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WM8721 internet audio dac with integrated headphone driver product preview, november 2000, rev 1.3 wolfson microelectronics ltd lutton court, bernard terrace, edinburgh, eh8 9nx, uk tel: +44 (0) 131 667 9386 fax: +44 (0) 131 667 5176 email: sales@wolfson.co.uk http://www.wolfson.co.uk product preview data sheets contain specifications for products in the formative phase of development. these products may be changed or discontinued without notice. ? 2000 wolfson microelectronics ltd . description the WM8721 is a low power stereo dac with an integrated headphone driver. the WM8721 is designed specifically for portable mp3 audio and speech players. the WM8721 is also ideal for md, cd machines and dat players. stereo 24-bit multi-bit sigma delta dacs are used with oversampling digital interpolation filters. digital audio input word lengths from 16-32 bits and sampling rates from 8khz to 96khz are supported. stereo audio outputs are buffered for driving headphones from a programmable volume control, line level outputs are also provided along with anti-thump mute and power up/down circuitry. the device is controlled via a 2 or 3 wire serial interface. the interface provides access to all features including volume controls, mutes, de-emphasis and extensive power management facilities. the device is available in a small 20- pin ssop package. a usb mode is provided where all audio rates can be derived from a simple 12mhz mclk, saving on need for pll or multiple crystals. features ? audio performance ? 100db snr (?a? weighted @ 48khz) dac ? 1.42 ? 3.6v digital supply operation ? 2.7 ? 3.6v analogue supply operation ? dac sampling frequency: 8khz ? 96khz ? 2 or 3-wire mpu serial control interface ? programmable audio data interface modes ? i 2 s, left, right justified or dsp ? 16/20/24/32 bit word lengths ? stereo audio outputs ? output volume and mute controls ? highly efficient headphone driver ? playback mode power consumption < 18mw ? 20-pin ssop package applications ? portable mp3 players ? cd and minidisc players block diagram digital filters control interface dac dac vol/ mute vol/ mute h/p driver h/p driver csb sdin sclk rhpout lhpout rout lout dbvdd (3.3v) dgnd +6 to -73db 1 db steps hpvdd hpgnd +6 to -73db 1 db steps dcvdd (1.5v) mode digtal audio interface daclrc (4) bclk (2) dacdat (3) mclk avdd agnd vmid WM8721 (15) (16) (17) (14) (11) (13) (12) (18) (19) (1) (20) (5) (8) (7) (10) (9) (6) clkin divider (div x1, x2)
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 2 pin configuration ordering information device temp. range package xWM8721eds -10 to +70 o c 20-pin ssop WM8721 1 avdd 2 agnd 3 4 vmid 5 6 7 8 dcvdd 9 mode 10 csb sdin sclk mclk dgnd dacdat daclrc bclk dbvdd lhpout hpgnd hpvdd hpout lout rout 11 12 13 14 15 16 17 20 19 18 pin description pin name type description 1 dbvdd supply digital buffers vdd 2 bclk digital input/output digital audio port clock 3 dacdat digital input dac digital audio data input 4 daclrc digital input/output dac sample rate clock 5 hpvdd supply headphone vdd 6 lhpout analogue output left channel headphone output 7 rhpout analogue output right channel headphone output 8 hpgnd ground headphone gnd 9 lout analogue output left channel line output 10 rout analogue output right channel line output 11 avdd supply analogue vdd 12 agnd ground analogue gnd 13 vmid analogue output mid-rail reference decoupling point 14 mode digital input control interface selection, pull up (on power up only) 15 csb digital input 3-wire mpu chip select/ 2-wire mpu interface address selection, active low, pull up (on power up only) 16 sdin digital input 3-wire mpu data input / 2-wire mpu data input 17 sclk digital input 3-wire mpu clock input / 2-wire mpu clock input 18 mclk digital input master clock input (mclk) 19 dcvdd supply digital core vdd 20 dgnd ground digital gnd
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 3 absolute maximum ratings absolute maximum ratings are stress ratings only. permanent damage to the device may be caused by continuously operating at or beyond these limits. device functional operating limits and guaranteed performance specifications are given under electrical characteristics at the test conditions specified. esd sensitive device. this device is manufactured on a cmos process. it is therefore generically susceptible to damage from excessive static voltages. proper esd precautions must be taken during handling and storage of this device. condition min max digital supply voltage -0.3v +3.63v analogue supply voltage -0.3v +3.63 voltage range digital inputs dgnd -0.3v dvdd +0.3v voltage range analogue inputs agnd -0.3v avdd +0.3v master clock frequency 18.432mhz operating temperature range, t a -10 c+70 c storage temperature -65 c +150 c package body temperature (soldering 10 seconds) +240 c package body temperature (soldering 2 minutes) +183 c notes: 1. analogue and digital grounds must always be within 0.3v of each other. 2. the digital supply core voltage (dcvdd) must always be less than or equal to the analogue supply voltage (avdd) or digital supply buffer voltage (dbvdd). 3. the digital supply buffer voltage (dbvdd) must always be less than or equal to the analogue supply voltage (avdd).
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 4 recommended operating conditions parameter symbol test conditions min typ max unit digital supply range (core) dcvdd 1.42 3.6 v digital supply range (buffer) dbvdd 2.7 3.6 v analogue supply range avdd, hpvdd 2.7 3.6 v ground dgnd, agnd, hpgnd 0 v total analogue supply current iavdd, ihpvdd dcvdd, dbvdd, avdd, hpvdd = 3.3v 8ma digital supply current idcvdd, idbvdd dcvdd, dbvdd, avdd, hpvdd = 3.3v 3ma standby current consumption 10 ua electrical characteristics test conditions avdd, hpvdd, dbvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode, fs = 48khz, mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit digital logic levels (cmos levels) input low level v il 0.3 x vdd v input high level v ih 0.7 x vdd v output low v ol 0.1 x vdd v output high v oh 0.9 x vdd v analogue reference levels reference voltage v vmid avdd/2 ? 50mv avdd/2 avdd/2 + 50mv v potential divider resistance r vmid 40k 50k 60k ohms line output for dac playback only (load = 10k ohms. 50pf) 0dbfs full scale output voltage at line outputs 1.0 x avdd/3.3 vrms snr (note 1,2) a-weighted, @ fs = 48khz 90 100 db snr (note 1,2) a-weighted @ fs = 96khz 98 db snr (note 1,2) a-weighted, @ fs = 48khz, avdd = 2.7v 93 db dynamic range (note 2) dnr a-weighted, -60db full scale input 85 90 db 1khz, 0dbfs -88 -80 db thd 1khz, -3dbfs -92 -86 db power supply rejection ratio pssr 1khz 100mvpp 50 db 20hz to 20khz 100mvpp 45 db dac channel separation 100 db stereo headphone output 0db full scale output voltage 1.0 x avdd/3.3 vrms max output power rl = 32 ohms p o 30 mw max output power rl = 16 ohms p o 40 mw
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 5 test conditions avdd, hpvdd, dbvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode, fs = 48khz, mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit snr (note 1,2) a-weighted 90 97 db 1khz, r l = 32 ohms @ p o = 10mw rms 0.1 60 0.1 60 % db thd 1khz, r l = 32 ohms @ p o = 20mw rms 1.0 40 1.0 40 % db power supply rejection ratio pssr 1khz 100mvpp 50 db 20hz to 20khz 100mvpp 45 db programmable gain maximum programmable gain minimum 1khz 6 -73 db programmable gain step size 1khz 1 db mute attenuation 1khz, 0db 80 db notes: 1. ratio of output level with 1khz full scale input, to the output level with all zeros into the digital input, measured ? a ? weighted over a 20hz to 20khz bandwidth. 2. all performance measurements done with 20khz low pass filter, and where noted an a-weight filter. failure to use such a filter will result in higher thd+n and lower snr and dynamic range readings than are found in the electrical characteristics. the low pass filter removes out of band noise; although it is not audible it may affect dynamic specification values. 3. vmid decoupled with 10uf and 0.1uf capacitors (smaller values may result in reduced performance). terminology 1. signal-to-noise ratio (db) - snr is a measure of the difference in level between the full scale output and the output with no signal applied. (no auto-zero or automute function is employed in achieving these results). 2. dynamic range (db) - dnr is a measure of the difference between the highest and lowest portions of a signal. normally a thd+n measurement at 60db below full scale. the measured signal is then corrected by adding the 60db to it. (e.g. thd+n @ -60db= -32db, dr= 92db). 3. thd+n (db) - thd+n is a ratio, of the rms values, of (noise + distortion)/signal. 4. stop band attenuation (db) - is the degree to which the frequency spectrum is attenuated (outside audio band). 5. channel separation (db) - also known as cross-talk. this is a measure of the amount one channel is isolated from the other. normally measured by sending a full scale signal down one channel and measuring the other. 6. pass-band ripple - any variation of the frequency response in the pass-band region.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 6 power consumption current consumption mode description poweroff outpd dacpd min typ max units playback 000 6 ma standby 011 0.05 ma power down 1x1 0.01 ma table 1 powerdown mode current consumption examples notes: 1. avdd, hpvdd, dbvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c. slave mode, fs = 48khz, mclk = 256fs (12.288mhz). 2. all figures are quiescent, with no signal. 3. the power dissipation in the headphone itself not included in the above table. master clock timing mclk t xtil t xtih t xtiy figure 1 system clock timing requirements test conditions avdd, hpvdd, dbvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode fs = 48khz, mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit system clock timing information mclk system clock pulse width high t xtih 18 ns mclk system clock pulse width low t xtil 18 ns mclk system clock cycle time t xtiy 54 ns mclk duty cycle 40:60 60:40
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 7 digital audio interface ? master mode bclk (output) daclrc (output) dacdat t dlt t dht t dl figure 2 digital audio data timing - master mode test conditions avdd, hpvdd, dvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode, fs = 48khz, xti/mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit audio data input timing information daclrc propagation delay from bclk falling edge t dl 010ns dacdat setup time to bclck rising edge t dst 10 ns dacdat hold time from bclk rising edge t dht 10 ns digital audio interface ? slave mode bclk daclrc t bch t bcl t bcy dacdat t lrsu t ds t lrh figure 3 digital audio data timing ? slave mode test conditions avdd, hpvdd, dvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode, fs = 48khz, mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit audio data input timing information bclk cycle time t bcy 50 ns bclk pulse width high t bch 20 ns bclk pulse width low t bcl 20 ns daclrc set-up time to bclk rising edge t lrsu 10 ns daclrc hold time from bclk rising edge t lrh 10 ns dacdat set-up time to bclk rising edge t ds 10 ns dacdat hold time from bclk rising edge t dh 10 ns
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 8 mpu interface timing t rsl csb sclk sdin t csl resetb t dho t dsu t csh t scy t sch t scl t rsd t scs lsb t css figure 4 program register input timing - 3-wire mpu serial control mode test conditions avdd, hpvdd, dbvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode, fs = 48khz, mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit program register input information resetb rising edge to csb falling edge t rsl 500 ns sclk rising edge to csb rising edge t scs 60 ns resetb rising edge to sdin edge t rsd 20 ns sclk pulse cycle time t scy 80 ns sclk pulse width low t scl 20 ns sclk pulse width high t sch 20 ns sdin to sclk set-up time t dsu 20 ns sclk to sdin hold time t dho 20 ns csb pulse width low t csl 20 ns csb pulse width high t csh 20 ns csb rising to sclk rising t css 20 ns
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 9 sdin sclk t 3 t 1 t 6 t 2 t 7 t 5 t 4 t 3 t 8 resetb t 9 t 10 figure 5 program register input timing ? 2-wire mpu serial control mode test conditions avdd, hpvdd, dbvdd = 3.3v, agnd = 0v, dcvdd = 1.5v, dgnd = 0v, t a = +25 o c, slave mode, fs = 48khz, mclk = 256fs unless otherwise stated. parameter symbol test conditions min typ max unit program register input information sclk frequency 0 400 khz sclk low pulsewidth t 1 600 ns sclk high pulsewidth t 2 1.3 us hold time (start condition) t 3 600 ns setup time (start condition) t 4 600 ns data setup time t 5 100 ns sdin, sclk rise time t 6 300 ns sdin, sclk fall time t 7 300 ns setup time (stop condition) t 8 600 ns resetb rising edge to start t 9 600 ns data hold time t 10 900 ns
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 10 device description introduction the WM8721 is a low power audio dac designed specifically for portable audio products. it ? s features, performance and low power consumption make it ideal for portable mp3, cd and mini-disc players. the WM8721 includes line and headphone outputs from the on-board dac, configurable digital audio interface and a choice of 2 or 3 wire mpu control interface. it is fully compatible and an ideal partner for a range of industry standard microprocessors, controllers and dsps. the on-board digital to analogue converter (dac) accepts digital audio from the digital audio interface. digital filter de-emphasis at 32khz, 44.1khz and 48khz can be applied to the digital data under software control. the dac employs a high quality multi-bit high-order oversampling architecture to again deliver optimum performance with low power consumption. the dac outputs are available both at line level and through a headphone amplifier capable of efficiently driving low impedance headphones. the headphone output volume is adjustable in the analogue domain over a range of +6db to ? 73db and can be muted. the design of the WM8721 minimises power consumption without compromising performance. it includes the ability to power off selective parts of the circuitry under software control, thus conserving power. separate power save modes can be configured under software control including a standby and power off mode. special techniques allow the audio to be muted and the device safely placed into standby, sections of the device powered off, volume levels adjusted without any audible cli cks, pops or zipper noises. therefore standby and power off modes maybe used dynamically under software control, whenever playback is not required. the device caters for a number of different sampling rates including industry standard 8khz, 32khz, 44.1khz, 48khz, 88.2khz and 96khz. the WM8721 has two schemes to support the programmable sample rates: normal industry standard 256/384 fs sampling mode may be used. a special usb mode is included, where all audio sampling rates can be generated from a 12.00mhz usb clock. the digital filters used for playback are optimised for each sampling rate used. the digital audio interface can support a range of audio data formats including i2s, dsp mode (a burst mode in which frame sync plus 2 data packed words are transmitted), msb-first, left justified and msb-first, right justified. the digital audio interface can operate in both master or slave modes. the software control uses either a 2 or 3-wire mpu interface. audio signal path dac filters the dac filters perform true 24 bit signal processing to convert the incoming digital audio data from the digital audio interface at the specified sample rate to multi-bit oversampled data for processing by the analogue dac. figure 6 illustrates the dac digital filter path. from digital audio interface mute digital interpolation filter to line outputs digital de_emphasis deemp dacmu figure 6 dac filter schematic
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 11 the dac digital filter can apply digital de-emphasis under software control, as shown in table 2. the dac can also perform a soft mute where the audio data is digitally brought to a mute level. this removes any abrupt step changes in the audio that might otherwise result in audible cli cks in the audio outputs. register address bit label default description 2:1 deemp[1:0] 00 de-emphasis control (digital) 11 = 48khz 10 = 44.1khz 01 = 32khz 00 = disable 0000101 digital audio path control 3 dacmu 1 dac soft mute control (digital) 1 = enable soft mute 0 = disable soft mute table 2 dac software control dac the WM8721 employs a multi-bit sigma delta oversampling digital to analogue converter. the scheme for the converter is illustrated figure 7. from dac digital filters to line output figure 7 multi-bit oversampling sigma delta schematic the dac converts the multi-level digital audio data stream from the dac digital filters into high quality analogue audio. line outputs the WM8721 provides two low impedance line outputs llineout and rlineout, suitable for driving typical line loads of impedance 10k and capacitance 50pf. the llineout and rlineout outputs are only available at a line output level and are not level adjustable in the analogue domain, having a fixed gain of 0db. the level is fixed such that at the dac full scale level the output level is vrms at avdd = 3.3 volts. note that the dac full scale level tracks directly with avdd. the scheme is shown in figure 9. the line output includes a low order audio low pass filter for removing out-of band components from the sigma-delta dac. therefore no further external filtering is required in most applications.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 12 vmid lineout from dac to headphone amp dacsel figure 8 line output schematic the line output is muted by either muting the dac (analogue) or soft muting (digital). refer to the dac section for more details. whenever the dac is muted or the device placed into standby mode the dc voltage is maintained at the line outputs to prevent any audible cli cks from being present. the software control for the line output is shown in table 3. register address bit label default description 0000100 analogue audio path control 4 dacsel 0 dac select 1 = select dac 0 = don ? t select dac table 3 output software control the recommended external components are shown in figure 9. agnd r1 c1 agnd lineout r2 figure 9 line outputs application drawing recommended values are c1 = 470nf (10v npo type), r1 = 47kohms, r2 = 100 ohms c1 forms a dc blocking capacitor to the line outputs. r1 prevents the output voltage from drifting so protecting equipment connected to the line output. r2 forms a de-coupling resistor preventing abnormal loads from disturbing the device. note that poor choice of dielectric material for c1 can have dramatic effects on the measured signal distortion at the output. headphone amplifier the WM8721 has a stereo headphone output available on lhpout and rhpout. the output is designed specifically for driving 16 or 32 ohm headphones with maximum efficiency and low power consumption. the headphone output includes a high quality volume level adjustment and mute function.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 13 the scheme of the circuit is shown in figure 10. vmid hpout from dac via lineout figure 10 headphone amplifier schematic lhpout and rhpout volumes can be independently adjusted under software control using the lhpvol[6:0] and rhpvol[6:0] bits respectively of the headphone output control registers. the adjustment is logarithmic with an 80db range in 1db steps from +6db to ? 73db. the headphone outputs can be separately muted by writing codes less than 0110000 to lhpvol[6:0] or rhpvo[6:0]l bits. whenever the headphone outputs are muted or the device placed into standby mode, the dc voltage is maintained at the line outputs to prevent any audible clicks from being present. a zero cross detect circuit is provided at the input to the headphones under the control of the lzcen and rzcen bits of the headphone output control register. using these controls the volume control values are only updated when the input signal to the gain stage is close to the analogue ground level. this minimises and audible cli cks and zipper noise as the gain values are changed or the device muted. note that this circuit has no time out so if only dc levels are being applied to the gain stage input of more than approximately 20mv, then the gain will not be updated. this zero cross function is enabled when the lzcen and rzcen bit is set high during a volume register write. if there is concern that a dc level may have blocked a volume change (one made with lzcen or rzcen set high) then a subsequent volume write of the same value, but with the lzcen or rzcen bit set low will force a volume update, regardless of the dc level. lhpout and rhpout volume and zero-cross setting can be changed independently. alternatively, the user can lock the two channels together, allowing both to be updated simultaneously, halving the number of serial writes required, provided that the same gain is needed for both channels. this is achieved through writing to the hpboth bit of the control register. setting lrhpboth whilst writing to lhpvol and lzcen will simultaneously update the right headphone controls similarly. the corresponding effect on updating rlhpboth is also achieved.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 14 the software control is given in table 4. register address bit label default description 6:0 lhpvol[6:0] 1111001 ( 0db ) left channel headphone output volume control 1111111 = +6db . . 1db steps down to 0110000 = -73db 0000000 to 0101111 = mute 7 lzcen 1 left channel zero cross detect enable 1 = enable 0 = disable 0000010 left headphone out 8 lrhpboth 0 left to right channel headphone volume, mute and zero cross data load control 1 = enable simultaneous load of lhpvol[7:0] and lzcen to rhpvol[7:0] and rzcen 0 = disable simultaneous load 6:0 rhpvol[7:0] 1111001 ( 0db ) right channel headphone output volume control 1111111 = +6db . . 1db steps down to 0110000 = -73db 0000000 to 0101111 = mute 7 rzcen 1 right channel zero cross detect enable 1 = enable 0 = disable 0000011 right headphone out 8 rlhpboth 0 right to left channel headphone volume, mute and zero cross data load control 1 = enable simultaneous load of rhpvol[7:0] and rzcen to lhpvol[7:0] and lzcen 0 = disable simultaneous load table 4 headphone output software control the recommended external components required to complete the application are shown in figure 11. agnd r1 c1 agnd hpout figure 11 headphone output application drawing
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 15 recommended values are c1 = 220uf (10v electrolytic), r1 = 47kohms c1 forms a dc blocking capacitor to isolate the dc of the hpout from the headphones. r1 form a pull down resistor to discharge c1 to prevent the voltage at the connection to the headphones from rising to a level that may damage the headphones. device operation device resetting the WM8721 contains a power on reset circuit that resets the internal state of the device to a known condition. the power on reset is applied as dcvdd powers on and released only after the voltage level of dcvdd crosses a minimum turn off threshold. if dcvdd later falls below a minimum turn on threshold voltage then the power on reset is re-applied. the threshold voltages and associated hysteresis are shown in the electrical characteristics table. the user also has the ability to reset the device to a known state under software control as shown in the table below. register address bit label default description 0001111 reset register 7:0 reset not reset reset register writing 00000000 to register resets device table 5 software control of reset when using the software reset. in 3-wire mode the reset is applied on the rising edge of csb and released on the next rising edge of sclk. in 2-wire mode the reset is applied for the duration of the ack signal (approximately 1 sclk period, refer to figure 19). clocking schemes in a typical digital audio system there is only one central clock source producing a reference clock to which all audio data processing is synchronised. this clock is often referred to as the audio system ? s master clock. the external master system clock can be applied directly through the mclk input pin with no software configuration necessary. note that on the WM8721, mclk is used to derive clo cks for the dac path. the dac path consists of dac sampling clock, dac digital filter clock and dac digital audio interface timing. in a system where there are a number of possible sources for the reference clock it is recommended that the clock source with the lowest jitter be used to optimise the performance of the dac. core clock the WM8721 dsp core can be clocked either by mclk or mclk divided by 2. this is controlled by software as shown in table 6 below. register address bit label default description 0001000 sampling control 6 clkidiv2 0 core clock divider select 1 = core clock is mclk divide by 2 0 = core clock is mclk table 6 software control of core clock having a programmable mclk divider allows the device to be used in applications where higher frequency master clo cks are available. for example the device can s upport 512fs master clocks whilst fundamentally operating in a 256fs mode. digital audio interfaces WM8721 may be operated in either one of the 4 offered audio interface modes. these are: ? right justified ? left justified ? i2s ? dsp mode all four of these modes are msb first and operate with data 16 to 32 bits, except in right justified mode where 32 bit data is not supported.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 16 the digital audio interface receives the digital audio data for the internal dac digital filters on the dacdat input. dacdat is the formatted digital audio data stream output to the dac digital filters with left and right channels multiplexed together. daclrc is an alignment clock that controls whether left or right channel data is present on dacdat. dacdat and daclrc are synchronous with the bclk signal with each data bit transition signified by a bclk high to low transition. dacdat is always an input. bclk and daclrc are either outputs or inputs depending whether the device is in master or slave mode. refer to the master/slave operation section there are four digital audio interface formats accommodated by the WM8721. these are shown in the figures below. refer to the electrical characteristic section for timing information. left justified mode is where the msb is available on the first rising edge of bclk following a daclrc transition. left channel right channel daclrc bclk dacdat 1/fs n 3 2 1 n-2 n-1 lsb msb n 3 2 1 n-2 n-1 lsb msb figure 12 left justified mode i2s mode is where the msb is available on the 2nd rising edge of bclk following a lrclk transition. left channel right channel daclrc bclk dacdat 1/fs n 3 2 1 n-2 n-1 lsb msb n 3 2 1 n-2 n-1 lsb msb 1 bclk 1 bclk figure 13 i2s mode
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 17 right justified mode is where the lsb is available on the rising edge of bclk preceding a lrclk transition, yet msb is still transmitted first. left channel right channel daclrc bclk dacdat 1/fs n 3 2 1 n-2 n-1 lsb msb n 3 2 1 n-2 n-1 lsb msb figure 14 right justified mode dsp mode is where the left channel msb is available on either the 1 st or 2 nd rising edge of bclk (selectable by lrp) following an lrclk transition high. right channel data immediately follows left channel data. left channel right channel daclrc bclk dacdat n 3 2 1 n-2 n-1 lsb msb n 3 2 1 n-2 n-1 1 bclk input word length (iwl) note: input word length is defined by the iwl register, lrp = 1 1/fs figure 15 dsp mode in all modes daclrc must always change on the falling edge of bclk, refer to figure 12, figure 13, figure 14 and figure 15. operating the digital audio interface in dsp mode allows ease of use for supporting the various sample rates and word lengths. the only requirement is that all data is transferred within the correct number of bclk cycles to suit the chosen word length. in order for the digital audio interface to offer similar support in the three other modes (left justified, i2s and right justified), the daclrc and bclk frequencies, continuity and mark-space ratios need more careful consideration. in slave mode, daclrc inputs are not required to have a 50:50 mark-space ratio. bclk input need not be continuous. it is however required that there are sufficient bclk cycles for each daclrc transition to clock the chosen data word length. the non-50:50 requirement on the lrc is of use in some situations such as with a usb 12mhz clock. here simply dividing down a 12mhz clock within the dsp to generate lrc and bclk will not generate the appropriate daclrc since it will no longer change on the falling edge of bclk. for example, with 12mhz/32k fs mode there are 375 mclk per lrc. in these situations daclrc can be made non 50:50.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 18 in master mode, daclrc will be output with a 50:50 mark-space ratio with bclk output at 64fs. the exception again is in usb mode where bclk is always 12mhz. so for example in 12mhz/32k fs mode there are 375 master clo cks per lrc period. therefore the daclrc output will have a mark space ratio of 187:188. the dac digital audio interface modes are software configurable as indicated in table 7. note that dynamically changing the software format may result in erroneous operation of the interfaces and is therefore not recommended. the length of the digital audio data is programmable at 16/20/24 or 32 bits. refer to the software control table below. the data is signed 2 ? s complement. the dac digital filters process data using 24 bits. if the dac is programmed to receive 16 or 20 bit data, the WM8721 pa cks the lsbs with zeros. if the dac is programmed to receive 32 bit data, then it strips the lsbs. the dac outputs can be swapped under software control using lrp and lrswap as shown in table 7. stereo samples are normally generated as a left/right sampled pair. lrswap reverses the order of that a left sample goes to the right dac output and a right sample goes to the left dac output. lrp swaps the phasing so that a right/left sampled pair is expected and preserves the correct channel phase difference, except in dsp mode, where lrp controls the positioning of the msb relative to the rising edge of daclrc. dacdat is always an input. it is expected to be set low by the audio interface controller when the WM8721 is powered off or in standby. daclrc and bclk can be either outputs or inputs depending on whether the device is configured as a master or slave. if the device is a master then the daclrc and bclk signals are outputs that default low. if the device is a slave then the daclrc and bclk are inputs. it is expected that these are set low by the audio interface controller when the WM8721 is powered off or in standby.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 19 register address bit label default description 1:0 format[1:0] 10 audio data format select 11 = dsp mode, frame sync + 2 data packed words 10 = i2s format, msb-first left-1 justified 01 = msb-first, left justified 00 = msb-first, right justified 3:2 iwl[1:0] 10 input audio data bit length select 11 = 32 bits 10 = 24 bits 01 = 20 bits 00 = 16 bits 0000111 digital audio interface format 4 lrp 0 daclrc phase control (in left, right or i 2 s modes) 1 = right channel dac data when daclrc high 0 = right channel dac data when daclrc low (opposite phasing in i 2 s mode) or dsp mode a/b select ( in dsp mode only) 1 = msb is available on 2 nd bclk rising edge after daclrc rising edge 0 = msb is available on 1st bclk rising edge after daclrc rising edge 5 lrswap 0 dac left right clock swap 1 = right channel dac data left 0 = right channel dac data right 6 ms 0 master slave mode control 1 = enable master mode 0 = enable slave mode 7 bclkinv 0 bit clock invert 1 = invert bclk 0 = don ? t invert bclk table 7 digital audio interface control note: if right justified 32 bit mode is selected then the WM8721 defaults to 24 bits. master and slave mode operation the WM8721 can be configured as either a master or slave mode device. as a master mode device the WM8721 controls sequencing of the data and clo cks on the digital audio interface. as a slave device the WM8721 responds with data to the clo cks it receives over the digital audio interface. the mode is set with the ms bit of the control register as shown in table 8. register address bit label default description 0000111 digital audio interface format 6 ms 0 master slave mode control 1 = enable master mode 0 = enable slave mode table 8 programming master/slave modes
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 20 as a master mode device the WM8721 controls the sequencing of data transfer (dacdat) and output of clocks (bclk, daclrc) over the digital audio interface. it uses the timing generated from the mclk input as the reference for the clock and data transitions. this is illustrated in figure 16. dacdat is always an input to the WM8721 independent of master or slave mode. bclk dacdat daclrc WM8721 dac dsp decoder figure 16 master mode as a slave device the WM8721 sequences the data transfer (dacdat) over the digital audio interface in response to the external applied clo cks (bclk, daclrc). this is illustrated in figure 17. bclk dacdat daclrc WM8721 dac dsp decoder figure 17 slave mode note that the WM8721 relies on controlled phase relationships between audio interface bclk, daclrc and the master mclk or clkout. to avoid any timing hazards, refer to the timing section for detailed information. audio data sampling rates the WM8721 provides for two modes of operation (normal and usb) to generate the required dac sampling rates. normal and usb modes are programmed under software control according to the table below. in normal mode, the user controls the sample rate by using an appropriate mclk frequency and the sample rate control register setting. the WM8721 can support sample rates from 8ks/s up to 96ks/s. in usb mode, the user must use a fixed mlck frequency of 12mhz to generate sample rates from 8ks/s to 96ks/s. it is called usb mode since the common usb (universal serial bus) clock is at 12mhz and the WM8721 can be directly used within such systems. WM8721 can generate all the normal audio sample rates from this one master clock frequency, removing the need for different master clocks or pll circuits.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 21 register address bit label default description 0 usb/ normal 0 mode select 1 = usb mode (250/272fs) 0 = normal mode (256/384fs) 1 bosr 0 base over-sampling rate usb mode 0 = 250fs 1 = 272fs normal mode 0 = 256fs 1 = 384fs 0001000 sampling control 5:2 sr[3:0] 000 dac sample rate control; see usb mode and normal mode sample rate sections for operation table 9 sample rate control normal mode sample rates in normal mode mclk is set up according to the desired sample rates of the dac. for dac sampling rates of 8, 32, 48 or 96khz, mclk frequencies of either 12.288mhz (256fs) or 18.432mhz (384fs) can be used. dac sampling rates of 8, 44.1 or 88.2khz from mclk frequencies of either 11.2896mhz (250fs) or 16.9344mhz (384fs) can be used. the table below should be used to set up the device to work with the various sample rate combinations. refer to digital filter characteristics section for an explanation of the different filter types. sampling rate dac mclk frequency sample rate register settings digital filter type khz mhz bosr sr3 sr2 sr1 sr0 12.288 0 0 0 0 0 48 18.432 1 0 0 0 0 1 12.288 0 0 0 0 1 8 18.432 1 0 0 0 1 1 12.288 0 0 1 1 0 32 18.432 1 0 1 1 0 1 12.288 0 0 1 1 1 96 18.432 1 0 1 1 1 2 11.2896 0 1 0 0 0 44.1 16.9344 1 1 0 0 0 1 11.2896 0 1 0 0 1 8 (note 1) 16.9344 1 1 0 0 1 1 11.2896 0 1 1 1 1 88.2 16.9344 1 1 1 1 1 2 table 10 normal mode sample rate look-up table notes: 1. 8k not exact, actual = 8.018khz 2. all other combinations of bosr and sr[3:0] that are not in the truth table are invalid the bosr bit represents the base over-sampling rate. this is the rate that the WM8721 digital signal processing is carried out at. in normal mode, with bosr = 0, the base over-sampling rate is at 256fs, with bosr = 1, the base over-sampling rate is at 384fs. this can be used to determine the actual audio data rate required by the dac.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 22 the exact sample rates achieved are defined by the relationships in table 11 below. actual sampling rate bosr=0 (256fs) bosr=1 (384fs) target sampling rate mclk=12.288 mclk=11.2896 mclk=18.432 mclk=16.9344 khz khz khz khz khz 8 8.018 8 8.018 8 12.288mhz/256 x 1/6 11.2896mhz/256 x 2/11 18.432mhz/384 x 1/6 16.9344mhz/384 x 2/11 32 32 32 12.288mhz/256 x 2/3 not available 18.432mhz/384x 2/3 not available 44.1 44.1 44.1 not available 11.2896mhz/256 not available 16.9344mhz /384 48 48 48 12.288mhz/256 not available 18.432mhz/384 not available 88.2 88.2 88.2 not available 11.2896mhz/384 x 2 not available 16.9344mhz /384 x 2 96 96 96 12.288mhz/256 x 2 not available 18.432mhz/384 x 2 not available table 11 normal mode actual sample rates 128/192fs normal mode the normal mode sample rates are designed for standard 256fs and 384fs mclk rates. however the WM8721 is also capable of being clocked from a 128/192fs mclk for application over limited sampling rates as shown in the table below. sampling rate adc dac mclk frequency sample rate register settings digital filter type khz khz mhz bosr sr3 sr2 sr1 sr0 6.144 0 0 1 1 1 48 48 9.216 1 0 1 1 1 2 5.6448 0 1 1 1 1 44.1 44.1 8.4672 1 1 1 1 1 2 table 12 128/192fs normal mode sample rate look-up table 512/768fs normal mode 512 fs and 768 fs mclk rates can be accommodated by using the clkidiv2 bit. the core clock to the dsp will be divided by 2 so an external 512/768 mclk will become 256/384 fs internally and the device otherwise operates as in table 9 but with mclk at twice the specified rate.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 23 usb mode sample rates in usb mode the mclk input is 12mhz only. sampling rate dac mclk frequency sample rate register settings digital filter type khz mhz bosr sr3 sr2 sr1 sr0 48 12.000 0 0 0 0 0 0 44.1 (note 2) 12.000 1 1 0 0 0 1 8 12.000 0 0 0 0 1 0 8 (note 1) 12.000 1 1 0 0 1 1 32 12.000 0 0 1 1 0 0 96 12.000 0 0 1 1 1 3 88.2 (note 3) 12.000 1 1 1 1 1 2 table 13 usb mode sample rate look-up table notes: 1. 8k not exact, actual = 8.021khz 2. 44.1k not exact, actual = 44.118khz 3. 88.1k not exact, actual = 88.235khz 4. all other combinations of bosr and sr[3:0] that are not in the truth table are invalid the bosr bit represents the base over-sampling rate. this is the rate that the WM8721 digital signal processing is carried out at and the sampling rate will always be a sub-multiple of this. in usb mode, with bosr = 0, the base over-sampling rate is defined at 250fs, with bosr = 1, the base over- sampling rate is defined at 272fs. this can be used to determine the actual audio sampling rate required by the dac. the exact sample rates supported for all combinations are defined by the relationships in table 14 below. actual sampling rate target sampling rate bosr=0 ( 250fs) bosr=1 (272fs) khz khz khz 8 8.021 8 12mhz/(250 x 48/8) 12mhz/(272 x 11/2) 32 32 12mhz/(250 x 48/32) not available 44.117 44.1 not available 12mhz/272 48 48 12mhz/250 not available 88.235 88.2 not available 12mhz/136 96 96 12mhz/125 not available table 14 usb mode actual sample rates
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 24 activating dsp and digital audio interface to prevent any communication problems from arising across the digital audio interface is disabled (tristate) at power on. once the audio interface and the sampling control has been programmed it is activated by setting the active bit under software control. register address bit label default description 0001001 active control 0 active 0 activate interface 1 = active 0 = inactive table 15 activating dsp and digital audio interface it is recommended that between changing any content of digital audio interface or sampling control register that the active bit is reset then set. software control interface the software control interface may be operated using either a 3-wire or 2-wire mpu interface. selection of interface format is achieved by setting the state of the mode pin. in 3-wire mode, sdin is used for the program data, sclk is used to clock in the program data and csb is used to latch in the program data. in 2-wire mode, sdin is used for serial data and sclk is used for the serial clock. in 2-wire mode, the state of csb pin allows the user to select one of two addresses. unused bits in the register map should be set to ? 0 ? unless specified otherwise (see powerdown section). selection of serial control mode the serial control interface may be selected to operate in either 2 or 3-wire modes. this is achieved by setting the state of the mode pin. mode interface format 02 wire 13 wire table 16 control interface mode selection 3-wire (spi compatible) serial control mode the WM8721 can be controlled using a 3-wire serial interface. sdin is used for the program data, sclk is used to clock in the program data and csb is use to latch in the program data. the 3-wire interface protocol is shown in figure 18. csb sclk sdin b15 b6 b7 b8 b9 b10 b11 b12 b13 b14 b1 b2 b3 b4 b5 b0 figure 18 3-wire serial interface notes: 1. b[15:9] are control address bits 2. b[8:0] are control data bits
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 25 2-wire serial control mode the WM8721 supports a 2-wire mpu serial interface. the device operates as a slave device only. the WM8721 has one of two slave addresses that are selected by setting the state of pin 10, (csb). sdin mclk ack r addr ack data b15-8 stop start data b7-0 r/w ack figure 19 2-wire serial interface notes: 1. b[15:9] are control address bits 2. b[8:0] are control data bits csb state (default = low) address 0 0011010 1 0011011 table 17 2-wire mpu interface address selection to control the WM8721 on the 2-wire bus the master control device must initiate a data transfer by establishing a start condition, defined by a high to low transition on sdin while sclk remains high. this indicates that an address and data transfer will follow. all peripherals on the 2-wire bus respond to the start condition and shift in the next eight bits (7-bit address + r/w bit). the transfer is msb first. the 7-bit address consists of a 6-bit base address + a single programmable bit to select one of two available addresses for this device (see table 17). if the correct address is received and the r/w bit is ? 0 ? , indicating a write, then the WM8721 will respond by pulling sdin low on the next clock pulse (ack). the WM8721 is a write only device and will only respond to the r/w bit indicating a write. if the address is not recognised the device will return to the idle condition and wait for a new start condition and valid address. once the WM8721 has acknowledged a correct address, the controller will send eight data bits (bits b[15]-b[8]). WM8721 will then acknowledge the sent data by pulling sdin low for one clock pulse. the controller will then send the remaining eight data bits (bits b[7]-b[0]) and the WM8721 will then acknowledge again by pulling sdin low. a stop condition is defined when there is a low to high transition on sdin while sclk is high. if a start or stop condition is detected out of sequence at any point in the data transfer then the device will jump to the idle condition. after receiving a complete address and data sequence the WM8721 returns to the idle state and waits for another start condition. each write to a register requires the complete sequence of start condition, device address and r/w bit followed by the 16 register address and data bits.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 26 power down modes the WM8721 contains power conservation modes in which various circuit blo cks may be safely powered down in order to conserve power. this is software programmable as shown in table 18. register address bit label default description 3 dacpd 0 dac power down 1 = enable power down 0 = disable power down 4 outpd 0 line output power down 1 = enable power down 0 = disable power down 0000110 power down control 7 poweroff 0 power off device 1 = device power off 0 = device power on table 18 power conservation modes software control note: when writing to register 0000110 bits 0, 1, 2, 5 and 6 should be set to 1. the power down control can be used to either a) permanently disable functions when not required in certain applications or b) to dynamically power up and down functions depending on the operating mode, e.g.: during playback or record. please follow the special instructions below if dynamic implementations are being used. dacpd: powers down the dac and dac digital filters. if this is done dynamically then audible pops will result unless the following guidelines are followed. in order to prevent pops, the dac should first be soft-muted (dacmu), the output should then be de-selected from the line and headphone output (dacsel), then the dac powered down (dacpd). this is of use when the device enters pause or stop modes. outpd: powers down the line headphone output. if this is done dynamically then audible pops may result unless the dac is first soft-muted (dacmu). this is of use when the device enters record, pause or stop modes. the device can be put into a standby mode (standby) by powering down all the audio circuitry under software control by setting dacpd and outpd, but not setting poweroff. in standby mode the control interface, a small portion of the digital and areas of the analogue circuitry remain active. the active analogue includes the analogue vmid reference so that the analogue line outputs and headphone outputs remain biased to vmid. this reduces any audible effects caused by dc glitches when entering or leaving standby mode. the device can be powered off by writing to the poweroff bit of the power down register. in poweroff mode the control interface and a small portion of the digital remain active. the analogue vmid reference is disabled.
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 27 register map the complete register map is shown in table 19. the detailed description can be found in the relevant text of the device description. there are 8 registers with 9 bits per register. these can be controlled using either the 2 wire or 3 wire mpu interface. register address bit label default description 6:0 lhpvol [6:0] 1111001 ( 0db ) left channel headphone output volume control 1111111 = +6db . . 1db steps down to 0110000 = -73db 0000000 to 0101111 = mute 7 lzcen 1 left channel zero cross detect enable 1 = enable 0 = disable 0000010 left headphone out 8 lrhpboth 0 left to right channel headphone volume, mute and zero cross data load control 1 = enable simultaneous load of lhpvol[7:0] and lzcen to rhpvol[7:0] and rzcen 0 = disable simultaneous load 6:0 rhpvol [7:0] 1111001 ( 0db ) right channel headphone output volume control 1111111 = +6db . . 1db steps down to 0110000 = -73db 0000000 to 0101111 = mute 7 rzcen 1 right channel zero cross detect enable 1 = enable 0 = disable 0000011 right headphone out 8 rlhpboth 0 right to left channel headphone volume, mute and zero cross data load control 1 = enable simultaneous load of rhpvol[7:0] and rzcen to lhpvol[7:0] and lzcen 0 = disable simultaneous load 0000100 audio path control 4 dacsel 0 dac select (analogue) 1 = select dac 0 = don ? t select dac 2:1 deemp[1:0] 00 de-emphasis control (digital) 11 = 48khz 10 = 44.1khz 01 = 32khz 00 = disable 0000101 digital audio path control 3 dacmu 1 dac soft mute control (digital) 1 = enable soft mute 0 = disable soft mute
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 28 register address bit label default description 3 dacpd 1 dac power down 1 = enable power down 0 = disable power down 4 outpd 1 outputs power down 1 = enable power down 0 = disable power down 0000110 power down control 7 poweroff 1 poweroff mode 1 = enable poweroff 0 = disable poweroff 1:0 format[1:0] 10 audio data format select 11 = dsp mode, frame sync + 2 data packed words 10 = i2s format, msb-first left-1 justified 01 = msb-first, left justified 00 = msb-first, right justified 3:2 iwl[1:0] 10 input audio data bit length select 11 = 32 bits 10 = 24 bits 01 = 20 bits 00 = 16 bits 4 lrp 0 daclrc phase control (in left, right or i 2 s modes) 1 = right channel dac data when daclrc high 0 = right channel dac data when daclrc low (opposite phasing in i 2 s mode) or dsp mode a/b select ( in dsp mode only) 1 = msb is available on 2 nd bclk rising edge after daclrc rising edge 0 = msb is available on 1st bclk rising edge after daclrc rising edge 5 lrswap 0 dac left right clock swap 1 = right channel dac data left 0 = right channel dac data right 6 ms 0 master slave mode control 1 = enable master mode 0 = enable slave mode 0000111 digital audio interface format 7 bclkinv 0 bit clock invert 1 = invert bclk 0 = don ? t invert bclk
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 29 0 usb/ normal 0 mode select 1 = usb mode (250/272fs) 0 = normal mode (256/384fs) 1 bosr 0 base over-sampling rate usb mode 0 = 250fs 1 = 272fs normal mode 0 = 256fs 1 = 384fs 5:2 sr[3:0] 0000 dac sample rate control; see usb mode and normal mode sample rate sections for operation 0001000 sampling control 6 clkidiv2 0 core clock divider select 1 = core clock is mclk divide by 2 0 = core clock is mclk 0001001 active control 0 active 0 activate interface 1 = active 0 = inactive 0001111 reset register 8:0 reset not reset reset register writing 00000000 to register resets device 1110000 test failsafe 0 testfail safe 0 test mode failsafe bit 1 = test mode allowed 0 = test mode locked out 1110001 analogue test register 1 8:0 atest1[8:0] 0 analogue test register 1 1110010 analogue test register 2 8:0 atest2[8:0] 0 analogue test register 2 1110011 digital test register 1 8:0 dtest1[8:0] 0 digital test register 1 1110100 digital test register 2 8:0 dtest2[8:0] 0 digital test register 2 table 19 register map description note: all other bits not explicitly defined in the register table should be set to zero unless specified otherwise (see powerdown section). digital filter characteristics the dac employ different digital filters. there are 4 types of digital filter, called type 0, 1, 2 and 3. the performance of types 0 and 1 is listed in the table below, the responses of all filters is shown in the proceeding pages. parameter test conditions min typ max unit dac filter type 0 (usb mode, 250fs operation) +/- 0.03db 0 0.416fs passband -6db 0.5fs passband ripple +/-0.03 db stopband 0.584fs stopband attenuation f > 0.584fs -50 db dac filter type 1 (usb mode, 272fs or normal mode operation) +/- 0.03db 0 0.4535fs passband -6db 0.5fs passband ripple +/- 0.03 db stopband 0.5465fs stopband attenuation f > 0.5465fs -50 db table 20 digital filter characteristics
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 30 dac filter responses -100 -80 -60 -40 -20 0 0 0.5 1 1.5 2 2.5 3 response (db) frequency (fs) -0.04 -0.03 -0.02 -0.01 0 0.01 0.02 0.03 0.04 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.5 response (db) frequency (fs) figure 20 dac digital filter frequency response ? type 0 figure 21 dac digital filter ripple ? type 0 -100 -80 -60 -40 -20 0 0 0.5 1 1.5 2 2.5 3 response (db) frequency (fs) -0.04 -0.03 -0.02 -0.01 0 0.01 0.02 0.03 0.04 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.5 response (db) frequency (fs) figure 22 dac digital filter frequency response ? type 1 figure 23 dac digital filter ripple ? type 1 -100 -80 -60 -40 -20 0 0 0.5 1 1.5 2 2.5 3 response (db) frequency (fs) -0.06 -0.05 -0.04 -0.03 -0.02 -0.01 0 0.01 0.02 0 0.05 0.1 0.15 0.2 0.25 response (db) frequency (fs) figure 24 dac digital filter frequency response ? type 2 figure 25 dac digital filter ripple ? type 2
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 31 -100 -80 -60 -40 -20 0 0 0.5 1 1.5 2 2.5 3 response (db) frequency (fs) -0.25 -0.2 -0.15 -0.1 -0.05 0 0.05 0 0.05 0.1 0.15 0.2 0.25 response (db) frequency (fs) figure 26 dac digital filter frequency response ? type 3 figure 27 dac digital filter ripple ? type 3 digital de-emphasis characteristics -10 -8 -6 -4 -2 0 0 2000 4000 6000 8000 10000 12000 14000 16000 response (db) frequency (fs) -0.4 -0.3 -0.2 -0.1 0 0.1 0.2 0.3 0.4 0 2000 4000 6000 8000 10000 12000 14000 16000 response (db) frequency (fs) figure 28 de-emphasis frequency response (32khz) figure 29 de-emphasis error (32khz) -10 -8 -6 -4 -2 0 0 5000 10000 15000 20000 response (db) frequency (fs) -0.4 -0.3 -0.2 -0.1 0 0.1 0.2 0.3 0.4 0 5000 10000 15000 20000 response (db) frequency (fs) figure 30 de-emphasis frequency response (44.1khz) figure 31 de-emphasis error (44.1khz)
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 32 -10 -8 -6 -4 -2 0 0 5000 10000 15000 20000 response (db) frequency (fs) -0.4 -0.3 -0.2 -0.1 0 0.1 0.2 0.3 0.4 0 5000 10000 15000 20000 response (db) frequency (fs) figure 32 de-emphasis frequency response (48khz) figure 33 de-emphasis error (48khz)
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 33 recommended external components WM8721 dac rhpout vmid lout + 470nf 47k ? 100 ? 9 lhpout + 47k ? 220 f 6 avdd agnd 11 12 3.3v hpvdd hpgnd 8 5 3.3v rout + 470nf 47k ? 100 ? 10 + 47k ? 220 f 7 0.1 f 10 f + 13 daclrc dacdat dbvdd dcvdd 3.3v dgnd 1.5v - 3.3v + + 1 20 19 bclk 2 audio serial data i/f 4 3 3-wire or 2-wire mpu interface 3-wire interface 2-wire interface sdin 16 csb 15 sclk 17 mode 14 10 f0.1 f 10k ? 3.3v mclk + 10 f + 18 0.1 f 10 f 0.1 f 0.1 f 10 f figure 34 external components diagram
WM8721 product preview wolfson microelectronics ltd pp rev 1.3 november 2000 34 package dimensions notes: a. all linear dimensions are in millimeters. b. this drawing is subject to change without notice. c. body dimensions do not include mold flash or protrusion, not to exceed 0.20mm. d. meets jedec.95 mo-150, variation = ae. refer to this specification for further details. dm0015.a ds: 20 pin ssop (7.2 x 5.3 x 1.75 mm) symbols dimensions (mm) min nom max a ----- ----- 2.0 a 1 0.05 ----- ----- a 2 1.65 1.75 1.85 b 0.22 ----- 0.38 c 0.09 ----- 0.25 d 6.90 7.20 7.50 e 0.65 bsc e 7.40 7.80 8.20 e 1 5.00 5.30 5.60 l 0.55 0.75 0.95 0 o 4 o 8 o ref: jedec.95, mo-150 c l gauge plane 0.25 a a2 a1 seating plane -c- 0.10 c 10 1 d 11 20 e b e1 e

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