) + vinn11 table 5.32: vinn 7 reference voltage macro adjustment value vinn8 formula pkn4 4-0 = 00000 (158r / 223r) * (vinn5 - vinn11) + vinn11 pkn4 4-0 = 00001 ((158r - 3r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn4 4-0 = 00010 ((158r - 6r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn4 4-0 = 00011 ((158r - 9r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn4 4-0 = 00100 ((158r - 12r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 00101 ((158r - 15r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 00110 ((158r - 18r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 00111 ((158r - 21r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01000 ((158r - 24r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01001 ((158r - 27r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01010 ((158r - 30r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01011 ((158r - 33r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01100 ((158r - 36r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01101 ((158r - 39r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01110 ((158r - 42r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 01111 ((158r - 45r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10000 ((158r - 48r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10001 ((158r - 51r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10010 ((158r - 54r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10011 ((158r - 57r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10100 ((158r - 60r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10101 ((158r - 63r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10110 ((158r - 66r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 10111 ((158r - 69r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11000 ((158r - 72r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11001 ((158r - 75r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11010 ((158r - 78r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11011 ((158r - 81r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11100 ((158r - 84r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11101 ((158r - 87r) / 223r) * (vinn5 - v inn11) + vinn11 pkn4 4-0 = 11110 ((158r - 90r) / 223r) * (vinn5 - v inn11) + vinn11 vinn8 pkn4 4-0 = 11111 ((158r - 93r) / 223r) * (vinn5 - v inn11) + vinn11 table 5.33: vinn 8 http://www..net/ datasheet pdf - http://www..net/
-p.85- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn9 formula pkn5 4-0 = 00000 (123r / 223r) * (vinn5 - vinn11) + vinn11 pkn5 4-0 = 00001 ((123r - 3r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn5 4-0 = 00010 ((123r - 6r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn5 4-0 = 00011 ((123r - 9r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn5 4-0 = 00100 ((123r - 12r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 00101 ((123r - 15r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 00110 ((123r - 18r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 00111 ((123r - 21r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01000 ((123r - 24r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01001 ((123r - 27r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01010 ((123r - 30r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01011 ((123r - 33r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01100 ((123r - 36r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01101 ((123r - 39r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01110 ((123r - 42r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 01111 ((123r - 45r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10000 ((123r - 48r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10001 ((123r - 51r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10010 ((123r - 54r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10011 ((123r - 57r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10100 ((123r - 60r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10101 ((123r - 63r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10110 ((123r - 66r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 10111 ((123r - 69r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11000 ((123r - 72r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11001 ((123r - 75r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11010 ((123r - 78r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11011 ((123r - 81r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11100 ((123r - 84r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11101 ((123r - 87r) / 223r) * (vinn5 - v inn11) + vinn11 pkn5 4-0 = 11110 ((123r - 90r) / 223r) * (vinn5 - v inn11) + vinn11 vinn9 pkn5 4-0 = 11111 ((123r - 93r) / 223r) * (vinn5 - v inn11) + vinn11 table 5.34: vinn 9 reference voltage macro adjustment value vinn10 formula pkn6 4-0 = 00000 (96r / 223r) * (vinn5 - vinn11) + vinn11 pkn6 4-0 = 00001 ((96r - 3r) / 223r) * (vinn5 - vin n11) + vinn11 pkn6 4-0 = 00010 ((96r - 6r) / 223r) * (vinn5 - vin n11) + vinn11 pkn6 4-0 = 00011 ((96r - 9r) / 223r) * (vinn5 - vin n11) + vinn11 pkn6 4-0 = 00100 ((96r - 12r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 00101 ((96r - 15r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 00110 ((96r - 18r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 00111 ((96r - 21r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01000 ((96r - 24r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01001 ((96r - 27r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01010 ((96r - 30r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01011 ((96r - 33r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01100 ((96r - 36r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01101 ((96r - 39r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01110 ((96r - 42r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 01111 ((96r - 45r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10000 ((96r - 48r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10001 ((96r - 51r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10010 ((96r - 54r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10011 ((96r - 57r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10100 ((96r - 60r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10101 ((96r - 63r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10110 ((96r - 66r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 10111 ((96r - 69r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11000 ((96r - 72r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11001 ((96r - 75r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11010 ((96r - 78r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11011 ((96r - 81r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11100 ((96r - 84r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11101 ((96r - 87r) / 223r) * (vinn5 - vi nn11) + vinn11 pkn6 4-0 = 11110 ((96r - 90r) / 223r) * (vinn5 - vi nn11) + vinn11 vinn10 pkn6 4-0 = 11111 ((96r - 93r) / 223r) * (vinn5 - vi nn11) + vinn11 table 5.35: vinn 10 http://www..net/ datasheet pdf - http://www..net/
-p.86- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 reference voltage macro adjustment value vinn12 formula pkn7 4-0 = 00000 (47r / 48r) * (vinn11 - vinn14) + vinn14 pkn7 4-0 = 00001 ((47r - 1r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 00010 ((47r - 2r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 00011 ((47r - 3r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 00100 ((47r - 4r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 00101 ((47r - 5r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 00110 ((47r - 6r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 00111 ((47r - 7r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 01000 ((47r - 8r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 01001 ((47r - 9r) / 48r) * (vinn11 - vin n14) + vinn14 pkn7 4-0 = 01010 ((47r - 10r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 01011 ((47r - 11r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 01100 ((47r - 12r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 01101 ((47r - 13r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 01110 ((47r - 14r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 01111 ((47r - 15r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10000 ((47r - 16r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10001 ((47r - 17r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10010 ((47r - 18r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10011 ((47r - 19r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10100 ((47r - 20r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10101 ((47r - 21r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10110 ((47r - 22r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 10111 ((47r - 23r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11000 ((47r - 24r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11001 ((47r - 25r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11010 ((47r - 26r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11011 ((47r - 27r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11100 ((47r - 28r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11101 ((47r - 29r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn7 4-0 = 11110 ((47r - 30r) / 48r) * (vinn11 - vi nn14) + vinn14 vinn12 pkn7 4-0 = 11111 ((47r - 31r) / 48r) * (vinn11 - vi nn14) + vinn14 table 5.36: vinn 12 reference voltage macro adjustment value vinn13 formula pkn8 4-0 = 00000 (32r / 48r) * (vinn11 - vinn14) + vinn14 pkn8 4-0 = 00001 ((32r - 1r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 00010 ((32r - 2r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 00011 ((32r - 3r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 00100 ((32r - 4r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 00101 ((32r - 5r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 00110 ((32r - 6r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 00111 ((32r - 7r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 01000 ((32r - 8r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 01001 ((32r - 9r) / 48r) * (vinn11 - vin n14) + vinn14 pkn8 4-0 = 01010 ((32r - 10r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 01011 ((32r - 11r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 01100 ((32r - 12r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 01101 ((32r - 13r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 01110 ((32r - 14r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 01111 ((32r - 15r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10000 ((32r - 16r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10001 ((32r - 17r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10010 ((32r - 18r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10011 ((32r - 19r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10100 ((32r - 20r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10101 ((32r - 21r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10110 ((32r - 22r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 10111 ((32r - 23r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11000 ((32r - 24r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11001 ((32r - 25r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11010 ((32r - 26r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11011 ((32r - 27r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11100 ((32r - 28r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11101 ((32r - 29r) / 48r) * (vinn11 - vi nn14) + vinn14 pkn8 4-0 = 11110 ((32r - 30r) / 48r) * (vinn11 - vi nn14) + vinn14 vinn13 pkn8 4-0 = 11111 ((32r - 31r) / 48r) * (vinn11 - vi nn14) + vinn14 table 5.37: vinp/n 13 http://www..net/ datasheet pdf - http://www..net/
-p.87- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula v0 vinp0 cgmp4=0 =vinp5 - (vinp5 - vinp6)*(3r/6r) v1 vinp1 v16 cgmp4=1 =vinp5 - (vinp5 - vinp6)*(3.5r/6.5r) v2 vinp2 cgmp4=0 =vinp5 - (vinp5 - vinp6)*(4r/6r) v3 vinp3 v17 cgmp4=1 =vinp5 - (vinp5 - vinp6)*(4.5r/6.5r) cgmp0=0 = vinp3 - (vinp3 - vinp4)*(1r/4r) cgmp4=0 = vinp5 - (vinp5 - vinp6)*(5r/6r) cgmp0=1 = vinp3 - (vinp3 - vinp4)*(3r/9.5r) v18 cgmp4=1 =vinp5 - (vinp5 - vinp6)*(5.5r/6.5r) cgmp0=2 = vinp3 - (vinp3 - vinp4)*(3.5r/9.3r) v19 v inp6 v4 cgmp0=3 = vinp3 - (vinp3 - vinp4)*(3.5r/10r) v20 vinp6 - (vinp6 - vinp7)*(1r/6r) cgmp0=0 = vinp3 - (vinp3 - vinp4)*(2r/4r) v21 vinp6 - (vinp6 - vinp7)*(2r/6r) cgmp0=1 = vinp3 - (vinp3 - vinp4)*(5.5r/9.5r) v22 v inp6 - (vinp6 - vinp7)*(3r/6r) cgmp0=2 = vinp3 - (vinp3 - vinp4)*(6r/9.3r) v23 vin p6 - (vinp6 - vinp7)*(4r/6r) v5 cgmp0=3 = vinp3 - (vinp3 - vinp4)*(6r/10r) v24 vinp6 - (vinp6 - vinp7)*(5r/6r) cgmp0=0 = vinp3 - (vinp3 - vinp4)*(3r/4r) v25 vinp7 cgmp0=1 = vinp3 - (vinp3 - vinp4)*(7.5r/9.5r) v26 v inp7 - (vinp7 - vinp8)*(1r/7.5r) cgmp0=2 = vinp3 - (vinp3 - vinp4)*(7.8r/9.3r) v27 v inp7 - (vinp7 - vinp8)*(2r/7.5r) v6 cgmp0=3= vinp3 - (vinp3 - vinp4)*(8r/10r) v28 vinp7 - (vinp7 - vinp8)*(3r/7.5r) v7 vinp4 v29 vinp7 - (vinp7 - vinp8)*(4r/7.5r) cgmp2=0 = vinp4 - (vinp4 - vinp5)*(1r/6r) v30 vinp7 - (vinp7 - vinp8)*(5r/7.5r) cgmp2=1 = vinp4 - (vinp4 - vinp5)*(3r/16r) v31 vinp 7 - (vinp7 - vinp8)*(6r/7.5r) cgmp2=2 = vinp4 - (vinp4 - vinp5)*(4r/18r) v32 vinp 8 v8 cgmp2=3 = vinp4 - (vinp4 - vinp5)*(4.5r/19.5r) v33 vinp8 - (vinp8 - vinp9)*(1r/6r) cgmp2=0 = vinp4 - (vinp4 - vinp5)*(2r/6r) v34 vinp8 - (vinp8 - vinp9)*(2r/6r) cgmp2=1 = vinp4 - (vinp4 - vinp5)*(6r/16r) v35 vinp 8 - (vinp8 - vinp9)*(3r/6r) cgmp2=2 = vinp4 - (vinp4 - vinp5)*(7r/18r) v36 vinp 8 - (vinp8 - vinp9)*(4r/6r) v9 cgmp2=3 = vinp4 - (vinp4 - vinp5)*(8.5r/19.5r) v37 vinp8 - (vinp8 - vinp9)*(5r/6r) cgmp2=0 = vinp4 - (vinp4 - vinp5)*(3r/6r) v38 vinp9 cgmp2=1 = vinp4 - (vinp4 - vinp5)*(8.5r/16r) v39 vi np9 - (vinp9 - vinp10)*(1r/6r) cgmp2=2 = vinp4 - (vinp4 - vinp5)*(10r/18r) v40 vin p9 - (vinp9 - vinp10)*(2r/6r) v10 cgmp2=3 = vinp4 - (vinp4 - vinp5)*(11.5r/19.5r) v41 vinp9 - (vinp9 - vinp10)*(3r/6r) cgmp2=0 = vinp4 - (vinp4 - vinp5)*(4r/6r) v42 vinp9 - (vinp9 - vinp10)*(4r/6r) cgmp2=1 = vinp4 - (vinp4 - vinp5)*(11r/16r) v43 vin p9 - (vinp9 - vinp10)*(5r/6r) cgmp2=2 = vinp4 - (vinp4 - vinp5)*(13r/18r) v44 vin p10 v11 cgmp2=3 = vinp4 - (vinp4 - vinp5)*(14.5r/19.5r) cgmp5=0 =vinp10 - (vinp10 - vinp11)*(1r/6r) cgmp2=0 = vinp4 - (vinp4 - vinp5)*(5r/6r) v45 cgmp5=1 =vinp10 - (vinp10 - vinp11)*(1r/6.5r) cgmp2=1 = vinp4 - (vinp4 - vinp5)*(13.5r/16r) cgmp5 =0 =vinp10 - (vinp10 - vinp11)*(2r/6r) cgmp2=2 = vinp4 - (vinp4 - vinp5)*(15.5r/18r) v46 cgmp5=1 =vinp10 - (vinp10 - vinp11)*(2r/6.5r) v12 cgmp2=3 = vinp4 - (vinp4 - vinp5)*(17r/19.5r) cgmp5=0 =vinp10 - (vinp10 - vinp11)*(3r/6r) v13 vinp5 v47 cgmp5=1 =vinp10 - (vinp10 - vinp11)*(3r/6.5r) cgmp4=0 =vinp5 - (vinp5 - vinp6)*(1r/6r) cgmp5=0 =vinp10 - (vinp10 - vinp11)*(4r/6r) v14 cgmp4=1 =vinp5 - (vinp5 - vinp6)*(1.5r/6.5r) v48 cgmp5=1 =vinp10 - (vinp10 - vinp11)*(4r/6.5r) cgmp4=0 =vinp5 - (vinp5 - vinp6)*(2r/6r) cgmp5=0 =vinp10 - (vinp10 - vinp11)*(5r/6r) v15 cgmp4=1 =vinp5 - (vinp5 - vinp6)*(2.5r/6.5r) v49 cgmp5=1 =vinp10 - (vinp10 - vinp11)*(5r/6.5r) http://www..net/ datasheet pdf - http://www..net/
-p.88- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula v50 vinp11 v56 vinp12 cgmp3=0 = vinp11 - (vinp11 - vinp12)*(1r/6r) cgmp1= 0 = vinp12 - (vinp12 C vinp13)*(1r/4r) cgmp3=1 = vinp11 - (vinp11 - vinp12)*(2.5r/16r) cgm p1=1 = vinp12 - (vinp12 C vinp13)*(2r/9.5r) cgmp3=2 = vinp11 - (vinp11 - vinp12)*(2.5r/18r) cgm p1=2 = vinp12 - (vinp12 C vinp13)*(1.5r/9.3r) v51 cgmp3=3 = vinp11 - (vinp11 - vinp12)* (2.5r/19.5r) v57 cgmp1=3 = vinp12 - (vinp12 C vinp13)*(2r/10r) cgmp3=0 = vinp11 - (vinp11- vinp12)*(2r/6r) cgmp1=0 = vinp12 - (vinp12 C vinp13)*(2r/4r) cgmp3=1 = vinp11 - (vinp11 - vinp12)*(5r/16r) cgmp1 =1 = vinp12 - (vinp12 C vinp13)*(4r/9.5r) cgmp3=2 = vinp11 - (vinp11 - vinp12)*(5r/18r) cgmp1 =2 = vinp12 - (vinp12 C vinp13)*(3.3r/9.3r) v52 cgmp3=3 = vinp11 - (vinp11 - vinp12)*(5r/19.5r) v58 cgmp1=3 = vinp12 - (vinp12 C vinp13)*(4r/10r) cgmp3=0 = vinp11 - (vinp11 - vinp12)*(3r/6r) cgmp1= 0 = vinp12 - (vinp12 C vinp13)*(3r/4r) cgmp3=1 = vinp11 - (vinp11 - vinp12)*(7.5r/16r) cgm p1=1 = vinp12 - (vinp12 C vinp13)*(6.5r/9.5r) cgmp3=2 = vinp11 - (vinp11 - vinp12)*(8r/18r) cgmp1 =2 = vinp12 - (vinp12 C vinp13)*(5.8r/9.3r) v53 cgmp3=3 = vinp11 - (vinp11 - vinp12)*(8r/19.5r) v59 cgmp1=3= vinp12 - (vinp12 C vinp13)*(6.5r/10r) cgmp3=0 = vinp11 - (vinp11 - vinp12)*(4r/6r) v60 vi np13 cgmp3=1 = vinp11 - (vinp11 - vinp12)*(10r/16r) v61 vinp14 cgmp3=2 = vinp11 - (vinp11 - vinp12)*(11r/18r) v62 vinp15 v54 cgmp3=3 = vinp11 - (vinp11 - vinp12)* (11r/19.5r) v63 vinp16 cgmp3=0 = vinp11 - (vinp11- vinp12)*(5r/6r) cgmp3=1 = vinp11 - (vinp11 - vinp12)*(13r/16r) cgmp3=2 = vinp11 - (vinp11 - vinp12)*(14r/18r) v55 cgmp3=3 = vinp11 - (vinp11 - vinp12)* (15r/19.5r) table 5.38: voltage calculation formula of 64-grayscale v oltage (positive polarity) http://www..net/ datasheet pdf - http://www..net/
-p.89- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula v0 vinn0 cgmn4=0 =vinn5 - (vinn5 - vinn6)*(3r/6r) v1 vinn1 v16 cgmn4=1 =vinn5 - (vinn5 - vinn6)*(3.5r/6.5r) v2 vinn2 cgmn4=0 =vinn5 - (vinn5 - vinn6)*(4r/6r) v3 vinn3 v17 cgmn4=1 =vinn5 - (vinn5 - vinn6)*(4.5r/6.5r) cgmn0=0 = vinn3 - (vinn3 - vinn4)*(1r/4r) cgmn4=0 = vinn5 - (vinn5 - vinn6)*(5r/6r) cgmn0=1 = vinn3 - (vinn3 - vinn4)*(3r/9.5r) v18 cgmn4=1 =vinn5 - (vinn5 - vinn6)*(5.5r/6.5r) cgmn0=2 = vinn3 - (vinn3 - vinn4)*(3.5r/9.3r) v19 vinn6 v4 cgmn0=3 = vinn3 - (vinn3 - vinn4)*(3.5r/10r) v20 vinn6 - (vinn6 - vinn7)*(1r/6r) cgmn0=0 = vinn3 - (vinn3 - vinn4)*(2r/4r) v21 vinn6 - (vinn6 - vinn7)*(2r/6r) cgmn0=1 = vinn3 - (vinn3 - vinn4)*(5.5r/9.5r) v22 vinn6 - (vinn6 - vinn7)*(3r/6r) cgmn0=2 = vinn3 - (vinn3 - vinn4)*(6r/9.3r) v23 vin n6 - (vinn6 - vinn7)*(4r/6r) v5 cgmn0=3 = vinn3 - (vinn3 - vinn4)*(6r/10r) v24 vinn 6 - (vinn6 - vinn7)*(5r/6r) cgmn0=0 = vinn3 - (vinn3 - vinn4)*(3r/4r) v25 vinn7 cgmn0=1 = vinn3 - (vinn3 - vinn4)*(7.5r/9.5r) v26 vinn7 - (vinn7 C vinn8)*(1r/7.5r) cgmn0=2 = vinn3 - (vinn3 - vinn4)*(7.8r/9.3r) v27 vinn7 - (vinn7 C vinn8)*(2r/7.5r) v6 cgmn0=3= vinn3 - (vinn3 - vinn4)*(8r/10r) v28 vinn7 - (vinn7 C vinn8)*(3r/7.5r) v7 vinn4 v29 vinn7 - (vinn7 C vinn8)*(4r/7.5r) cgmn2=0 = vinn4 - (vinn4 - vinn5)*(1r/6r) v30 vinn7 - (vinn7 C vinn8)*(5r/7.5r) cgmn2=1 = vinn4 - (vinn4 - vinn5)*(3r/16r) v31 vinn 7 - (vinn7 C vinn8)*(6r/7.5r) cgmn2=2 = vinn4 - (vinn4 - vinn5)*(4r/18r) v32 vinn 8 v8 cgmn2=3 = vinn4 - (vinn4 - vinn5)*(4.5r/19.5r) v33 vinn8 - (vinn8 C vinn9)*(1r/6r) cgmn2=0 = vinn4 - (vinn4 - vinn5)*(2r/6r) v34 vinn8 - (vinn8 C vinn9)*(2r/6r) cgmn2=1 = vinn4 - (vinn4 - vinn5)*(6r/16r) v35 vinn 8 - (vinn8 C vinn9)*(3r/6r) cgmn2=2 = vinn4 - (vinn4 - vinn5)*(7r/18r) v36 vinn 8 - (vinn8 C vinn9)*(4r/6r) v9 cgmn2=3 = vinn4 - (vinn4 - vinn5)*(8.5r/19.5r) v37 vinn8 - (vinn8 C vinn9)*(5r/6r) cgmn2=0 = vinn4 - (vinn4 - vinn5)*(3r/6r) v38 vinn9 cgmn2=1 = vinn4 - (vinn4 - vinn5)*(8.5r/16r) v39 vinn9 - (vinn9 - vinn10)*(1r/6r) cgmn2=2 = vinn4 - (vinn4 - vinn5)*(10r/18r) v40 vinn9 - (vinn9 - vinn10)*(2r/6r) v10 cgmn2=3 = vinn4 - (vinn4 - vinn5)*(11.5r/19.5r) v41 vinn9 - (vinn9 - vinn10)*(3r/6r) cgmn2=0 = vinn4 - (vinn4 - vinn5)*(4r/6r) v42 vinn9 - (vinn9 - vinn10)*(4r/6r) cgmn2=1 = vinn4 - (vinn4 - vinn5)*(11r/16r) v43 vinn9 - (vinn9 - vinn10)*(5r/6r) cgmn2=2 = vinn4 - (vinn4 - vinn5)*(13r/18r) v44 vinn10 v11 cgmn2=3 = vinn4 - (vinn4 - vinn5)*(14.5r/19.5r) cgmn5=0 =vinn10 - (vinn10 - vinn11)*(1r/6r) cgmn2=0 = vinn4 - (vinn4 - vinn5)*(5r/6r) v45 cgmn5=1 =vinn10 - (vinn10 - vinn11)*(1r/6.5r) cgmn2=1 = vinn4 - (vinn4 - vinn5)*(13.5r/16r) cgmn5=0 =vinn10 - (vinn10 - vinn11)*(2r/6r) cgmn2=2 = vinn4 - (vinn4 - vinn5)*(15.5r/18r) v46 cgmn5=1 =vinn10 - (vinn10 - vinn11)*(2r/6.5r) v12 cgmn2=3 = vinn4 - (vinn4 - vinn5)*(17r/19.5r) cgmn5=0 =vinn10 - (vinn10 - vinn11)*(3r/6r) v13 vinn5 v47 cgmn5=1 =vinn10 - (vinn10 - vinn11)*(3r/6.5r) cgmn4=0 =vinn5 - (vinn5 - vinn6)*(1r/6r) cgmn5=0 =vinn10 - (vinn10 - vinn11)*(4r/6r) v14 cgmn4=1 =vinn5 - (vinn5 - vinn6)*(1.5r/6.5r) v48 cgmn5=1 =vinn10 - (vinn10 - vinn11)*(4r/6.5r) cgmn4=0 =vinn5 - (vinn5 - vinn6)*(2r/6r) cgmn5=0 =vinn10 - (vinn10 - vinn11)*(5r/6r) v15 cgmn4=1 =vinn5 - (vinn5 - vinn6)*(2.5r/6.5r) v49 cgmn5=1 =vinn10 - (vinn10 - vinn11)*(5r/6.5r) http://www..net/ datasheet pdf - http://www..net/
-p.90- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula v50 vinn11 v56 vinn12 cgmn3=0 = vinn11 - (vinn11 - vinn12)*(1r/6r) cgmn1=0 = vinn12 - (vinn12 C vinn13)*(1r/4r) cgmn3=1 = vinn11 - (vinn11 - vinn12)*(2.5r/16r) cgmn1=1 = vinn12 - (vinn12 C vinn13)*(2r/9.5r) cgmn3=2 = vinn11 - (vinn11 - vinn12)*(2.5r/18r) cgmn1=2 = vinn12 - (vinn12 C vinn13)*(1.5r/9.3r) v51 cgmn3=3 = vinn11 - (vinn11 - vinn12)*(2.5r/19.5r) v57 cgmn1=3 = vinn12 - (vinn12 C vinn13)*(2r/10r) cgmn3=0 = vinn11 - (vinn11- vinn12)*(2r/6r) cgmn1=0 = vinn12 - (vinn12 C vinn13)*(2r/4r) cgmn3=1 = vinn11 - (vinn11 - vinn12)*(5r/16r) cgmn1=1 = vinn12 - (vinn12 C vinn13)*(4r/9.5r) cgmn3=2 = vinn11 - (vinn11 - vinn12)*(5r/18r) cgmn1=2 = vinn12 - (vinn12 C vinn13)*(3.3r/9.3r) v52 cgmn3=3 = vinn11 - (vinn11 - vinn12)*(5r/19.5r) v58 cgmn1=3 = vinn12 - (vinn12 C vinn13)*(4r/10r) cgmn3=0 = vinn11 - (vinn11 - vinn12)*(3r/6r) cgmn1=0 = vinn12 - (vinn12 C vinn13)*(3r/4r) cgmn3=1 = vinn11 - (vinn11 - vinn12)*(7.5r/16r) cgmn1=1 = vinn12 - (vinn12 C vinn13)*(6.5r/9.5r) cgmn3=2 = vinn11 - (vinn11 - vinn12)*(8r/18r) cgmn1=2 = vinn12 - (vinn12 C vinn13)*(5.8r/9.3r) v53 cgmn3=3 = vinn11 - (vinn11 - vinn12)*(8r/19.5r) v59 cgmn1=3= vinn12 - (vinn12 C vinn13)*(6.5r/10r) cgmn3=0 = vinn11 - (vinn11 - vinn12)*(4r/6r) v60 vinn13 cgmn3=1 = vinn11 - (vinn11 - vinn12)*(10r/16r) v61 vinn14 cgmn3=2 = vinn11 - (vinn11 - vinn12)*(11r/18r) v62 vinn15 v54 cgmn3=3 = vinn11 - (vinn11 - vinn12)*(11r/19.5r) v63 vinn16 cgmn3=0 = vinn11 - (vinn11- vinn12)*(5r/6r) cgmn3=1 = vinn11 - (vinn11 - vinn12)*(13r/16r) cgmn3=2 = vinn11 - (vinn11 - vinn12)*(14r/18r) v55 cgmn3=3 = vinn11 - (vinn11 - vinn12)*(15r/19.5r) table 5.39: voltage calculation formula of 64-grayscale v oltage (negative polarity) http://www..net/ datasheet pdf - http://www..net/
-p.91- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula vv0 v0 vv44 v11 vv1 v0 - (v0 - v1)*(4r/16r) vv45 v11 - (v11 - v12)*(1.6r/6.4r) vv2 v0 - (v0 - v1)*(8r/16r) vv46 v11 - (v11 - v12)*(3.2r/6.4r) vv3 v0 - (v0 - v1)*(12r/16r) vv47 v11 - (v11 - v12)*(4.8r/6.4r) vv4 v1 vv48 v12 vv5 v1 - (v1 - v2)*(4r/16r) vv49 v12 - (v12 - v13)*(1.6r/6.4r) vv6 v1 - (v1 - v2)*(8r/16r) vv50 v12 - (v12 - v13)*(3.2r/6.4r) vv7 v1 - (v1 - v2)*(12r/16r) vv51 v12 - (v12 - v13)*(4.8r/6.4r) vv8 v2 vv52 v13 vv9 v2 - (v2 - v3)*(4r/16r) vv53 v13 - (v13 - v14)*(1.6r/6.4r) vv10 v2 - (v2 - v3)*(8r/16r) vv54 v13 - (v13 - v14)*(3.2r/6.4r) vv11 v2 - (v2 - v3)*(12r/16r) vv55 v13 - (v13 - v14)*(4.8r/6.4r) vv12 v3 vv56 v14 vv13 v3 - (v3 - v4)*(2r/8r) vv57 v14 - (v14 - v15)*(1.6r/6.4r) vv14 v3 - (v3 - v4)*(4r/8r) vv58 v14 - (v14 - v15)*(3.2r/6.4r) vv15 v3 - (v3 - v4)*(6r/8r) vv59 v14 - (v14 - v15)*(4.8r/6.4r) vv16 v4 vv60 v15 vv17 v4 - (v4 - v5)*(2r/8r) vv61 v15 - (v15 - v16)*(1.6r/6.4r) vv18 v4 - (v4 - v5)*(4r/8r) vv62 v15 - (v15 - v16)*(3.2r/6.4r) vv19 v4 - (v4 - v5)*(6r/8r) vv63 v15 - (v15 - v16)*(4.8r/6.4r) vv20 v5 vv64 v16 vv21 v5 - (v5 - v6)*(2r/8r) vv65 v16 - (v16 - v17)*(1.6r/6.4r) vv22 v5 - (v5 - v6)*(4r/8r) vv66 v16 - (v16 - v17)*(3.2r/6.4r) vv23 v5 - (v5 - v6)*(6r/8r) vv67 v16 - (v16 - v17)*(4.8r/6.4r) vv24 v6 vv68 v17 vv25 v6 - (v6 - v7)*(2r/8r) vv69 v17 - (v17 - v18)*(1.6r/6.4r) vv26 v6 - (v6 - v7)*(4r/8r) vv70 v17 - (v17 - v18)*(3.2r/6.4r) vv27 v6 - (v6 - v7)*(6r/8r) vv71 v17 - (v17 - v18)*(4.8r/6.4r) vv28 v7 vv72 v18 vv29 v7 - (v7 - v8)*(1.6r/6.4r) vv73 v18 - (v18 - v19)*(1.6r/6.4r) vv30 v7 - (v7 - v8)*(3.2r/6.4r) vv74 v18 - (v18 - v19)*(3.2r/6.4r) vv31 v7 - (v7 - v8)*(4.8r/6.4r) vv75 v18 - (v18 - v19)*(4.8r/6.4r) vv32 v8 vv76 v19 vv33 v8 - (v8 - v9)*(1.6r/6.4r) vv77 v19 - (v19 - v20)*(1.6r/6.4r) vv34 v8 - (v8 - v9)*(3.2r/6.4r) vv78 v19 - (v19 - v20)*(3.2r/6.4r) vv35 v8 - (v8 - v9)*(4.8r/6.4r) vv79 v19 - (v19 - v20)*(4.8r/6.4r) vv36 v9 vv80 v20 vv37 v9 - (v9 - v10)*(1.6r/6.4r) vv81 v20 - (v20 - v21)*(1.6r/6.4r) vv38 v9 - (v9 - v10)*(3.2r/6.4r) vv82 v20 - (v20 - v21)*(3.2r/6.4r) vv39 v9 - (v9 - v10)*(4.8r/6.4r) vv83 v20 - (v20 - v21)*(4.8r/6.4r) vv40 v10 vv84 v21 vv41 v10 - (v10 - v11)*(1.6r/6.4r) vv85 v21 - (v21 - v22)*(1.6r/6.4r) vv42 v10 - (v10 - v11)*(3.2r/6.4r) vv86 v21 - (v21 - v22)*(3.2r/6.4r) vv43 v10 - (v10 - v11)*(4.8r/6.4r) vv87 v21 - (v21 - v22)*(4.8r/6.4r) http://www..net/ datasheet pdf - http://www..net/
-p.92- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula vv88 v22 vv132 v32 - (v32 - v33)*(1.6r/6.4r) vv89 v22 - (v22 - v23)*(1.6r/6.4r) vv133 v32 - (v32 - v33)*(3.2r/6.4r) vv90 v22 - (v22 - v23)*(3.2r/6.4r) vv134 v32 - (v32 - v33)*(4.8r/6.4r) vv91 v22 - (v22 - v23)*(4.8r/6.4r) vv135 v33 vv92 v23 vv136 v33 - (v33 - v34)*(1.6r/6.4r) vv93 v23 - (v23 - v24)*(1.6r/6.4r) vv137 v33 - (v33 - v34)*(3.2r/6.4r) vv94 v23 - (v23 - v24)*(3.2r/6.4r) vv138 v33 - (v33 - v34)*(4.8r/6.4r) vv95 v23 - (v23 - v24)*(4.8r/6.4r) vv139 v34 vv96 v24 vv140 v34 - (v34 - v35)*(1.6r/6.4r) vv97 v24 - (v24 - v25)*(1.6r/6.4r) vv141 v34 - (v34 - v35)*(3.2r/6.4r) vv98 v24 - (v24 - v25)*(3.2r/6.4r) vv142 v34 - (v34 - v35)*(4.8r/6.4r) vv99 v24 - (v24 - v25)*(4.8r/6.4r) vv143 v35 vv100 v25 vv144 v35 - (v35 - v36)*(1.6r/6.4r) vv101 v25 - (v25 - v26)*(1.6r/6.4r) vv145 v35 - (v35 - v36)*(3.2r/6.4r) vv102 v25 - (v25 - v26)*(3.2r/6.4r) vv146 v35 - (v35 - v36)*(4.8r/6.4r) vv103 v25 - (v25 - v26)*(4.8r/6.4r) vv147 v36 vv104 v26 vv148 v36 - (v36 - v37)*(1.6r/6.4r) vv105 v26 - (v26 - v27)*(1.6r/6.4r) vv149 v36 - (v36 - v37)*(3.2r/6.4r) vv106 v26 - (v26 - v27)*(3.2r/6.4r) vv150 v36 - (v36 - v37)*(4.8r/6.4r) vv107 v26 - (v26 - v27)*(4.8r/6.4r) vv151 v37 vv108 v27 vv152 v37 - (v37 - v38)*(1.6r/6.4r) vv109 v27 - (v27 - v28)*(1.6r/6.4r) vv153 v37 - (v37 - v38)*(3.2r/6.4r) vv110 v27 - (v27 - v28)*(3.2r/6.4r) vv154 v37 - (v37 - v38)*(4.8r/6.4r) vv111 v27 - (v27 - v28)*(4.8r/6.4r) vv155 v38 vv112 v28 vv156 v38 - (v38 - v39)*(1.6r/6.4r) vv113 v28 - (v28 - v29)*(1.6r/6.4r) vv157 v38 - (v38 - v39)*(3.2r/6.4r) vv114 v28 - (v28 - v29)*(3.2r/6.4r) vv158 v38 - (v38 - v39)*(4.8r/6.4r) vv115 v28 - (v28 - v29)*(4.8r/6.4r) vv159 v39 vv116 v29 vv160 v39 - (v39 - v40)*(1.6r/6.4r) vv117 v29 - (v29 - v30)*(1.6r/6.4r) vv161 v39 - (v39 - v40)*(3.2r/6.4r) vv118 v29 - (v29 - v30)*(3.2r/6.4r) vv162 v39 - (v39 - v40)*(4.8r/6.4r) vv119 v29 - (v29 - v30)*(4.8r/6.4r) vv163 v40 vv120 v30 vv164 v40 - (v40 - v41)*(1.6r/6.4r) vv121 v30 - (v30 - v31)*(1.6r/6.4r) vv165 v40 - (v40 - v41)*(3.2r/6.4r) vv122 v30 - (v30 - v31)*(3.2r/6.4r) vv166 v40 - (v40 - v41)*(4.8r/6.4r) vv123 v30 - (v30 - v31)*(4.8r/6.4r) vv167 v41 vv124 v31 vv168 v41 - (v41 - v42)*(1.6r/6.4r) vv125 v31 - (v31 - v32)*(1.6r/11.2r) vv169 v41 - (v41 - v42)*(3.2r/6.4r) vv126 v31 - (v31 - v32)*(3.2r/11.2r) vv170 v41 - (v41 - v42)*(4.8r/6.4r) vv127 v31 - (v31 - v32)*(4.8r/11.2r) vv171 v42 vv128 v31 - (v31 - v32)*(6.4r/11.2r) vv172 v42 - (v42 - v43)*(1.6r/6.4r) vv129 v31 - (v31 - v32)*(8r/11.2r) vv173 v42 - (v42 - v43)*(3.2r/6.4r) vv130 v31 - (v31 - v32)*(9.6r/11.2r) vv174 v42 - (v42 - v43)*(4.8r/6.4r) vv131 v32 vv175 v43 http://www..net/ datasheet pdf - http://www..net/
-p.93- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 grayscale voltage formula grayscale voltage formula vv176 v43 - (v43 - v44)*(1.6r/6.4r) vv216 v53 - (v 53 - v54)*(1.6r/6.4r) vv177 v43 - (v43 - v44)*(3.2r/6.4r) vv217 v53 - (v 53 - v54)*(3.2r/6.4r) vv178 v43 - (v43 - v44)*(4.8r/6.4r) vv218 v53 - (v 53 - v54)*(4.8r/6.4r) vv179 v44 vv219 v54 vv180 v44 - (v44 - v45)*(1.6r/6.4r) vv220 v54 - (v 54 - v55)*(1.6r/6.4r) vv181 v44 - (v44 - v45)*(3.2r/6.4r) vv221 v54 - (v 54 - v55)*(3.2r/6.4r) vv182 v44 - (v44 - v45)*(4.8r/6.4r) vv222 v54 - (v 54 - v55)*(4.8r/6.4r) vv183 v45 vv223 v55 vv184 v45 - (v45 - v46)*(1.6r/6.4r) vv224 v55 - (v 55 - v56)*(1.6r/6.4r) vv185 v45 - (v45 - v46)*(3.2r/6.4r) vv225 v55 - (v 55 - v56)*(3.2r/6.4r) vv186 v45 - (v45 - v46)*(4.8r/6.4r) vv226 v55 - (v 55 - v56)*(4.8r/6.4r) vv187 v46 vv227 v56 vv188 v46 - (v46 - v47)*(1.6r/6.4r) vv228 v56 - (v 56 - v57)*(2r/8r) vv189 v46 - (v46 - v47)*(3.2r/6.4r) vv229 v56 - (v 56 - v57)*(4r/8r) vv190 v46 - (v46 - v47)*(4.8r/6.4r) vv230 v56 - (v 56 - v57)*(6r/8r) vv191 v47 vv231 v57 vv192 v47 - (v47 - v48)*(1.6r/6.4r) vv232 v57 - (v 57 - v58)*(2r/8r) vv193 v47 - (v47 - v48)*(3.2r/6.4r) vv233 v57 - (v 57 - v58)*(4r/8r) vv194 v47 - (v47 - v48)*(4.8r/6.4r) vv234 v57 - (v 57 - v58)*(6r/8r) vv195 v48 vv235 v58 vv196 v48 - (v48 - v49)*(1.6r/6.4r) vv236 v58 - (v 58 - v59)*(2r/8r) vv197 v48 - (v48 - v49)*(3.2r/6.4r) vv237 v58 - (v 58 - v59)*(4r/8r) vv198 v48 - (v48 - v49)*(4.8r/6.4r) vv238 v58 - (v 58 - v59)*(6r/8r) vv199 v49 vv239 v59 vv200 v49 - (v49 - v50)*(1.6r/6.4r) vv240 v59 - (v 59 - v60)*(2r/8r) vv201 v49 - (v49 - v50)*(3.2r/6.4r) vv241 v59 - (v 59 - v60)*(4r/8r) vv202 v49 - (v49 - v50)*(4.8r/6.4r) vv242 v59 - (v 59 - v60)*(6r/8r) vv203 v50 vv243 v60 vv204 v50 - (v50 - v51)*(1.6r/6.4r) vv244 v60 - (v 60 - v61)*(4r/16r) vv205 v50 - (v50 - v51)*(3.2r/6.4r) vv245 v60 - (v 60 - v61)*(8r/16r) vv206 v50 - (v50 - v51)*(4.8r/6.4r) vv246 v60 - (v 60 - v61)*(12r/16r) vv207 v51 vv247 v61 vv208 v51 - (v51 - v52)*(1.6r/6.4r) vv248 v61 - (v 61 - v62)*(4r/16r) vv209 v51 - (v51 - v52)*(3.2r/6.4r) vv249 v61 - (v 61 - v62)*(8r/16r) vv210 v51 - (v51 - v52)*(4.8r/6.4r) vv250 v61 - (v 61 - v62)*(12r/16r) vv211 v52 vv251 v62 vv212 v52 - (v52 - v53)*(1.6r/6.4r) vv252 v62 - (v 62 - v63)*(4r/16r) vv213 v52 - (v52 - v53)*(3.2r/6.4r) vv253 v62 - (v 62 - v63)*(8r/16r) vv214 v52 - (v52 - v53)*(4.8r/6.4r) vv254 v62 - (v 62 - v63)*(12r/16r) vv215 v53 vv255 v63 table 5.40: voltage calculation formula of 256-grayscale voltage (positive/negative polarity) http://www..net/ datasheet pdf - http://www..net/
-p.94- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.3 gamma curve figure 5.5: gamma curve according to the gc0 to gc3 bit http://www..net/ datasheet pdf - http://www..net/
-p.95- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.4 oscillator the HX8363-A can oscillate an internal r-c oscillat or with an internal oscillation resistor (rf). the oscillation frequency is changed according to t he internal register. the default frequency is 5.5 mhz. the tolerance of internal oscillator fr equency is 10%. figure 5.6: oscillation circuit http://www..net/ datasheet pdf - http://www..net/
-p.96- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.5 lcd power generation scheme dc/dc converter dc/dc converter figure 5.7: lcd power generation scheme http://www..net/ datasheet pdf - http://www..net/
-p.97- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.6 dc/dc converter circuit 5.6.1 use pfm dc/dc converter the pfm dc-dc converter generates the high voltage level vsp/vsn required for source drivers. HX8363-A contains sub-circuits of the pfm boost converter, including a precision 1.8v reference voltage, comparator, pfm controlling logic, and the output buffer. the boost converter uses an external power transistor to prov ide maximum efficiency and to minimize the number of external components. the output volta ge of the boost converter can be set from 4.7 to 5.5 (vsp) and -4.7 to -5.5v (vsn). figure 5.8: dc/dc converter circuit (pfm) http://www..net/ datasheet pdf - http://www..net/
-p.98- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.6.2 use hx5186-a the hx5186-a is highly efficient switching voltage generator circuits that generate the high voltage level vsp/vsn required for source drivers. HX8363-A contains charge pump controller for hx5186-a, including a comparator for vsp/vsn feedback control. hx5186-a can provide maximum efficiency and use minimum numb er of external components. the output voltage of the boost converter can be set fr om 4.7 to 5.5 (vsp) and -4.7 to -5.5v (vsn) figure 5.9: dc/dc converter circuit (hx5186-a) http://www..net/ datasheet pdf - http://www..net/
-p.99- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.7 characteristics of i/o 5.7.1 output or bi-directional (i/o) pins output or bi-directional pins after power on after hardware reset after software reset db23 to db0 (output driver) high-z (inactive) high-z (inactive) high-z (inactiv e) sdo high-z (inactive) high-z (inactive) high-z (ina ctive) note: there will be no output from db[23...0] during powe r on/off sequences, hardware reset and software reset. table 5.41: characteristics of output or bi-directional ( i/o) pins 5.7.2 input pins input pins during power on process after power on after hardware reset after software reset during power off process nreset section 5.18 input valid input valid input valid section 5.18 ncs input valid input valid input valid input valid input valid db23 to db0 input valid input valid input valid input valid input valid osc input valid input valid input valid input valid input valid test2-0 low low low test1 low hsync input valid input valid input valid input valid input valid vsync input valid input valid input valid input valid input valid enable input valid input valid input valid input valid input valid dck input valid input valid input valid input valid input valid sdi, scl input valid input valid input valid input valid input valid table 5.42: characteristics of input pins http://www..net/ datasheet pdf - http://www..net/
-p.100- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.8 sleep out Ccommand and self-diagnostic function s of the display module 5.8.1 register loading detection sleep out-command (see sleep out (11h)) is a trig ger for an internal function of the display module, which indicates, if the display module load ing function of factory default values from otp (or similar device) to registers of the display controller is working properly. there are compared factory values of the opt and register val ues of the display controller by the display controller. if those both values (opt and r egister values) are same, there is inverted (=increased by 1) a bit, which is defined in comman d read display self-diagnostic result (0fh) (=rddsdr) (the used bit of this command is d 7). if those both values are not same, this bit (d7) is not inverted (= increased by 1). the flow chart for this internal function is follow ing: figure 5.10: sleep out flow chart C command and self-diagn ostic functions http://www..net/ datasheet pdf - http://www..net/
-p.101- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.8.2 functionality detection sleep out-command (see sleep out (11h)) is a trig ger for an internal function of the display module, which indicates, if the display module is s till running and meets functionality requirements. the internal function (= the display controller) is comparing, if the display module still meets functionality requirements (e.g. booster voltage le vels, timings, etc.). if functionality requirement is met, 1 bit will be inverted (= incre ased by 1), which is defined in command read display self- diagnostic result (0fh) (= rdd sdr) (the used bit of this command is d6). if functionality requirement is not the same, this bit (d6) is not inverted (= increased by 1). the flow chart for this internal function is sh own as below. sleep in (10h) sleep out mode sleep in mode sleep out (11h) checks timings, voltage levels and other functionalities is functionality requirement meet ? d6 inverted rddsdr`s d6=0 power on sequence hw reset sw reset yes no note: there is needed 120msec after sleep out -command, wh en there is changing from sleep in Cmode to sleep o ut -mode, before there is possible to check if custome rs functionality requirements are met and a value of rddsdrs d6 is valid. otherwise, there is 5msec delay for d6 s value, when sleep out Ccommand is sent in sleep ou t -mode. figure 5.11: sleep out flow chart internal function detect ion http://www..net/ datasheet pdf - http://www..net/
-p.102- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.9 power on/off sequence vdd1, vdd2 and vdd3 can be applied in any order. vd d1, vdd2 and vdd3 can be powered down in any order. during power off, if lcd is in the sleep out mode, vdd1 and vdd2 must be powered down minimum 120msec after nre set has been released. during power off, if lcd is in the sleep in mode, vdd1, vd d2 and vdd3 can be powered down minimum 0msec after nreset has been released. ncs c an be applied at any timing. nreset has priority over ncs. there will be no dama ge to the display module if the power sequences are not met. there will be no abnormal vi sible effects on the display panel during the power on/off sequences. there will be no abnorm al visible effects on the display between end of power on sequence and before receivi ng sleep out command. also between receiving sleep in command and power off se quence. if nreset line is not held stable by host during power on sequence as defined in sections 5.9.1 and 5.9.2, then it will be necessary to apply a hardware reset (nreset) aft er host power on sequence is complete to ensure correct operation. otherwise fun ction is not guaranteed. the power on/off sequence is illustrated below. http://www..net/ datasheet pdf - http://www..net/
-p.103- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.9.1 case 1 C nreset line is held high or unstable by host at power on if nreset line is held high or unstable by the host during power on, then a hardware reset must be applied after both vdd1, vdd2 and vdd3 have been applied C otherwise correct functionality is not guaranteed. there is no timing restriction upon this hardware reset. vdd1 vdd2 vdd3 ncs nreset nreset trpw= +/- no limit tfpw= +/- no limit trpwics= +/- no limit tfpwics= +/- no limit h or l trpwires= + no limit trpwires= + no limit tfpwires1= min 120ms tfpwires2= min 0ns (power down in sleep out mode) (power down in sleep in mode) tfpwires1 is applied to nreset falling in the sleep out mode tfpwires2 is applied to nreset falling in the sleep in mode time when the latter signal rises up to 90% of its typical va lue. ex. when vci comes latter. this time is defined at the cross point of 90% of 2.5v/2.75v. no t 90% of 2.3v. time when the former signal falls down to 90% of its typical value. ex. when vci falls earilier. this time is defined at the cross point of 90% of 2 .5v/2.75v. not 90% of 2.3v. figure 5.12: case 1 C nreset line is held high or unstable by host at power on http://www..net/ datasheet pdf - http://www..net/
-p.104- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.9.2 case 2 C nreset line is held low by host at p ower on if nreset line is held low (and stable) by the host during power on, then the nreset must be held low for minimum 10 sec after both vdd1, vdd2 and vdd3 have been applie d. vdd1 vdd2 vdd3 ncs nreset nreset trpw= +/- no limit tfpw= +/- no limit trpwics= +/- no limit tfpwics= +/- no limit h or l trpwires= min 10us trpwires= min 10us tfpwires1= min 120ms tfpwires2= min 0ns tfpwires1 is applied to nrest falling in the sleep out mode tfpwires2 is applied to nrest falling in the sleep in mode time when the latter signal rises up to 90% of its typical value. ex. when vci comes latter. this time is defined at the cross point of 90% of 2 .5v/2.75v. not 90% of 2.3v. time when the former signal falls down to 90% of it s typical value. ex. when vci falls earilier. this time is defined at the cross point o f 90% of 2.5v/2.75v. not 90% of 2.3v. (power down in sleep out mode) (power down in sleep in mode) figure 5.13: case 2 C nreset line is held low by host at p ower on 5.10 uncontrolled power off the uncontrolled power off means a situation when e .g. there is removed a battery without the controlled power off sequence. there will not b e any damages for the display module or the display module will not cause any damages for t he host or lines of the interface. at an uncontrolled power off the display will go blank an d there will not be any visible effects within 1 second on the display (blank display) and remains blank until power on sequence powers it up. note: HX8363-A is support the noise reject filter (10 s) to reject spike or noise. http://www..net/ datasheet pdf - http://www..net/
-p.105- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.11 content adaptive brightness control (cabc) fun ction the general block diagram of the cabc and the brigh tness control is illustrated below: externalvsync,hsync, enable,dck (rgbinterface) imagedata displaycontrol signalgenerator displaydata generator displaydata contentsanalysis cabcgain/duty brightnesscontrol block pwmclock devider pwm_clk (foscd) cabcblock rddbv[7:0](r52h) (bl=0) cabc[1:0]=00 off cabc[1:0]=01, 10,11 on pwm_out (bl=1) cabc[1:0](r55h) wrdbv[7:0](r51h) bctrl,bl(r53h) cmb[7:0](r5eh) figure 5.14: cabc block diagram http://www..net/ datasheet pdf - http://www..net/
-p.106- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.11.1 module architectures HX8363-A can support two module architectures for c abc operation. the bl bit setting of r53h can be used to select used display module arch itecture. white led driver circuit for display backlight is located on the main pwb, not i n the display module both in architecture i and ii. architecture i cabc_ pwm_out 1. bl =`1` of r53h 2. led backlight brightness for the dis play i s c on trol led b y e xt ernal output cabc_pwm_out . architecture ii 1. bl =`0` of r53h 2. led backlight brightness data for the display is read with dbv[7:0] bits of r52h. 3. read commands r53h should be synchronized with v-sync. figure 5.15: module architecture http://www..net/ datasheet pdf - http://www..net/
-p.107- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.11.2 brightness control block there is an external output signal from brightness block, cabc_pwm_out, to control the led driver ic in order to control display brightnes s. there are resister bits, wrdbv[7:0] of r51h, for di splay brightness of manual brightness setting. the cabc_pwm_out duty is calculated as (wr dbv[7:0])/255 x cabc duty (generated after one-frame display data content ana lysis). for ex: cabc_pwm_out period = 2.95 ms, and wrdbv[7: 0](r51h) = 228 dec and cabc duty is 74%. then cabc_pwm_out duty = (228) / 255 x 74.42% o 66.54%. correspond to the cabc_pwm_out period = 2.95 ms, the high-level o f cabc_pwm_out (high effective) = 1.96ms, and the low-level of cabc_pwm_out = 0.99m s. figure 5.16: cabc_pwm_out output duty symbol parameter min. max. unit description tpw pulse width 0.0333 8.33 ms note: (1) the signal rise and fall times (tf, tr) are sti pulated to be equal to or less than 15ns. (2)the pulse width range by setting cabc related regi sters is located between 0.0333ms to 8.33ms. table 5.43: cabc timing table when architecture ii module is used ( bl =0) with the example below, the cabc_pwm_out is always output low and the wrdbv[7:0](r51h) will be read a value as 169 dec ((169)/255 o 66.27%). on off cabc _ pwm _ out ( invplus = `1`) duty = 100 % maximum duty = 33 % duty = 66 . 57 % duty = 100 % off one period (tpw) display brightness http://www..net/ datasheet pdf - http://www..net/
-p.108- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 5.11.3 minimum brightness setting of cabc function cabc function is automatically reduced backlight br ightness based on image contents. in the case of the combination with the cabc or manual bri ghtness setting, display brightness is too dark. it must affect to image quality degradati on. cabc minimum brightness setting ( cmb[7:0] bits of r5eh) is to avoid too much brightness redu ction. when cabc is active, cabc can not reduce the displa y brightness to less than cabc minimum brightness setting. image processing functi on is worked as normal, even if the brightness can not be changed. this function does not affect to the other function , manual brightness setting. manual brightness can be set the display brightness to les s than cabc minimum brightness. smooth transition and dimming function can be worked as no rmal. when display brightness is turned off ( bctrl=0 of r53h), cabc minimum brightness setting is ignored. cmb[7:0], read cabc minimum brightness (r5fh) always read t he setting value of cmb[7:0], write cabc minimum brightness (r5eh) http://www..net/ datasheet pdf - http://www..net/
-p.109- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6. command 6.1 command list 6.1.1 standard command (hex) operation code dnc d7 d6 d5 d4 d3 d2 d1 d0 function default (hex) 00 nop 0 0 0 0 0 0 0 0 0 no operation 01 swreset 0 0 0 0 0 0 0 0 1 software reset 0 0 0 0 0 0 1 1 0 read red color 06 rdred 1 r[7:0] 0 0 0 0 0 0 1 1 1 read green color 07 rdgreen 1 g[7:0] 0 0 0 0 0 1 0 0 0 read blue color 08 rdblue 1 b[7:0] 0 0 0 0 0 1 0 1 0 read display power mode 0a rddpm 1 d[7:0] 0 0 0 0 0 1 0 1 1 read display madctl 0b rddmadctl 1 d[7:0] 0 0 0 0 0 1 1 0 0 read display pixel format 0c rddcolmod 1 d[7:0] 0 0 0 0 0 1 1 0 1 read display image mode 0d rddim 1 d[7:0] 0 0 0 0 0 1 1 1 0 read display signal mode 0e rddsm 1 d[7:0] 0 0 0 0 0 1 1 1 1 read display self-diagnostic result 0f rddsdr 1 d[7:0] 10 slpin 0 0 0 0 1 0 0 0 0 sleep in and charge-pump off 11 slpout 0 0 0 0 1 0 0 0 1 sleep out and charge-pump on 20 invoff 0 0 0 1 0 0 0 0 0 display inversion off 21 invon 0 0 0 1 0 0 0 0 1 display inversion on 0 0 0 1 0 0 1 1 0 gamma set 26 gamset 1 gc[7:0] 28 dispoff 0 0 0 1 0 1 0 0 0 display off 29 dispon 0 0 0 1 0 1 0 0 1 display on http://www..net/ datasheet pdf - http://www..net/
-p.110- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 (hex) operation code dnc d7 d6 d5 d4 d3 d2 d1 d0 function default (hex) 0 0 0 1 1 0 1 1 0 memory access control 36 madctl 1 xx xx xx xx bgr xx ss gs 0 0 0 1 1 1 0 1 0 interface pixel format 3a colmod 1 xx csel_rgb[2:0](110) xx xx xx xx 0 1 0 1 0 0 0 0 1 read the ddb from the provided location. 1 id1 1 id2 1 id3 1 id4 a1 read_ddb_start 1 8hff the five bytes always output 0 1 0 1 0 1 0 0 0 1 ddb data 1 : a8 read_ddb_continue 1 : continue reading the ddb from the last read location. 0 1 1 0 1 1 0 1 0 da rdid1 1 modules manufacturer[7:0] read id1 0 1 1 0 1 1 0 1 1 db rdid2 1 1 lcd module/driver version [6:0] read id2 0 1 1 0 1 1 1 0 0 dc rdid3 1 lcd module/driver id[7:0] read id3 http://www..net/ datasheet pdf - http://www..net/
-p.111- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 note: (1) undefined commands are treated as nop (00bhb) comm and. (2) b0bhb to d9bhb and debhb to ffbhb are for factory use o f display supplier. customer can decide if these commands are available or they are treated as nop (00bhb) commands before shipping to customer. default value is nop (00bhb). (hex) operation code dnc d7 d6 d5 d4 d3 d2 d1 d0 function default (hex) 0 0 1 0 1 0 0 0 1 write display brightness 51 wrdisbv 1 wrdbv[7:0](00) 0 0 1 0 1 0 0 1 0 read display brightness value 52 rddisbv 1 rddbv[7:0] 0 0 1 0 1 0 0 1 1 53 wrctrld 1 0 0 bct rl 0 dd bl xx xx write ctrl display 0 0 1 0 1 0 1 0 0 read control value display 54 rdctrld 1 xx xx bct rl xx dd bl xx xx 0 0 1 0 1 0 1 0 1 55 wrcabc 1 xx xx xx xx xx xx cabc[1:0](00) write content adaptive brightness control 0 0 1 0 1 0 1 1 0 read content adaptive brightness control 56 rdcabc 1 xx xx xx xx xx xx cabc[1:0] 0 0 1 0 1 1 1 1 0 5e wrcabcmb 1 cmb 7 cmb 6 cmb 5 cmb 4 cmb 3 cmb 2 cmb 1 cmb 0 write cabc minimum brightness 0 0 1 0 1 1 1 1 1 read cabc minimum brightness 5f rdcabcmb 1 cmb[7:0] http://www..net/ datasheet pdf - http://www..net/
-p.112- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.1.2 user define command list table user define command list is available only set set exc command. (hex) operation code dnc d7 d6 d5 d4 d3 d2 d1 d0 function 0 1 0 1 1 0 0 0 1 set power related setting 1 - vsn_en vsp_en vgl_en vgh_ en - vdddn_ hz slp 1 - fs12 fs11 fs10 - ap2 ap1 ap0 1 - - - - bt3 bt2 bt1 bt0 1 dt1 dt0 dc1 dc0 dc_di v3 dc_div2 dc_div1 dc_div0 1 - dtps2 dtps1 dtps0 - dtp2 dtp1 dtp0 1 - dtns2 dtns1 dtns0 - dtn2 dtn1 dtn0 1 - - - btp4 btp3 btp2 btp1 btp0 1 - - - btn4 btn3 btn2 btn1 btn0 1 vrhp7 vrhp6 vrhp5 vrhp4 vrhp3 vrhp2 vrhp1 vrhp0 1 vrhn7 vrhn6 vrhn5 vrhn4 vrhn3 vrhn2 vrhn1 vrhn0 1 - - vrmp5 vrmp4 vrmp3 vrmp2 vrmp1 vrmp0 b1 setpower 1 - - vrmn5 vrmn4 vrmn3 vrmn2 vrmn1 vrmn0 0 1 0 1 1 0 0 1 1 set rgb interface related register) b3 setrgbif 1 - - - - dpl (0) hspl (0) vspl (0) epl (1) 0 1 0 1 1 0 1 0 0 1 - - - - nw[1:0] - 1 son[7:0] 1 soff[7:0] 1 eqs[7:0] 1 eqon[7:0] 1 gdon[7:0] 1 gdoff[7:0] 1 gvssp1[7:0] b4 setcyc 1 gvssp2[7:0] set display waveform cycles 0 1 0 1 1 0 1 1 0 b6 setvcom (otpx3) 1 vcmc7 vcmc 6 vcmc 5 vcmc 4 vcmc3 vcmc 2 vcmc 1 vcmc 0 set vcom voltage 0 1 0 1 1 1 0 0 1 1 extc1[7:0](00) 1 extc2[7:0](00) b9 setextc 1 extc3[7:0](00) set extended command set 0 1 0 1 1 1 0 1 1 1 otp_lo ad_ disabl e (0) - otp_pc e otp_p we (0) otp_ptm[2:0] otp_pr og 1 otp_mask[7:0] (8'b0) 1 otp_index[7:0] (8'b1111_1111) bb setotp 1 otp_data_read set otp related setting 0 1 1 0 0 0 0 0 1 1 - - - - - - - dgc_e n 1 d1[7:0] 1 dn[7:0] c1 setdgclut 1 d126[7:0] set dgc lut 0 1 1 0 0 0 0 1 1 1 id1[7:0](8'b0) 1 id2[6:0](7'b0) c3 setid 1 id3[7:0](8'b0) set id 0 1 1 0 0 0 1 0 0 1 ddb1[7:0](8'b0) 1 ddb2[7:0](8'b0) 1 ddb3[7:0](8'b0) c4 setddb 1 ddb4[7:0](8'b0) set ddb http://www..net/ datasheet pdf - http://www..net/
-p.113- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 (hex) operation code dnc d7 d6 d5 d4 d3 d2 d1 d0 function 0 1 1 0 0 1 1 0 0 cc setpanel 1 - - - sm_pa nel(0) ss_pan el(0) gs_pan el(0) rev_pa nel(1) bgr_pane l(0) get panel related register 0 1 1 1 1 1 1 1 0 fe set spi read index 1 cmd_add[7:0] set spi read command address 0 1 1 1 1 1 1 1 1 1 cmd_data1[7:0] 1 : ff spiread 1 cmd_datan[7:0] read spi command data 0 1 1 1 0 0 0 0 0 set gamma curve related setting 1 - - g1_vrp0[5:0] 1 g1_cgmp0[1:0] g1_vrp1[5:0] 1 g1_cgmp1[1:0] g1_ vrp2[5:0] 1 g1_cgmp2[1:0] g1_vrp3[5:0] 1 g1_cgmp3[1:0] g1_vrp4[5:0] 1 g1_cgmp 5 g1_c gmp4 g1_vrp5[5:0] 1 g1_p rp0[6] - g1_pkp0[4:0] 1 g1_prp0[5:4] - g1_pkp1[4:0] 1 g1_prp0[3:2] - g1_pkp2[4:0] 1 g1_prp0 [1:0] - g1_pkp3[4:0] 1 g1_prp 1[6] - g1_pkp4[4:0] 1 g1_prp1[5:4] - g1_pkp5[4:0] 1 g1_prp1[3:2] - g1_ pkp6[4:0] 1 g1_prp1[1:0] - g1_pkp7[4:0] 1 - g1_pkp8[4:0] 1 g1_vrn0[5:0] 1 g1_cgmn0[1:0] g1_vrn1[5:0] 1 g1_cgmn1[1:0] g1_vrn2[5:0] 1 g1_cgmn2[1:0] g1_vrn3[5:0] 1 g1_cgmn3[1:0] g1_vrn4[5:0] 1 g1_cgmn 5 g1_c gmn 4 g1_vrn5[5:0] 1 g1_p rn0[ 6] - g1_pkn0[4:0] 1 g1_prn0[5:4] - g1_ pkn1[4:0] 1 g1_prn0[3:2] - g1_pkn2[4:0] 1 g1_prn0 [1:0] - g1_pkn3[4:0] 1 g1_pr n1[6] - g1_pkn4[4:0] 1 g1_prn1[5:4] - g1_pkn5[4:0] 1 g1_prn1[3:2] - g1_pkn6[4:0] 1 g1_prn1[1:0] - g1_pkn7[4:0] e0 setgamma (otpx4) 1 - - - g1_pkn8[4:0] http://www..net/ datasheet pdf - http://www..net/
-p.114- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2 command description 6.2.1 nop 00 h nop (no operation) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 0 0 0 0 00 parameter no parameter description this command is an empty command; it do es not have any effect on the display module. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence n/a s/w reset n/a h/w reset n/a flow chart http://www..net/ datasheet pdf - http://www..net/
-p.115- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.2 software reset (01h) 01 h swreset (software reset) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 0 0 0 1 01 parameter no parameter description when the software reset command is written, it caus es a software reset. it resets the commands and parameters to their s/w reset defa ult values. (see default tables in each command description.) restriction it will be necessary to wait 5msec before sending n ew command following software reset. the display module loads all display suppliers fac tory default values to the registers during this 5msec. if software reset is applied dur ing sleep out mode, it will be necessary to wait 120msec before sending sleep out command. software reset command cannot be sent during sleep out sequence. the host processor continues to send dck, hsync, an d vsync and enable signals to HX8363-A for two frames after this comma nd is sent. register availability status availability sleep out yes sleep in yes default status default value power on sequence n/a s/w reset n/a h/w reset n/a flow chart swreset displaywhole blankscreen setcommands tos/wdefault value sleepinmode legend parameter displa y action mode sequential transfer http://www..net/ datasheet pdf - http://www..net/
-p.116- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.3 read red color (06h) 06 h rdred (read red colour) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 0 1 1 0 06 1 st parameter 1 r7 r6 r5 r4 r3 r2 r1 r0 xx description the first parameter is telling red colour value of the first pixel of the frame when there is used rgb i/f. 16 bit format: r5 is msb and r1 is lsb. r7, r6 and r0 are set to 0. 18 bit format: r5 is msb and r0 is lsb. r7 and r6 a re set to 0. 24 bit format: r7 is msb and r0 is lsb. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.117- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.4 read green color (07h) 07 h rdgreen (read green colour) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 0 1 1 1 07 1 st parameter 1 g7 g6 g5 g4 g3 g2 g1 g0 xx description the first parameter is telling green colour value o f the first pixel of the frame when there is used rgb i/f. 16 and 18 bit formats: g5 is msb and g0 is lsb. g7 and g6 are set to 0. 24 bit format: g7 is msb and g0 is lsb. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.118- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.5 read blue color (08h) 08 h rdblue (read blue colour) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 0 0 0 08 1 st parameter 1 b7 b6 b5 b4 b3 b2 b1 b0 xx description the first parameter is telling blue colour value of the first pixel of the frame when there is used rgb i/f. 16 bit format: b5 is msb and b1 is lsb. b7, b6 and b0 are set to 0. 18 bit format: b5 is msb and b0 is lsb. b7 and b6 a re set to 0. 24 bit format: b7 is msb and b0 is lsb. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.119- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.6 read display power mode (0ah) 0a h rddpm (read display power mode) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 0 1 0 0a 1 st parameter 1 d[7:0] xx description this command indicates the current status of the di splay as described in the table below: bit description comment d7 booster voltage status d6 idle mode on/off set to 0 d5 partial mode on/off set to 0 d4 sleep in/out d3 display normal mode on/off d2 display on/off d1 not defined set to 0 d0 not defined set to 0 ? bit d7 C booster voltage status 0 = booster off or has a fault. 1 = booster on and working ok (meets display supp liers optical requirements). bit d6 C idle mode on/off this bit is not applicable for this project, so it is set to 0. ? bit d5 C partial mode on/off this bit is not applicable for this project, so it is set to 0. bit d4 C sleep in/out 0 = sleep in mode. 1 = sleep out mode. ? bit d3 C display normal mode on/off 0 = display normal mode off. 1 = display normal mode on. bit d2 C display on/off 0 = display is off. 1 = display is on. restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 08hex s/w reset 08hex h/w reset 08hex flow chart http://www..net/ datasheet pdf - http://www..net/
-p.120- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.7 read display madctl (0bh) 0b h rddmadctl (read display madctl) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 0 1 1 0b 1 st parameter 1 d[7:0] xx description this command indicates the current status of the di splay as described in the table below: bit description comment d7 page address order set to 0 d6 column address order set to 0 d5 page/column order set to 0 d4 line address order set to 0 d3 rgb/bgr order d2 display data latch order set to 0 d1 source scan sequence d0 gate scan sequence bit d7 C page address order this bit is not applicable for this project, so it is set to 0. bit d6 C column address order this bit is not applicable for this project, so it is set to 0. bit d5 C page/column order this bit is not applicable for this project, so it is set to 0. bit d4 C line address order this bit is not applicable for this project, so it is set to 0. bit d3 C rgb/bgr order 0 = rgb (when madctl b3=0). 1 = bgr (when madctl b3=1). bit d2 C display data latch data order this bit is not applicable for this project, so it is set to 0. bit d1 C source scan sequence 0 = normal (when madctl b1=0). 1 = flipped (when madctl b1=1). bit d0 C gate scan sequence 0 = normal (when madctl b0=0). restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 00hex s/w reset 00hex h/w reset 00hex http://www..net/ datasheet pdf - http://www..net/
-p.121- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 flow chart seriali/f mode sendd[7:0] rddmadctl(0bh) host driver legend command parameter display action mode sequential transfer http://www..net/ datasheet pdf - http://www..net/
-p.122- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.8 read display pixel format (0ch) 0c h rddcolmod (read display colmod) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 1 0 0 0c 1 st parameter 1 d[7:0] xx description this command indicates the current status of the di splay as described in the table below: bit description comment d7 set to 0 d6 d5 d4 dpi interface pixel format d3 set to 0 d2 set to 0 d1 set to 0 d0 dbi interface pixel format set to 0 bits d7, d3 C reserved bits d6, d5, d4 C dpi interface colour pixel format definition bits d2, d1, d0 C dbi interface colour pixel format definition. this bit is not applicable for this project, so it is set to 0. rgb interface format d6 d5 d4 not defined 0 0 0 not defined 0 0 1 not defined 0 1 0 not defined 0 1 1 not defined 1 0 0 16 bit/pixel 1 0 1 18 bit/pixel 1 1 0 24 bit/pixel 1 1 1 restrictions register availability status availability sleep out yes default status default value power on sequence 70h s/w reset 70h h/w reset 70h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.123- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.9 read display image mode (0dh) 0d h rddim (read display image mode) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 1 0 1 0d 1 st parameter 1 d[7:0] xx description this command indicates the current status of the di splay as described in the table below: bit d7 C vertical scrolling on/off this bit is not applicable for this project, so it is set to 0 bit d6 C reserved set to 0 bit d5 C inversion on/off 0 = inversion is off. 1 = inversion is on. bits d4, d3 C reserved set to 0 bits d2, d1, d0 C gamma curve selection gamma curve selected d2 d1 d0 gamma set (26h) parameter gamma curve 1 0 0 0 gc0 gamma curve 2 0 0 1 gc1 gamma curve 3 0 1 0 gc2 gamma curve 4 0 1 1 gc3 not defined 1 0 0 not defined not defined 1 0 1 not defined not defined 1 1 0 not defined not defined 1 1 1 not defined restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 00hex s/w reset 00hex h/w reset 00hex flow chart seriali/fmode sendd[7:0] rddim(0dh) host driver legend command parameter display action mode sequential transfer http://www..net/ datasheet pdf - http://www..net/
-p.124- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.10 read display signal mode (0eh) 0e h rddsm (read display signal mode) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 1 1 0 0e 1 st parameter 1 d[7:0] xx description this command indicates the status of the display se lf-diagnostic results after sleep out Ccommand as described in the table below: ? bit d5 C horizontal sync. (rgb i/f) on/off. 0 = horizontal sync. line is off (low). 1 = horizontal sync. line is on (high). ? bit d4 C vertical sync. (rgb i/f) on/off. 0 = vertical sync. line is off (low). 1 = vertical sync. line is on (high). ? bit d3 C pixel clock (pclk, rgb i/f) on/off. 0 = pclk line is off (low). 1 = pclk line is on (high). ? bit d2 C data enable (de, rgb i/f)) on/off. 0 = de line is off (low). 1 = de line is on (high). ? d7, d6, d1 are d0 C are for future use and are se t to 0. restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence na s/w reset na h/w reset na flow chart http://www..net/ datasheet pdf - http://www..net/
-p.125- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.11 read display self-diagnostic result (0fh) 0f h rddsdr (read display self-diagnostic result) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 0 1 1 1 1 0f 1 st parameter 1 d[7:0] xx description this command indicates the status of the display se lf-diagnostic results after sleep out Ccommand as described in the table below: bit d7 C register loading detection bit d6 C functionality detection bit d5 C chip attachment detection set to 0 if feature unimplemented. bit d4 C display glass break detection set to 0 if feature unimplemented. bits d[3:0] C reserved set to 0. restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 00hex s/w reset 00hex h/w reset 00hex flow chart http://www..net/ datasheet pdf - http://www..net/
-p.126- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.12 sleep in (10h) 10 h slpin (sleep in) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 1 0 0 0 0 10 parameter no parameter description this command is used to enter the slee p in mode. restriction this command has no effect when module is already i n sleep in mode. sleep in mode can only be left by the sleep out command (11h ). it will be necessary to wait 5msec before sending n ext command. this is to allow time for the supply voltages and clock circuits to stabilize. it will be necessary to wait 120msec after sending sleep out command (when in sleep in mode) before sleep in command can be sent. the host processor continues to send dck, hsync, an d vsync and enable signals to HX8363-A for two frames after this comma nd is sent. register availability status availability sleep out yes sleep in yes default status default value power on sequence sleep in mode s/w reset sleep in mode h/w reset sleep in mode flow chart it takes 120msec to get into sleep in mode after sl pin command issued. http://www..net/ datasheet pdf - http://www..net/
-p.127- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.13 sleep out (11h) 11 h slpout (sleep out) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 0 1 0 0 0 1 11 parameter no parameter description this command turns off sleep mode. restriction this command has no effect when module is already i n sleep out mode. sleep out mode can only be left by the sleep in command (10h) . it will be necessary to wait 5msec before sending n ext command. this is to allow time for the supply voltages and clock circuits to stabi lize. the display module loads all display suppliers fac tory default values to the registers during this 5msec and there cannot be any abnormal visual effect on the display image if factory default and register values are sa me when this load is done and when the display module is already sleep out Cmode. the display module is doing self-diagnostic functio ns during this 5msec. it will be necessary to wait 120msec after sending sleep in command (when in sleep out mode) before sleep out command can be sen t. the host processor sends dck, hsync, and vsync and enable signals to HX8363-A for two frames before this command is sent . register availability status availability sleep out yes sleep in yes default status default value power on sequence sleep in mode s/w reset sleep in mode flow chart it takes 120msec to become sleep out mode after slp out command issued. legend display action slpout start internal oscillator start up dc:dc converter charge offset voltage for lcd panel display memory contents in accordance with the current command table settings display whole blank screen for 2 frames (automatic no effect to disp on/off commands) command parameter mode sequential transfer sleep out mode http://www..net/ datasheet pdf - http://www..net/
-p.128- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.14 display inversion off (20h) 20 h invoff (display inversion off) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 0 0 0 0 0 20 parameter no parameter description this command is used to recover from display invers ion mode. this command makes no change of contents of image data. this command does not change any other status. (example) restriction this command has no effect when module is already in inversion off mode. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence display inversion off s/w reset display inversion off h/w reset display inversion off flow chart http://www..net/ datasheet pdf - http://www..net/
-p.129- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.15 display inversion on (21h) 21 h invon (display inversion on) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 0 0 0 0 1 21 parameter no parameter description this command is used to enter into display inversio n mode. this command makes no change of contents of image d ata. every bit is inverted from the rgb i/f to the display. this command does not c hange any other status. restriction this command has no effect when module is already in inversion on mode. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence display inversion off s/w reset display inversion off h/w reset display inversion off flow chart http://www..net/ datasheet pdf - http://www..net/
-p.130- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.16 gamma set (26h) 26 h gamset (gamma set) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 0 0 1 1 0 26 parameter 1 gc[7:0] 1..08 description this command is used to select the desired gamma cu rve for the current display. a maximum of 4 fixed gamma curves can be selected. the curves are defined in section curve correction power supply circuit. the curve is selected by settin g the appropriate bit in the parameter as described in the table: gc[7..0] parameter curve selected 01h gc0 gamma curve 1 02h gc1 gamma curve 2 04h gc2 gamma curve 3 08h gc3 gamma curve 4 note: all other values are undefined. restriction values of gc[7..0] not shown in table above are inval id and will not change the current selected gamma curve until valid value is r eceived. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 01hex s/w reset 01hex h/w reset 01hex flow chart http://www..net/ datasheet pdf - http://www..net/
-p.131- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.17 display off (28h) 28 h dispoff (display off) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 0 1 0 0 0 28 parameter no parameter description this command is used to enter into display off mode . in this mode, the output from rgb i/f is disabled and blank page inserted. this command makes no change of contents of rgb i/f . this command does not change any other status. there will be no abnormal visible effect on the dis play. restriction this command has no effect when module is already in display off mode. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence display off s/w reset display off h/w reset display off flow chart legend command parameter display action mode sequential transfer dispoff displayon mode displayoff mode http://www..net/ datasheet pdf - http://www..net/
-p.132- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.18 display on (29h) 29 h dispon (display on) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 0 1 0 0 1 29 parameter no parameter description this command is used to recover from display off mo de. output from the rgb i/f is enabled. this command makes no change of contents of image d ata this command does not change any other status. restriction this command has no effect when module is already in display on mode. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence display off s/w reset display off h/w reset display off flow chart legend display action mode command parameter sequential transfer display off mode dispon display on mode http://www..net/ datasheet pdf - http://www..net/
-p.133- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.19 memory access control (36h) 36 h madctl (memory access control) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 1 0 1 1 0 36 1 st parameter 1 xx xx xx xx bgr xx ss gs xx description this command defines write scanning direction of lc d. bit assignment bit name description b7 page address order this bit is not applicable for t his project, so it is set to 0. b6 column address order this bit is not applicable for this project, so it is set to 0. b5 page/column selection this bit is not applicable for this project, so it is set to 0. b4 display device line refresh order this bit is not applicable for this project, so it is set to 0. b3 rgb-bgr order (bgr) colour selector switch control (0=rgb colour filter panel, 1=bgr colour filter panel) b2 display data latch data order this bit is not applicable for this project, so it is set to 0. b1 flip horizontal (source scan sequence) select the source driver scan direction on panel module b0 flip vertical (gate scan sequence) select the gate driver scan direction on panel module source scan sequence (ss) gate scan sequence (gs) b3=1 sig480 r g b g b g b r r g b g b r r g b g b r r r g b r g b r g b r g b r g b r g b r g b r g b r g b b3= 0 sig1 sig1 lcd panel sig2 sig480 sig2 rgb-bgr order lcd panel sig480 sig1 sig2 sig1 sig2 sig480 driver ic driver ic http://www..net/ datasheet pdf - http://www..net/
-p.134- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 restriction d7, d6, d5, d4, and d2 of the 1st param eter are set to 0 internally. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence b7=0,b6=0,b5=0,b4=0,b3=0,b2=0,b1=0,b0=0 s/w reset b7=0,b6=0,b5=0,b4=0,b3=0,b2=0,b1=0,b0=0 h/w reset b7=0,b6=0,b5=0,b4=0,b3=0,b2=0,b1=0,b0=0 flow chart madctl legend display action mode 1st parameter b[7:0] command parameter sequential transfer http://www..net/ datasheet pdf - http://www..net/
-p.135- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.20 interface pixel format (3ah) 3a h colmod (interface pixel format) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 0 1 1 1 0 1 0 3a 1 st parameter 1 xx csel_rgb[2:0] xx xx xx xx 011,10 1,110,1 11 description this command is used to define the format of rgb pi cture data. the formats are shown in the following table: d6~d4 : dpi pixel format definition. d2~d0 : dbi pixel format definition. this bit is not applicable for this project, so it is set to 0. rgb interface format d6 d5 d4 not defined 0 0 0 not defined 0 0 1 not defined 0 1 0 not defined 0 1 1 not defined 1 0 0 16 bit/pixel 1 0 1 18 bit/pixel 1 1 0 24 bit/pixel 1 1 1 restriction there is no visible effect until the im age data is written to. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 70h s/w reset 70h h/w reset 70h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.136- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.21 read_ddb_start (a1h) a1 h read_ddb_start dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 0 0 0 0 1 a1 1 st parameter 1 id1[7:0] xx 2 nd parameter 1 id2[7:0] xx 3 rd parameter 1 id3[7:0] xx 4 th parameter 1 id4[7:0] xx 5 th parameter 1 1 1 1 1 1 1 1 1 xx description this command reads identifying and descriptive info rmation from the peripheral. this information is organized in the device descriptor b lock (ddb) stored on the peripheral. the response to this command returns a sequence of byte s that may be any length up to 64k bytes. note that the returned sequence of bytes doe s not necessarily correspond to the entire ddb; it may be a portion of a larger block of data. the format of returned data is as follows: parameter 1: ms (most significant) byte of supplier id. supplier id is a unique value assigned to each peripheral supplier by the mipi organizatio n. parameter 2: ls (least significant) byte of supplie r id. parameter 3: ms (most significant) byte of supplier elective data. this is a byte of information that is determined by the supplier. it could includ e model number or revision information, for example. parameter 4: ls (least significant) byte of supplie r elective data parameter 5: single-byte escape or exit code (eec). the code is interpreted as follows: - ffh - exit code C there is no more data in the de scriptor block restriction register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence pa1st~4th is otp value, pa5th is ffh s/w reset pa1st~4th is otp value, pa5th is ffh h/w reset pa1st~4th is otp value, pa5th is ffh flow chart http://www..net/ datasheet pdf - http://www..net/
-p.137- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.22 read_ddb_continue (a8h) a8 h read_ddb_continue dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 0 1 0 0 0 a8 1 st parameter 1 ddb_data xx description a read_ddb_start command should be executed at leas t once before a read_ddb_continue command to define the read location. otherwise, dat a read with a read_ddb_continue command is undefined. restriction there is no visible effect until the im age data is written to. register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence without a1h read, 1st~4th read is the same as a8h 1st~4th otp value, after 5th read is ffh. s/w reset without a1h read, 1st~4th read is the same as a8h 1st~4th otp value, after 5th read is ffh. h/w reset without a1h read, 1st~4th read is the same as a8h 1st~4th otp value, after 5th read is ffh. flow chart http://www..net/ datasheet pdf - http://www..net/
-p.138- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.23 read id1 (dah) da h rdid1 (read id1) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 1 1 0 1 0 da 1 st parameter 1 modules manufacturer[7:0] xx description this read byte identifies the lcd modules manufact urer. it is specified by display supplier and for xx is defined as xxhex. restriction register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.139- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.24 read id2 (dbh) db h rdid2 (read id2) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 1 1 0 1 1 db 1 st parameter 1 1 lcd module/driver version [6:0] - description this read byte is used to track the lcd module/driv er version. it is defined by display supplier and changes each time a revision is made t o the display, material or construction specifications. see table: id byte value v[7:0] version changes 80h 81h 82h 83h 84h 85h restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.140- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.25 read id3 (dch) dc h rdid3 (read id3) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 1 1 1 0 0 dc 1 st parameter 1 lcd module/driver id[7:0] xx description this read byte identifies the lcd module/driver. it is specified by display supplier and for this lcd project module is defined as xxhex . restrictions register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.141- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.26 write display brightness (51h) 51 h wrdisbv (write display brightness) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 0 0 0 1 51 1 st parameter 1 wrdbv[7:0] 00 ... ff description this command is used to adjust the brightness value of the display. it should be checked what the relationship between this written value and output brightness of the display is. this relationship is defined on the display module specification. in principle relationship is that 00h value means the lowest bri ghtness and ffh value means the highest brightness. restriction the display supplier cannot use this co mmand for tuning (e.g. factory tuning, etc.). register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.142- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.27 read display brightness value (52h) 52 h rddisbv (read display brightness value) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 0 0 1 0 52 1 st parameter 1 rddbv[7:0] xx description this command returns the brightness value of the di splay. it should be checked what the relationship between this returned value and output brightness of the display. this relationship is defined on the display module specification is. in principle the relationship is that 00h value mea ns the lowest brightness and ffh value means the highest brightness. see chapters: brightness control blockx, display configuration and xwrite display brightness (51h)x this command can be used to read the brightness value of the display also when display brightness control is in automatic mod e. see chapter write ctrl display (53h) bit db = 1. dbv[7:0] is reset when display is in sleep-in mode. dbv[7:0] is 0 when bit bctrl of write ctrl displ ay (53h) command is 0. dbv[7:0] is manual set brightness specified with write ctrl di splay (53h) command when bit bctrl is 1 and bit a of write ctrl display (53h) command is 0. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.143- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.28 write ctrl display (53h) 53 h wrctrld (write control display) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 0 0 1 1 53 1 st parameter 1 0 0 bctrl 0 dd bl 0 0 00.. ff description this command is used to control display brightness. bctrl: brightness control block on/off, this bit is always used to switch brightness for display. 0 = off (brightness registers are 00h, dbv[7..0]) 1 = on (brightness registers are active, according to the other parameters.) display dimming (dd): (only for manual brightness s etting) dd = 0: display dimming is off dd = 1: display dimming is on bl: backlight control on/off 0 = off (completely turn off backlight circuit. con trol lines must be low. ) 1 = on dimming function is adapted to the brightness regis ters for display when bit bctrl is changed at dd=1, e.g. bctrl: 0 -> 1 or 1-> 0. (refer to turn off display brightness.) when bl bit change from on to off, backlight is turned off without gradual dimming, even if dimming-on (dd=1) are selected. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.144- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.29 read ctrl value display (54h) 54 h rdctrld (read control value display) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 0 1 0 0 54 1 st parameter 1 0 0 bctrl 0 dd bl 0 0 xx description this command returns ambient light and brightness c ontrol values bctrl: brightness control block on/off, this bit is always used to switch brightness for display. 0 = off 1 = on display dimming (dd): dd = 0: display dimming is off dd = 1: display dimming is on bl: backlight control on/off 0 = off (completely turn off backlight circuit) 1 = on restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart command displa y action mode parameter sequential transfer legend read rdctrld serial i/f mode host display send 1st parameter http://www..net/ datasheet pdf - http://www..net/
-p.145- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.30 write content adaptive brightness control (5 5h) 55 h wrcabc (write content adaptive brightness control) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 0 1 0 1 55 1 st parameter 1 xx xx xx xx xx xx cabc[1:0](00) xx description this command is used to set parameters for image co ntent based adaptive brightness control functionality. there is possible to use 4 d ifferent modes for content adaptive image functionality, which are defined on a table below. c1 c0 function 0 0 off 0 1 user interface image 1 0 still picture 1 1 moving image restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.146- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.31 read content adaptive brightness control (56 h) 56 h rdcabc (read content adaptive brightness control) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 0 1 1 0 56 1 st parameter 1 0 0 0 0 0 0 cabc[1:0] xx description this command is used to read the settings for image content based adaptive brightness control functionality. there is possible to use 4 different modes for content adaptive image functionality, which are defined on a table below. c1 c0 function 0 0 off 0 1 user interface image 1 0 still picture 1 1 moving image restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.147- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.32 write cabc minimum brightness (5eh) 5e h rdmffsvm (read median filtered fs value msbs) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 1 1 1 0 5e 1 st parameter 1 cmb 7 cmb 6 cmb 5 cmb 4 cmb 3 cmb 2 cmb 1 cmb 0 00.. ff description this command is used to set the minimum brightness value of the display for cabc function. in principle relationship is that 00h value means the lowest brightness for cabc and ffh value means the highest brightness for cabc. see chapter minimum brightness setting of cabc fun ction. restriction the display supplier cannot use this co mmand for tuning (e.g. factory tuning, etc.). register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.148- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.33 read cabc minimum brightness (5fh) 5f h rdcabcmb (read cabc minimum brightness) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 0 1 0 1 1 1 1 1 5f 1 st parameter 1 cmb[7:0] xx description this command returns the minimum brightness value o f cabc function. in principle the relationship is that 00h value means the lowest bri ghtness and ffh value means the highest brightness. see chapter minimum brightness setting of cabc function. cmb[7:0] is cabc minimum brightness specified with write cabc minim um brightness (5eh) command. restriction register availability status availability sleep out yes sleep in yes default status default value power on sequence 00h s/w reset 00h h/w reset 00h flow chart command display action mode parameter sequential transfer legend read rdcabcmb send 1st parameter serial i/f mode host display http://www..net/ datasheet pdf - http://www..net/
-p.149- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.34 setpower: set power (b1h) rb1 h setpower( set power related setting) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 1 0 0 0 1 b1 1 st parameter 1 - vsn_en vsp_en vgl_en vgh_en - vdddn_hz slp 2 nd parameter 1 - fs12 fs11 fs10 - ap2 ap1 ap0 3 rd parameter 1 - - - - bt3 bt2 bt1 bt0 4 th parameter 1 dt1 dt0 dc1 dc0 dc_div3 dc_div2 dc_div1 dc_div0 5 th parameter 1 - dtps2 dtps1 dtps0 - dtp2 dtp1 dtp0 6 th parameter 1 - dtns2 dtns1 dtns0 - dtn2 dtn1 dtn0 7 th parameter 1 - - - btp4 btp3 btp2 btp1 btp0 8 th parameter 1 - - - btn4 btn3 btn2 btn1 btn0 9 th parameter 1 vrhp7 vrhp6 vrhp5 vrhp4 vrhp3 vrhp2 vrhp1 vrhp0 10 th parameter 1 vrhn7 vrhn6 vrhn5 vrhn4 vrhn3 vrhn2 vrhn1 vrhn0 11 th parameter 1 - - vrmp5 vrmp4 vrmp3 vrmp2 vrmp1 vrmp0 12 th parameter 1 - - vrmn5 vrmn4 vrmn3 vrmn2 vrmn1 vrmn0 description this command is used to set related setting of powe r. vsp_en: on/off the operation of vsp circuit. vsp_en operation of vsp dc/dc circuit 0 off 1 on vsn_en: on/off the operation of vsn circuit. vsn_en operation of vsn dc/dc circuit 0 off 1 on vgh_en: on/off the operation of vgh charge bump circuit. vgh_en operation of vgh charge bump circuit 0 off 1 on vgl_en: on/off the operation of vgl charge bump circuit. vgl_en operation of vgl charge bump circuit 0 off 1 on bt3 bt2 bt1 bt0 vgh vgl 0 0 0 0 2*(vsp-vsn) vdddn-1*(vsp-vsn) 0 0 0 1 2*(vsp-vsn) -1*(vsp-vsn) 0 0 1 0 2*(vsp-vsn) vdd3-1*(vsp-vsn) 0 0 1 1 1*(vsp-vsn)+(vdd3-vsn) vdddn-1*(vsp-vsn) 0 1 0 0 1*(vsp-vsn)+(vdd3-vsn) -1*(vsp-vsn) 0 1 0 1 1*(vsp-vsn)+(vdd3-vsn) vdd3-1*(vsp-vsn) 0 1 1 0 1*(vsp-vsn)+(vssd-vsn) vdddn-1*(vsp-vsn) 0 1 1 1 1*(vsp-vsn)+(vssd-vsn) -1*(vsp-vsn) 1 0 0 0 1*(vsp-vsn)+(vssd-vsn) vdd3-1*(vsp-vsn) 1 0 0 1 inhibited inhibited 1 0 1 0 inhibited inhibited 1 0 1 1 inhibited inhibited 1 1 0 0 inhibited inhibited 1 1 0 1 inhibited inhibited 1 1 1 0 inhibited inhibited 1 1 1 1 inhibited inhibited http://www..net/ datasheet pdf - http://www..net/
-p.150- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 fs1[2:0]: set the operating frequency of the step-up circuit 2 for vgh and vgl voltage generation. fs12 fs11 fs10 operation frequency of step-up circuit 2 0 0 0 fosc/32 0 0 1 fosc/64 0 1 0 fosc/128 0 1 1 fosc/256 1 0 0 fosc/512 1 0 1 fosc/1024 1 1 0 fosc/2048 1 1 1 fosc/4096 vdddn_hz: choose external or internal vdddn power. vdddn_hz=0, vdddn= -2.5v. vdddn_hz=1, vdddn output hz. (for external vdddn.) dc_div[3:0]: for pfm circuit: set the operate frequency of dc/dc converter circui t for pfm design. (pccs[1:0]=0x) dc_div3 dc_div2 dc_div1 dc_div0 normal operate frequency of dc/dc converter 0 0 0 0 fosc / 1 0 0 0 1 fosc / 2 0 0 1 0 fosc / 3 0 0 1 1 fosc / 4 0 1 0 0 fosc / 5 0 1 0 1 fosc / 6 0 1 1 0 fosc / 7 0 1 1 1 fosc / 8 1 0 0 0 fosc / 1 1 0 0 1 fosc / 2 1 0 1 0 fosc / 3 1 0 1 1 fosc / 4 1 1 0 0 fosc / 5 1 1 0 1 fosc / 6 1 1 1 0 fosc / 7 1 1 1 1 fosc / 8 http://www..net/ datasheet pdf - http://www..net/
-p.151- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 for hx5186-a circuit: set the operate frequency of dc/dc converter circui t for hx5186-a design. (pccs[1:0]=1x) dc_div3 dc_div2 dc_div1 dc_div0 normal operate frequency of dc/dc converter 0 0 0 0 fosc / 2 0 0 0 1 fosc / 2 0 0 1 0 fosc / 4 0 0 1 1 fosc / 8 0 1 0 0 fosc / 16 0 1 0 1 fosc / 32 0 1 1 0 fosc / 64 0 1 1 1 fosc / 128 1 0 0 0 fosc / 256 1 0 0 1 fosc / 512 1 0 1 0 fosc / 1024 1 0 1 1 fosc / 2048 1 1 0 0 fosc / 4096 1 1 0 1 fosc / 8192 1 1 1 0 fosc / 16384 1 1 1 1 fosc / 32768 dc[1:0]: set the operating frequency of dc/dc clock for the internal dc/dc circuit when using the higher frequency, the driving abilit y of the dc/dc circuit and the display quality are high, but the current consumption is in creased. the tradeoff is between the display quality and the current consumption. no use for hx5 186-a design. foscd = divided oscillator frequency dc1 dc0 operation frequency of dc/dc clock 0 0 foscd / 4 0 1 foscd / 6 1 0 foscd / 8 1 1 foscd / 12 dt[1:0]: delay time of power on and power off sequence. dt1 dt0 delay time of power on and power off sequence on (m s) 0 0 5ms 0 1 10ms 1 0 15ms 1 1 20ms dtp[2:0]: for pfm circuit: set the operating duty cycle of dc/dc clock for vsp . (pccs[1:0]=0x) 1 duty cycle = 1 foscd clock dtp2 dtp1 dtp0 operation duty cycle of dc/dc clock for vsp generation 0 0 0 1 0 0 1 2 0 1 0 3 0 1 1 4 1 0 0 5 1 0 1 6 1 1 0 7 1 1 1 8 http://www..net/ datasheet pdf - http://www..net/
-p.152- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 for hx5186-a circuit: set the operating pump mode. (pccs[1:0]=1x) dtp2 dtp1 dtp0 vdd3 pumping ratio for vsp/vsn generation 0 0 1 x 3 pump 0 1 0 x 2 pump 1 0 0 x 1.5 pump others inhibited dtps[2:0]: set the soft start operating duty cycle of dc/dc ci rcuit. (pfm dc/dc circuit). no use for hx5186-a design. 1 duty cycle = 1 foscd clock dtps2 dtps1 dtps0 soft start operating duty cycle of dc/dc circuit 0 0 0 1 0 0 1 2 0 1 0 3 0 1 1 4 1 0 0 5 1 0 1 6 1 1 0 7 1 1 1 8 dtn[2:0]: for pfm circuit: set the operating duty cycle of dc/dc clock for vsn . (pccs[1:0]=0x) 1 duty cycle = 1 foscd clock dtn2 dtn1 dtn0 operation duty cycle of dc/dc clock for vsn generation 0 0 0 1 0 0 1 2 0 1 0 3 0 1 1 4 1 0 0 5 1 0 1 6 1 1 0 7 1 1 1 8 for hx5186-a circuit: set the operating feedback mode. if feedback bump m ode turns on, vsp/vsn stop bumping when they reach target voltage . (pccs[1:0]=1x) dtn2 dtn1 dtn0 pumping mode selection for vsp/vsn generation 0 0 1 no feedback bump mode 0 1 1 feedback bump mode others inhibited http://www..net/ datasheet pdf - http://www..net/
-p.153- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 dtns[2:0]: set the soft start operating duty cycle of dc/dc ci rcuit. (pfm dc/dc circuit). no use for hx5186-a design. 1 duty cycle = 1 foscd clock dtns2 dtns1 dtns0 soft start operating duty cycle of dc/dc circuit 0 0 0 1 0 0 1 2 0 1 0 3 0 1 1 4 1 0 0 5 1 0 1 6 1 1 0 7 1 1 1 8 btp[4:0]: switch the output factor for dc/dc circuit. the lc d drive voltage level vsp can be selected according to the characteristic of liquid crystal which panel used. for hx5186-a design, if dtn[2:0]=001(no feedback bu mp mode), depend on dtp[2:0] setting, the vsp=1.5*vdd3/2*vdd3/3*vdd3. btp4 btp3 btp2 btp1 btp0 vsp 0 0 0 0 0 3.01 0 0 0 0 1 3.15 0 0 0 1 0 3.29 0 0 0 1 1 3.46 0 0 1 0 0 3.60 0 0 1 0 1 3.74 0 0 1 1 0 3.91 0 0 1 1 1 4.05 0 1 0 0 0 4.19 0 1 0 0 1 4.36 0 1 0 1 0 4.50 0 1 0 1 1 4.64 0 1 1 0 0 4.81 0 1 1 0 1 4.95 0 1 1 1 0 5.09 0 1 1 1 1 5.26 1 0 0 0 0 5.40 1 0 0 0 1 5.54 1 0 0 1 0 5.71 1 0 0 1 1 inhibit 1 0 1 0 0 inhibit 1 0 1 0 1 inhibit 1 0 1 1 0 inhibit 1 0 1 1 1 inhibit 1 1 0 0 0 inhibit 1 1 0 0 1 inhibit 1 1 0 1 0 inhibit 1 1 0 1 1 inhibit 1 1 1 0 0 inhibit 1 1 1 0 1 inhibit 1 1 1 1 0 inhibit 1 1 1 1 1 inhibit http://www..net/ datasheet pdf - http://www..net/
-p.154- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 btn[4:0]: switch the output factor of dc/dc circuit for vsn voltage generation. the lcd drive voltage level vsn can be selected according t o the characteristic of liquid crystal which panel used. no use for hx5186-a desig n. for hx5186-a design, vsn = -vsp. btn4 btn3 btn2 btn1 btn0 vsn 0 0 0 0 0 -3.01 0 0 0 0 1 -3.15 0 0 0 1 0 -3.29 0 0 0 1 1 -3.46 0 0 1 0 0 -3.60 0 0 1 0 1 -3.74 0 0 1 1 0 -3.91 0 0 1 1 1 -4.05 0 1 0 0 0 -4.19 0 1 0 0 1 -4.36 0 1 0 1 0 -4.50 0 1 0 1 1 -4.64 0 1 1 0 0 -4.81 0 1 1 0 1 -4.95 0 1 1 1 0 -5.09 0 1 1 1 1 -5.26 1 0 0 0 0 -5.40 1 0 0 0 1 -5.54 1 0 0 1 0 -5.71 1 0 0 1 1 inhibit 1 0 1 0 0 inhibit 1 0 1 0 1 inhibit 1 0 1 1 0 inhibit 1 0 1 1 1 inhibit 1 1 0 0 0 inhibit 1 1 0 0 1 inhibit 1 1 0 1 0 inhibit 1 1 0 1 1 inhibit 1 1 1 0 0 inhibit 1 1 1 0 1 inhibit 1 1 1 1 0 inhibit 1 1 1 1 1 inhibit ap[2:0]: adjust the amount of fixed current from the fixed current source for the operational amplifier in the power supply circuit. when the amo unt of fixed current is increased, the lcd driving capacity and the display quality ar e high, but the current consumption is increased. this is a tradeoff, adjus t the fixed current by considering both the display quality and the current consumptio n. during no display operation, when ap[2:0] = 000, the current consumption can be reduced by stopping the operations of operational amplifier and step-up cir cuit. the default setting for ap[2:0] = 100 in order to avoid the power supply circuit st opped. if you use this register, every time this register must be sent again after s lpout(11h) command. ap2 ap1 ap0 constant current of operational amplifi er 0 0 0 stop 0 0 1 0.5 m a 0 1 0 1.0 m a 0 1 1 1.5 m a 1 0 0 2.0 m a 1 0 1 2.5 m a 1 1 0 3.0 m a 1 1 1 3.5 m a http://www..net/ datasheet pdf - http://www..net/
-p.155- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 vrhp[7:0]: vspr regulator output control setting for source da ta output driving. vrhp[7:0] vspr 0 0 0 0 0 0 0 0 3.488 0 0 0 0 0 0 0 1 3.516 0 0 0 0 0 0 1 0 3.544 0 0 0 0 0 0 1 1 3.572 0 0 0 0 0 1 0 0 3.600 0 0 0 0 0 1 0 1 3.628 0 0 0 0 0 1 1 0 3.656 0 0 0 0 0 1 1 1 3.684 0 0 0 0 1 0 0 0 3.713 0 0 0 0 1 0 0 1 3.741 0 0 0 0 1 0 1 0 3.769 0 0 0 0 1 0 1 1 3.797 0 0 0 0 1 1 0 0 3.825 0 0 0 0 1 1 0 1 3.853 0 0 0 0 1 1 1 0 3.881 0 0 0 0 1 1 1 1 3.909 0 0 0 1 0 0 0 0 3.938 0 0 0 1 0 0 0 1 3.966 0 0 0 1 0 0 1 0 3.994 0 0 0 1 0 0 1 1 4.022 0 0 0 1 0 1 0 0 4.050 0 0 0 1 0 1 0 1 4.078 0 0 0 1 0 1 1 0 4.106 0 0 0 1 0 1 1 1 4.134 0 0 0 1 1 0 0 0 4.163 0 0 0 1 1 0 0 1 4.191 0 0 0 1 1 0 1 0 4.219 0 0 0 1 1 0 1 1 4.247 0 0 0 1 1 1 0 0 4.275 0 0 0 1 1 1 0 1 4.303 0 0 0 1 1 1 1 0 4.331 0 0 0 1 1 1 1 1 4.359 0 0 1 0 0 0 0 0 4.388 0 0 1 0 0 0 0 1 4.416 0 0 1 0 0 0 1 0 4.444 0 0 1 0 0 0 1 1 4.472 0 0 1 0 0 1 0 0 4.500 0 0 1 0 0 1 0 1 4.528 0 0 1 0 0 1 1 0 4.556 0 0 1 0 0 1 1 1 4.584 0 0 1 0 1 0 0 0 4.613 0 0 1 0 1 0 0 1 4.641 0 0 1 0 1 0 1 0 4.669 0 0 1 0 1 0 1 1 4.697 0 0 1 0 1 1 0 0 4.725 0 0 1 0 1 1 0 1 4.753 0 0 1 0 1 1 1 0 4.781 0 0 1 0 1 1 1 1 4.809 http://www..net/ datasheet pdf - http://www..net/
-p.156- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 0 0 1 1 0 0 0 0 4.838 0 0 1 1 0 0 0 1 4.866 0 0 1 1 0 0 1 0 4.894 0 0 1 1 0 0 1 1 4.922 0 0 1 1 0 1 0 0 4.950 0 0 1 1 0 1 0 1 4.978 0 0 1 1 0 1 1 0 5.006 0 0 1 1 0 1 1 1 5.034 0 0 1 1 1 0 0 0 5.063 0 0 1 1 1 0 0 1 5.091 0 0 1 1 1 0 1 0 5.119 00111011 ~ 01111110 inhibit 0 1 1 1 1 1 1 1 vsp 10000000 ~ 11111110 inhibit 1 1 1 1 1 1 1 1 hz vrhn[7:0]: vsnr regulator output control setting for source da ta output driving. when set vsnr=vsn, vcom output is 0v. vrhn[7:0] vsnr 0 0 0 0 0 0 0 0 -3.263 0 0 0 0 0 0 0 1 -3.291 0 0 0 0 0 0 1 0 -3.319 0 0 0 0 0 0 1 1 -3.347 0 0 0 0 0 1 0 0 -3.375 0 0 0 0 0 1 0 1 -3.403 0 0 0 0 0 1 1 0 -3.431 0 0 0 0 0 1 1 1 -3.459 0 0 0 0 1 0 0 0 -3.488 0 0 0 0 1 0 0 1 -3.516 0 0 0 0 1 0 1 0 -3.544 0 0 0 0 1 0 1 1 -3.572 0 0 0 0 1 1 0 0 -3.600 0 0 0 0 1 1 0 1 -3.628 0 0 0 0 1 1 1 0 -3.656 0 0 0 0 1 1 1 1 -3.684 0 0 0 1 0 0 0 0 -3.713 0 0 0 1 0 0 0 1 -3.741 0 0 0 1 0 0 1 0 -3.769 0 0 0 1 0 0 1 1 -3.797 0 0 0 1 0 1 0 0 -3.825 0 0 0 1 0 1 0 1 -3.853 0 0 0 1 0 1 1 0 -3.881 0 0 0 1 0 1 1 1 -3.909 0 0 0 1 1 0 0 0 -3.938 0 0 0 1 1 0 0 1 -3.966 0 0 0 1 1 0 1 0 -3.994 0 0 0 1 1 0 1 1 -4.022 0 0 0 1 1 1 0 0 -4.050 0 0 0 1 1 1 0 1 -4.078 0 0 0 1 1 1 1 0 -4.106 0 0 0 1 1 1 1 1 -4.134 0 0 1 0 0 0 0 0 -4.163 0 0 1 0 0 0 0 1 -4.191 0 0 1 0 0 0 1 0 -4.219 0 0 1 0 0 0 1 1 -4.247 0 0 1 0 0 1 0 0 -4.275 0 0 1 0 0 1 0 1 -4.303 http://www..net/ datasheet pdf - http://www..net/
-p.157- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 0 0 1 0 0 1 1 0 -4.331 0 0 1 0 0 1 1 1 -4.359 0 0 1 0 1 0 0 0 -4.388 0 0 1 0 1 0 0 1 -4.416 0 0 1 0 1 0 1 0 -4.444 0 0 1 0 1 0 1 1 -4.472 0 0 1 0 1 1 0 0 -4.500 0 0 1 0 1 1 0 1 -4.528 0 0 1 0 1 1 1 0 -4.556 0 0 1 0 1 1 1 1 -4.584 0 0 1 1 0 0 0 0 -4.613 0 0 1 1 0 0 0 1 -4.641 0 0 1 1 0 0 1 0 -4.669 0 0 1 1 0 0 1 1 -4.697 0 0 1 1 0 1 0 0 -4.725 0 0 1 1 0 1 0 1 -4.753 0 0 1 1 0 1 1 0 -4.781 0 0 1 1 0 1 1 1 -4.809 0 0 1 1 1 0 0 0 -4.838 0 0 1 1 1 0 0 1 -4.866 0 0 1 1 1 0 1 0 -4.894 0 0 1 1 1 0 1 1 -4.922 0 0 1 1 1 1 0 0 -4.950 0 0 1 1 1 1 0 1 -4.978 0 0 1 1 1 1 1 0 -5.006 0 0 1 1 1 1 1 1 -5.034 0 1 0 0 0 0 0 0 -5.063 0 1 0 0 0 0 0 1 -5.091 0 1 0 0 0 0 1 0 -5.119 01000011 ~ 01111110 inhibit 0 1 1 1 1 1 1 1 vsn 10000000 ~ 11111110 inhibit 1 1 1 1 1 1 1 1 hz vrmp[5:0]: the positive polarity gamma amplitude voltage setti ng (vspr-vgsp). vrmp[5:0] vspr-vgsp 0 0 0 0 0 0 2.588 0 0 0 0 0 1 2.644 0 0 0 0 1 0 2.700 0 0 0 0 1 1 2.756 0 0 0 1 0 0 2.813 0 0 0 1 0 1 2.869 0 0 0 1 1 0 2.925 0 0 0 1 1 1 2.981 0 0 1 0 0 0 3.038 0 0 1 0 0 1 3.094 0 0 1 0 1 0 3.150 0 0 1 0 1 1 3.206 0 0 1 1 0 0 3.263 0 0 1 1 0 1 3.319 0 0 1 1 1 0 3.375 0 0 1 1 1 1 3.431 0 1 0 0 0 0 3.488 0 1 0 0 0 1 3.544 http://www..net/ datasheet pdf - http://www..net/
-p.158- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 0 1 0 0 1 0 3.600 0 1 0 0 1 1 3.656 0 1 0 1 0 0 3.713 0 1 0 1 0 1 3.769 0 1 0 1 1 0 3.825 0 1 0 1 1 1 3.881 0 1 1 0 0 0 3.938 0 1 1 0 0 1 3.994 0 1 1 0 1 0 4.050 0 1 1 0 1 1 4.106 0 1 1 1 0 0 4.163 0 1 1 1 0 1 4.219 0 1 1 1 1 0 4.275 0 1 1 1 1 1 4.331 1 0 0 0 0 0 4.388 1 0 0 0 0 1 4.444 1 0 0 0 1 0 4.500 1 0 0 0 1 1 4.556 1 0 0 1 0 0 4.613 1 0 0 1 0 1 4.669 1 0 0 1 1 0 4.725 1 0 0 1 1 1 4.781 1 0 1 0 0 0 4.838 1 0 1 0 0 1 4.894 1 0 1 0 1 0 4.950 1 0 1 0 1 1 5.006 1 0 1 1 0 0 5.063 1 0 1 1 0 1 5.119 1 0 1 1 1 0 inhibit 1 0 1 1 1 1 inhibit 1 1 0 0 0 0 inhibit 1 1 0 0 0 1 inhibit 1 1 0 0 1 0 inhibit 1 1 0 0 1 1 inhibit 1 1 0 1 0 0 inhibit 1 1 0 1 0 1 inhibit 1 1 0 1 1 0 inhibit 1 1 0 1 1 1 inhibit 1 1 1 0 0 0 inhibit 1 1 1 0 0 1 inhibit 1 1 1 0 1 0 inhibit 1 1 1 0 1 1 inhibit 1 1 1 1 0 0 inhibit 1 1 1 1 0 1 inhibit 1 1 1 1 1 0 inhibit 1 1 1 1 1 1 vspr(vgsp=vssa) vrmn[5:0]: the negative polarity gamma amplitude voltage setti ng (vsnr-vgsn). vrmn[5:0] vsnr-vgsn 0 0 0 0 0 0 -2.588 0 0 0 0 0 1 -2.644 0 0 0 0 1 0 -2.700 0 0 0 0 1 1 -2.756 0 0 0 1 0 0 -2.813 http://www..net/ datasheet pdf - http://www..net/
-p.159- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 0 0 0 1 0 1 -2.869 0 0 0 1 1 0 -2.925 0 0 0 1 1 1 -2.981 0 0 1 0 0 0 -3.038 0 0 1 0 0 1 -3.094 0 0 1 0 1 0 -3.150 0 0 1 0 1 1 -3.206 0 0 1 1 0 0 -3.263 0 0 1 1 0 1 -3.319 0 0 1 1 1 0 -3.375 0 0 1 1 1 1 -3.431 0 1 0 0 0 0 -3.488 0 1 0 0 0 1 -3.544 0 1 0 0 1 0 -3.600 0 1 0 0 1 1 -3.656 0 1 0 1 0 0 -3.713 0 1 0 1 0 1 -3.769 0 1 0 1 1 0 -3.825 0 1 0 1 1 1 -3.881 0 1 1 0 0 0 -3.938 0 1 1 0 0 1 -3.994 0 1 1 0 1 0 -4.050 0 1 1 0 1 1 -4.106 0 1 1 1 0 0 -4.163 0 1 1 1 0 1 -4.219 0 1 1 1 1 0 -4.275 0 1 1 1 1 1 -4.331 1 0 0 0 0 0 -4.388 1 0 0 0 0 1 -4.444 1 0 0 0 1 0 -4.500 1 0 0 0 1 1 -4.556 1 0 0 1 0 0 -4.613 1 0 0 1 0 1 -4.669 1 0 0 1 1 0 -4.725 1 0 0 1 1 1 -4.781 1 0 1 0 0 0 -4.838 1 0 1 0 0 1 -4.894 1 0 1 0 1 0 -4.950 1 0 1 0 1 1 -5.006 1 0 1 1 0 0 -5.063 1 0 1 1 0 1 -5.119 1 0 1 1 1 0 inhibit 1 0 1 1 1 1 inhibit 1 1 0 0 0 0 inhibit 1 1 0 0 0 1 inhibit 1 1 0 0 1 0 inhibit 1 1 0 0 1 1 inhibit 1 1 0 1 0 0 inhibit http://www..net/ datasheet pdf - http://www..net/
-p.160- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 1 1 0 1 0 1 inhibit 1 1 0 1 1 0 inhibit 1 1 0 1 1 1 inhibit 1 1 1 0 0 0 inhibit 1 1 1 0 0 1 inhibit 1 1 1 0 1 0 inhibit 1 1 1 0 1 1 inhibit 1 1 1 1 0 0 inhibit 1 1 1 1 0 1 inhibit 1 1 1 1 1 0 inhibit 1 1 1 1 1 1 vsnr(vgsn=vssa) restriction setextc turn on to enable this command register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence ap[2:0] = 100, others otp value s/w reset ap[2:0] = 100, others otp value h/w reset ap[2:0] = 100, others otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.161- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.35 setrgbif: set rgb interface related register (b3h) b3 h setrgbif( set rgb interface related register) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 1 0 0 1 1 b3 1 st parameter 1 - - - - dpl (0) hspl (0) vspl (0) epl (0) - description this command is used to set rgb interface related r egister epl: specify the polarity of enable pin in rgb interface mode. epl enable pin display 0 0 enable 0 1 disable 1 0 disable 1 1 enable vspl: the polarity of vsync pin. when vspl=0, the vsync p in is low active. when vspl=1, the vsync pin is high active. hspl: the polarity of hsync pin. when hspl=0, the hsync p in is low active. when hspl=1, the hsync pin is high active dpl: the polarity of dck pin. when dpl=0, the data is re ad on the rising edge of dck signal. when dpl=1, the data is read on the falling edge of dck signal. restrictions setextc turn on to enable this command register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.162- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.36 setcyc: set display waveform cycle (b4h) b4h setcyc( set display waveform cycles) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 1 0 1 0 0 b4 1 st parameter 1 nw[1:0] 2 nd parameter 1 son[7:0] 3 rd parameter 1 soff[7:0] 4 th parameter 1 eqs[7:0] 5 th parameter 1 eqon[7:0] 6 th parameter 1 gdon[7:0] 7 th parameter 1 gdoff[7:0] 8 th parameter 1 gvssp1[7:0] 9 th parameter 1 gvssp2[7:0] this command is used to get setting of display wave form cycles nw[1:0] : inversion type setting nw1 nw0 inversion type 0 0 column inversion 0 1 1-dot inversion 1 0 2-dot inversion 1 1 inhibit son [7:0]: specify the valid source output start time a nd illustrate on the follow figure. son [7:0] source output start time 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock soff [7:0]: specify the valid source output end time and illustrate on the follow figure. http://www..net/ datasheet pdf - http://www..net/
-p.163- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 soff [7:0] source output end time 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock gdon[7:0] : specify the valid gate output start time and illu strate on the follow figure. gdon [7:0] gate output start time 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock http://www..net/ datasheet pdf - http://www..net/
-p.164- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 gdoff[7:0] : specify the gate output end time and illustrate o n the follow figure. gdoff [7:0] gate output end time 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock eqon[7:0] : specify the valid equalize output start time and illustrate on the follow figure. (please note that the eqon[7:0] eqs[7:0]-1). eqon [7:0] gate output start time 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock http://www..net/ datasheet pdf - http://www..net/
-p.165- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 eqs[7:0] : specify the equalize time of source output and il lustrate on the follow figure. (please note that the eqs[7:0] son-1). eqs [7:0] equalize time of source output 0 0 0 0 0 0 0 0 equalize function off 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock gvssp1[7:0] : specify the stop time of first gate eq of two ste p gate output and illustrate on the follow figure. gvssp1 [7:0] stop time of 1 st gate eq 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock http://www..net/ datasheet pdf - http://www..net/
-p.166- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 gvssp2[7:0] : specify the start time of second gate eq of two s tep gate output and illustrate on the follow figure. gvssp2 [7:0] start time of 2 nd gate eq 0 0 0 0 0 0 0 0 inhibit 0 0 0 0 0 0 0 1 1 timing clock 0 0 0 0 0 0 1 0 2 timing clock 0 0 0 0 0 0 1 1 3 timing clock 0 0 0 0 0 1 0 0 4 timing clock 0 0 0 0 0 1 0 1 5 timing clock 0 0 0 0 0 1 1 0 6 timing clock 0 0 0 0 0 1 1 1 7 timing clock 0 0 0 0 1 0 0 0 8 timing clock 0 0 0 0 1 0 0 1 9 timing clock 0 0 0 0 1 0 1 0 10 timing clock 0 0 0 0 1 0 1 1 11 timing clock 0 0 0 0 1 1 0 0 12 timing clock 0 0 0 0 1 1 0 1 13 timing clock 0 0 0 0 1 1 1 0 14 timing clock 0 0 0 0 1 1 1 1 15 timing clock . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 1 1 1 0 1 0 250 timing clock 1 1 1 1 1 0 1 1 251 timing clock 1 1 1 1 1 1 0 0 252 timing clock 1 1 1 1 1 1 0 1 253 timing clock 1 1 1 1 1 1 1 0 254 timing clock 1 1 1 1 1 1 1 1 255 timing clock 1 timing clock = 1 * the frequency of osc clock http://www..net/ datasheet pdf - http://www..net/
-p.167- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.168- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.37 setvcom: set vcom voltage (b6h) b6 h setvcom ( set vcom voltage) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 1 0 1 1 0 b6 1 st parameter 1 vcmc7 vcmc6 vcmc5 vcmc4 vcmc3 vcmc2 vcmc1 vcmc0 - description this command is used to set vcom voltage include vc om low and vcom high voltage vcmc[7:0]: dc vcom voltage setting . when set vsnr=vsn, vcom output is 0v. vcmc[7:0] vcom 0 0 0 0 0 0 0 0 -2 0 0 0 0 0 0 0 1 -1.984 0 0 0 0 0 0 1 0 -1.968 0 0 0 0 0 0 1 1 -1.952 0 0 0 0 0 1 0 0 -1.936 0 0 0 0 0 1 0 1 -1.92 0 0 0 0 0 1 1 0 -1.904 0 0 0 0 0 1 1 1 -1.888 0 0 0 0 1 0 0 0 -1.872 0 0 0 0 1 0 0 1 -1.856 0 0 0 0 1 0 1 0 -1.84 0 0 0 0 1 0 1 1 -1.824 0 0 0 0 1 1 0 0 -1.808 0 0 0 0 1 1 0 1 -1.792 0 0 0 0 1 1 1 0 -1.776 0 0 0 0 1 1 1 1 -1.76 0 0 0 1 0 0 0 0 -1.744 0 0 0 1 0 0 0 1 -1.728 0 0 0 1 0 0 1 0 -1.712 0 0 0 1 0 0 1 1 -1.696 0 0 0 1 0 1 0 0 -1.68 0 0 0 1 0 1 0 1 -1.664 0 0 0 1 0 1 1 0 -1.648 0 0 0 1 0 1 1 1 -1.632 0 0 0 1 1 0 0 0 -1.616 0 0 0 1 1 0 0 1 -1.6 0 0 0 1 1 0 1 0 -1.584 0 0 0 1 1 0 1 1 -1.568 0 0 0 1 1 1 0 0 -1.552 0 0 0 1 1 1 0 1 -1.536 0 0 0 1 1 1 1 0 -1.52 0 0 0 1 1 1 1 1 -1.504 0 0 1 0 0 0 0 0 -1.488 0 0 1 0 0 0 0 1 -1.472 0 0 1 0 0 0 1 0 -1.456 0 0 1 0 0 0 1 1 -1.44 0 0 1 0 0 1 0 0 -1.424 0 0 1 0 0 1 0 1 -1.408 0 0 1 0 0 1 1 0 -1.392 0 0 1 0 0 1 1 1 -1.376 0 0 1 0 1 0 0 0 -1.36 0 0 1 0 1 0 0 1 -1.344 0 0 1 0 1 0 1 0 -1.328 0 0 1 0 1 0 1 1 -1.312 0 0 1 0 1 1 0 0 -1.296 0 0 1 0 1 1 0 1 -1.28 http://www..net/ datasheet pdf - http://www..net/
-p.169- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 0 0 1 0 1 1 0 0 -1.296 0 0 1 0 1 1 0 1 -1.28 0 0 1 0 1 1 1 0 -1.264 0 0 1 0 1 1 1 1 -1.248 0 0 1 1 0 0 0 0 -1.232 0 0 1 1 0 0 0 1 -1.216 0 0 1 1 0 0 1 0 -1.2 0 0 1 1 0 0 1 1 -1.184 0 0 1 1 0 1 0 0 -1.168 0 0 1 1 0 1 0 1 -1.152 0 0 1 1 0 1 1 0 -1.136 0 0 1 1 0 1 1 1 -1.12 0 0 1 1 1 0 0 0 -1.104 0 0 1 1 1 0 0 1 -1.088 0 0 1 1 1 0 1 0 -1.072 0 0 1 1 1 0 1 1 -1.056 0 0 1 1 1 1 0 0 -1.04 0 0 1 1 1 1 0 1 -1.024 0 0 1 1 1 1 1 0 -1.008 0 0 1 1 1 1 1 1 -0.992 0 1 0 0 0 0 0 0 -0.976 0 1 0 0 0 0 0 1 -0.96 0 1 0 0 0 0 1 0 -0.944 0 1 0 0 0 0 1 1 -0.928 0 1 0 0 0 1 0 0 -0.912 0 1 0 0 0 1 0 1 -0.896 0 1 0 0 0 1 1 0 -0.88 0 1 0 0 0 1 1 1 -0.864 0 1 0 0 1 0 0 0 -0.848 0 1 0 0 1 0 0 1 -0.832 0 1 0 0 1 0 1 0 -0.816 0 1 0 0 1 0 1 1 -0.8 0 1 0 0 1 1 0 0 -0.784 0 1 0 0 1 1 0 1 -0.768 0 1 0 0 1 1 1 0 -0.752 0 1 0 0 1 1 1 1 -0.736 0 1 0 1 0 0 0 0 -0.72 0 1 0 1 0 0 0 1 -0.704 0 1 0 1 0 0 1 0 -0.688 0 1 0 1 0 0 1 1 -0.672 0 1 0 1 0 1 0 0 -0.656 0 1 0 1 0 1 0 1 -0.64 0 1 0 1 0 1 1 0 -0.624 0 1 0 1 0 1 1 1 -0.608 0 1 0 1 1 0 0 0 -0.592 0 1 0 1 1 0 0 1 -0.576 0 1 0 1 1 0 1 0 -0.56 0 1 0 1 1 0 1 1 -0.544 0 1 0 1 1 1 0 0 -0.528 0 1 0 1 1 1 0 1 -0.512 0 1 0 1 1 1 1 0 -0.496 0 1 0 1 1 1 1 1 -0.48 0 1 1 0 0 0 0 0 -0.464 0 1 1 0 0 0 0 1 -0.448 0 1 1 0 0 0 1 0 -0.432 0 1 1 0 0 0 1 1 -0.416 0 1 1 0 0 1 0 0 -0.4 http://www..net/ datasheet pdf - http://www..net/
-p.170- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 0 1 1 0 0 1 0 1 -0.384 0 1 1 0 0 1 1 0 -0.368 0 1 1 0 0 1 1 1 -0.352 0 1 1 0 1 0 0 0 -0.336 0 1 1 0 1 0 0 1 -0.32 0 1 1 0 1 0 1 0 -0.304 0 1 1 0 1 0 1 1 -0.288 0 1 1 0 1 1 0 0 -0.272 0 1 1 0 1 1 0 1 -0.256 0 1 1 0 1 1 1 0 -0.24 0 1 1 0 1 1 1 1 -0.224 0 1 1 1 0 0 0 0 -0.208 0 1 1 1 0 0 0 1 -0.192 0 1 1 1 0 0 1 0 -0.176 0 1 1 1 0 0 1 1 -0.16 0 1 1 1 0 1 0 0 -0.144 0 1 1 1 0 1 0 1 -0.128 0 1 1 1 0 1 1 0 -0.112 0 1 1 1 0 1 1 1 -0.096 0 1 1 1 1 0 0 0 -0.08 0 1 1 1 1 0 0 1 -0.064 0 1 1 1 1 0 1 0 -0.048 0 1 1 1 1 0 1 1 -0.032 0 1 1 1 1 1 0 0 -0.016 01111101 ~ 01111101 inhibit 0 1 1 1 1 1 1 0 vcomr 0 1 1 1 1 1 1 1 vssa 10000000 ~ 11111110 inhibit 1 1 1 1 1 1 1 1 hz restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.171- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.38 setextc: enable extension command (b9h) b9 h setextc ( set extended command set) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 1 1 0 0 1 b9 1 st parameter 1 extc1[7:0](00) - 2 nd parameter 1 extc2[7:0](00) - 3 rd parameter 1 extc3[7:0](00) - description this command is used to set extended command set ac cess enable. extend cmd command description enable after command (b9h), must write 3 parameters (ffh,83h,63h) by order disable(default) after command(b9h), write 3 parameters (xxh,xxh,xxh ) any value is all right, but can not be (ffh,83h,63h ) restrictions register availability status availability sleep out yes sleep in or booster off yes http://www..net/ datasheet pdf - http://www..net/
-p.172- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.39 setotp: set otp (bbh) bb h setotp( set otp related setting) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 0 1 1 1 0 1 1 bb 1 st parameter 1 otp_lo ad_ disable (0) - otp_pc e otp_pw e (0) otp_ptm[2:0] otp_pr og 2 nd parameter 1 otp_mask[7:0] (8'b0) - 3 rd parameter 1 otp_index[7:0] (8'b1111_1111) - 4 th parameter 1 otp_data_read - description this command is used to set otp related setting. otp_mask[7:0]: bit programming mask, if 1, means this bit cant be programmed. otp_index[7:0]: set index of otp table for programming. otp_pwe: otp program write enable, if 1, means otp is able t o be programmed. otp_prog: when set to 1, the register content of otp index is programmed. otp_data_read: when set to 1, read back the content of the index within otp table. otp_load_disable : normally the internal registers are auto-loaded f rom otp when the slpout command is received. nevertheless, if this b it is set to 1, it will disable the auto loading function when the slpout command was received. in g eneral, this bit is used when otp is not yet programmed. otp_pce : not open, internal use. otp_ptm[2:0] : not open, internal use. restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp_mask[7:0]=8h00, otp_index[7:0]=8h00, otp_read=0, otp_prog=0, otp_load_disable=0, otp_pwe=0, otp_pce=0, otp_ptm[2:0]=3b000 s/w reset otp_mask[7:0]=no change, otp_index[7:0]= no change, otp_read= no change, otp_prog= no change, otp_load_disable= no change, otp_pwe=no change, otp_pce= no change, otp_ptm[2:0]= no change h/w reset otp_mask[7:0]=8h00, otp_index[7:0]=8h00, otp_read=0, otp_prog=0, otp_load_disable=0, otp_pwe=0, otp_pce=0, otp_ptm[2:0]=3b000 flow chart http://www..net/ datasheet pdf - http://www..net/
-p.173- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.40 setdgclut: set dgc lut (c1h) c1 h setdgclut ( set dgc lut) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 0 0 0 1 c1 1 st parameter dgc_en 2 nd parameter 1 d1[7:0] -- : 1 dn[7:0] -- 127 th parameter 1 d126[7:0] -- description this command is used to set dgc lut. dgc_en: enable the dgc function dgc_en=0, dgc function is disabled. dgc_en=1, dgc function is enabled. d1[7:0] ~ d126[7:0]: lut d7 d6 d5 d4 d3 d2 d1 d0 default 1 st r009 r008 r007 r006 r005 r004 r003 r002 00h 2 nd r019 r018 r017 r016 r015 r014 r013 r012 08h 3 rd r029 r028 r027 r026 r025 r024 r023 r022 10h : : : : : : : : : : : : : : : : : : : : 32 nd r319 r318 r317 r316 r315 r314 r313 r312 f8h 33 rd r329 r328 r327 r326 r325 r324 r323 r322 ffh 34 th r001 r000 r011 r010 r021 r020 r031 r030 00h 35 th r041 r040 r051 r050 r061 r060 r071 r070 00h : : : : : : : : : : : : : : : : : : : : 41 st r281 r280 r291 r290 r301 r300 r311 r310 00h 42 nd 0 0 0 0 0 0 r321 r320 00h 43 rd g009 g008 g007 g006 g005 g004 g003 g002 00h 44 th g019 g018 g017 g016 g015 g014 g013 g012 08h 45 th g029 g028 g027 g026 g025 g024 g023 g022 10h : : : : : : : : : : : : : : : : : : : : 74 th g319 g318 g317 g316 g315 g314 g313 g312 f8h 75 th g329 g328 g327 g326 g325 g324 g323 g322 ffh 76 th g001 g000 g011 g010 g021 g020 g031 g030 00h 77 th g041 g040 g051 g050 g061 g060 g071 g070 00h : : : : : : : : : : : : : : : : : : : : 83 rd g281 g280 g291 g290 g301 g300 g311 g310 00h 84 th 0 0 0 0 0 0 g321 g320 00h 85 th b009 b008 b007 b006 b005 b004 b003 b002 00h 86 th b019 b018 b017 b016 b015 b014 b013 b012 08h 87 th b029 b028 b027 b026 b025 b024 b023 b022 10h : : : : : : : : : : : : : : : : : : : : 116 th b319 b318 b317 b316 b315 b314 b313 b312 f8h 117 th b329 b328 b327 b326 b325 b324 b323 b322 ffh 118 th b001 b000 b011 b010 b021 b020 b031 b030 00h 119 th b041 b040 b051 b050 b061 b060 b071 b070 00h : : : : : : : : : : : : : : : : : : : : 125 th b281 b280 b291 b290 b301 b300 b311 b310 00h 126 th 0 0 0 0 0 0 b321 b320 00h restrictions setextc turn on to enable this command http://www..net/ datasheet pdf - http://www..net/
-p.174- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 register availability status availability sleep out yes sleep in yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.175- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.41 setid: set id (c3h) c3 h setid ( set id) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 0 0 1 1 c3 1 st parameter 1 id1[7:0](8'b0) - 2 nd parameter 1 id2[6:0](7'b0) - 3 rd parameter 1 id3[7:0](8'b0) - description this command is used to set dah, dbh, d ch value restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.176- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.42 setddb: set ddb (c4h) c4 h setddb ( set ddb) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 0 1 0 0 c4 1 st parameter 1 ddb1[7:0](8'b0) - 2 nd parameter 1 ddb2[7:0](8'b0) - 3 rd parameter 1 ddb3[7:0](8'b0) - 4 th parameter 1 ddb4[7:0](8'b0) description this command is used to set a1h ddb1~4 value restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.177- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.43 setpanel (cch) cc h setpanel( set panel related register) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 0 0 1 1 0 0 cc 1 st parameter 1 - - - sm_panel ss_panel gs_panel rev_pane l bgr_pane l - description this command is used to set setting of panel relate d register and make panel module meets below spec from viewpoint of user driver ic r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b r g b the default position (display driver, glass, filter order, etc.) of the panel module is always as follow, when madctl s (36h) parameter is 00h. the color filter order is always r g b (if color filters are used). the 1st pixel on the display this is also the 1st access location of the frame memory (driver ic) when there is displayed the 1st visible pixel g864 g863 g2 g1 panel module from the viewpoint of user 480(h) x rgb(h) x 864(v) 480(h) x rgb(h) x 854(v) 480(h) x rgb(h) x 800(v) 480(h) x rgb(h) x 640(v) 360(h) x rgb(h) x 640(v) bgr_panel : the order of dot color for module suppl ier, default value is stored in otp. if color filter of panel is type, se tting bgr_panel = 1, if color filter of panel is type, setting bgr_panel = 0. this bit is to make panel module look like a type panel form the user viewpoint. sm_panel : specify the scan order of gate driver output. whe n sm_panel = 0, the shift direction from g1, g2g431, g432, g433, g434 to g863, g864. when sm_panel = 1, the shift direction from g2, g4g862, g864, g1, g3 to g861, g863. gs_panel : specify the shift direction of gate driver output . when gs_panel = 0, the shift direction from g1 to g864. when gs_panel = 1, the s hift direction from g864 to g1 ss_panel : specify the shift direction of source driver outp ut. when ss_panel = 0, the shift direction from s1 to s1440 when ss_panel = 1, the s hift direction from s1440 to s1. rev_panel: select the inversion of the display of all characte rs and graphics. this setting allows the display of the same data on both normally-white and normally-black panels. rev_panel = 1 normal-black panel rev_panel = 0 normal-white panel restrictions setextc turn on to enable this command register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.178- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.44 set spi read index (feh) fe h set spi read index (set spi read command address) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 1 1 1 1 1 0 fe 1 st parameter 1 cmd_add[7:0] - description set spi read command address for user d efine command restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 00h s/w reset no change h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.179- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.45 spiread (ffh) ff h spiread (read spi command data) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 1 1 1 1 1 1 ff 1 st parameter 1 cmd_data1[7:0] - : 1 : - n th parameter 1 cmd_datan[7:0] - description read spi command data for user define c ommand restrictions setextc turn on to enable this comman d register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence 00h s/w reset no change h/w reset 00h flow chart http://www..net/ datasheet pdf - http://www..net/
-p.180- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 6.2.46 setgamma: set gamma curve related setting (e 0h) e0h setgammar ( set gamma curve related setting ) dnc d7 d6 d5 d4 d3 d2 d1 d0 hex command 0 1 1 1 0 0 0 0 0 e0 1 st parameter 1 - - g1_vrp0[5:0] 2 nd parameter 1 g1_cgmp0[1:0] g1_vrp1[5:0] 3 rd parameter 1 g1_cgmp1[1:0] g1_vrp2[5:0] 4 th parameter 1 g1_cgmp2[1:0] g1_vrp3[5:0] 5 th parameter 1 g1_cgmp3[1:0] g1_vrp4[5:0] 6 th parameter 1 g1_cgmp5 g1_cgmp4 g1_vrp5[5:0] 7 th parameter 1 - g1_prp0[6] - g1_pkp0[4:0] 8 th parameter 1 g1_prp0[5:4] - g1_pkp1[4:0] 9 th parameter 1 g1_prp0[3:2] - g1_pkp2[4:0] 10 th parameter 1 g1_prp0[1:0] - g1_pkp3[4:0] 11 th parameter 1 - g1_prp1[6] - g1_pkp4[4:0] 12 th parameter 1 g1_prp1[5:4] (11) - g1_pkp5[4:0] 13 th parameter 1 g1_prp1[3:2] (10) - g1_pkp6[4:0] 14 th parameter 1 g1_prp1[1:0] (00) - g1_pkp7[4:0] 15 th parameter 1 - - - g1_pkp8[4:0] 16 th parameter 1 - - g1_vrn0[5:0] 17 th parameter 1 g1_cgmn0[1:0] g1_vrn1[5:0] 18 th parameter 1 g1_cgmn1[1:0] g1_vrn2[5:0] 19 th parameter 1 g1_cgmn2[1:0] g1_vrn3[5:0] 20 th parameter 1 g1_cgmn3[1:0] g1_vrn4[5:0] 21 st parameter 1 g1_cgmn5 g1_cgmn4 g1_vrn5[5:0] 22 nd parameter 1 g1_prn0[6] - g1_pkn0[4:0] 23 rd parameter 1 g1_prn0[5:4] - g1_pkn1[4:0] 24 th parameter 1 g1_prn0[3:2] - g1_pkn2[4:0] 25 th parameter 1 g1_prn0[1:0] - g1_pkn3[4:0] 26 th parameter 1 g1_prn1[6] - g1_pkn4[4:0] 27 th parameter 1 g1_prn1[5:4] - g1_pkn5[4:0] 28 th parameter 1 g1_prn1[3:2] - g1_pkn6[4:0] 29 th parameter 1 g1_prn1[1:0] - g1_pkn7[4:0] 30 th parameter 1 - - - g1_pkn8[4:0] description this command is used to set red gamma curve 1 relat ed setting register groups positive polarity negative polarity description g1_prp0 6-0 g1_prn0 6-0 variable resistor (prp/n0) for center adjustment center adjustment g1_prp1 6-0 g1_prn1 6-0 variable resistor (prp/n1)for center adjustment g1_pkp0 4-0 g1_pkn0 4-0 32-to-1 selector (voltage level of grayscale 3) g1_pkp1 4-0 g1_pkn1 4-0 32-to-1 selector (voltage level of grayscale 7) g1_pkp2 4-0 g1_pkn2 4-0 32-to-1 selector (voltage level of grayscale 19) g1_pkp3 4-0 g1_pkn3 4-0 32-to-1 selector (voltage level of grayscale 25) g1_pkp4 4-0 g1_pkn4 4-0 32-to-1 selector (voltage level of grayscale 32 for positive polarity and grayscale 31 for negative polarity) g1_pkp5 4-0 g1_pkn5 4-0 32-to-1 selector (voltage level of grayscale 38) g1_pkp6 4-0 g1_pkn6 4-0 32-to-1 selector (voltage level of grayscale 44) g1_pkp7 4-0 g1_pkn7 4-0 32-to-1 selector (voltage level of grayscale 56) macro adjustment g1_pkp8 4-0 g1_pkn8 4-0 32-to-1 selector (voltage level of grayscale 60) g1_vrp0 5-0 g1_vrn0 5-0 variable resistor (vrp/n0)for offset adjustment g1_vrp1 5-0 g1_vrn1 5-0 variable resistor (vrp/n1)for offset adjustment g1_vrp2 5-0 g1_vrn2 5-0 variable resistor (vrp/n2)for offset adjustment g1_ vrp3 5-0 g1_vrn3 5-0 variable resistor (vrp/n3)for offset adjustment g1_vrp4 5-0 g1_vrn4 5-0 variable resistor (vrp/n4)for offset adjustment offset adjustment g1_vrp5 5-0 g1_vrn5 5-0 variable resistor (vrp/n5)for offset adjustment g1_cgmp/n0: select to change gamma resistor stream, please refer to figure 5.4. g1_cgmp/n1: select to change gamma resistor stream, please refer to figure 5.4. g1_cgmp/n2: select to change gamma resistor stream, please refer to figure 5.4. g1_cgmp/n3: select to change gamma resistor stream. please refer to figure 5.4. g1_cgmp/n4: select to change gamma resistor stream. please refer to figure 5.4. g1_cgmp/n5: select to change gamma resistor stream. please refer to figure 5.4. restriction setextc turn on to enable this command http://www..net/ datasheet pdf - http://www..net/
-p.181- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 register availability status availability sleep out yes sleep in or booster off yes default status default value power on sequence otp value s/w reset otp value h/w reset otp value flow chart http://www..net/ datasheet pdf - http://www..net/
-p.182- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 7. power supply 7.1 power supply setup 7.1.1 architecture 1 with pfm circuit figure 7.1: power supply with pfm circuit http://www..net/ datasheet pdf - http://www..net/
-p.183- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 7.1.2 architecture 2 with hx5186-a figure 7.2: power supply with hx5186-a http://www..net/ datasheet pdf - http://www..net/
-p.184- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 7.2 voltage configuration the HX8363-A has an internal power supply circuit t o drive tftlcd panel. please set up each voltage output according to the lcd panel. name function set up value note vref reference voltage from internal band gap circu it 1.8v - vsp dc/dc converter circuit output 4.7v ~ 5.5v do n ot exceed 6 v vsn dc/dc converter circuit output -4.7v ~ -5.5v do not exceed 6v vspc dc/dc converter circuit output 4.7v ~ 5.5v do not exceed 6 v vsnc dc/dc converter circuit output -4.7v ~ -5.5v d o not exceed 6v vspr reference voltage for gamma circuit 3.5v ~ (vs p C 0.5v) reference register vsnr reference voltage for gamma circuit -3.5v ~ (v sn + 0.5v) reference register vdddn logic power supply -2.5v - vgh positive gate driver output voltage level 15v, 18v, 20v depend on vsp and vsn vgl negative gate driver output voltage level -8v, -10v, -12v depend on vsp and vsn vcom vcom dc voltage -2v ~ 0v - vcomr external vcom dc voltage -2v ~ 0v - dsi_ldo analog power for mipi dsi circuit 1.2v ~ 1.3v - table 7.1: power supply voltage configuration pad name connection typical component value vcom connect to capacitor (max 6v): vcom ---(-)---- | |--- (+)----- vssa 2.2 f vgh connect to capacitor (max 25v): vgh ---(+)----| |--- (-)----- vssa 1.0 f c22ap - c22an connect to capacitor (max 16v): c22ap ---(+)----| |--- (-)-----c22an 1.0 f c21ap - c21an connect to capacitor (max 16v): c21ap ---(+)----| |--- (-)-----c21an 1.0 f vspr connect to capacitor (max 10v): vspr ---(+)--- -| |--- (-)-----vssa 1.0 f vsnr connect to capacitor (max 10v): vsnr ---(+)--- -| |--- (-)-----vssa 1.0 f vddd connect to capacitor (max 6v): vddd ---(+)---- | |--- (-)-----vssa 1.0 f vdddn connect to capacitor (max 6v): vdddn ---(+)-- --| |--- (-)-----vssa 1.0 f vref connect to capacitor (max 5v): vref ---(-)---- | |--- (+)----- vssa 1.0 f connect to capacitor (max 10v):vsp ---(+)----| |--- (-)-----vssa 2.2 f vsp schottky diode for vsp(vr 30v) vf < 0.35v / 10ma @ 25 c, vr 30v (recommended diode: kdr720f) connect to capacitor (max 10v):vsn ---(+)----| |--- (-)-----vssa 2.2 f vsn schottky diode for vsp(vr 30v) vf < 0.35v / 10ma @ 25 c, vr 30v (recommended diode: kdr720f) vdd3 connect to capacitor (max 6v): vdd3 ---(+)---- | |--- (-)-----vssa 1.0 f dsi_ldo connect to capacitor (max 6v): dsi_ldo ---( +)----| |--- (-)----dsi_vss 1.0 f connect to capacitor (max 25v): vgl ---(-)----| |-- - (+)----- vssa 1.0 f vgl connect to schottky diode(vr 30v): vgl ---(+)---- ? --- (-)---- vsn vf < 0.4v / 20ma @ 25 c, vr 30v (recommended diode: rb521s-30) table 7.2: adoptability of component http://www..net/ datasheet pdf - http://www..net/
-p.185- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8. electrical characteristics 8.1 absolute maximum ratings the absolute maximum ratings are list on table 8.1. when used out of the absolute maximum ratings, the lsi may be permanently damaged . using the lsi within the following electrical characteristics limit is stron gly recommended for normal operation. if these electrical characteristic conditions are e xceeded during normal operation, the lsi will malfunction and cause poor reliability. item symbol unit value note power supply voltage 1 vdd1~ vssd v -0.3 to +4.6 note (1),(2) power supply voltage 2 vdd2 ~ vssa v -0.3 to +4.6 note (1),(3) power supply voltage 3 vdd3 ~ vssa v -0.3 to +4.6 note (1) (4) power supply voltage 4 dsi_vcc ~ dsi_vss v -0.3 to +4.6 note (1) (5) power supply voltage 5 vsp ~ vssa v -0.3 to +6 note (6) power supply voltage 6 vssa ~ vsn v 0 to -6 note (7) power supply voltage 7 vgh ~ vssa v -0.3 to +25 note ((8) power supply voltage 8 vssa ~ vgl v 0 to -16 note (9) input voltage v in v -0.3 to vdd1+0.3 note (10) dsi input voltage v dsiin v -0.3 to +2 note (11) operating temperature topr c -40 to +85 note (12) storage temperature tstg c -55 to +110 note (13) note: (1) vdd1, vssd must be maintained. (2) to make sure vdd1 vssd. (3) to make sure vdd2 vssa. (4) to make sure vdd3 vssa. (5) to make sure dsi_vcc dsi_vss. (6) to make sure vsp vssa. (7) to make sure vssa vsn (8) to make sure vgh vssa. (9) to make sure vssa vgl vgh +|vgl| < 32v (10) this specifications include input signals but without following: dsi_cp, dsi_cn, dsi_d0p, dsi_d0n, dsi_d1p, dsi_d1n. (11) this specifications include following signals: dsi_cp, dsi_cn, dsi_d0p, dsi_d0n, dsi_d1p, dsi_d1n. (12) for die and wafer products, specified up to +8 5 . (13) this temperature specifications apply to the t cp package. table 8.1: absolute maximum rating 8.2 esd protection level mode test condition criteria standard human body model c=100pf, r=1.5k 2.0kv mil-std-883f method 3015.7 machine model c=200pf, r=0.0 200v eia/jedec jesd22-a115-a table 8.2: esd protection level http://www..net/ datasheet pdf - http://www..net/
-p.186- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8.3 dc characteristics (vdd2/3= 2.5~3.3v, vddi = 1.65~3.3v, t a = -30 ~ 70 c) item symbol unit test condition min. typ. max. note input high voltage v ih v 0.7vdd1 - vdd1 v input low voltage v il v vdd1= 1.65 ~ 3.3v vdd2= 2.5 ~ 3.3v vdd3= 2.5 ~ 3.3v 0 - 0.3vdd1 v v ih v pvss v il v pvss 7.25v 7.5v 7.75v v output high voltage (sdo, cabc_pwm_out) v oh1 v i oh = -1.0ma 0.8vdd1 - vdd1 v output low voltage (sdo, cabc_pwm_out) v ol1 v vdd1= 1.65 ~ 2.4v i ol = 1.0ma 0 - 0.2vdd1 v vsync, hsync - - 1 a i ih a nreset, scl, ncs - - 1 a db[230], sdi, scl - - 1 a logic high level input current i ihd a db[230] - - 1 a vsync, hsync -1 - - a i il a nreset, (scl), ncs -1 - - a db[230], sdi, scl -1 - - a logic low level input current i ild a db[170] -1 - - a note: (1) the pvss pin is open on normal and setting when otp programming condition. table 8.3: dc characteristics (vdd2/3= 2.5~3.3v, vddi = 1.65~3.3v, t a = -30 ~ 70 c) current consumption mode of operation image idd1 (ma) idd2 (ma) idd3 (ma) note (1) 0.02 0.05 9.1 note (2) 0.86 0.05 32 note (3) 0.44 0.05 15 sleep out mode note (4) 0.02 0.05 9.8 sleep in mode n/a 0.005 0.005 0.015 note: (1) all pixels black. (2) checker board one by one. (3) checker board 4 by 4. (4) grayscale from top to bottom. (5) current consumption depends on panel loading 45 pf, measure with hx5186-a, column inversion. table 8.4: power consumptions http://www..net/ datasheet pdf - http://www..net/
-p.187- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8.4 ac characteristics 8.4.1 serial interface characteristics (3-pin seria l) figure 8.1: 3-pin serial interface characteristics (vssa=vssd=0v, vdd1=1.65v to 1.95v, vdd2=2.5 to 3.3 v, vdd3=2.5 to 3.3v, t a = -30 to 70c) parameter symbol conditions min. typ. max. unit serial clock cycle (write) scl h pulse width (write) scl l pulse width (write) t scycw t shw t slw scl 80 30 30 - - - - - - ns data setup time (write) data hold time (write) t sds t sdh sdi 10 10 - - - - ns serial clock cycle (read) scl h pulse width (read) scl l pulse width (read) t scycr t shr t slr scl 150 60 60 - - - - - - ns access rime t acc sdo for maximum c l =30pf for maximum c l =8pf 10 - 60 ns output disable time t oh sdo for maximum c l =30pf for maximum c l =8pf 15 - 100 ns scl to chip select t scc ncs 30 - - ns ncs h pulse width t chw ncs 60 - - ns ncs-scl time (write) ncs-scl time (write t css t csh ncs 30 30 - - - ns ncs-scl time (read) ncs-scl time (read) t css t csh ncs 60 65 - - - ns note: the input signal rise time and fall time (tr, tf) i s specified at 15 ns or less. logic high and low levels are specified as 30% and 70% of vdd1 for input signals. input signal slope v ih =0.7*vddi v il =0.3*vddi tr tf v oh =0.8*vddi v ol =0.2*vddi tr tf output signal slope 0.7*vdd1 0.3*vdd1 0.8*vdd1 0.2*vdd1 http://www..net/ datasheet pdf - http://www..net/
-p.188- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 (vssa=vssd=0v, vdd1=1.95v to 3.3v, vdd2=2.5 to 3.3v , vdd3=2.5 to 3.3v, t a = -30 to 70c) parameter symbol conditions min. typ. max. unit serial clock cycle (write) scl h pulse width (write) scl l pulse width (write) t scycw t shw t slw scl 80 30 30 - - - - - - ns data setup time (write) data hold time (write) t sds t sdh sdi 10 10 - - - - ns serial clock cycle (read) scl h pulse width (read) scl l pulse width (read) t scycr t shr t slr scl 150 60 60 - - - - - - ns access rime t acc sdo for maximum c l =30pf for maximum c l =8pf 5 - 60 ns output disable time t oh sdo for maximum c l =30pf for maximum c l =8pf 8 - 100 ns scl to chip select t scc ncs 30 - - ns ncs h pulse width t chw ncs 60 - - ns ncs-scl time (write) ncs-scl time (write t css t csh ncs 30 30 - - - ns ncs-scl time (read) ncs-scl time (read) t css t csh ncs 60 65 - - - ns note: the input signal rise time and fall time (tr, tf) i s specified at 15 ns or less. logic high and low levels are specified as 30% and 70% of vdd1 for input signals. input signal slope v ih =0.7*vddi v il =0.3*vddi tr tf v oh =0.8*vddi v ol =0.2*vddi tr tf output signal slope 0.7*vdd1 0.3*vdd1 0.8*vdd1 0.2*vdd1 http://www..net/ datasheet pdf - http://www..net/
-p.189- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8.4.2 rgb interface characteristics vertical timings for rgb i/f vsync db[23..0] enable hsync vs vfp vbl vp vbp vfp note 3 note 3 vdisp figure 8.2: vertical timings for rgb i/f (resolution=480x854, vssa=vssd=0v, vdd1=1.65v to 3. 3v, vdd2=2.5 to 3.3v, vdd3=2.5 to 3.3v, t a = -30 to 70c) item symbol condition min. typ. max. unit vertical cycle vp - 860 - 864 line vertical low pulse width vs - 2 - 4 line vertical front porch vfp - 2 - 4 line vertical back porch vbp - 2 - 4 line vertical data start point - vs+vbp 4 - 8 line vertical blanking period vbl vs+vbp+vfp 6 - 10 line vertical active area - vdisp - 854 - line vertical refresh rate vrr - 50 - 70 hz note: (1) signal rise and fall times are equal to or less than 20 ns. (2) input signals are measured by 0.30 x vdd1 for lo w state and 0.70 x vdd1 for high state. (3) data lines can be set to high or low during blanking time C dont care. (4) vrr must keep from 50hz to 70hz when adjust othe r items (resolution=480x800, vssa=vssd=0v, vdd1=1.65v to 3. 3v, vdd2=2.5 to 3.3v, vdd3=2.5 to 3.3v, t a = -30 to 70c) item symbol condition min. typ. max. unit vertical cycle vp - 806 - 810 line vertical low pulse width vs - 2 - 4 line vertical front porch vfp - 2 - 4 line vertical back porch vbp - 2 - 4 line vertical data start point - vs+vbp 4 - 8 line vertical blanking period vbl vs+vbp+vfp 6 - 10 line vertical active area - vdisp - 800 - line vertical refresh rate vrr - 50 - 70 hz note: (1) signal rise and fall times are equal to or less than 20 ns. (2) input signals are measured by 0.30 x vdd1 for lo w state and 0.70 x vdd1 for high state. (3) data lines can be set to high or low during blanking time C dont care. (4) vrr must keep from 50hz to 70hz when adjust othe r items table 8.5: vertical timings for rgb i/f http://www..net/ datasheet pdf - http://www..net/
-p.190- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 horizontal timings for rgb i/f enable hsync db[23:0] dck dck hfp hp note 4 note 4 hblk hs hbp hdisp hfp figure 8.3: horizontal timing for rgb i/f (resolution=480x854, vssa=vssd=0v, vdd1=1.65v to 3. 3v, vdd2=2.5 to 3.3v, vdd3=2.5 to 3.3v, t a = -30 to 70c) item symbol condition min. typ. max. unit hs cycle hp note (3) 504 - 568 dck hs low pulse width hs - 5 - 78 dck horizontal back porch hbp - 5 - 78 dck horizontal front porch hfp - 5 - 78 dck 19 - 83 dck horizontal data start point - hs+hbp 700 - - ns horizontal blanking period hblk hs+hbp+hfp 24 - 88 dck horizontal active area hdisp - - 480 - dck 21.6 - 34.3 mhz pixel clock frequency when rgb i/f is running dck vrr = min. 50hz - max. 70hz 29.1 - 46.2 ns note: (1) signal rise and fall times are equal to or less than 20 ns. (2) input signals are measured by 0.30 x vdd1 for lo w state and 0.70 x vdd1 for high state. (3) hp is multiples of eight dck. (4)data lines can be set to high or low during blanking time C dont care. (5) vrr must keep from 50hz to 70hz when adjust othe r items. (resolution=480x800, vssa=vssd=0v, vdd1=1.65v to 3. 3v, vdd2=2.5 to 3.3v, vdd3=2.5 to 3.3v, t a = -30 to 70c) item symbol condition min. typ. max. unit hs cycle hp note (3) 504 - 568 dck hs low pulse width hs - 5 - 78 dck horizontal back porch hbp - 5 - 78 dck horizontal front porch hfp - 5 - 78 dck 19 - 83 dck horizontal data start point - hs+hbp 700 - - ns horizontal blanking period hblk hs+hbp+hfp 24 - 88 dck horizontal active area hdisp - - 480 - dck 20.3 - 32.2 mhz pixel clock frequency when rgb i/f is running dck vrr = min. 50hz - max. 70hz 31 - 49.2 ns note: (1) signal rise and fall times are equal to or less than 20 ns. (2) input signals are measured by 0.30 x vdd1 for lo w state and 0.70 x vdd1 for high state. (3) hp is multiples of eight dck. (4)data lines can be set to high or low during blanking time C dont care. (5) vrr must keep from 50hz to 70hz when adjust othe r items. table 8.6: horizontal timings for rgb i/f http://www..net/ datasheet pdf - http://www..net/
-p.191- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 general timings for rgb i/f vsync hsync db[23..0], enable dck vsst vsht hsst hsht dckcyc dcklt dckht dst dht figure 8.4: general timings for rgb i/f (resolution=480x854, vssa=vssd=0v, vdd1=1.65v to 3. 3v, vdd2=2.5 to 3.3v, vdd3=2.5 to 3.3v, t a = -30 to 70c) item symbol condition min. typ. max. unit vertical sync. setup time vsst - 5 - - ns vertical sync. hold time vsht - 5 - - ns horizontal sync. setup time hsst - 5 - - ns horizontal sync. hold time hsht - 5 - - ns pixel clock cycle when rgb i/f is running dckcyc vrr = min . 50 hz max. 70 hz 29.1 (3) - 46.2 (4) ns pixel clock low time dcklt - 5 - - ns pixel clock high time dckht - 5 - - ns data setup time db[23:0] dst - 5 - - ns data hold time db[23:0] dht - 5 - - ns note: (1) signal rise and fall times are equal to or less than 20 ns. (2) input signals are measured by 0.30 x vdd1 for lo w state and 0.70 x vdd1 for high state. (3) 34.3 mhz (4) 21.6 mhz (resolution=480x800, vssa=vssd=0v, vdd1=1.65v to 3. 3v, vdd2=2.5 to 3.3v, vdd3=2.5 to 3.3v, t a = -30 to 70c) item symbol condition min. typ. max. unit vertical sync. setup time vsst - 5 - - ns vertical sync. hold time vsht - 5 - - ns horizontal sync. setup time hsst - 5 - - ns horizontal sync. hold time hsht - 5 - - ns pixel clock cycle when rgb i/f is running dckcyc vrr = min . 50 hz max. 70 hz 31 (3) - 49.2 (4) ns pixel clock low time dcklt - 5 - - ns pixel clock high time dckht - 5 - - ns data setup time db[23:0] dst - 5 - - ns data hold time db[23:0] dht - 5 - - ns note: (1) signal rise and fall times are equal to or less than 20 ns. (2) input signals are measured by 0.30 x vdd1 for lo w state and 0.70 x vdd1 for high state. (3) 32.2mhz (4) 20.3mhz table 8.7: general timings for rgb i/f http://www..net/ datasheet pdf - http://www..net/
-p.192- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8.4.3 the electrical characteristics of d-phy layer in general, the dsi - phy may contain the following electrical functions: high-speed receiver (hs-rx), low power transmitter (lp-tx), a low-power receiver (lp-rx), and the low-power contention detector (lp-cd). figure 8.5 s hows the complete set of electrical functions required for a fully featured phy transce iver. figure 8.5: electrical functions of a fully d-phy transcei ver where, the hs receiver utilize low-voltage swing di fferential signaling for signal transmission. the lp transmitter and lp receiver serve as a low p ower signaling mechanism. the figure 8.6 shows both the hs and lp signal levels on the l eft and right sides, respectively. because the hs signaling levels are below the lp lo w-level input threshold, lane switches between low-power and high-speed mode during normal operation. figure 8.6: shows both the hs and lp signal levels http://www..net/ datasheet pdf - http://www..net/
-p.193- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 the electrical characteristics of low-power transmi tter the low-power transmitter shall be a slew-rate cont rolled push-pull driver. it is used for driving the lines in all low-power operating modes it is therefore important that the static power consumption of a lp transmitter be as low as possible. under tables list dc and ac characteristic for lp-tx parameter description min. typ. max unit note v ol thevenin output low level -50 - 50 mv - v oh thevenin output high level 1.1 - 1.3 v - z olp output impedance of lp-tx 110 - - 1 note: though no maximum value for z olp is specified, the lp transmitter output impedance s hall ensure the t rlp /t flp specification is met. table 8.8: lp transmitter dc specifications parameter description min. typ. max. unit note t rlp / tflp 15%-85% rise time and fall time - - 25 ns 1, 4 v/ t sr slew rate 30 - 500 mv/ns 1, 2, 3, 4 c load load capacitance - - 70 pf note: (1) when the output is loaded with a capacitive loa d cload. (2) when the output voltage is between 15% and belo w 85% of the fully settled lp signal levels. (3) measured as average across any 50 mv segment of the output signal transition. (4) the slew rate v/ tsr is the derivative of the lp transmitter output s ignal voltage table 8.9: lp transmitter ac specifications http://www..net/ datasheet pdf - http://www..net/
-p.194- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 the electrical characteristics of receiver this part will contain two parts which high-speed r eceiver and low-power receiver. because their have differential dc and ac character istic, describe hs-rx first then describe lp-rx. high-speed receiver the hs receiver is a differential line receiver. it contains a switch-able parallel input termination, z id , between the positive input pin dp and the negativ e input pin dn. under tables list dc and ac characteristic for hs-rx. parameter description min. typ. max. unit note v idth differential input high threshold - - 110 mv 1, 4 v idtl differential input low threshold -110 - - mv 1, 4 v ilhs single-ended input low voltage -40 - - mv 2 v ihhs single-ended input high voltage - - 460 mv 2 v cmrxdc common-mode voltage hs receive mode 70 - 330 mv 2, 3 z id differential input impedance 80 100 125 - note: (1) the summation of transmission line and bonding pad resistance is assumed to be less than 5 ohm for each input pin. (2) excluding possible additional rf interference of 100mv peak sine wave beyond 450mhz. (3) this table value includes a ground difference o f 50mv between the transmitter and the receiver, the static common-mode level tolerance and variations below 4 50mhz (4) one data lane configuration table 8.10: hs receiver dc specifications parameter description min. typ. max. unit note v cmrx(hf) common mode interference beyond 450 mhz - - 100 mv pp 1 c cm common mode termination - - 60 pf 2 note: (1) vcmrx(hf) is the peak amplitude of a sine wave super imposed on the receiver inputs. (2) for higher bit rates a 14pf capacitor will be n eeded to meet the common-mode return loss specifica tion. table 8.11: hs receiver ac specifications http://www..net/ datasheet pdf - http://www..net/
-p.195- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 low-power receiver the low power receiver is an un-terminated, single- ended receiver circuit. the lp receiver is used to detect the low-power state on each pin. for high robustness, the lp receiver shall filter out noise pulses and rf interference. it is recommended the implementer optimize the lp receiver design for low power. the lp receiver s hall reject any input glitch when the glitch is smaller than e spike . the filter shall allow pulses wider than t min to propagate through the lp receiver. the related diagram shows as figure 8.7 i nput glitch rejection of low-power receivers. besides, under tables list dc and ac cha racteristic for lp-rx. figure 8.7: input glitch rejections of low-power receivers parameter description min. typ. max. unit note v il logic 0 input threshold - - 550 mv - v ih logic 1 input threshold 880 - - mv - table 8.12: lp receiver dc specifications parameter description min. typ. max. unit note e spike input pulse rejection - - 300 v.ps 1, 2, 3 t min minimum pulse width response 20 - - ns 4 v int peak-to-peak interference voltage - - 200 mv - f int interference frequency 450 - - mhz - note: (1) time-voltage integration of a spike above vil wh en being in lp-0 state or below vih when being in l p-1 state (2) an impulse less than this will not change the re ceiver state. (3) in addition to the required glitch rejection, i mplementers shall ensure rejection of known rf-inte rferers. (4) an input pulse greater than this shall toggle th e output. table 8.13: lp receiver ac specifications http://www..net/ datasheet pdf - http://www..net/
-p.196- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 line contention detection contention can be inferred from any of the followin g conditions: a. an lp high fault shall be detected when the lp t ransmitter is driving high and the pin voltage is less than vil. b. an lp low fault shall be detected when the lp tr ansmitter is driving low and the pad pin voltage is greater than vilf. parameter description min. typ. max. unit note v ihcd logic 1 contention threshold 450 - - mv - v ilcd logic 0 contention threshold - - 200 mv - table 8.14: contention detector dc specifications http://www..net/ datasheet pdf - http://www..net/
-p.197- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 input characteristics no structure within the phy may be damaged when a d c signal that is within the signal voltage range v pin is applied to a pad pin for an indefinite period o f time. v pin(absmax) is the maximum transient output voltage at the transmitter pin. the voltage on the transmitters output pin shall not exceed v pin.max for a period greater than t vpin(absmax) . the ground supply voltages shifts between a master and slave shall be less than v gndsh . parameter description min. typ. max. unit note v pin pin signal voltage range -50 - 1350 mv - v gndsh ground shift -50 - 50 mv - v pin(absmax) transient pin voltage level -0.15 - 1.45 v 1 t vpin(absmax) maximum transient time above v pin(max) or below v pin(min) - - 20 ns 2 note: (1) this value includes ground shift. (2) the voltage overshoot and undershoot beyond the v pin is only allowed during a single 20ns window after any lp-0 to lp-1 transition or vice versa. for all other situations it must stay within the v pin range. table 8.15: pin characteristic specifications http://www..net/ datasheet pdf - http://www..net/
-p.198- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 high-speed data-clock timing this section specifies the required timings on the high-speed signaling interface independent of the electrical characteristics of the signal. th e phy is a source synchronous interface in the forward direction. in either the forward or rev erse signaling modes there shall be only one clock source. in the reverse direction, clock i s sent in the forward direction and one of four possible edges is used to launch the data. the master side of the link shall send a differenti al clock signal to the slave side to be used for data sampling. this signal shall be a ddr (half -rate) clock and shall have one transition per data bit time. all timing relationships require d for correct data sampling are defined relative to the clock transitions. therefore, imple mentations may use frequency spreading modulation on the clock to reduce emi. the ddr clock signal shall maintain a quadrature ph ase relationship to the data signal. data shall be sampled on both the rising and falling edg es of the clock signal. the term rising edge means rising edge of the differential signal , i.e. clkp C clkn, and similarly for falling edge. therefore, the period of the clock signal sh all be the sum of two successive instantaneous data bit times. this relationship is shown in figure 8.8. figure 8.8: ddr clock definition the same clock source is used to generate the ddr c lock and launch the serial data. since the clock and data signals propagate together over a channel of specified skew, the clock may be used directly to sample the data lines in th e receiver. such a system can accommodate large instantaneous variations in ui. the allowed instantaneous ui variation can cause la rge, instantaneous data rate variations. therefore, devices shall either accommodate these i nstantaneous variations with appropriate fifo logic outside of the phy or provide an accurat e clock source to the lane module to eliminate these instantaneous variations. http://www..net/ datasheet pdf - http://www..net/
-p.199- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 the uiinst specifications for the clock signal are summarized in table 8.15. parameter symbol min. typ. max. unit note ui instantaneous ui inst 2.5 - 12.5 ns 1, 2 note: (1) this value corresponds to a minimum 80 mbps da ta rate and one data lane configuration. (2) the minimum ui shall not be violated for any si ngle bit period, i.e., any ddr half cycle within a data burst. table 8.16: re verse hs data transmission timing paramete rs the timing relationship of the ddr clock differenti al signal to the data differential signal is shown in figure 8.9. data is launched in a quadratu re relationship to the clock such that the clock signal edge may be used directly by the recei ver to sample the received data. the transmitter shall ensure that a rising edge of the ddr clock is sent during the first payload bit of a transmission burst such that the f irst payload bit can be sampled by the receiver on the rising clock edge, the second bit c an be sampled on the falling edge, and all following bits can be sampled on alternating rising and falling edges. all timing values are measured with respect to the actual observed crossing of the clock differential signal. the effects due to variations in this level are included in the clock to data timing budget. receiver input offset and threshold effects shall b e accounted as part of the receiver setup and hold parameters. figure 8.9: data to clock timing definitions http://www..net/ datasheet pdf - http://www..net/
-p.200- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 data-clock timing specifications the data-clock timing specifications are shown in t able 8.16. implementers shall specify a value uiinst, min that represents the minimum insta ntaneous ui possible within a high-speed data transfer for a given implementation . parameters in table 8.16 are specified as a part of this value. the skew specification, ts kew[tx], is the allowed deviation of the data launch time to the ideal ?uiinst displaced quadratu re clock edge. the setup and hold times, tsetup[rx] and thold[rx], respectively, describe th e timing relationships between the data and clock signals. tsetup[rx] is the minimum t ime that data shall be present before a rising or falling clock edge and thold[rx] is the m inimum time that data shall remain in its current state after a rising or falling clock edge. the timing budget specifications for a receiver shall represent the minimum variations observable a t the receiver for which the receiver will operate at the maximum specified acceptable bit err or rate. the intent in the timing budget is to leave 0.4*uii nst, i.e. 0.2*uiinst for degradation contributed by the interconnect. parameter symbol min. typ. max. unit note data to clock setup time [receiver] t setup[rx] 0.35 - - uiinst 1 clock to data hold time [receiver] t hold[rx] 0.25 - - uiinst 1 note: (1) one data lane condition table 8.17: data to clock timing specifications http://www..net/ datasheet pdf - http://www..net/
-p.201- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8.4.4 reset input timing t resw t rest nreset internal status shorter than 5 I normal operation resetting initial condition (default for h/w reset) figure 8.10: reset input timing symbol parameter related pins min. typ. max. note unit tresw reset low pulse width (1) nreset 10 - - - s - - - 5 when reset is applied during sleep in mode ms trest reset complete time (2) - - 120 when reset is applied during sleep out mode ms table 8.18: reset timing note: (1) spike due to an electrostatic discharge on nreset line does not cause irregular system reset accordin g to the table below. nreset pulse action shorter than 5s reset rejected longer than 10s reset between 5s and 10s reset start (2) during the resetting period, the display will b e blanked (the display is entering blanking sequenc e, which maximum time is 120 ms, when reset starts in sleep ou t Cmode. the display remains the blank state in slee p in Cmode) and then returns to default condition for h/w reset. (3) during reset complete time, id2 value in otp wil l be latched to internal register during this perio d. this loading is done every time when there is h/w reset complete time (trest) within 5ms after a rising edge of nreset. (4) spike rejection also applies during a valid rese t pulse as shown below: (5) when reset is applied during sleep in mode. (6) when reset is applied during sleep out mode. (7) it is necessary to wait 5msec after releasing n reset before sending commands. also sleep out command cannot be sent for 120msec. http://www..net/ datasheet pdf - http://www..net/
-p.202- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 8.4.5 power on/off timing figure 8.11: power on timing sleep out command vgh 2ms (min) vgl dt+5ms(min) (note4) vsp (for pfm) dt+15ms(min) (note4) vsn (for pfm) dtms (note4) vsp (for 5186) dtms (note4) vsn (for 5186) dt+15ms(min) (note4) display on command vcom/ vspr/ vsnr 3dt+15ms(at least) (note4) note1: standard command except 01h & 10h command must wait 5ms after sleep out command then can be sent. 01h & 10h command must wait 100ms after sleep out command then can be sent. note2: user define command must wait 100ms after sleep out command then can be sent. b9h command must be sent first then other command can be sent after b9h command. note4: default dt=5ms note3: display on command must send after user define command or at the same time. vdd2 vdd3 resx 10us (min) effective reset pulse sleep out command 6ms (min) mode not define sleep in sleep out sleep out + display on function all power off load otp <6ms normal display osc off operation driver boost not defined clear screen power sequential turn on normal operation 67ms (min) 2 frames (33ms) v synchronous time , max 1 frame regulator vcom/ vspr/ vsnr normal operation off s[1440:1] v0/v255 gray min 120ms vdd1 standard command input (note1) rgb interface rgb signals 2 frames before slpout wait until power stable load otp <6ms 5ms (min) user define command input (note2) clear screen display off display on command (note3) see power on timing - 2 http://www..net/ datasheet pdf - http://www..net/
-p.203- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 figure 8.12: power off timing vdd2 vdd3 sleep in command mode sleep out + display on sleep out function normal display all power off osc off operation driver boost not defined power off sequence sequential turn off normal operation 60ms (min) 2 frames (33ms) v synchronous time, max 1 frame regulator vcom/ vspr/ vsnr normal operation off s[1440:1] v0/v255 gray min 120ms vdd1 display off command rgb interface rgb signals 2 frames after sleep in clear screen sleep in not defined http://www..net/ datasheet pdf - http://www..net/
-p.204- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 9. layout recommendation 9.1 reference layout 9.1.1 reference layout 1 with pfm circuit figure 9.1: reference layout with pfm circuit http://www..net/ datasheet pdf - http://www..net/
-p.205- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 9.1.2 reference layout 2 with hx5186-a figure 9.2: reference layout with hx5186-a http://www..net/ datasheet pdf - http://www..net/
-p.206- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 9.2 maximum layout resistance name type maximum series resistance unit vdd2 power supply 50 vdd3 power supply 20 vdd1 power supply 30 vssd power supply 10 vssa power supply 10 dsi_vcc power supply 30 dsi_vss power supply 10 vssac power supply 100 pvss input 40 rso2-0 input 200 pccs0, pccs1 input 200 vcsw1, vcsw2 output 30 nreset input 200 dck input 50 hsync, vsync, enable input 100 ncs input 50 scl, sdi input 50 sdo output 50 db[23:0] output 100 cabc_pwm_out output 100 vcom output 30 vcomr input 100 bs0, bs1 input 200 dsi_d0p input + output 10 dsi_d0n input + output 10 dsi_cp input 10 dsi_cn input 10 dsi_d1p input 10 dsi_d1n input 10 vddd capacitor connection 10 vdddn capacitor connection 50 vsp, vsn capacitor connection 15 vspc, vsnc capacitor connection 100 vspr, vsnr capacitor connection 80 vref capacitor connection 50 vgh,vgl capacitor connection 40 dsi_ldo capacitor connection 20 c21ap,c21an,c22ap,c22an capacitor connection 20 table 9.1: maximum layout resistance http://www..net/ datasheet pdf - http://www..net/
-p.207- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 10. otp programming 10.1 otp table hex d7 d6 d5 d4 d3 d2 d1 d0 0a valid_power fs12 fs11 fs10 - - - - 0b - - - - bt3 bt2 bt1 bt0 0c dt1 dt0 dc1 dc0 dc_div3 dc_div2 dc_div1 dc_div0 0d - dtps2 dtps1 dtps0 - dtp2 dtp1 dtp0 0e - dtns2 dtpn1 dtns0 - dtn2 dtn1 dtn0 0f - - - btp4 btp3 btp2 btp1 btp0 10 - - - btn4 btn3 btn2 btn1 btn0 11 vrhp7 vrhp6 vrhp5 vrhp4 vrhp3 vrhp2 vrhp1 vrhp0 12 vrhn7 vrhn6 vrhn5 vrhn4 vrhn3 vrhn2 vrhn1 vrhn0 13 - - vrmp5 vrmp4 vrmp3 vrmp2 vrmp1 vrmp0 b1 setpower 14 - - vrmn5 vrmn4 vrmn3 vrmn2 vrmn1 vrmn0 b3 setrgbif 1a valid_rgbif - - - dpl (0) hspl (0) vspl (0) epl (1) 1b valid_cyc - - - nw[1:0] (01) - 1c son[7:0] 1d soff[7:0] 1e eqs[7:0] 1f eq_on[7:0] 20 gdon[7:0] 21 gdoff[7:0] 22 gvssp1[7:0] b4 setcyc 23 gvssp2[7:0] 26 vcmc07 vcmc06 vcmc05 vcmc04 vcmc03 vcmc02 vcmc01 vc mc00 27 vcmc17 vcmc16 vcmc15 vcmc14 vcmc13 vcmc12 vcmc11 vc mc10 b6 setvcom (otpx3) 28 vcmc27 vcmc26 vcmc25 vcmc24 vcmc23 vcmc22 vcmc21 vc mc20 c1 setdgclut 2c vaild_dgclut - - - - - - dgc_en 2d ddb1[7:0](8'b0) 2e ddb2[7:0](8'b0) 2f ddb3[7:0](8'b0) c4 setddb-0 30 ddb4[7:0](8'b0) 31 ddb1[7:0](8'b0) 32 ddb2[7:0](8'b0) 33 ddb3[7:0](8'b0) c4 setddb-1 34 ddb4[7:0](8'b0) 35 ddb1[7:0](8'b0) 36 ddb2[7:0](8'b0) 37 ddb3[7:0](8'b0) c4 setddb-2 38 ddb4[7:0](8'b0) cc setpanel 3d valid_panel - - sm_panel(0) ss_panel(0) gs_panel(0) rev_panel(1) bgr_pan el(0) da rdid1 3e modules manufacturer[7:0] db rdid2 3f valid_rdid lcd module/driver version [6:0] dc rdid3 40 lcd module/driver id[7:0] 66 valid_gamma0 - g1_vrp0[5:0] 67 g1_cgmp0[1:0] g1_vrp1[5:0] 68 g1_cgmp1[1:0] g1_vrp2[5:0] 69 g1_cgmp2[1:0] g1_vrp3[5:0] 6a g1_cgmp3[1:0] g1_vrp4[5:0] 6b g1_cgmp5 g1_cgmp4 g1_vrp5[5:0] 6c * g1_prp0[6] - g1_pkp0[4:0] 6d g1_prp0[5:4] - g1_pkp1[4:0] 6e g1_prp0[3:2] - g1_pkp2[4:0] 6f g1_prp0[1:0] - g1_pkp3[4:0] 70 - g1_prp1[6] - g1_pkp4[4:0] 71 g1_prp1[5:4] - g1_pkp5[4:0] 72 g1_prp1[3:2] - g1_pkp6[4:0] 73 g1_prp1[1:0] - g1_pkp7[4:0] 74 * g1_pkp8[4:0] 75 * * g1_vrn0[5:0] 76 g1_cgmn0[1:0] g1_vrn1[5:0] 77 g1_cgmn1[1:0] g1_vrn2[5:0] 78 g1_cgmn2[1:0] g1_vrn3[5:0] e0 setgammar- gc0 (otpx1) 79 g1_cgmn3[1:0] g1_vrn4[5:0] http://www..net/ datasheet pdf - http://www..net/
-p.208- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 7a g1_cgmn5 g1_cgmn4 g1_vrn5[5:0] 7b * g1_prn0[6] - g1_pkn0[4:0] 7c g1_prn0[5:4] - g1_pkn1[4:0] 7d g1_prn0[3:2] - g1_pkn2[4:0] 7e g1_prn0[1:0] - g1_pkn3[4:0] 7f g1_prn1[6] - g1_pkn4[4:0] 80 g1_prn1[5:4] - g1_pkn5[4:0] 81 g1_prn1[3:2] - g1_pkn6[4:0] 82 g1_prn1[1:0] - g1_pkn7[4:0] 83 - g1_pkn8[4:0] 84 valid__gamma1 - g1_vrp0[5:0] 85 g1_cgmp0[1:0] g1_vrp1[5:0] 86 g1_cgmp1[1:0] g1_vrp2[5:0] 87 g1_cgmp2[1:0] g1_vrp3[5:0] 88 g1_cgmp3[1:0] g1_vrp4[5:0] 89 g1_cgmp5 g1_cgmp4 g1_vrp5[5:0] 8a * g1_prp0[6] - g1_pkp0[4:0] 8b g1_prp0[5:4] - g1_pkp1[4:0] 8c g1_prp0[3:2] - g1_pkp2[4:0] 8d g1_prp0[1:0] - g1_pkp3[4:0] 8e - g1_prp1[6] - g1_pkp4[4:0] 8f g1_prp1[5:4] - g1_pkp5[4:0] 90 g1_prp1[3:2] - g1_pkp6[4:0] 91 g1_prp1[1:0] - g1_pkp7[4:0] 92 * g1_pkp8[4:0] 93 * * g1_vrn0[5:0] 94 g1_cgmn0[1:0] g1_vrn1[5:0] 95 g1_cgmn1[1:0] g1_vrn2[5:0] 96 g1_cgmn2[1:0] g1_vrn3[5:0] 97 g1_cgmn3[1:0] g1_vrn4[5:0] 98 g1_cgmn5 g1_cgmn4 g1_vrn5[5:0] 99 * g1_prn0[6] - g1_pkn0[4:0] 9a g1_prn0[5:4] - g1_pkn1[4:0] 9b g1_prn0[3:2] - g1_pkn2[4:0] 9c g1_prn0[1:0] - g1_pkn3[4:0] 9d g1_prn1[6] - g1_pkn4[4:0] 9e g1_prn1[5:4] - g1_pkn5[4:0] 9f g1_prn1[3:2] - g1_pkn6[4:0] a0 g1_prn1[1:0] - g1_pkn7[4:0] e0 setgammar- gc1 (otpx2) a1 - g1_pkn8[4:0] a2 valid__gamma2 - g1_vrp0[5:0] a3 g1_cgmp0[1:0] g1_vrp1[5:0] a4 g1_cgmp1[1:0] g1_vrp2[5:0] a5 g1_cgmp2[1:0] g1_vrp3[5:0] a6 g1_cgmp3[1:0] g1_vrp4[5:0] a7 g1_cgmp5 g1_cgmp4 g1_vrp5[5:0] a8 * g1_prp0[6] - g1_pkp0[4:0] a9 g1_prp0[5:4] - g1_pkp1[4:0] aa g1_prp0[3:2] - g1_pkp2[4:0] ab g1_prp0[1:0] - g1_pkp3[4:0] ac - g1_prp1[6] - g1_pkp4[4:0] ad g1_prp1[5:4] - g1_pkp5[4:0] ae g1_prp1[3:2] - g1_pkp6[4:0] af g1_prp1[1:0] - g1_pkp7[4:0] b0 * g1_pkp8[4:0] b1 * * g1_vrn0[5:0] b2 g1_cgmn0[1:0] g1_vrn1[5:0] b3 g1_cgmn1[1:0] g1_vrn2[5:0] b4 g1_cgmn2[1:0] g1_vrn3[5:0] b5 g1_cgmn3[1:0] g1_vrn4[5:0] b6 g1_cgmn5 g1_cgmn4 g1_vrn5[5:0] b7 * g1_prn0[6] - g1_pkn0[4:0] b8 g1_prn0[5:4] - g1_pkn1[4:0] b9 g1_prn0[3:2] - g1_pkn2[4:0] ba g1_prn0[1:0] - g1_pkn3[4:0] bb g1_prn1[6] - g1_pkn4[4:0] e0 setgammar- gc2 (otpx3) bc g1_prn1[5:4] - g1_pkn5[4:0] http://www..net/ datasheet pdf - http://www..net/
-p.209- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 bd g1_prn1[3:2] - g1_pkn6[4:0] be g1_prn1[1:0] - g1_pkn7[4:0] bf - g1_pkn8[4:0] c0 valid__gamma3 - g1_vrp0[5:0] c1 g1_cgmp0[1:0] g1_vrp1[5:0] c2 g1_cgmp1[1:0] g1_vrp2[5:0] c3 g1_cgmp2[1:0] g1_vrp3[5:0] c4 g1_cgmp3[1:0] g1_vrp4[5:0] c5 g1_cgmp5 g1_cgmp4 g1_vrp5[5:0] c6 * g1_prp0[6] - g1_pkp0[4:0] c7 g1_prp0[5:4] - g1_pkp1[4:0] c8 g1_prp0[3:2] - g1_pkp2[4:0] c9 g1_prp0[1:0] - g1_pkp3[4:0] ca - g1_prp1[6] - g1_pkp4[4:0] cb g1_prp1[5:4] - g1_pkp5[4:0] cc g1_prp1[3:2] - g1_pkp6[4:0] cd g1_prp1[1:0] - g1_pkp7[4:0] ce * g1_pkp8[4:0] cf * * g1_vrn0[5:0] d0 g1_cgmn0[1:0] g1_vrn1[5:0] d1 g1_cgmn1[1:0] g1_vrn2[5:0] d2 g1_cgmn2[1:0] g1_vrn3[5:0] d3 g1_cgmn3[1:0] g1_vrn4[5:0] d4 g1_cgmn5 g1_cgmn4 g1_vrn5[5:0] d5 * g1_prn0[6] - g1_pkn0[4:0] d6 g1_prn0[5:4] - g1_pkn1[4:0] d7 g1_prn0[3:2] - g1_pkn2[4:0] d8 g1_prn0[1:0] - g1_pkn3[4:0] d9 g1_prn1[6] - g1_pkn4[4:0] da g1_prn1[5:4] - g1_pkn5[4:0] db g1_prn1[3:2] - g1_pkn6[4:0] dc g1_prn1[1:0] - g1_pkn7[4:0] e0 setgammar- gc3 (otpx4) dd - g1_pkn8[4:0] table 10.1: otp table note: (1) the default value of otp memory bits are all 1. (2) valid_xxx bit decide the opt reload enable/disable , the default value is 1. if the own otp area of valid_xxx bit had been programmed, the valid_xxx bit will be changed to 0 automatically and execute the otp reload. for example: condition 1: programmed all index of 0x0ah ~ 0x14h an d valid_power bit http://www..net/ datasheet pdf - http://www..net/
-p.210- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 condition 2: do not program all index of 0x0ah ~ 0x1 4h and valid_power bit (3) there are some conditions that HX8363-A can rel oad otp. a. hardware reset b. software reset c. slpout command http://www..net/ datasheet pdf - http://www..net/
-p.211- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 10.2 otp programming flow note: the input voltage (7.5v) should be removed from pvss af ter otp programming finished. figure 10.1: otp programming sequence http://www..net/ datasheet pdf - http://www..net/
-p.212- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 10.3 programming sequence step operation 1 power on and reset the module then slpout 2 write optimized value to related register command register description setpower b1h set power related setting setrgbif b3h set rgb interface related register setcyc b4h set display waveform cycle setvcom b6h set vcom voltage setdgclut c1h (dgc_en) set dgc lut setddb c4h set ddb setpanel cch (sm_panel, ss_panel, gs_panel, rev_panel, gbr_panel) set panel related register setid c3h set id setgamma e0h set gamma curve related setting 3 set otp_pce=1 4 set otp_ptm[2:0]=3b010 5 connect external power 7.5v to pvss pin 6 wait 100ms for pvss stable 7 specify otp_index ( note 1, 3) otp_index (write C for program) otp_index (read C for get otp value) parameter 0ah ~ 14h 0ah ~ 14h setpower value 1ah 1ah dpl, hspl, vspl, epl 1bh ~ 25h 1bh ~ 25h setcyc value 26h 26h vcmc0[7:0] 26h 27h vcmc1[7:0] 26h 28h vcmc2[7:0] 2ch 2ch dgc_en 2dh ~ 30h 2dh ~ 30h ddb1~4[7:0] 2dh ~ 30h 31h ~ 34h ddb1~4[7:0] 2dh ~ 30h 35h ~ 38h ddb1~4[7:0] 3dh 3dh sm_panel, ss_panel, gs_panel, rev_panel, gbr_panel 3eh 3eh modules manufacturer[7:0] 3fh 3fh lcd module/driver version [6:0] 40h 40h lcd module/driver id[7:0] 66h ~ ddh 66h ~ ddh setgammar value 8 set otp_mask=0x00h, programming the entire bit of one parameter. 9 set otp_prog=1, internal register begin write to otp according to otp_index. 10 wait 1 ms ( note 2, 4 ) 11 complete programming one parameter to otp. if conti nue to programming other parameter, return to step (7). otherwise, remove the external power from pvss pin. 12 wait more then 5 s 13 set otp_ptm[2:0]=3b000 14 set otp_pce=0 15 hardware reset note: (1) when do the otp program on gamma setting (gc0: 66h~83h, gc1: 84h~a1h, gc2: a2h~bfh, gc3: c0h~ddh), user just specify the 66h, the all settin gs of gc0 will be programmed. similarly the same co ndition is also on programming gc1, gc2 and gc3. (gc1: 84h, gc 2: a2h, gc3: c0h). (2) when do the otp program on gamma setting, it mu st wait 6ms delay time after setting otp_prog=1. (3) when do the otp program on ddb setting (setddb-0: 2dh~30h, setddb-1: 31h~34h, setddb-2: 35h~38h), user just specify the 2dh, the all settings of ddb will be programmed to setddb-0, setddb-1 and setddb-2 automatically. (4) when do the otp program on ddb setting, it must wait 2ms delay time after setting otp_prog=1. http://www..net/ datasheet pdf - http://www..net/
-p.213- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 10.4 otp programming circuitry figure 10.2: otp programming circuitry http://www..net/ datasheet pdf - http://www..net/
-p.214- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 11. ordering information part no. package HX8363-A000 pdxxx pd: mean cog xxx: mean chip thickness (m), (default: 250 m) 12. revision history version date description of changes 2008/10/15 new setup 01 2008/10/21 1. modify (add) the description of 2. features (pag e 9) 2. modify some typing error on 3.2 pin description (page 11) modify the typing error on the page16 and page 17. 4. delete the word gram and modify the figure 5.2 : idle mode grayscale control (page 27) 5. delete the word gram and modify the figure 5.3 : grayscale control (page 29) 6. modify the standby off to slpout on figure 5 .14: otp programming sequence (page 80) 7. modify the typing error on figure 5.16: case 1 C nreset line is held high or unstable by host at pow er on (page 83) 8. delete the dstb of command setpower (b2h) (page 93 and page 142) 9. modify the bit stb to slp on command setpower (b2h) (page 93, page 142 and page149) 10. delete the word partial mode (page 99 ~ page 178) 11. modify the flow chart of command read display identification information (04h) (page 100) 12. modify the flow chart of command read red color (06h) (page 101) 13. modify the flow chart of command read green col or (06h) (page 102) 14. modify the flow chart of command read blue colo r (06h) (page 103) 15. modify the description of read display status ( 09h) (page 104) 16. modify the flow chart of read display status (0 9h) (page 107) 17. modify the description of read display power mo de (0ah) (page 108) 18. modify the flow chart of read display power mod e (0ah) (page 109) 19. modify the description of read display madctl (0bh)(page 110) 20. modify the flow chart of read display madctl (0bh)(page 111) 21. modify the flow chart of read display pixel for mat (0ch)(page 113) 22. modify the flow chart of read display image mod e (0dh) (page 115) 23. delete the command read display signal mode (0e h) (page116) http://www..net/ datasheet pdf - http://www..net/
-p.215- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 24. modify the flow chart of read display self-diag nostic result (0fh)(page 117) 25. modify the flow chart of sleep in (10h)(page 11 8) 26. modify the flow chart of sleep out (11h) (page 119) 27. modify the description of memory access control (36h)(page 125) 28. delete the csel_nor[2:0] on command interface pixel format (3ah) (page 91 and page 128) 29. modify the description and flow chart on comman d write ctrl display (53h) (page 131 and page 132) 30. modify the description and flow chart on comman d read ctrl value display (54h) (page 133) 31. modify the flow chart of read content adaptive brightness control (56h) (page 135) 32. modify the flow chart of read cabc minimum brightness (5fh) (page 137) 33. modify the flow chart of read id1 (dah) (page 1 38) 34. modify the flow chart of read id2 (dbh) (page 1 39) 35. modify the flow chart of read id3 (dch) (page 1 40) 36. modify the setting of vrhp[7:0] , vrhn[7:0], vrmp[5:0] and vrmn[5:0] on command setpower (b1h) (page 147 ~ page 152) 37. modify the description of command setdisp (b2h) (page 153) 38. modify the description and add son[7:0], eqs[7: 0], gdon[7:0], gdof[7:0], gdt[7:0] on command setcyc (b4h) ( page 93, page156 ~ page 160) 39. modify the typing error of description on comma nd setpanel (cch) (page 174) 40. modify the table 7.2: adoptability of capacitor (page 180) 41. modify the table 8.1: absolute maximum rating ( page 181) 42. modify the table 8.4: power consumptions (delet e partial mode) (page 183) 2008/10/24 1. modify the description of 5.3 gamma characterist ic correction function(page28 ~ page 31) 2. modify the description of 5.11 power on/off sequence(page82) 3. delete the command read display signal mode(0eh)(page 90) 4. modify the description of the command software reset(01h) (page 98) 5. modify the flow chart of read blue color (08h) ( page 102) 6. modify the description of the command read displ ay status (09h) (page 103) 7. modify the description of the command read displ ay power mode (0ah) (page 107) 8. modify the description of the command read displ ay madctl (0bh) (page 109) 9. modify the description of the command read displ ay image mode (0dh) (page 113) 10. modify the description of the command sleep in (10h) (page 116) http://www..net/ datasheet pdf - http://www..net/
-p.216- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 11. modify the description of the command display o ff (28h) (page 121) 12. modify the description of the command display o n (29h) (page 122) 13. modify the description of the command idle mode on (39h) (page 125) 14. modify the description of the command set displ ay waveform cycle (b4h) (page 157) 15. modify the description of the command set otp ( bbh) (page 94 and page 163) 16. add the dgc_en of command set dgc lut (c1h) (page 94 and page 164) 17. modify the description of the command set cabc control (c9h) (page 94 and page 167) 18. modify the description of the command setpanel (cch) (page 172 and page 173) 2008/11/07 1. modify the description of 1 general description (page 8) 2. delete the description of idle mode on (page9) 3. modify the description of 2.3 display/control in terface (page 10) 4. modify the block diagram of 3 device overview (p age 11) 5. add bs0 ~ bs1, regvdd, dsi_ldo_en, dsi_ldo, dsi_d0p, dsi_d0n, dsi_cp, dsi_cn, dsi_d1p, dsi_d1n, dsi_vcc, dsi_vss of 3.2 pin description (page12 ~ page 14) 6. modify the description of vddd (page 13) 7. modify the description of 4.1 system interface ( page 18) 8. add 4.3 dsi protocol (page28 ~ page 39) 9. delete 5.2 idle display (page41) 10. modify table 5.40: voltage calculation formula of 256-grayscale voltage (positive/negative polarity) (page82 ~ page 84) 11. modify figure 5.8: lcd power generation scheme (page 88) 12. modify the description of 5.7 dc/dc converter c ircuit (page 89 and page 90) 13. modify figure5.13: otp programming sequence (page 94) 14. delete the command read display identification information (04h) (page 104 and page 113) 15. add the command read number of the parity error s (05h) (page 104 and page 114) 16. delete the command read red color (06h) (page 1 04 and page 115) 17. delete the command read green color (07h) (page 104 and page 116) 18. delete the command read blue color (08h) (page 104 and page 117) 19. modify the description of the command read disp lay status (09h) (page 118 and page 119) 20. modify the description of the command read disp lay http://www..net/ datasheet pdf - http://www..net/
-p.217- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 21. power mode (0ah) (page 122) 22. modify the description of the command read disp lay madctl(0bh) (page 124) 23. add the command read display signal mode (0eh) (page 104 and page 130 ~ page 131) 24. modify the description of the command memory access control (36h) (page 140) 25. delete the command idle mode off (38h) (page 10 5 and page 142) 26. delete the command idle mode on (39h) (page 105 and page 143) 27. add the command read ddb start (a1h) (page 105 and page 145 ~ page 146) 28. add the command read_ddb_continue (a8h) (page 105 and page 147) 29. modify the description of the command set power (b1h) (page 167 and page 168) 30. modify the command set display waveform cycle (b4h) (page 107 and page 174) 31. modify the description of the command set vcom voltage (b6h) (page 180 and page 182) 32. modify the description of the command set id(c4 h) (page 108 and page 187) 33. delete the description idle mode on and idle mode off from register availability (page 120 ~ page 198) 34. modify the description of 7. power supply (page 199 and page 200) 35. modify table7.1: power supply voltage configura tion (page 201) 36. modify table7.2: adoptability of capacitor (pag e 201) 37. modify table 8.1: absolute maximum rating (page 202) 38. modify table 8.4: power consumptions (page 204) 39. modify table 9.1: maximum layout resistance (pa ge 211) 2008/11/10 1. modify the description of 3 gamma macro adjustme nt registers (page 44) 2. modify figure 5.4: gamma resister stream and gamma reference voltage (page 45) 3. modify table 5.39: voltage calculation formula o f 64-grayscale voltage (negative polarity) (page 80) 2008/11/14 1. modify the description of s1~s1440 for 3.2 pin description (page 13) 2. modify the description of vddd for 3.2 pin descr iption (page 13) 3. modify 6.1.1 standard command for rdnumpe (05h) (page 102) 4. modify 6.1.1 standard command for madctl (36h) (page 103) 5. modify the description of the command set displa y waveform cycle (b4h) (page 105 and page 165) 6. modify table7.1: power supply voltage configurat ion (page 191) http://www..net/ datasheet pdf - http://www..net/
-p.218- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2008/11/24 1. modify the description of 3.1 block diagram (pag e 11) 2. modify the description of 3.2 pin description (p age 13 and page 14) 3. modify the figure 4.3: 3 wire serial interface p rotocol, read mode (page 21) 4. modify the table 5.38: voltage calculation formu la of 64-grayscale voltage (positive polarity) (page 78) 5. modify the table 5.39: voltage calculation formu la of 64-grayscale voltage (negative polarity) (page 80) 6. modify the figure 5.8: dc/dc converter circuit ( pfm) (page 87) 7. modify the figure 5.9: dc/dc converter circuit (hx5182-a) (page 88) 8. modify the description of 5.10 power on/off sequ ence (page 94) 9. modify the command read number of the parity err ors (05h) (page 111) 10. add the command read red color (06h) (page 102 and page 112) 11. add the command read green color (07h) (page 10 2 and page 113) 12. add the command read blue color (08h) (page 102 and page 114) 13. modify the command read display pixel format (0 ch) (page 122) 14. modify the command read display image mode (0dh ) (page 124) 15. modify the command memory access control (36h) (page 103, page 136 and page 137) 16. modify the command read ddb start (a1h) (page 1 39) 17. modify the command set internal oscillator (b0h ) (page 105 and page 154) 18. modify the command set power (b1h) (page 105, page 155, page 156, page 164 and page 165) 19. modify the command set display related register (b2h) (page 105, page 166 and page 167) 20. modify the command set display waveform cycle (b4h) (page 105, page 169 ~ 171 and page 173) 21. modify the command set vcom voltage (b6h) (page 177) 22. modify the figure 7.1: power supply with pfm ci rcuit (page 194) 23. modify the figure 7.2: power supply with hx5182 -a (page 195) 24. modify the table 7.1: power supply voltage configuration (page 196) 25. modify the table 7.2: adoptability of component (page 196) 26. modify the table 9.1: maximum layout resistance (page 206) http://www..net/ datasheet pdf - http://www..net/
-p.219- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2008/11/28 1. add pccs1 and pccs0 of 3.2 pin description (page13) 2. modify the command read display signal mode (0eh) (page 126) 3. modify the command read_ddb_start (a1h) (page 103 and page 139) 4. modify the command read_ddb_continue (a8h) (page 103 and page 141) 5. add the command set spi read index (feh) (page 106 and page 191) 6. add the command set spi read index (feh) (page 106 and page 192) 7. remove the dummy read parameter from all standar d command and user define command (page 102, page 103, page 104, page 115, page 118, page 120, page 122, page 124, page 126, page 128, page 139, page 141, page 143, page 146, page 148, page 150, page 151, page 152 and page 153) 2008/12/01 1. add the command idle mode off (38h) (page 104 and page 139) 2. add the command idle mode on (39h) (page 104 and page 140) 3. modify the command set display waveform cycle (b4h) (page 106 and page 172 ~ page 178) 4. add the description relate to idle mode (page 9, page 41, page 104, page 116, page 117, page 118, page 119, page 121, page 123, page 125, page 127, page 129, page 132, page 133, page 134, page 135, page 136, page 137, page 139, page 140, page 141, page 142, page 144, page 154, page 155, page 156, page 157, page 168, page 170, page 171, page 178, page 182, page 183, page 184, page 185, page 187, page 189, page 192, page 194, page 196, page 197, page 198, page 200 and page 206) 2008/12/02 1. add 3.3 pin assignment (page 15) 2. add 3.4 pad coordinate (page 16 ~ page 27) 3. modify the command set power (b1h) (page 117, page 169 and page 170) 4. add figure 9.1: layout recommendation (page 223) 5. modify table 9.1: maximum layout resistance (pag e 224) 2008/12/04 1. modify 3.3 pin assignment (page 15) 2. modify the command setpanel (cch) (page 118, page 205 and page 206) 3. modify figure 9.1: layout recommendation (page 2 23) http://www..net/ datasheet pdf - http://www..net/
-p.220- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2008/12/05 1. modify 3.4 pad coordinate (page 27) 2. delete the command idle mode off (38h) (page 115 and page 150) 3. delete the command idle mode on (39h) (page 115 and page 151) 4. modify the command set display waveform cycle (b4h) (page 117 and page 183) 5. delete the description relate to idle mode (page 9, page 52, page 115, page 127, page 128, page 129, page 130, page 132, page 134, page 136, page 138, page 140, page 143, page 144, page 145, page 146, page 147, page 148, page 150, page 151, page 152, page 153, page 155, page 165, page 166, page 167, page 168, page 179, page 181, page 182, page 189, page 193, page 194, page 195, page 196, page 198, page 200, page 203, page 206, page 207, page 208, page 209, page 211 and page 217) 6. modify 11 ordering information (page 226) 2008/12/08 1. add the command set bgp voltage (b5h) (page 115 and page 188) 2. add the command set mipi (bah) (page 116 and page 193) 3. add the command set internal digital voltage (bch) (page 116 and page 195) 4. add the command logic debug (beh) (page 116 and page 196) 5. add the command set power option (bfh) (page 116 and page 197) 6. add the command set source option (c0h) (page 116 and page 198) 2008/12/09 1. add the command set cpcrc (b8h) (page 115 and page 192) 2. add the command setrom (c5h) (page 116 and page 203) 3. add the command seteco (c6h) (page 116 and page 204) 02 2008/12/30 1. modify the description for read display power mo de (0ah) (page 120) 2. modify the description for read display madctl ( 0bh) (page 122) 3. modify the description for read display pixel fo rmat (0ch) (page 124) 4. modify the description for interface pixel forma t (3ah) (page 139) http://www..net/ datasheet pdf - http://www..net/
-p.221- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2009/01/23 1. modify the description for 3.2 pin description ( page 12) 2. modify the description for 3.4.1 bump arrangemen t (page 27 and page 28) 3. modify the description for 6.2.40 set dgc lut (c 1h) (page 180) 4. modify the description for 6.2.43 setpanel (cch) (page 184 and page 185) 5. modify the description for set gamma curve relat ed setting (e0h) (page 188) 6. modify the figure 7.1: power supply with pfm cir cuit (page 190) 7. modify the figure 7.2: power supply with hx5186- a (page 191) 8. modify the description for 10.1 otp table (page 203) 9. modify the description for figure10.1: otp programming sequence (page 208) 2009/02/04 1. modify the figure 5.8: dc/dc converter circuit ( pfm) (page 98) 2. modify the description for 6.2.60 setpanel (cch) (page 185) 3. modify the figure 7.1: power supply with pfm cir cuit (page 190) 4. modify the table 7.2: adoptability of component (page 192) 5. modify the figure 9.1: layout recommendation (pa ge 201) 6. change the regvdd pin to dummy pin (page 12, page 15, page 17, page 201, page 202) 2009/02/10 1. modify the description for 6.2.34 set power (b1h ) ( page 156 ~ page 160) 2. modify the description for 8.4 ac characteristic s (page 197 ~ page 202) 2009/02/12 1. modify the table 8.6: horizontal timings for rgb i/f (page 199 ~ page 200) 1. modify the description for 2.2 display module (p age 9) 2. modify the description for 3.2 pin description ( page 13, page 14) 2009/03/05 3. modify the alignment mark type (page 15, page 20 4) 4. modify the description for 3.4.1 bump arrangemen t (page 27, page 28) 5. modify the description for 6.1.2 user define com mand list table (page 113) 6. modify the description for 6.2.34 set power (b1h ) ( page 157 ~ page 159) 2009/05/08 1. modify the figure 4.6: 16 bit/pixel color order on the rgb i/f (page 35) 2. modify the figure 4.7: 18 bit/pixel color order on the rgb i/f (page 36) 3. modify the description for 6.2.38 set power (b1h ) ( page 157) 4. modify the description for 6.2.43 setpanel (cch) (page 185) http://www..net/ datasheet pdf - http://www..net/
-p.222- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2009/06/12 1. modify the description for 6.2.12 sleep in (10h) (page 131) 2. modify the description for 6.2.13 sleep out (11h ) (page 132) 3. modify the chapter for 8.3 dc characteristics (p age 195, page 196) 2009/07/16 1. modify the description for 6.2.2 software reset (01h) (page 117) 2. add the description for 8.4.3 the electrical characteristics of d-phy layer (page 203 ~ page 210 ) 2009/07/27 1. modify the description for pin regvdd (page 12, page 15, page 17, page 212) 2. modify the description for pin dsi_ldo_en (page 12, page 212, page 213) 2009/08/04 1. modify the description for 5.10 power on/off seq uence (page 103) 2009/08/25 1. modify the description for 6.2.38 set power (b1h ) ( page 159, page 162) 2. modify the description for 6.2.43 set vcom volta ge (b6h) (page 176) 3. modify the table 7.2: adoptability of component (page 193) 4. add the description for 8.4.5 power on/off timin g (page 212) 5. add the description for 9.1 reference layout (pa ge 213, page 214) 6. modify the description for 10.3 programming sequ ence (page 222) 2009/09/9 1. modify the description for pin g1 ~ g864 (page 1 3) 2. modify the description for 6.2.10 read display s ignal mode (page 128) 3. modify the description for 6.2.19 memory access control (page 139) 4. modify the description for 6.2.38 enable extensi on command (page 179) 2009/09/11 1. modify the otp programming flow for umc update (page 221, page 222) 2009/09/18 1. modify the figure 4.4: 3 wire serial interface p rotocol, read mode for user define command (page 33) 2. modify the description for 6.2.20 interface pixe l format (page 140) 3. modify the description for 6.2.34 set power (b1h ) ( page 156) 4. modify the description for 6.2.40 set dgc lut (c 1h) (page 181) 5. modify the description for 8.4.5 power on/off ti ming (page 212, page 213) 2009/09/29 1. modify the description for 6.2.34 set power (b1h ) ( page 161) 2. modify the description for 8.4.2 rgb interface characteristics (page 198, page 199, page 200) http://www..net/ datasheet pdf - http://www..net/
-p.223- himax confidential this information contained herein is the exclusive property of himax and shall not be distributed, rep roduced, or disclosed in whole or in part without prior written permissio n of himax. july, 2011 HX8363-A 480rgbx864dots, tft mobile single chip driver data sheet preliminary v03 2009/11/17 1. modify the description for 3.2 pin description ( page 12, page 13) 2. remove the schottky diode for vgl (page 191, pag e 192, page 193, page 214, page 215) 3. modify the description for table 8.4: power consumptions (page 196) 4. modify the operation voltage range for vdd2 & vd d3 (page 10, page 13, page 195, page 196, page 197, page 198, page 199, page 201) 2009/11/24 1. modify the description for register ap[2:0] (pag e 154, page 160, page 205) 2009/11/25 1. modify the description for 6.2.41 set id (c3h) ( page 175) 2. modify the description for 8.4.1 serial interfac e characteristics (page 188) 3. modify the description for table 8.7 general timings for rgb i/f (page 191) 2009/12/9 1. modify the operation voltage range for vdd1 (pag e 186, page 189, page 190) 2. modify the description for 3.2 pin description ( page 14) 3. modify the description for table 4.2 data types for processor-sourced packets (page 43) 4. delete color mode off/on description (page 44) 5. modify the description for table 4.3 e rror report bit definitions (page 49) 6. modify the description for 6.2.21 read_ddb_start (a1h) (page 136) 7. modify the description for 6.2.22 read_ddb_conti nue (a8h) (page 137) 8. add the schottky diode for vgl (page 182, page 1 83, page 184, page 203, page 204) 9. modify the description for figure 8.11 power on timing (page 201) 2010/01/21 1. modify the description for 3.4.1 bump arrangemen t (page 28) 2010/01/27 1. modify the table 8.1 absolute maximum rating (pa ge 185) 2010/02/24 1. modify the table 8.1 absolute maximum rating (pa ge 185) 2. modify the description for 8.4.3 the electrical characteristics of d-phy layer (page 197) 2010/04/09 1. modify the description for 6.2.34 set power (b1h ) ( page 153) 2010/09/06 1. modify the description for 3.4.1 bump arrangemen t (page 29) 2. modify the description for 6.2.36 set disp lay waveform cycle (b4h) (page 167) 03 2011/07/22 1. modify the table 4.2 data types for processor-so urced packets (page 43) http://www..net/ datasheet pdf - http://www..net/

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