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HM5283206 Series 131,072-word x 32-bit x 2-bank Synchronous Graphic RAM ADE-203-223A (Z) Rev. 1.0 May. 30, 1996 Description All inputs and outputs signals refers to the rising edge of the clock input. The HM5283206 provides 2 banks to realize better performance. 8 column block write function and write per bit function are provided for graphic applications. Features * * * * * * * 3.3V Power supply Clock frequency: 100 MHz/83 MHz/66 MHz (max) LVTTL interface 2 Banks can operates simultaneously and independently Burst read/write operation and burst read/ single write operation capability Programmable burst length: 1/2/4/8/full page 2 variations of burst sequence Sequential (BL = 1/2/4/8/full page) Interleave (BL = 1/2/4/8) Programmable CAS latency: 1/2/3 Byte control by DQM 8 column block write function with column address mask Write per bit function (old mask) Refresh cycles: 1024 refresh cycle/16 ms 2 variations of refresh Auto refresh Self refresh * * * * * * HM5283206 Series Ordering Information Type No. HM5283206FP-10 HM5283206FP-12 HM5283206FP-15 Frequency 100 MHz 83 MHz 66 MHz Package 100-pin plastic QFP (FP-100J) Pin Arrangement HM5283206FP Series DQ28 VDDQ DQ27 DQ26 VSSQ DQ25 DQ24 VDDQ DQ15 DQ14 VSSQ DQ13 DQ12 VDDQ VSS VDD DQ11 DQ10 VSSQ DQ9 DQ8 VDDQ NC(Vref) DQM3 DQM1 CLK CKE DSF NC A8 DQ29 VSSQ DQ30 DQ31 VSS NC NC NC NC NC NC NC NC NC NC VDD DQ0 DQ1 VSSQ DQ2 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 A7 A6 A5 A4 VSS NC NC NC NC NC NC NC NC NC NC VDD A3 A2 A1 A0 2 DQ3 VDDQ DQ4 DQ5 VSSQ DQ6 DQ7 VDDQ DQ16 DQ17 VSSQ DQ18 DQ19 VDDQ VDD VSS DQ20 DQ21 VSSQ DQ22 DQ23 VDDQ DQM0 DQM2 WE CAS RAS CS A9 NC (Top view) HM5283206 Series Pin Description Pin name A0 to A9 Function Address input Row address Column address Bank select address (BS) DQ0 to DQ31 CS RAS CAS WE DQM0 to DQM3 CLK CKE VDD VSS VDDQ VSS Q DSF NC Data-input/output Chip select Row address asserted bank enable Column address asserted Write enable Byte input/output mask Clock input Clock enable Power for internal circuit Ground for internal circuit Power for DQ internal circuit Ground for DQ internal circuit Special function input flag No connection A0 to A8 A0 to A7 A9 3 HM5283206 Series Block Diagram A0 to A9 A0 to A7 A0 to A9 Column address counter Column address buffer Row address buffer Refresh counter Row decoder Row decoder Sense amplifier & I/O bus Column decoder Bank 0 512 row X 256 column X 32 bit Column decoder Memory array Sense amplifier & I/O bus Memory array Bank 1 512 row X 256 column X 32 bit DQ0 to DQ31 DQM3 DQM2 DQM1 DQM0 CKE RAS CAS CLK DSF WE CS 4 Color register Mask register Input buffer Output buffer Control logic & timing generator HM5283206 Series Pin Functions CLK (input pin): CLK is the master clock input pin. The other input signals are referred at CLK rising edge. CS (input pin): When CS is Low, the command input cycle becomes valid. When CS is High, all inputs are ignored. However, internal operations (bank active, burst operations, etc.) are held. RAS, CAS, and WE (input pins): These pins define operation commands (read, write, etc.) depending on the combination of their voltage levels. For details, refer to the command operation section. DSF (input pin): DSF is a part of inputs of graphic commands of the HM5283206. If DSF is LOW, the HM5283206 operates as standard synchronous DRAM. A0 to A8 (input pins): Row address (AX0 to AX8) is determined by A0 to A8 pins at the CLK rising edge when a bank active command is input. Column address (AY0 to AY7) is determined by levels on A0 to A7 pins at the CLK rising edge when a read or write command is input. A8 determins precharge mode. When A8 is low, only the bank selected by A9 (BS) is precharged by a precharge command. When A8 is high, both banks are precharged by a precharge command. A9 (input pin): A9 is the bank select signal (BS). The memory array of the HM5283206 is divided into the bank 0 and the bank 1, both contain 512 row x 256 column x 32 bits. If A9 is Low, the bank 0 is selected, and if A9 is High, the bank 1 is selected. CKE (input pin): By referring low level on CKE pin, HM5283206 determines to go into clock suspend modes or power down modes. In self refresh mode, low level on this pin is also referred to turn on refresh process. DQM0, DQM1, DQM2 and DQM3 (input pins): DQM0 applies to DQ0 to DQ7. DQM1 applies to DQ8 to DQ15. DQM2 applies to DQ16 to DQ23. DQM3 applies to DQ24 to DQ31. In read mode, referring high level on DQM pins, HM5283206 floats related DQ pins. In write mode, referring high level on DQM pins, HM5283206 ignores input data through related DQ pins. DQ0 to DQ31 (input/output): These are the data line for the HM5283206. VDD and VDDQ (power supply pins): 3.3 V is applied. (VDD is for the internal circuit and V DD Q is power supply pin for DQ output buffer.) VSS and VSS Q (power supply pins): Ground is connected. (VSS is for the internal circuit and VSSQ is for DQ output buffer.) 5 HM5283206 Series Simplified State Diagram SELF REFRESH SR ENTRY SR EXIT MODE REGISTER SET MRS IDLE REFRESH *1 AUTO REFRESH SMRS ACTIVM SPECIAL MODE REGISTER SET CKE CKE_ ACTIV IDLE POWER DOWN CKE_ SMRS BST Active Suspend ROW ACTIVE CKE BST WRITE Write CKE_ WRITE/ BWRITE SUSPEND CKE WRITE/ BWRITE WRITE/ BWRITE WITH AP READ READ WITH AP READ Read CKE_ READ CKE READ WITH AP CKE_ READA CKE READA SUSPEND READ SUSPEND WRITE WITH AP WRITE/ BWRITEA SUSPEND CKE_ CKE WRITE/ BWRITE READ WRITE/ WITH AP BWRITE WITH AP PRECHARGE WRITE/ BWRITEA PRECHARGE PRECHARGE POWER APPLIED POWER ON PRECHARGE PRECHARGE Automatic transition after completion of command. Transition resulting from command input. Note: 1. After the auto-refresh operation, precharge operation is performed automatically and enter the IDLE state. 6 HM5283206 Series Commands Operation Commands Explanation Every operations of HM5283206 are executed by input commands. A command is input, at the rising edge of CLK, by setting the levels on CS, RAS, CAS, WE, A8 (auto precharge) and DSF pins, HIGH (VIH) or LOW (V IL ). Note: The setup and hold condition should be obeyed when command, address or data is input. Setup and Hold Condition of Command, Address and Data Input CLK Command tCMS t CMH Address t AS t AH Data t DS t DH 7 HM5283206 Series Precharge command [PRE, PALL]: At the CLK rising edge, by setting CS, RAS, WE, DSF are LOW, CAS is HIGH bank can be precharged to idle state. A8 = LOW: the bank selected by A9 is precharged. [State transition] power on -- (precharge) -> Idle Row active -- (precharge) -> Idle Precharge Command CLK CKE CS RAS CAS WE DSF A8 A9 VIH A0 to A7 DQ High-Z 8 HM5283206 Series Mode register set command [MRS]: If both banks have been precharged or are in idle state, at the CLK rising edge, by setting CS, RAS, CAS, WE, DSF; LOW an internal register (the mode register; MRS) are set. The data through address pins, at the cycle when this command is input, are stored in the mode register. A8, A9 bits determine burst write or single write. A6 to A4 bits determine CAS latency. A3 bit determines burst type, sequential or interleave. A2 to A0 bits determine burst length. A7 bit should be set to low. See table below for details. [State transition] Idle -- (Mode resister set) ->Idle Mode Register Set Command CLK CKE CS RAS CAS WE DSF A8, A9 A6 to A4 A3 A2 to A0 A7 DQ High-Z OP CODE CAS Latency Burst type Burst length VIH 9 HM5283206 Series Mode Register Configuration A9 0 0 1 1 A8 0 1 0 1 Operation CODE Burst read and burst write R Burst read and single write R A6 0 0 0 0 1 A5 0 0 1 1 x A4 0 1 0 1 x CAS latency R 1 2 3 R A3 0 1 Burst type Sequencial Interleave Burst length A2 0 0 0 0 1 1 1 1 Note: R: Reserved A1 0 0 1 1 0 0 1 1 A0 0 1 0 1 0 1 0 1 BT = 0 1 2 4 8 R R R Full page BT = 1 1 2 4 8 R R R R 10 HM5283206 Series Bank and row active command [ACTV, ACTVM]: If a bank has been precharged or is in idle state. At the CLK rising edge, by setting CS, RAS; LOW, CAS, WE: HIGH a row of the bank is activated. The bank is selected by setting the level on A9 pin HIGH (bank 1) or LOW (bank 0) at this timing. A0 to A8 determine the row address. [Option] DSF = LOW; write per bit function disable (ACTV) DSF = HIGH; write per bit function enable (ACTVM) [State transition] Idle -- (row active) ->Row active Bank and Row Active Command CLK CKE CS RAS CAS WE DSF A9 A0 to A8 DQ High-Z VIH 11 HM5283206 Series Column address and read command: For a row of one of two banks activated by ACTV or ACTVM, at the CLK rising edge, by setting CS, CAS, DSF; LOW, RAS, WE; HIGH, data is output through DQ pins. A9 determines the bank address. A0 to A7 determine the column address. CAS latency stored in MRS determines the timing when data are driven. In case, CL (CAS latency) = 1, 1 clock cycle after the command input, data start to be output. In case CL = 2, 2 clock cycle after the command input, data start to be output. In case CL = 3, 3 clock cycle after the command input, data start to be output. Burst Length (BL) stored in MRS determines data length of output . [Option] A8 = HIGH; auto precharge mode or execute precharge automatically after finishing data output. A8 = LOW; Read mode without auto precharge. [State transition] Row active -- (Column address and read command) ->Row active Row active -- (Column address and read command) ->Idle (auto precharge) Column Address and Read Command CL = 1, BL = 1. CLK CKE CS RAS CAS WE DSF A8 A9 A0 to A7 DQ (out) High-Z VIH 12 HM5283206 Series Column address and write command: For a row of one of two banks activated by ACTV or ACTVM, at the CLK rising edge, by setting CS, CAS, DSF, WE; LOW, RAS; HIGH, the data on DQ pins are input. A9 determines the bank address. A0 to A7 determine the column address. For write, data should start to be input at the same cycle of the command input. Burst length stored in MRS determines the expected data length to be input. If the bank, for which command is input, is activated by ACTVM, then I/O bit mask function or write per bit is available. [Option] A8 = HIGH; auto precharge mode or execute precharge automatically after finishing data input. A8 = LOW; write mode without auto precharge. [State transition] Row active -- (Column address and write command) ->Row active Row active -- (Column address and write command) ->Idle (auto precharge case) Column Address and Write Command (BL = 2) CLK CKE CS RAS CAS WE DSF A8 A9 A0 to A7 DQ (in) High-Z VIH 13 HM5283206 Series Burst stop command (BST): At the CLK rising edge, by setting CS, WE, DSF: LOW, RAS, CAS; HIGH, full page burst (BL = 256) read/write is interupted. If BL is set to 1, 2, 4, 8, to try to execute this command is illegal. [State transition] Row active -- (Burst stop command) -> Row active Burst Stop Command CLK CKE CS RAS CAS WE VIH DSF A0 to A9 14 HM5283206 Series Auto refresh command (REF): If both banks are in idle state, at the CLK rising edge, by setting CS, RAS, CAS, DSF; LOW, WE; HIGH, the HM5283206 starts auto-refresh (CBR type) operation. Refresh address is internaly generated. No precharge commands are required after autorefresh, since precharge is automatically performed for both banks. [State transition] Idle -- (Auto refresh command) -> Idle Auto Refresh Command CLK CKE CS RAS CAS WE VIH DSF A0 to A9 DQ High-Z 15 HM5283206 Series Self refresh command (REF): If both banks are in idle state, at the CLK rising edge, by setting CS, RAS, CAS, DSF; LOW, WE; HIGH, and if CKE's falling edge is detected, the HM5283206 starts self-refresh operation. Self-refresh operation is kept while CKE is LOW. [State transition] Idle -- (Self refresh command) -> Self refresh mode Self Refresh Command CLK CKE CS RAS CAS WE DSF A0 to A9 DQ High-Z 16 HM5283206 Series No operation command (NOP): At the CLK rising edge, by setting CS; LOW, WE, RAS, CAS; HIGH, [State transition] No transition No Operation Command CLK CKE CS RAS CAS WE VIH DSF A0 to A9 DQ High-Z Ignore command (DESL): At the CLK rising edge, by setting CS; HIGH, any input is ignored. 17 HM5283206 Series Graphic Commands Special mode register set command (SMRS): If each banks is in idle state or activated, at the CLK rising edge, by setting CS, RAS, CAS, WE; LOW, DSF; HIGH, an internal register (the special mode register; SMRS) are set. The data through address pins, at the cycle when this command is input, are stored in the special mode register. A0 to A4: reserved. should be LOW when SMRS is issued. A5: determines whether loading mask data or not when SMRS is issued. A6: determines whether loading color data or not when SMRS is issued. A7 to A9: reserved. should be set LOW when SMRS is issued. In case A5 bit of the mode register = HIGH, the data through DQ pins, at the cycle this command is issued, are stored in the MASK register (32 bits). If write per bit function is available*, and DQi (i = 0,..,31)bit of the MASK register = LOW, DQi data path to memory array is masked. In case A6 bit of the mode register HIGH, the data through DQ pins, at the cycle when this command is issued, are stored in the COLOR register (32 bits). This specific data is written to 8 columns in one clock cycle by block write command. Note: When bank active command is issued and DSF set to LOW, write per bit function is enabled. 18 HM5283206 Series Special Mode Register Set Command CLK CKE CS RAS CAS WE DSF A0 to A4 A5 A6 A7 to A9 Load mask Load color VIH DQ High-Z 19 HM5283206 Series Special Mode Register Configuration A5 0 1 x 0 1 Note: x: VIH or VIL A6 x 0 0 1 1 Function Disable Enable Disable Enable ILLEGAL Load Color Load Mask Reserved Bits A0 0 A1 0 A2 0 A3 0 A4 0 A7 0 A8 0 A9 0 20 HM5283206 Series Graphic Function Block Diagram MASK register DQ 0 DQ 1 0 1 DQ 30 DQ 31 30 31 COLOR register 0 1 30 31 Memory Array I1 I2 When block write command is issued, data I1 stored in the COLOR register is loaded O into column block (8 columns) of memory array. For burst and single write, the data I2 from DQ pins are loaded into a single column. When write per bit function is available, if mask data I1 stored in the MASK register is LOW then the data path from I2 to O is cut. I1 I2 O 21 HM5283206 Series Column address and block write command: For a row of one of two banks activated by ACTV or ACTVM, at the CLK rising edge, by setting CS, CAS, WE; LOW, RAS, DSF; HIGH, a block write *2 is executed. A9 determines the bank address. A0 to A1 HIGH or LOW (ignored). A3 to A7 determine the column block address. The data through DQ pins, at the cycle when the block write command input, are referred to stop the color data to be written onto the specific column. (Column mask) [Option] A8 = HIGH; Auto precharge mode or execute precharge automatically after finishing a block write execution. A8 = LOW; Write mode without auto precharge. [State transition] Row active -- (Block write command) ->Row active Row active -- (Block write command) ->Idle(auto precharge case) Column Address and Block Write Command CLK CKE CS RAS CAS WE DSF A8 A9 A0 to A7 DQ High-Z VIH 22 HM5283206 Series Column Block Column location A0 0 1 0 1 0 1 0 1 Note: A1 0 0 1 1 0 0 1 1 A2 0 0 0 0 1 1 1 1 Column block location A3 a3 a3 a3 a3 a3 a3 a3 a3 A4 a4 a4 a4 a4 a4 a4 a4 a4 A5 a5 a5 a5 a5 a5 a5 a5 a5 A6 a6 a6 a6 a6 a6 a6 a6 a6 A7 a7 a7 a7 a7 a7 a7 a7 a7 1. a3, a4, a5, a6, a7; VIH or VIL. 23 HM5283206 Series DQ Input at the Block Write Cycle and Column Mask Location Column location DQ pin NO. DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DQ group* 00 00 00 00 00 00 00 00 01 01 01 01 01 01 01 01 10 10 10 10 10 10 10 10 11 11 11 11 11 11 11 11 1 Column mask A2 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 No mask High High High High High High High High High High High High High High High High High High High High High High High High High High High High High High High High Mask Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low A0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 A1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 Note: DQ group: 00; DQ0 to DQ7, 01; DQ8 to DQ15, 10; DQ16 to DQ23, 11; DQ24 to DQ31 24 HM5283206 Series Command Truth Table The HM5283206 recognizes the following commands specified by the CS, RAS, CAS, WE, DSF and address pins. All other combinations than those in the table bellow are illegal. Function Ignore command No operation Burst stop in full page Column address and read command Read with auto precharge Column address and write command Write with auto precharge Row address strobe and bank active Precharge select bank Precharge all bank Refresh (auto, self) Mode register set CKE Symbol n - 1 n DESL* NOP BST* 3 2 CS RAS CAS WE DSF A9 H L L L L L L L L L L L L L L L x H H H H H H L L L L L L H H L x H H L L L L H H H L L H L L L x H L H H L L H L L H L H L L L x x L L L L L L L L L L H H H H x x x V V V V V V x x V V V V L A8 x x x L H L H V L H x V V L H L A0 to A7 x x x V V V V V x x x V V V V V H H H H x x x x x x x x x x x x x x x x READ READ A H WRIT H WRIT A H ACTV PRE PALL REF, SELF MRS H H H H H Row address strobe and bank ACTVM H active and Masked write enable Column address and block write BWRIT command H Block write with auto precharge BWRITA H Special mode register set SMRS H Notes: 1. H: VIH. L: V IL. x: VIH or VIL. V: Valid address input. 2. When CS is high, the HM5283206 ignores command input. Internal operation is held. 3. Illegal if the burst length is 1, 2, 4 or 8. DQM Truth Table CKE n-1 H H Function Ith byte write enable/output enable Ith byte write input/output disable Symbol ENB i MASK i n x x DQM i L H Note: H: VIH. L: V IL. x: VIH or VIL. i = 0, 1, 2, 3. DQM0 for DQ0 to DQ7, DQM1 for DQ8 to DQ15, DQM2 for DQ16 to DQ23, DQM3 for DQ24 to DQ31 25 HM5283206 Series CKE Truth Table CKE n-1 H L L CS H x x L L L H L H L H RAS x x x L L H x H x H x CAS WE x x x L L H x H x H x x x x H H H x H x H x Current state Active Any Function Clock suspend mode entry Clock suspend n L L H H L L L H H H H DSF x x x L L x x L L x x Address x x x x x x x x x x x Clock suspend Clock suspend mode exit Idle Idle Idle Auto refresh command REF H Self refresh entry SELF Power down entry H H H Self refresh Self refresh exit L L Power down Power down exit L L Note: H: VIH. L: V IL. x: VIH or VIL. 26 HM5283206 Series Function Truth Table The following tables show how each command works and what command can be executed in the state given. Current state CS Precharge H L L L L L L L L L Idle H L L L L L L L L L L L Row active H L L L L L L L L L RAS CAS WE x H H H H L L L L H x H H H H L L L L L H L x H H H H L L L L H x H H L L H H L H L x H H L L H H L L H L L x H H L L H H L H L x H L H L H L x H L x H L H L H L H L H L L x H L H L H L x H L DSF Address x x L L L L L x H H x x L L L L L L L H H H x x L L L L L L H H BA, RA ACTVM x x x Command DESL NOP BST Operation NOP -> Idle after tRP NOP -> Idle after tRP ILLEGAL*2, * 6 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 NOP*3 ILLEGAL ACTVM ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA x x x ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 DESL NOP BST NOP NOP NOP*6 ILLEGAL*2 ILLEGAL*2 Bank and row active NOP*3 Auto self refresh*4 Mode register set*4 Bank and row active and write per bit enable BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x MODE BA, RA ACTV PRE, PALL REF, SELF MRS ACTVM BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 Special MODE SMRS x x x DESL NOP BST Special mode register set*5 NOP NOP NOP*6 Start read Start write ILLEGAL*2 Precharge ILLEGAL ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A Start block write 27 HM5283206 Series Current state CS Row active Read L H L L L L L L L L L Read with auto precharge H L L L L L L L L L Write/BWrite H L L L L L L L L L RAS CAS WE L x H H H H L L L L H x H H H H L L L L H x H H H H L L L L H L x H H L L H H L H L x H H L L H H L H L x H H L L H H L H L L x H L H L H L x H L x H L H L H L x H L x H L H L H L x H L DSF Address H x x L L L L L x H H x x L L L L L x H H x x L L L L L x H H x x x Command Operation Special mode register set*5 NOP -> Burst end -> Row active NOP -> Burst end -> Row active Burst stop -> Row active*6 Term burst -> Start new read Term burst -> Start write ILLEGAL*2 Term burst -> Precharge ILLEGAL ACTVM ILLEGAL*2 Special MODE SMRS DESL NOP BST BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA x x x ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A Term burst -> Start block write DESL NOP BST NOP -> Burst end -> Precharge NOP -> Burst end -> Precharge ILLEGAL ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ACTVM ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA x x x ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 DESL NOP BST NOP -> Burst end -> Write recovering NOP -> Burst end -> Write recovering Burst stop -> Row active*6 Term burst -> Start read Term burst -> Start new write ILLEGAL*2 Term burst -> Precharge ILLEGAL ACTVM ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A Term burst -> Start block write 28 HM5283206 Series Current state CS Write/Bwrite with auto precharge H L L L L L L L L L Write/Bwrite recovering H L L L L L L L L L Write/Bwrite recovering H RAS CAS WE x H H H H L L L L H x H H H H L L L L H x H H H H L L L L H x H H L L H H L H L x H H L L H H L H L x H H L L H H L H L x H L H L H L x H L x H L H L H L x H L x H L H L H L x H L DSF Address x x L L L L L x H H x x L L L L L x H H x x L L L L L x H H x x x Command DESL NOP BST Operation NOP -> Burst end -> Write recovering with precharge NOP -> Burst end -> Write recovering with precharge ILLEAGL ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ACTVM ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA x x x ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 DESL NOP BST NOP -> Row active after t WR/tBWR NOP -> Row active after t WR/tBWR NOP -> Row active after t WR/tBWR* 6 Start read*2 Start new write*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ACTVM ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA x x x ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 DESL NOP BST NOP -> Precharge after t WR/tBWR NOP -> Precharge after t WR/tBWR ILLEGAL ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ACTVM ILLEGAL*2 with precharge L L L L L L L L L BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 29 HM5283206 Series Current state CS Row activating H L L L L L L L L L Refresh (auto precharge) H L L L L Mode register H set L L L L Special Mode H register set L L L L RAS CAS WE x H H H H L L L L H x H H H L x H H H L x H H H L x H H L L H H L H L x H H L x x H H L x x H H L x x H L H L H L x H L x H L x x x H L x x x H L x x DSF Address x x L L L L L x H H x x L x x x x L x x x x L x x x x x Command DESL NOP BST Operation NOP -> Row active after tRCD NOP -> Row active after tRCD NOP -> Row active after tRCD* 6 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL*2 ILLEGAL ACTVM ILLEGAL*2 BA, CA, A8 READ/READ A BA, CA, A8 WRIT/WRIT A BA, RA BA, A8 x BA, RA x x x BA, CA, A8 x x x x BA, CA, A8 x x x x BA, CA, A8 x DESL NOP BST DESL NOP BST ACTV PRE, PALL BA, CA, A8 BWRIT/BWRIT A ILLEGAL*2 DESL NOP BST NOP -> Idle after tRC NOP -> Idle after tRC NOP -> Idle after tRC* 6 ILLEGAL ILLEGAL NOP -> Idle after tRSC NOP -> Idle after tRSC ILLEGAL ILLEGAL ILLEGAL NOP -> Idle after tRSC or row active after tSBW NOP -> Idle after tRSC or row active after tSBW ILLEGAL ILLEGAL ILLEGAL Notes: 1. H: VIH. L: V IL. x: VIH or VIL. 2. To execute this command for the current bank is illegal. However this command can be executed for another bank depends on the state of another bank. 3. NOP for the current bank or the bank in idle state. Precharge for the bank in other state. 4. Illegal, if both banks are not in idle state. 5. Illegal, if another bank is not in active or idle state. 6. In burst read/write, if BL is set to 1, 2, 4, 8, to try to execute BST command is illegal. 30 HM5283206 Series Operations of HM5283206 Series Power on sequence: In order to get rid of data contention of I/O bus when power on, the following power on sequence recommended to be performed before any operation. 1. 2. 3. 4. Apply power and start clock. Keep a NOP condition. Maintain stable power, stable clock, and NOP condition for 200 s. Execute precharge command (PALL: A8 = HIGH). Execute 8 or more auto refresh commands (REF) tRP after the precharge command as dummy. An interval tRC is necessary between two consecutive auto refresh commands. 5. Execute a mode register set command (MRS) tRC after the last auto refresh command input. Power on Sequence CLK tRP Command Address NOP PALL A8='H' REF REF MRS OP CODE ACTV t RC t RC t RSA Repeat this auto-refresh cycle 8 times or more Read/Write Operations Bank active: A read/write operation begins with a bank active command (ACTV or ACTVM). The bank active command determines a bank (A9) and a row address (AX0 to AX8). For the bank and the row, a read/write command can be applied. An interval not less than tRCD, after an ACTV/ ACTVM command to a read/write command, is required. Read operation: Burst length (BL), CAS latency (CL) and burst type (BT) of the mode register are referred when read command is executed. Burst length (BL) determines the length of a sequential data by a single read command, which can be set to 1, 2, 4, 8 or 256 (full-page). Starting address of a burst data is defined by column address (AY0 to AY7) and bank select address (A9) loaded through A0 to A9 in the cycle when the read command is issued. CAS latency (CL) determines the delay of data output after read command input. When burst length is 1, 2, 4 or 8, DQ buffers automatically become High-Z at the next cycle after completion of burst read. When burst length is full-page (256), data are repeatedly output until a burst stop command, a read/write command or a precharge command is input. 31 HM5283206 Series Burst Length CLK t RCD Command Address ACT row BL=1 BL=2 DQout BL=4 BL=8 BL=Full page read column 0 0 0 0 0 1 1 1 1 2 2 2 3 3 3 4 4 5 5 6 6 7 7 256 0 1 BL: Burst Length CAS Latency = 2 BT: sequential CAS Latency CLK t RCD Command Address ACT row CL= 1 CL= 2 CL= 3 read column 0 1 0 2 1 0 3 2 1 3 2 3 Burst Length = 4 CL = CAS Latency BT: sequential DQ out Burst operation (on read or write): One burst data output/input by one read/write command are included in a column block determined by A1 to A7 in case BL (Burst Length) = 2, by A2 to A7 in case BL = 4 and by A3 to A7 in case BL = 8. Burst type (BT) determines the order how data of the column block are output/input. There are two burst types, sequential (wrap around) or interleave. The order of the burst data depends also on the start cloumn location of the burst data. See tables below for details. 32 HM5283206 Series Column Block BL = 2 Column location A0 0 1 A1 a1 a1 Column block location A2 a2 a2 A3 a3 a3 A4 a4 a4 A5 a5 a5 A6 a6 a6 A7 a7 a7 Note: a1, a2, a3, a4, a5, a6, a7; VIH or VIL. BL = 4 Column location A0 0 1 0 1 A1 0 0 1 1 Column block location A2 a2 a2 a2 a2 A3 a3 a3 a3 a3 A4 a4 a4 a4 a4 A5 a5 a5 a5 a5 A6 a6 a6 a6 a6 A7 a7 a7 a7 a7 Note: a2, a3, a4, a5, a6, a7; VIH or VIL. BL = 8 Column location A0 0 1 0 1 0 1 0 1 A1 0 0 1 1 0 0 1 1 A2 0 0 0 0 1 1 1 1 Column block location A3 a3 a3 a3 a3 a3 a3 a3 a3 A4 a4 a4 a4 a4 a4 a4 a4 a4 A5 a5 a5 a5 a5 a5 a5 a5 a5 A6 a6 a6 a6 a6 a6 a6 a6 a6 A7 a7 a7 a7 a7 a7 a7 a7 a7 Note: a3, a4, a5, a6, a7; VIH or VIL. 33 HM5283206 Series The Order of Burst Operation BL = 2 Start column location A0 0 1 Order in decimal BL = 2 Sequential 0 1 1 0 Interleave 0 1 1 0 BL = 4 Start column location A0 0 1 0 1 A1 0 0 1 1 Order in decimal BL = 4 Sequential 0 1 2 3 1 2 3 0 2 3 0 1 3 0 1 2 Interleave 0 1 2 3 1 0 3 2 2 3 0 1 3 2 1 0 BL = 8 Start column location A0 0 1 0 1 0 1 0 1 A1 0 0 1 1 0 0 1 1 A2 0 0 0 0 1 1 1 1 Order in decimal BL = 8 Sequential 0 1 2 3 4 5 6 7 1 2 3 4 5 6 7 0 2 3 4 5 6 7 0 1 3 4 5 6 7 0 1 2 4 5 6 7 0 1 2 3 5 6 7 0 1 2 3 4 6 7 0 1 2 3 4 5 7 0 1 2 3 4 5 6 Interleave 0 1 2 3 4 5 6 7 1 0 3 2 5 4 7 6 2 3 0 1 6 7 4 5 3 2 1 0 7 6 5 4 4 5 6 7 0 1 2 3 5 4 7 6 1 0 3 2 6 7 4 5 2 3 0 1 7 6 5 4 3 2 1 0 34 HM5283206 Series Write operation: OPCODE (A9, A8) of the mode register is referred when a write command is executed as well as BL (Burst Length) and BT (Burst Type). CL (CAS Latency) is ignored and CL is fixed to 0 for write operation, that is, write data input starts on the same cycle when the write command is issued. Burst write: Before executing a burst write operation, OPCODE (A9, A8) should be set to (0, 0). Burst length (BL) determines the length of a sequential data by the burst write command, which can be set to 1, 2, 4, 8 or 256 (full-page). Starting address of a burst data is defined by column address (AY0 to AY7) and bank select address (A9) loaded through A0 to A9 in the cycle when the burst write command is issued. CLK t RCD Command Address ACT row BL=1 BL=2 DQ in BL=4 BL=8 BL=Full page write column 0 0 0 0 0 1 1 1 1 2 2 2 3 3 3 4 4 5 5 6 6 7 7 256 0 1 BL:Burst Length CAS Latency = 1, 2, 3 Single write: Before executing a single write operation, OPCODE (A9, A8) should be set to (1, 0). In the single write operation, data are only written to the single column defined by the column address and the bank select address loaded at the write command set cycle regardless of the defined burst length. (The latency of data input is 0). CLK t RCD Command Address DQ in ACT row write column 0 BL: Burst Length = 1, 2, 4, 8, full page 35 HM5283206 Series Write per bit: To use write per bit function, 1. Set mask data in advance, which define DQ paths to be masked, to the MASK register by SMRS command. An interval not less than tRSC after a SMRS command to an ACTVM command is necessary. 2. Use ACTVM command to activate the bank for which write per bit operation is performed. An interval not less than tRCD, after an ACTVM command to a write or a block write command, is necessary. 3. Execute a write or a block write command. In this write operation, DQ paths defined by mask register are masked to preserve the previous data. (See the example below) Special Mode Register Set (Load Mask) in Idle State and Write Per Bit CLK t RCD Command Address DQ in SMRS A5=1 A6=0 ACTM write column row mask data 0 tRSC 1 BL: Burst Length = 2 Special Mode Register Set (Load Mask) in Active State and Write Per Bit CLK Command Address DQ in SMRS A5=1 A6=0 write col 0 tSBW 1 BL: Burst Length = 2 mask data 36 HM5283206 Series Write Per Bit Example DQ input data A B MASK data stored in the MASK register 0 1 1 0 1 Data to be written DQ 0 DQ 1 DQ 2 DQ 3 B C D E C DQ 28 E DQ 29 DQ 30 DQ 31 F G H 0 1 0 data through this bit will not be written. G Block write: Before executing a block write command, a color data (32 bit) should be set in advance, which is allowed to be written in 8 columns at one write cycle, to the color register by SMRS command. An interval not less than tRSC after a SMRS command to an ACTVM command is necessary. If a SMRS command is executed in active state to set the color register, an interval not less than tSBW is required before executing a block write command after the SMRS command. If a block write command is applied to the bank which is activated by ACTVM command, write per bit function is also available. DQ inputs at the cycle, when a block write command is executed, are reffered to mask the specific columns. See the example below. Special Mode Register Set (Load Mask) in Idle State and Block Write CLK t RCD Command Address DQ in SMRS A5=0 A6=1 Color data ACTM Bwrite column Column MASK row t RSC BL: Burst Length = 2 37 HM5283206 Series Block Write Example with Write Per Bit . ' $ & , Color data A B MASK data 0 1 0 Data to be written (Column block) A B 0 1 7 A B A B D E D D D 24 30 31 1 1 0 E E E G G H 0 G H 1 G H 7 H DQ input 1 0 Co lum n s ma k DQ 0 DQ 1 DQ 7 Column location 1 data through this bit will not be written. DQ 24 DQ 25 DQ 31 1 1 0 Co lu m mn as k 38 HM5283206 Series Auto Precharge Read with auto precharge: In this operation, since precharge is automatically performed after completing a read operation, so no precharge commands are necessary after each read operation. The command next to this command must be a bank active (ACTV, ACTVM) command. In addition, an interval defined by lAPR is required prior to the next command. Note: In executing read with auto precharge command, every command to another bank is ignored until internal precharge completed. CAS latency 3 2 1 2 1 0 Precharge start cycle cycle before the last data out cycle before the last data out cycle before the last data out CLK t RCD Command CL=1 DQ out Command CL=2 DQ out ACT read ACT read ACT IAPR 0 1 2 3 ACT IAPR 0 1 2 3 Command CL=3 DQ out ACT read ACT IAPR 0 1 2 3 Internal precharge starts here 39 HM5283206 Series Write with auto precharge: In this operation, since precharge is automatically performed after completion of a burst write or a single write operation, so no precharge commands are necessary after the write operation. The command next to this command must be a bank active command (ACTV, ACTVM). In addition, an interval of lAPW is required between the last valid data and the following command. Note: In executing write with auto precharge command, every command to another bank is ignored until internal precharge completed. Burst Write (Burst Length = 4) CLK Command Address ACT row write column ACT row DQ in 0 1 2 3 IAPW Single Write CLK Command Address DQ in ACT row write column ACT row 0 I APW 40 HM5283206 Series Block write with auto-precharge: In this operation, since precharge is automatically performed after completion of a block write operation, so no need to execute precharge command. The following command must be a bank active command (ACTV, ACTVM). In addition, an interval of lAPBW is required between the last valid data input and the following command. Block Write with Auto Precharge CLK Command Address ACT row Bwrite column ACT row IAPBW 41 HM5283206 Series Full Page Burst Stop Burst stop command during burst read: Burst stop command is used to stop data output during a full-page burst read. This command sets the output buffer to High-Z and stops the full-page burst read. The timing, from command input to the last data, depends on CAS latency. BST command is legitimate only in case full page burst mode, and is illegal in case burst length 1, 2, 4 or 8. CAS latency 1 2 3 BST to valid data 0 1 2 BST to high impedance 1 2 3 42 HM5283206 Series CAS Latency = 1, Burst Length = Full Page CLK Command DQ out IBSH = 1 IBSR = 0 BST CAS Latency = 2, Burst Length = Full Page CLK Command DQ out IBSH = 2 IBSR = 1 BST CAS Latency = 3, Burst Length = Full Page CLK Command DQ out IBSH = 3 IBSR = 2 BST 43 HM5283206 Series Burst stop command at burst write: For full page burst write cycle, when a burst stop command is issued, the write data at that cycle and the following write data input are ignored. The BST command is legitimate only in case full page burst mode, and is illegal for burst length 1, 2, 4 or 8. Burst Length = Full Page CLK Command Burst stop Precharge DQ input in in t WR 44 HM5283206 Series DQM Control The DQM i (i=0, 1, 2, 3) controls the ith byte of DQ data. DQM control operation for read and for write are different in terms of latency. Reading: When data are read, output buffer can be controlled by DQMi. By setting DQMi to LOW, the corresponding DQ output buffers become active. By setting DQMi to HIGH, the corresponding DQ output buffers are made floated so that the ith byte of data are not driven out. The latency of DQM operation for read operation is 2. CLK DQM DQout 0 1 3 IDOD= 2 Latency Writing: Input data can be controlled by DQMi. While DQMi is LOW, data is driven into the HM5283206. By setting DQMi to HIGH, corresponding ith byte of DQ input data are kept from being written to the HM5283206 and the previous data are protected. The latency of DQM control operation is 0. CLK DQM DQin 0 1 3 I DID = 0 Latency 45 HM5283206 Series Refresh Auto Refresh: All the banks must be precharged before executing an auto-refresh command. Auto refresh command increments the internal counter every time when it is executed. This command also determines the row to be refreshed. Therefore external address specification is not necessary. Refresh cycle is 1024 cycles/16ms. (1024 cycles are required to refresh all the row addresses.) All output buffers become High-Z after auto-refresh start. No prechrage commands are necessary after this operation. Self Refresh: When issuing a self refresh command, by changing the level on CKE pin from HIGH to LOW simultaneously, a self refresh operation starts and is kept while CKE is LOW. During the self-refresh operation, all data schedule to be refreshed internally. This operation managed by an internal refresh timer. After exiting from the self refresh, since the last row refreshed cannot be determined, auto-refresh commands should immediately be performed for all addresses. Change the level on the CKE pin from LOW to HIGH to exit from Self refresh mode. Others Power Down Mode: Power down mode is a state in which all input buffers except the CKE input buffer are made inactive and clock signal is masked to cut power dissipation. To enter into power down mode, CKE should be set to low. Power down mode is kept as long as CKE is low. Change the level on the CKE pin from LOW to HIGH to exit from Power down mode. In this mode, internal refresh is not performed. Clock Suspend: The HM5283206 enters into clock suspend mode from active mode by setting CKE to low. There are several types of clock suspend mode depends on the state when CKE level is changed from HIGH to LOW. ACTIVE clock suspend: If CKE-transition (1 to 0) happens during a bank active state, the bank active status is kept. Any input signals are ignored during this mode. READ and READ A suspend: If CKE transition (1 to 0) happens during a read operation, the read operation is kept or DQ output data is driven out until completion. Any input signals are ignored during this mode. WRITE (BLOCK WRITE) and WRITE A (BLOCK WRITE A) suspend: If CKE-transition (1 to 0) happens during a write operation, though any input signals include DQ input data ignored, the write operation is kept until completion. Any input signals are ignored during this mode. Change the level on the CKE pin from LOW to HIGH to exit from Clock suspend mode. 46 HM5283206 Series Command Intervals Read Command to Read Command Interval: 1. Operation for a column in the same row: Read command can be issued every cycle. Note that the latest read command has the priority to the preceding read command, that is, any read command can interrupt the preceding burst read operation to get valid data aimed by this interruption. CLK tRCD Command Address A9(BS) DQ out A0 B0 B1 B2 B3 CAS Latency = 3 Burst Length = 4 Bank 0 ACT row read read A B Bank 0 Active Column A Column B Column A Column B read read Dout Dout 2. Operation for a column in other row of the same bank: It is necessary to execute a precharge command and a bank-active command before executing the new read command. 3. Operation for another bank: For another bank in active state, the new read command can be executed in the next cycle after the preceding read command is issued. If another bank is in idle state, a bank active command should be executed before executing the new read command. 47 HM5283206 Series CLK tRRD Command Address A9(BS) DQ out A0 B0 B1 B2 B3 CAS Latency = 3 Burst Length = 4 Bank 0 Bank1 Column A Column B Bank0 Bank1 Active Active read read Dout Dout ACT 0 ACT 1 read read A B 48 HM5283206 Series Write Command to Write Command Interval: 1. Operation for a column in the same row : Write command can be issued every cycle. Note that the latest write command has the priority to the preceding write command, that is, any write command can interrupt the preceding burst write operation to get valid data CLK tRCD Command Address ACT row write write A B A9(BS) DQ in A0 B0 B1 B2 B3 Burst Write Mode CAS Latency = 3 Burst Length = 4 Bank 0 Active Column A Column B write write 2. Operation for a column in other row of the same bank: It is necessary to execute a precharge command and a bank active command before executing the following write command. 3. Operation for another bank: For another bank in active state, the following burst write command can be executed in the next cycle after the preceding write command is issued. If another bank is in the idle state, bank active command should be executed. CLK tRRD Command Address A9(BS) ACT 0 ACT 1 write write A B DQ in A0 B0 B1 B2 B3 Bank 0 Bank1 Bank0 Bank 1 Active Active write write Burst Write Mode CAS Latency = 3 Burst Length = 4 49 HM5283206 Series Block Write Command to Write or Block Write Command Interval: 1. Operation for a column in the same row: It is necessary to take no less than tBWC internal between a block write and another block write or the following write. If tCK is less than tBWC , NOP command should be issued for the cycle between a block write command and the following write or another block write command. CLK t RCD Command Address ACT row Bank 0 Active t BWC Bwrite Bwrite /Write A B Column A Column B Block write Block write /Write 2. Operation for a column in other row of the same bank: It is necessary to execute a precharge command and a bank active command before the following write or another block write operation. 3. Operation for another bank: To execute the following write command or another block write command for another bank in active state, tBWC interval to the next command is necessary. If another bank is in the idle state, bank active command should be executed. If t CK is less than tBWC, NOP command should be issued for the cycle between block write command and the following write or another block write command. CLK t RRD Command Address A9(BS) Bank 0 Active Bank1 Column A Column B Active Block write Block write /Write ACT 0 ACT 1 t BWC Bwrite Bwrite /Write A B 50 HM5283206 Series Read Command to Write or Block Write Command Interval: 1. Operation for a column in the same row: The write or the block write command following the preceding read command can be performed after an interval of no less than 1 cycle. To set DQ output High-Z when data are driven in, DQM must be used depending on CAS latency as the timing shown below. Note that the latest write or block write command has the priority to the preceding read command, that is, any write or block write command can interrupt the preceding burst read operation to get valid data. CLK Command CL= 1 DQM CL= 2 CL= 3 DQ in DQ out 0 1 2 3 read write High-Z 2. Operation for a column in other row of the same bank: It is necessary to execute a precharge command and a bank active command before executing the next write or another block write command. 3. Operation for another bank: For another bank in active state, the following write or block write command can be executed from the next cycle after the preceding write command is issued. If another bank is in idle state, bank active command should be executed, prior to execute the following write or block write command. 51 HM5283206 Series Write Command to Read Command Interval: 1. Operation for a column in the same row: The read command following the preceding write command can be performed after an interval of no less than 1cycle. Note that the latest read command has the priority to the preceding writing command, that is, any read command can interrupt the preceding write operation to get valid data. WRITE to READ Command Interval (1) CLK Command DQM DQ in DQ out Column A write read A0 B0 write read B1 B2 B3 Burst Write Mode CAS Latency = 1 Burst Length = 4 Bank 0 CAS Latency Dout Column B Column B WRITE to READ Command Interval (2) CLK Command DQM DQ in DQ out Column A write read A0 A0 B0 B1 B2 B3 Burst Write Mode CAS Latency = 1 Burst Length = 4 Bank 0 write read CAS Latency Dout Column B Column B 2. Operation for a column in other row of the same bank: To execute the following read command, it is necessary to execute a precharge command and a bank active command. 52 HM5283206 Series 3. Operation for another bank: For another bank in active state, the following read command can be executed from the next cycle after the preceding write command is issued. If another bank is in idle state, a bank active command should be executed prior to execute the following read command. 53 HM5283206 Series Block Write Command to Read Command Interval: 1. Operation for a column in the same row : Within the same row, it is necessary to take no less than t BWC between a block write and the following read command. If t CK is less than tBWC, NOP command should be issued for the cycle between a block write command and the following read command. Block Write Command to Read Command Interval CLK Command DQM Bwrite read t BWC DQ out Column A B0 Block write read B1 B2 B3 CAS Latency = 1 Burst Length = 4 CAS Latency Dout Column B Column B 2. Operation for a column in other row of the same bank: It is necessary to execute a precharge command and a bank active command before the following write or another block write operation. 3. Operation for another bank: To execute a read command for another bank in active state, t BWC interval to the next command is necessary. If another bank is in idle state, bank active command should be executed. If tCK is less than t BWC , NOP command should be issued for the cycle between a block write command and the following read command. 54 HM5283206 Series Read Command to Precharge Command: The minimum interval between read command and precharge command is one cycle. However, since the output buffer then becomes High-Z after the cycles defined by lHZP, there is a possibility that burst read data output will be interrupted, if the precharge command is input during burst read. To read all data by burst read, the cycles defined by lEP must be assured as an interval from the final data output to precharge command execution. READ to PRECHARGE Command Interval (Same Bank): Output All Data. CAS Latency = 1, Burst Length = 4 CLK Command DQout read 0 CL = 1 1 2 Pre. 3 I EP = 0 cycle CAS Latency = 2, Burst Length = 4 CLK Command DQout CL = 2 read 0 1 Pre. 2 3 I EP = -1cycle CAS Latency = 3, Burst Length = 4 CLK Command DQout CL = 3 read 0 Pre. 1 2 3 I EP = -2cycle 55 HM5283206 Series READ to PRECHARGE Command Interval (Same Bank): Stop Output Data. CAS Latency = 1, Burst Length = 4 CLK Command DQout read Pre. High-Z 0 I HZP = 1 CAS Latency = 2, Burst Length = 4 CLK Command DQout read Pre. High-Z 0 I HZP = 2 CAS Latency = 3, Burst Length = 4 CLK Command DQout IHZP = 3 read Pre. High-Z 0 56 HM5283206 Series Write Command to Precharge Command: The minimum interval between a write command and the following precharge command is 1 cycle. However, if the burst write operation is not finished, input must be masked by means of DQM for the cycle defined by tWR, for assurance. WRITE to Precharge Command Interval (Same Bank) Burst Length = 4 (To Stop Write Operation) CLK Command DQM DQin A0 A1 t WR write Pre. Burst Length = 4 (To Write All Data) CLK Command DQM DQin A0 A1 A2 A3 tWR write Pre. 57 HM5283206 Series Block Write Command to Precharge Command Interval: The minimum interval between block write command and the following precharge command is tBWR . Block Write to Precharge Command Interval (Same Bank) CLK Command Bwrite Pre. t BWR Register set to register set interval: The minimum interval between two successive register set commands (mode/special mode) is l RR. Mode register set to spacial mode register interval CLK Command Address DQ in MRS A0-A9 SMRS A5,A6 color /mask IRR Special Mode Register Set to Block Write/Write Interval: The minimum interval between a special mode register set and a block write/write is tSBW. Special Mode Register Set to Burst Write Interval CLK Command Address DQ in SMRS A5,A6 color /mask write column 0 tSBW 1 Burst length = 2 58 HM5283206 Series Bank Active Command Interval: 1. Operation for the same bank: The interval between two bank-active commands must be no less than tRC. 2. Operation for another bank: The interval between two bank-active commands must be no less than tRRD. Bank Active to Bank Active for the Same Bank CLK Command Address A9(BS) t RAS t RC t RP ACT row Pre ACT row Bank Active to Bank Active for Another Bank CLK Command Address A9(BS) t RRD ACT row ACT row 59 HM5283206 Series Absolute Maximum Ratings Parameter Voltage on any pin relative to V SS Supply voltage relative to VSS Short circuit output current Power dissipation Operating temperature Storage temperature Note: Symbol VT VDD Iout PT Topr Tstg Value -1.0 to +4.6 -1.0 to +4.6 50 1.0 0 to +70 -55 to +125 Unit V V mA W C C Note 1 1. VIH (max) = 5.75 V for pulse width 5 ns Recommended DC Operating Conditions (Ta = 0 to +70C) Parameter Supply voltage Symbol VDD, VDDQ VSS , VSS Q Input high voltage Input low voltage VIH VIL Min 3.0 0 2.0 -0.3 Max 3.6 0 4.6 0.8 Unit V V V V 1, 2 1, 3 Notes 1 Notes: 1. All voltage referred to VSS 2. VIH (max) = 5.5 V for pulse width 5 ns 3. VIL (min) = -1.0 V for pulse width 5 ns 60 HM5283206 Series DC Characteristics (Ta = 0 to 70C, VDD, VDDQ = 3.3 V 0.3 V, VSS, VSSQ = 0 V) HM5283206 -10 Parameter Operating current Symbol Min I CC1 -- -12 Max Min 180 -- -15 Max Min 150 -- Max Unit Test conditions 120 mA Burst length = 1 t RC = min, CL = 3 t CK = min CKE = VIL, t CK = min CKE = VIL CLK = V o VIH Fxed i IL r CKE = VIH, NOP command t CK = min CKE = VIL, t CK = min, 1 DQ = High-Z CKE=VIH, NOP command t CK = min, DQ = High-Z t CK = min, BL = 4 2 bank operation 1 Note 1 Standby current (Bank Disable) I CC2 -- -- -- 5 3 75 -- -- -- 5 3 60 -- -- -- 5 3 50 mA mA mA Active standby current I CC3 (Bank active) -- -- 10 80 -- -- 10 65 -- -- 10 55 mA mA Burs t operating c urrent (CL = 1) (CL = 2) (CL = 3) Refresh current Self refresh current Block write operating current Input leakage current Output leakage current Output high voltage Output low voltage Note: I CC4 I CC4 I CC4 I CC5 I CC6 I CC7 -- -- -- -- -- -- 170 240 280 150 4 160 -- -- -- -- -- -- 140 200 240 120 4 130 -- -- -- -- -- -- 110 160 190 100 4 110 mA mA mA mA mA mA t RC = min, CL = 3 t CK = min VIH V DD - 0.2 VIL 0.2 V t CK = min, CL = 3 1 bank operation, t RC = 150 ns 0 Vin V DD 0 Vout V DD DQ = disable I OH = -2 mA I OL = 2 mA I LI I LO VOH VOL -10 -10 2.4 -- 10 10 -- 0.4 -10 -10 2.4 -- 10 10 -- 0.4 -10 -10 2.4 -- 10 10 -- 0.4 A A V V 1. I CC depends on output load condition when the device is selected. ICC (max) is specified on condition that all output pins are floated. 61 HM5283206 Series Capacitance (Ta = 25C, VDD, VDDQ = 3.3 V 0.3 V) Parameter Input capacitance (Address) Input capacitance (Signals) Output capacitance (DQ) Symbol CI1 CI2 CO Typ -- -- -- Max 5 5 7 Unit pF pF pF Notes 1 1 1, 2 Notes: 1. Capacitance measured with Boonton Meter or effective capacitance measuring method. 2. DQM = VIH to disable Dout. 62 HM5283206 Series AC Characteristics (Ta = 0 to 70C, VDD, VDDQ = 3.3 V 0.3 V, VSS, VSSQ = 0 V) HM5283206 -10 Parameter System clock cycle time (CL = 1) (CL = 2) (CL = 3) CLK high pulse width CLK low pulse width Access time from CLK (CL = 1) (CL = 2) (CL = 3) Access time from CAS Data-out hold time CLK to data-out low impedance CLK to data-out high impedance (CL = 1) (CL = 2,3) Data-in setup time Data-in hold time Address setup time Address hold time CKE setup time CKE hold time Command (CS, RAS, CAS, WE, DQM, DSF) setup time Command (CS, RAS, CAS, WE, DQM, DSF) hold time Refresh/active to refresh/active command period Active to precharge on full page mode Active to precharge command period Active command to column command Symbol Min t CK t CK t CK t CH t CL t AC t AC t AC t CAC t OH t LZ t HZ t HZ t DS t DH t AS t AH t CKS t CKH t CMS t CMH t RC t RASC t RAS t RCD 30 15 10 3 3 -- -- -- -- 3 0 -- -- 3 1 3 1 3 1 3 1 90 -- 60 30 Max -- -- -- -- -- 28 13 8 28 -- -- 13 7 -- -- -- -- -- -- -- -- -- -12 Min 36 18 12 4 4 -- -- -- -- 3 0 -- -- 3.5 1.5 3.5 1.5 3.5 1.5 3.5 1.5 108 Max -- -- -- -- -- 32 15 10 32 -- -- 15 9 -- -- -- -- -- -- -- -- -- -15 Min 45 22.5 15 5 5 -- -- -- -- 3 0 -- -- 4 2 4 2 4 2 4 2 135 Max -- -- -- -- -- 36 17 12 36 -- -- 17 11 -- -- -- -- -- -- -- -- -- Unit Notes ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns 1 1 1 1 1, 4 1, 4 1 1 1 1 1 1 1, 2 1 1 1, 3 1 1 1, 2 1 120000 -- 120000 72 -- 36 120000 -- 120000 90 -- 45 120000 ns 120000 ns -- ns 63 HM5283206 Series AC Characteristics (Ta = 0 to 70C, VDD, VDDQ = 3.3 V 0.3 V, VSS, VSSQ = 0 V) (cont) HM5283206 -10 Parameter Precharge to active command period The last data-in to precharge lead time (CL = 1) (CL = 2) (CL = 3) Block write to precharge lead time (CL = 1) (CL = 2) (CL = 3) Active (a) to active (b) command period Register set to active command Block write cycle time Symbol Min t RP 30 Max -- -12 Min 36 Max -- -15 Min 45 Max -- Unit Notes ns 1 t WR t WR t WR t BWR t BWR t BWR t RRD t RSC t BWC 15 15 20 30 30 30 20 20 20 20 1 -- -- -- -- -- -- -- -- -- -- -- 5 16 18 18 24 34 34 36 24 24 24 24 1 -- -- -- -- -- -- -- -- -- -- -- 5 16 21 21 30 42 42 45 30 30 30 30 1 -- -- -- -- -- -- -- -- -- -- -- 5 16 ns ns ns ns ns ns ns ns ns ns ns ms 1 1 1 1 1 1 Special mode register set to column t SBW command Transition time (rise to fall) Refresh period tT t REF Notes: 1. AC measurement assumes t T = 1 ns. Reference level for timing of input signals is 1.4 V. Test load (A) is used with CL = 30 pF in general except fpr the measurement of access time (note2) and tHZ (note3). 2. Access time is measured at 1.4 V. Test load (B) is used with current source. 3. t HZ (max) defines the time at which the outputs achieves 200 mV. Test load (A) is used with CL = 5 pF and with current source. 4. When Active Suspend Exit, Power Down Exit or Self Refresh Exit is executed. CKE should be kept "H" more than 1 cycle from these Exit cycles. 64 HM5283206 Series Test Conditions * Input and output timing reference levels: 1.4 V * Input waveform and output load: See following figures 2.8 V input V SS 80% 20% t T tT LVTTL interface Output +1.4 V DQ CL 500 DQ I +1.4 V 50 30 pF * IOL (max) = 20mA IOH (min) = -20mA Test Load (A) Test Load (B)* 65 HM5283206 Series Relationship Between Frequency and Minimum Latency HM5283206 Parameter CL tCK (ns) Last data in to active command (Auto precharge, same bank) Block write to active command (Auto precharge, same bank) Precharge command to high impedance Last data out to active command (Auto precharge, same bank) Last data out to precharge Column command to column command Write command to data in latency DQM to data in DQM to data out CKE to CLK disable Symbol lAPW lAPBW lHZP lAPR lEP lCCD lWCD lDID lDOD lCLE -10 3 10 5 6 3 1 -2 1 0 0 2 1 2 3 0 0 0 2 2 15 3 4 2 1 -1 1 0 0 2 1 1 2 0 0 0 2 1 -12 3 2 1 -15 3 2 1 45 2 2 1 1 0 1 0 0 2 1 0 1 0 0 0 1 Notes 30 12 18 36 15.0 22.5 2 2 1 1 0 1 0 0 2 1 0 1 0 0 0 1 5 6 3 1 3 4 2 1 2 2 1 1 5 6 3 1 -2 1 0 0 2 1 2 3 0 0 0 2 3 4 2 1 -1 1 0 0 2 1 1 2 0 0 0 2 -2 -1 0 1 0 0 2 1 2 3 0 0 0 2 1 0 0 2 1 1 2 0 0 0 2 1 0 0 2 1 0 1 0 0 0 1 Burst stop to output valid data hold lBSR Burst stop to output high impedance Burst stop to write data ignore MRS to data in latency SMRS to data in latency Register set to register set lBSH lBSW lMSD lSSD lRR 66 HM5283206 Series Timing Waveforms Read Cycle t CK t CH t CL CLK VIH t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH , , , , ,, , , , ,,, , , , , , ,, CKE t RCD t RAS t RP t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH t RC CS RAS t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH CAS t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH WE t AS t AH t AS t AH t AS t AH t AS t AH t AS t AH t AS t AH A9 t AS t AH t AS t AH t AS t AH A8 t AS t AH t AS t AH A0 to A7 t CMS t CMH DQM DQ(input) tCAC t AC t AC t AC DQ(output) t AC Bank 0 Active Bank 0 Read t LZ t OH t OH t OH t HZ Bank 0 Precharge Burst length = 4 Bank0 Access 67 HM5283206 Series Write Cycle , ! , , , " ! " t CK t CH t CL CLK t RC VIH CKE t RCD t RAS t RP t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH CS , , , RAS t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH CAS t CMS t CMH t CMS t CMH t CMS t CMH t CMS t CMH WE t AS t AH t AS t AH t AS t AH t AS t AH t AS t AH t AS t AH A9 t AS t AH t AS t AH t AS t AH A8 t AS t AH t AS t AH A0 to A7 t CMS t CMH DQM t DS t DH tDS t DH t DS t DH t DS t DH DQ(input) t WR DQ(output) Bank 0 Active Bank 0 Write Bank 0 Precharge Burst length = 4 Bank 0 Access 68 " , , ! , ", ! " HM5283206 Series Mode Register Set Cycle 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 , , , , , , , , , ,,, , , , ,, , ,, CLK CKE CS VIH RAS CAS WE A9(BS) A0 to A7 DQM valid code DQ(output) DQ(input) t RP t RSC Precharge If needed Mode register Set Read Cycle/Write Cycle 0 1 2 3 4 5 6 CLK CS CKE VIH RAS CAS WE A9(BS) A0 to A7 DQM DQ (output) DQ (input) CKE CS R:a C:a R:b a Bank 0 Active Bank 0 Read Bank 1 Active VIH RAS CAS WE A9(BS) A0 to A7 DQM R:a C:a R:b DQ (output) DQ (input) a a+1 a+2 a+3 Bank 1 Active Bank 0 Active Bank 0 Write ,, , , R: b C: b C: b' b b+3 b' b'+1 b'+2 b'+3 High-Z t RCD Output mask Bank 1 Active Bank 1 Read tRCD = 3 CAS latency = 3 Burst length = 4 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Read cycle RAS-CAS delay = 3 CAS latency = 3 Burst length = 4 C:b C:b' C:b" a+1 a+2 a+3 b b+1 b+2 b+3 b' Bank 1 Read b'+1 b" b"+1 b"+2 b"+3 High-Z Bank 1 Bank 0 Read Precharge Bank 1 Read Bank 1 Precharge Write cycle RAS-CAS delay = 3 CAS latency = 3 Burst length = 4 C:b C:b' C:b" High-Z b b+1 b+2 b+3 b' Bank 0 Precharge b'+1 b" b"+1 b"+2 b"+3 Bank 1 Write Bank 1 Write Bank 1 Write Bank 1 Precharge 69 , ? 7 9 8 : 2 , = 61 . '0 $ + " 3 * ? ; * " 3 , + $ 5 2 : 8 1 9 = 6 ; 4 , HM5283206 Series Read/Single Write Cycle 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 CLK CS CKE VIH , RAS CAS WE A9(BS) A0 to A7 DQM DQ (input) DQ (output) CKE CS R:a C:a R:b C:a' C:a a a a+1 a+2 a+3 a a+1 a+2 a+3 Bank 0 Precharge Bank 0 Active Bank 0 Read Bank 1 Active Bank 0 Bank 0 Write Read Bank 1 Precharge VIH RAS CAS WE A9(BS) A0 to A7 DQM DQ (input) DQ (output) R:a C:a R:b C:a C:b C:c b c a a a+1 a+3 Bank 0 Active Bank 0 Read Bank 1 Active Bank 0 Write Bank 0 Bank 0 Write Write Bank 0 Precharge Read/Single write RAS-CAS delay = 3 CAS Latency = 3 Burst length = 4 70 HM5283206 Series Read/Burst Write Cycle 0 1 = 5 , 1 8 0 " ! 0 ; 3 ! 1 * " 9 8 = 5 4 , 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 CLK CS CKE RAS CAS WE A9(BS) A0 to A7 R:a C:a R:b C:a' a DQM DQ (input) DQ (output) CKE CS a+1 a+2 a+3 a a+1 a+2 a+3 Clock suspend Bank 0 Active Bank 0 Read Bank 1 Active Bank 0 Write Bank 0 Precharge Bank 1 Precharge , , VIH RAS CAS WE A9(BS) A0 to A7 DQM R:a C:a R:b C:a DQ (input) DQ (output) a a+1 a+2 a+3 a a+1 a+3 Bank 0 Active Bank 0 Read Bank 1 Active Bank 0 Write Bank 0 Precharge Read/Single write RAS-CAS delay = 3 CAS Latency = 3 Burst length = 4 71 HM5283206 Series Full Page Read/Write Cycle 0 1 2 3 " 0 . * , & ' & !. , .* 0 " , , 4 5 6 7 8 9 260 261 262 263 264 265 266 267 268 269 CLK CS CKE VIH RAS CAS Read cycle RAS-CAS delay = 3 CAS Latency = 3 Burst Length = full page WE A9(BS) A0 to A7 R:a C:a R:b DQM DQ (output) DQ (input) CKE CS a a+1 a+2 a+3 a-2 a-1 a a+1 a+2 a+3 a+4 a+5 High-Z Bank 0 Active Bank 0 Read Bank 1 Active Burst stop Bank 1 Precharge VIH RAS CAS Write cycle RAS-CAS delay = 3 CAS Latency = 3 Burst Length = full page WE A9(BS) A0 to A7 R:a C:a R:b DQM DQ (output) DQ (input) High-Z a a+1 a+2 a+3 a+4 a+5 a+6 a+1 a+2 a+3 a+4 a+5 Bank 0 Active Bank 0 Write Bank 1 Active Burst stop Bank 1 Precharge Auto Refresh Cycle 0 , , ,, , , , ,, ,, , ,,, , ,, , 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 CLK CKE CS VIH RAS CAS WE A9(BS) A0 to A7 DQM A8=1 R:a C:a DQ(input) DQ(output) High-Z a a+1 t RP t RC tRC Precharge If needed Auto Refresh Auto Refresh Active Bank 0 Read Bank 0 Refresh cycle and Read cycle RAS-CAS delay=2 CAS latency=2 Burst length=4 72 , ! " , " HM5283206 Series Self Refresh Cycle CLK CKE CS CKE Low ,, , ,,,, ,, ,, ,, , , , , ,,,,, ,, , , RAS CAS WE A9(BS) A0 to A7 A8=1 DQM DQ(input) DQ(output) tRP Precharge command If needed Self refresh entry command Clock Suspend Mode t CKS 0 1 2 3 4 5 6 7 CLK CS High-Z Self refresh exit ignore command or No operation tRC Auto refresh Self refresh cycle RAS-CAS delay = 3 CAS latency = 3 Burst length = 4 t CKH t CKS 8 9 10 11 12 13 14 15 16 17 18 19 20 CKE RAS CAS WE Read cycle RAS-CAS delay = 2 CAS latency = 2 Burst length = 4 A9(BS) A0 to A7 R:a C:a R:b C:b DQM DQ (output) DQ (input) CKE CS a a+1 a+2 a+3 b b+1 b+2 b+3 High-Z Bank0 Active clock Active suspend start Active clock Bank0 suspend end Read Bank1 Active Read suspend start Read suspend end Bank1 Read Bank0 Precharge Earliest Bank1 Precharge RAS CAS Write cycle RAS-CAS delay = 2 CAS latency = 2 Burst length = 4 WE A9(BS) A0 to A7 DQM R:a C:a R:b C:b DQ (output) DQ (input) High-Z a a+1 a+2 a+3 b b+1 b+2 b+3 Bank0 Active Active clock suspend start Active clock Bank0 Bank1 supend end Write Active Write suspend start Write suspend end Bank1 Bank0 Write Precharge Earliest Bank1 Precharge 73 5* 6: .9 '2, ?8 =1 7 + ! " 0 2 ; : 3 HM5283206 Series Power Down Mode t CKS , , , , , , ,, ,, , , ,, , , CKE CS CKE Low CLK RAS CAS WE A9(BS) A0 to A7 DQM A8=1 DQ(input) DQ(output) tRP Precharge command If needed Power down entry R: a High-Z Power down mode exit Active Bank 0 Power down cycle RAS-CAS delay = 3 CAS latency = 3 Burst length = 4 74 . 70 69 '8, 5 4 -" & = ?1 * 2 ! + , " 2 + * 8 0 : 9 ; 3 HM5283206 Series Mask Register Set Cycle 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 ,,, , , , , , , , , , , ,, , , CLK CKE CS VIH RAS CAS WE DSF A9 A8 Mask No Mask Ra Rb A0 to A7 DQM A5 = 1 Ra Rb Ca Cb DQ in Mask Data a a+2 a+3 b b+1 t RP t RSC Precharge If needed Mask register Set Bank 0 ACTVM Bank 1 Bank 0 ACTV Write per bit Bank 1 Write 75 5 4 - , &" 1 . 70 69 '8, = ?+ , * 2 ! " 1 2 + * 8 : 9 ; 3 HM5283206 Series Color Register Set Cycle 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 , , , , ,, , , ,, , , , , CLK CKE CS VIH RAS CAS WE DSF A9 A8 Mask No Mask Ra Rb A0 to A7 DQM A6 = 1 Ra Rb Ca Cb Cc DQ in Color Data Column MASK Column MASK Column MASK t RP t RSC Precharge If needed Color register Set Bank 0 ACTVM Bank 1 ACTV Bank 0 Mask Block Write Bank 1 Block Write 76 ' 8, 7, 5 49 .1 -0 &* ? =" 6! + 2 1 " 8 0 : 9 2 + * ; 3 HM5283206 Series Write Cycle (with I/O Mask) 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 , , , , , , ,, , ,,, , CLK CKE CS VIH RAS CAS WE DSF A9 A8 Ra Rb A0 to A7 DQM Ra Rb Ca Cb DQ in a a+2 a+3 b b+1 b+3 Bank 0 ACTVM Bank 1 ACTV Bank 0 Write per bit Bank 1 Write Bank 0 Precharge 77 7! ? '0 9 8, , 2 5, 4 -" . &1 =* 6 + 1 " 8 0 : 9 2 + * ; 3 HM5283206 Series Block Write Cycle 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 , , , , ,, ,, , ,, , CLK CKE CS VIH RAS CAS WE DSF A9 A8 Ra Rb A0 to A7 DQM Ra Rb Ca Cb Cc Cd DQ in Column MASK Column MASK Column MASK Column MASK tBWC Bank 0 ACTVM Bank 1 Bank 0 ACTV Mask Block Write Bank 0 Mask Block Write Bank 1 Block Write Bank 1 Block Write Bank 0 Precharge 78 HM5283206 Series Package Dimensions HM5283206FP Series (FP-100J) 23.2 0.2 20.0 80 81 51 50 Unit: mm 17.2 0.2 14.0 100 1 0.32 +0.08 -0.07 30 0.575 31 0.825 0.65 0.13 M 3.10 Max 0.17 +0.06 -0.05 1.60 0.15 0.15 0.10 0.80 0.20 79 HM5283206 Series When using this document, keep the following in mind: 1. This document may, wholly or partially, be subject to change without notice. 2. All rights are reserved: No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without Hitachi's permission. 3. Hitachi will not be held responsible for any damage to the user that may result from accidents or any other reasons during operation of the user's unit according to this document. 4. Circuitry and other examples described herein are meant merely to indicate the characteristics and performance of Hitachi's semiconductor products. Hitachi assumes no responsibility for any intellectual property claims or other problems that may result from applications based on the examples described herein. 5. No license is granted by implication or otherwise under any patents or other rights of any third party or Hitachi, Ltd. 6. MEDICAL APPLICATIONS: Hitachi's products are not authorized for use in MEDICAL APPLICATIONS without the written consent of the appropriate officer of Hitachi's sales company. Such use includes, but is not limited to, use in life support systems. Buyers of Hitachi's products are requested to notify the relevant Hitachi sales offices when planning to use the products in MEDICAL APPLICATIONS. Hitachi, Ltd. Semiconductor & IC Div. Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100, Japan Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109 For further information write to: Hitachi America, Ltd. Semiconductor & IC Div. 2000 Sierra Point Parkway Brisbane, CA. 94005-1835 USA Tel: 415-589-8300 Fax: 415-583-4207 Hitachi Europe GmbH Electronic Components Group Continental Europe Dornacher Strae 3 D-85622 Feldkirchen Munchen Tel: 089-9 91 80-0 Fax: 089-9 29 30 00 Hitachi Europe Ltd. Electronic Components Div. Northern Europe Headquarters Whitebrook Park Lower Cookham Road Maidenhead Berkshire SL6 8YA United Kingdom Tel: 0628-585000 Fax: 0628-778322 Hitachi Asia Pte. Ltd. 16 Collyer Quay #20-00 Hitachi Tower Singapore 0104 Tel: 535-2100 Fax: 535-1533 Hitachi Asia (Hong Kong) Ltd. Unit 706, North Tower, World Finance Centre, Harbour City, Canton Road Tsim Sha Tsui, Kowloon Hong Kong Tel: 27359218 Fax: 27306071 80 HM5283206 Series Revision Record Rev. Date 0.0 0.1 Contents of Modification Drawn by Y. Saiki Approved by T. Kizaki T. Kizaki Oct. 20, 1994 Initial issue Y. Saiki Nov. 11, 1994 Commands Operaion Change of column block and DQ input at the block write cycle and column mask location Operation of HM5283206 Series C hange of column block a the order of b st operat ion nd ur Addition of description for read command to write or block write command interval (3) Change of figure for bank active command interval AC Characteristics tOH min: 2/2/2 ns to 3/3/3 ns tHZ (CL = 1) max: 10/12/14 ns to 13/15/17 ns tCKS min: 3/2/2 ns to 3/3/3 ns tCKH min: 1/2/2 ns to 1/1/1 ns tRC min: 90/100/125 ns to 90/108/135 ns tRAS min: 60/70/80 ns to 60/72/90 ns Timing Waveforms Change of Read Cycle/Write Cycle, Color Register Set Cycle and Block Write Cycle Nov. 20, 1995 Deletion of HM5283206TT Series Change of Simplified State Diagram Commands Operation Change of description for Commands Operation Change of figure for Column address and write command BL = 2 Change of description for Graphic Commands Change of Command Truth Table Change of CKE Truth Table Change of Function Truth Table Change of notes 5 Addition of notes 6 Operation of HM5283206 Series Addition of note for read with auto precharge, write with auto precharge and power down mode Change of figure for write per bit, block write, read command to read command interval, write command to write command interval and write command to precharge command AC Characteristics Change of figure for Test load (B) DC Characteristics ICC1 max: TBD to 180/150/120 mA ICC2 max: TBD to 5/5/5 mA ICC2 max: TBD to 3/3/3 mA ICC2 max: TBD to 75/60/50 mA ICC3 max: TBD to 10/10/10 mA ICC3 max: TBD to 80/65/55 mA ICC4 (CL = 1) max: TBD to 170/140/110 mA ICC4 (CL = 2) max: TBD to 240/200/160 mA ICC4 (CL = 3) max: TBD to 280/240/190 mA Y. Saiki 0.2 T. Kizaki 81 HM5283206 Series ICC5 max: TBD to 150/120/100 mA ICC6 max: 2/2/2 mA to 4/4/4 mA Addition of ICC7 max: 160/130/110 mA 82 HM5283206 Series Revision Record Rev. Date 0.2 Contents of Modification Drawn by Y. Saiki Approved by T. Kizaki Nov. 20, 1995 AC Characteristics tHZ min: 2/2/2 ns to --/--/-- ns tDS, t AS , t CKS, tCMS min: 3/3/3 ns to 3/3.5/4 ns tDH, tAH, t CKH , t CMH min: 1/1/1 ns to 1/1.5/2 ns Addition of tRASC max: 80000/80000/80000 ns Change of notes 4 Change of Timing Waveforms Read cycle, auto refresh cycle, self refresh cycle, clock suspend mode and power down mode Feb. 15, 1996 AC Characteristics tRAS max: 10000/ 10000/10000 ns 1 20000/120000/120000 ns tRASC max: 80000/ 80000/80000 ns 1 20000/120000/120000 ns Change of notes 4 May. 30, 1996 Commands Operation Change of CKE Truth Table 0.3 Y. Saiki T. Kizaki 1.0 83 |
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