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| asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 1 - general description the AK4565 is a low power voltage, 20bit codec. the recording feature includes four stereo inputs selector which switches among microphone and line inputs etc. and the input pga has an alc function, making it suitable for microphone application. the AK4565 has a dedicated power supply pin for digital i/f, which can support i/o level down to 1.5v. the AK4565 can be powered - down partly and is suitable for portable application. features 1. resolution: 20bits 2. recordi ng functions four stereo inputs selector input pga (programmable gain amplifier) with alc (automatic level control) f adein / fadeout digital hpf for dc - offset cancellation (fc=3.7hz@fs=48khz) 3. playback function digital de - emphasis filter (tc = 50/ 15 m s, fs=32k, 44.1k and 48khz) 4. power management 5. codec single - ended inputs/outputs input / output level: 1.5vpp@vref=2.5v (= 0.6 x vref) s/(n+d): 83db(adc), 86db(dac) @vref=2.5v dr, s/n: 87db(adc), 91db(dac) @vref=2.5v 6. master clock: 256fs/384fs 7. sam pling rate: 8khz ~ 50khz 8. audio data interface format: msb - first, 2 ? s compliment adc: 20bit msb justified, i 2 s dac: 20bit msb justified, 16/20bit lsb justified, i 2 s 9. m p interface: 4 - wire 10. power supply codec, ipga: 2.3 ~ 3.6v (typ.2.5v) digital i/f: 1. 5 ~ 3.6v(typ.2.5v) 11. power supply current all power on: 12.5ma ipga + adc: 8ma dac: 5.5ma 12. ta = - 40 ~ 85 o c 13. package: 28pin vsop 14. ak4563a pin - compatible low power 20bit codec with built - in alc AK4565
asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 2 - intl0 vcom lout va agnd csn cclk cdti mclk sdto0 bclk lrck dgnd vt vd adc dac hpf de - emp audio i/f controller control register i/f clock divider pdn sdti cdto intl1 extl intr0 intr1 extr rout ipga lin rin vre f sdto1 figure 1 . AK4565 block diagram asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 3 - n orderin g guide AK4565vf - 40 ~ +85 c 28pin vsop (0.65mm pitch) akd4565 evaluation board for AK4565 n pin layout extl lout rout intl1 intr1 intl0 intr0 extr lin rin vcom agnd va vref vd dgnd vt sdto0 lrck mclk bclk cdto cdti csn cclk pdn sdto1 sdti 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 AK4565 top view asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 4 - pin / function no. pin name i/o function 1 lout o lch analog output pin 2 rout o rch analo g output pin 3 intl1 i lch int #1 input pin 4 intr1 i rch int #1 input pin 5 intl0 i lch int #0 input pin 6 intr0 i rch int #0 input pin 7 extl i lch ext input pin 8 extr i rch ext input pin 9 lin i lch line input pin 10 rin i rch line input pin 1 1 vcom o common voltage output pin, 0.45 x va bias voltage of adc inputs and dac outputs 12 agnd - analog ground pin 13 va - analog power supply pin, +2.3 ~ 3.6v 14 vref i adc & dac voltage reference input pin, va used as a voltage reference of ad c & dac. vref is connected externally to fltered va. 15 vd - digital power supply pin, +2.3 ~ 3.6v 16 dgnd - digital ground pin 17 vt - digital i/f power supply pin, +1.5 ~ 3.6v 18 sdto0 o audio serial data #0 output pin 19 sdto1 o audio serial data # 1 output pin 20 sdti i audio serial data input pin 21 lrck i input/output channel clock pin 22 mclk i master clock input pin 23 bclk i audio serial data clock pin 24 cdto o control data output pin 25 cdti i control data input pin 26 csn i chip selec t pin 27 cclk i control data clock pin 28 pdn i power down & reset pin, ? l ? : power down & reset, ? h ? : normal operation note: all digital input pins should not be left floating. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 5 - absoluate maximum rating (agnd , dgnd= 0v ; note 1 ) parameter symbol min max units power supply analog (va pin) digital 1 (vd pin) digital 2 (vt pin) | dgnd ? agnd | ( note 2 ) va vd vt d gnd - 0.3 - 0.3 - 0.3 - 4.6 4.6 4.6 0.3 v v v v input current, any pin except suppli es iin - 10 ma analog input voltage ( note 3 ) vina - 0.3 va+0.3 v digital input voltage ( note 4 ) vind - 0.3 vt+0.3 v ambient temperature ta - 40 85 c storage temperature tstg - 65 150 c note 1 . all voltages with respect to ground. note 2 . agnd and dgnd must be connected to the same analog plane. note 3 . intl0, intr0, intl1, intr1, extl, extr, lin, rin and vref pins note 4 . pdn, mclk, bclk, lrck, sdti, csn, cclk and cdti pins warning: operation at or beyond these limits may result in permanent damage to the device. normal operation is not guaranteed at these extremes. recommended operating conditions (agnd , dg nd= 0v ; note 1 ) parameter symbol min typ max units power supply analog (va pin) digital 1 (vd pin) ( note 5 ) digital 2 (vt pin) va vd vt 2.3 2.3 or va - 0.3 1.5 2.5 2.5 2.5 3.6 va vd v v v reference v oltage analog reference voltage (vref pin) ( note 6 ) vref - - va v note 1 . all voltages with respect to ground . note 5 . minimum value is the higher between 2.3v and ? va - 0.3 ? v . note 6 . vref and va should be the same voltage. warning: akm assumes no responsibility for the usage beyond the conditions in this datasheet. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 6 - analog characteristics ( ta=25 c ; va, vd, vt = 2.5 v ; fs=4 8k hz ; signal frequency =1khz ; measurement frequency = 10hz ~ 20khz; unless otherwise specified) parameter min typ max units input pga characteristics (ipga): input voltage (intl1 - 0, intr1 - 0, extl, extr, lin and rin pins) ( note 7 ) 1.35 1.5 1.65 vpp input resistance: mic (intl1 - 0 , intr1 - 0 , extl and extr pins) line (lin, rin pins) 6.5 80 10 125 14.5 176 k w mic line step size +28db ~ - 8db - 8db ~ - 16db - 16db ~ - 32db - 32db ~ - 40db - 40 db ~ - 52db +6db ~ - 30db - 30db ~ - 38db - 38db ~ - 54db - 54db ~ - 62db - 62db ~ - 74db 0.1 0.1 0.1 - - 0.5 1 2 2 4 0.9 1.9 3.9 - - db db db db db adc analog input characteristics : ( note 8 ) resolution 20 bits s/(n+d) ( - 2dbfs) 74 83 db d - range ( - 60dbfs, a - we ighted) 81 87 db s/n (a - weighted) 81 87 db interchannel isolation ( note 9 ) 85 100 db interchannel gain mismatch 0.2 0.5 db dac analog output characteristics: measured by lout/rout resolution 20 bits s/(n+d) (0dbfs) 77 86 db d - range ( - 60dbfs, a - weighted) 85 91 db s/n (a - weighted) 85 91 db interchannel isolation 85 100 db interchannel gain mismatch 0.2 0.5 db output voltage ( note 10 ) 1.35 1.5 1.65 vpp load resistance 10 k w load capacitance 20 pf power supplies power supply current: va+vd+vt normal operation ( pdn= ? h ? ) all power on (pm3= ? 0 ? , pm2=pm1=pm0= ? 1 ? ) ipga + adc (pm3=pm2= ? 0 ? , pm1=pm0= ? 1 ? ) dac (pm3= ? 0 ? , pm2 = ? 1 ? , pm1=pm0= ? 0 ? ) power - down mode ( pdn= ? l ? ) ( note 11 ) - - 12.5 8.0 5.5 10 19 - - 100 ma ma ma m a note 7 . full - scale voltage of analog inputs when ipga is set 0db. its voltage is proportional to vref. vin = 0.6 x vref. note 8 . adc measurements are input from intl0/intr0, intl1/intr1, extl/extr or lin/rin and routed through ipga. the gain of ipga is set 0db. the internal hpf cancels the offset of ipga and adc. note 9 . this value is interchannel isolation between intl0 and intr0, between intl1 and intr1, between extl extr, or between lin and rin. note 10 . analog output voltage is pr oportional to vref. vout = 0.6 x vref. note 11 . all digital input pins except for pdn pin are held at vt or dgnd. pdn pin is held at dgnd. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 7 - filter charcteristics ( ta= 25 c ; va, vd= 2.3 ~ 3.6 v ; vt=1.5 ~ 3.6 v ; fs=4 8k hz ; de - emphasis = off) parameter symbol min typ max units adc digital filter (decimation lpf) : passband ( note 12 ) 0.1db - 1.0db - 3.0db pb 0 - - 21.8 23.0 18.9 - - khz khz khz stopband ( note 12 ) sb 29.4 khz passband ripple pr 0.1 db stopband attenuation sa 65 db group delay ( note 13 ) gd - 17.0 - 1/fs group delay distortion d gd 0 m s adc digital filter (hpf) : frequency response ( note 12 ) - 3.0db - 0.56db - 0.15db fr - - - 3.7 10 20 - - - hz hz hz dac digital filter : passband ( note 12 ) 0.1db - 6.0db pb 0 - 24.0 21.7 - khz khz stopband ( note 12 ) sb 26.2 khz passband ripple pr 0.06 db stopband attenuation sa 43 db group delay ( note 13 ) gd - 14.8 - 1/fs group delay distortion d gd 0 m s dac digital filter + analog filt er : frequency response: 0 ~ 20.0khz fr 0.5 db note 12 . the passband and stopband frequencies scale with fs. for example, adc: pb=0.454 x fs(@ - 1.0db), dac: pb=0.454 x fs(@ - 0.1db). note 13 . the calculated d elay time caused by digital filtering. this time is from the input of an analog signal to setting the 20bit data of both channels to the output register of the adc and includes the group delay of the hpf. for dac, this time is from setting the 20bit data o f both channels on input register to the output of analog signal. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 8 - dc characteristics ( ta= 25 c ; va, vd=2.3 ~ 3.6 v , vt=1.5 ~ 3.6v) parameter symbol min typ max units input high level voltage input low level voltage vih vil 80 % vt - - - - 20 % vt v v outp ut high level voltage: iout= - 400 m a output low level voltage: iout=400 m a voh vol vt - 0.4 - - - - 0.4 v v input leakage current iin - - 10 m a switching charasteristics ( ta= 25 c ; va, vd = 2.3 ~ 3.6 v , vt=1.5 ~ 3.6v ; c l =2 0pf ) parameter symbol min t yp max u nits control clock frequency master clock (mclk) 256fs: frequency pulse width low pulse width high 384fs: frequency pulse width low pulse width high channel selection clock (lrck) frequency duty fclk tclkl tclkh f clk tclkl tclkh fs 2.048 28 28 3.072 23 23 8 45 12.288 18.432 48 50 12.8 19.2 50 55 mhz ns ns mhz ns ns khz % audio interface timing bclk period bclk pulse width low pulse width high bclk ? ? to lrck lrck to sdto (msb) (except i 2 s mode) bclk ? ? to sdto sdti hold time sdti setup time tblk tblkl tblkh tblr tdlr tdss tsdh tsds 312.5 130 130 - tblkh+50 50 50 tblkl - 50 80 80 ns ns ns ns ns ns ns ns control interface timing cclk period cclk pulse width low pulse width high 1 pulse width high 2 cdti setup time cdti hold time csn ? h ? time csn ? ? to cclk ? - ? cclk ? - ? to csn ? - ? cdto output delay time csn ? - ? to cdto(hi - z) ( note 14 . ) tcck tcckl tcckh tckh2 tcds tcdh tcsw tcss tcsh tdcd tccz 200 80 80 80 50 50 150 50 50 70 70 ns ns ns ns ns ns ns ns ns ns ns reset/ calibration timing pdn pulse width pdn ? - ? to sdto0/sdto1 valid tpdw tpdv 150 4128 n s 1/fs note 14 . r l =1k w /10% change (pulled - up operates for vt.) asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 9 - n timing diagram lrck bclk sdto0 ,1 sdti tdlr tdss tblkl tblkh tsdh tsds lsb d15 (msb) tblr 50%vt 50%vt 50%vt 50%vt figure 2 . audio data input/output timing (audio i/f format: no.0) tcss csn cclk 50%vt 50%vt tcckl tcckh tcdh cdto hi-z 50%vt cdti op0 op1 op2 a0 tcds figure 3 . wri te/read command input timing csn 50%vt cclk 50%vt 50%vt cdti d4 d5 d6 d7 tcsw tcsh cdto hi-z figure 4 . write data input timing asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 10 - csn 50%vt 50%vt cclk cdti 50%vt a3 a4 tckh2 cdto 50%vt d0 d1 d2 hi-z tdcd figure 5 . read data output timing 1 csn 50%vt cclk 50%vt 50%vt cdti tcsw tcsh 50%vt cdto d4 d5 d6 d7 tccz figure 6 . read data input timing 2 50%vt pdn tpdw tpdv sdto0,1 50%vt figure 7 . reset timing asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 11 - operation overview n system clock input the clocks required to operate are mclk ( 256fs/384fs), lrck ( fs) and bclk ( 32fs ~ ). th e master clock (mclk) should be synchronized with lrck. the phase between these clocks does not matter. the frequency of mclk can be input as 256fs or 384fs. when the 384fs is input, the internal master clock is divided into 2/3 automatically. *fs is samp ling frequency . all external clocks (mclk, bclk and lrck ) should always be present whenever the adc or dac is in operation. if these clocks are not provided, the AK4565 may draw excess current and will not operate properly because it utilizes these clocks for internal dynamic refresh of registers. if the external clocks are not present, the AK4565 should be placed in power - down mode. n system reset the AK4565 is placed in the power - down mode by bringing pdn ? l ? . this reset should always be done after po wer - up. after the system reset operation, the all internal registers are initial value. i nitialization cycle is 4128/fs=86ms@fs=48khz. during initializing cycle, the adc digital data outputs of both channels are forced to a 2 ? s compliment ? 0 ? . output data of adc settles data equivalent for analog input signal after initializing cycle. this cycle is not for dac. writing to addr = 01h must not be done during initialization cycle after exiting power - down mode by pdn pin. if the writing to 01h is done, a nor mal initialization cycle may not be done. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 12 - the clocks may be stopped. 4128/fs pdn pin power supply adc internal state control register write to register dac internal state external clocks ain sdto0 ,1 sdti aout pd pdn pin may be ? l ? at power-up. init normal gd gd gd (1) ? 0 ? data (3) ? 0 ? data pd (2) pm normal (1) idle noise normal pm normal ? 0 ? data gd (1) gd (1) (4) (4) init-1 init-2 normal normal inhibit-1 inhibit-2 normal (5) 4128/fs init gd (1) init-2 read from register inhibit-1 normal figure 8 . power - up/power - down timing example init: initializing. at this time, stat bit is ? 0 ? . when this flag becomes ? 1 ? , init process has completed. ipga is mute state. pd: power - down state. adc is output ? 0 ? , analog output of dac goes floating. pm: power - down state by operating power management bit init - 1: initializing all registers. init - 2: initializing read only registers in control r egisters . inhibit - 1: inhibits writing and reading to all control registers. inhibit - 2: inhibits writing to all control registers. note: please refer to ? explanation of register ? about the condition of each register. (1) digital output corresponding to the analog input and analog output corresponding to the digital input are delayed by the group delay (gd). (2) if the analog signal does not be input, the digital outputs have the op - amp of input and some noise in adc. (3) adc data is ? 0 ? data at power - down. (4) a few noise occurs at the ? - ? of pdn signal. please mute the analog output externally if the noise influences the system application. (5) when the external clocks are stopped, the AK4565 should be placed in the power - down state (pdn pin = ? l ? or pm3 - 0 bit = ? 0 ? ) . asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 13 - n digital high pass filter (hpf) the AK4565 has a digital high pass filter (hpf) to cancel dc - offset in both the ipga and adc. the cut - off frequency of the hpf is 3.7hz at fs=48khz and it is attenuated to ? 0.15db at 20hz. this cut - off frequen cy scales with the sampling frequency (fs). n audio serial interface format the sdti, sdto0, sdto1, bclk and lrck pins are connected to an external controller. the audio data format has four modes, msb - first and 2 ? s compliment. the data format is set us ing the dif1 - 0 bits. sdti is latched by ? - ? of bclk. sdto0 and sdto1 are latched by ? ?. outputs data of sdto0 are the same as sdto1 ? s. sdto1 can be generated to ? l ? when dmute bit is ? 1 ? . no. dif1 bit dif0 bit sdto0/sdto1(adc) sdti (dac) bclk figure 0 0 0 20bit msb justified 16bit lsb justified 3 32fs figure 9 default 1 0 1 20bit msb justified 20bit lsb justified 3 40 fs figure 10 2 1 0 20bit msb justified 20bit msb jus tified 3 40 fs figure 11 1 1 16bit i 2 s compatible 16bit i 2 s compatible = 32fs figure 12 3 1 1 20bit i 2 s compatible 20bit i 2 s compatible 3 40 fs figure 12 table 1 . audio data format lrck(i) bclk( i :64fs) sdto0,1 (o) 0 1 2 19 17 18 20 31 0 1 2 19 17 18 20 31 0 19 1 18 0 19 18 3 2 0 19 sdti(i) 1 14 0 12 11 1 14 0 12 11 sdto0,1 - 19:msb, 0:lsb sdti - 15:m sb, 0:lsb lch data rch data don ? t care don ? t care 3 2 bclk( i :32fs) sdto0,1(o) 0 1 2 9 10 12 13 15 0 1 2 9 10 12 13 15 0 19 1 18 8 19 18 8 11 10 19 sdti(i) 1 6 0 4 3 1 15 0 5 4 11 10 2 5 4 7 6 17 15 14 13 3 11 14 9 5 7 17 1 13 15 30 17 3 3 17 14 13 7 6 3 2 15 14 11 4 5 6 7 9 1 15 13 2 2 figure 9 . audio data timing (no.0) asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 14 - lrck( i ) bclk( i :64fs) sdto0,1(o) 0 1 2 12 13 14 20 21 31 0 1 2 12 13 14 20 21 31 0 19 1 18 0 19 18 8 7 6 0 19 sdti(i) 1 18 0 19 12 11 1 18 0 19 12 11 19:msb, 0:lsb lch data rch data don ? t care don ? t care 8 7 6 figure 10 . audio data timing (n o.1) lrck( i ) bclk( i :64fs) sdto 0,1(o) 0 1 2 17 18 19 20 0 1 2 17 18 20 19 0 19 1 18 2 19 18 3 2 3 2 19 sdti(i) 18 19 1 0 1 18 0 19 1 0 19:msb, 0:lsb lch data rch data don ? t care don ? t care 3 3 2 21 21 19 1 0 figure 11 . audio data timing (no.2) lrck(i) bclk( i :64fs) sdto0, 1(o) 0 1 2 19 17 18 20 31 0 1 2 19 17 18 20 31 0 1 19 1 19 4 3 1 sdti(i) 3 1 0 3 1 0 lch data rch data don ? t care don ? t care 4 3 18 2 2 4 21 18 3 3 2 4 2 0 0 19 18 19 18 21 bclk( i :32fs) sdto0,1(o) 0 1 2 11 9 10 12 15 0 1 2 19 9 19 sdto0,1 - 19:msb, 0:lsb sdti - 15:msb, 0:lsb 12 11 18 10 13 18 3 3 8 6 7 5 4 4 14 9 11 10 8 6 7 5 4 12 8 11 9 10 12 15 0 13 14 8 1 19:msb, 0:lsb sdti(i) 15 5 15 8 7 14 6 14 4 2 3 1 0 0 5 7 6 4 2 3 1 0 8 figure 12 . audio data timing (no.3) asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 15 - n alc operation 1. alc limiter operation during the alc limit er operation, when either lch or rch exceed alc limiter detection level (lmth), ipga value is attenuated by alc limiter att step (lmat1 - 0) automatically. then the ipga value is changed commonly for l/r channels in ipga. when zelmn = ? 1 ? , timeout period i s set by ltm1 - 0 bits. the operation for attenuation is done continuously until the input signal level becomes lmth or less. after finishing the operation for attenuation, if alc bit does not change into ? 0 ? , the operation of attenuation repeats when the in put signal level exceed lmth. when zelmn = ? 0 ? , the alc1 limiter operation is attenuated by the set of ztm1 - 0 bits. ipga value is attenuated by zero crossing detection automatically. when fr bit is ? 0 ? , the alc operation corresponds to the impulse noise . then if the impulse noise is supplied at zelmn = ? 0 ? , the alc recovery operation becomes the faster period than a set of ztm1 - 0 bits. in case of zelmn = ? 1 ? , it becomes the same period as ltm1 - 0 bits. when fr bit is ? 1 ? , the alc operation is done by nor mal period. 2. alc recovery operation the alc recovery operation waits until a time of setting wtm1 - 0 bits after completing the alc limiter. if the input signal does not exceed ? alc recovery waiting counter reset level (lmth) ? , the alc recovery operation is done. the ipga value increases automatically by this operation up to the set reference level (ref6 - 0 bits). then the ipga value is set for l/r commonly. the alc recovery operation is done at a period set by wtm1 - 0 bits. when l/r channels in ipga are de tected by zero crossing operation during wtm1 - 0, the alc recovery operation waits until wtm1 - 0 period and the next recovery operation is done. during the alc recovery operation or the recovery waiting, when either input signal level of l/r channels in ipg a exceed the alc limiter detection level (lnth), the alc recovery operation changes into the alc limiter operation immediately in case of ? alc recovery waiting counter reset level (lmth) ipga output signal < alc limiter detection level (lmth) ? during the alc recovery operation, the waiting timer of alc recovery operation is reset. therefore, in case of ? alc recovery waiting counter reset level (lmth) > i pga output signal ? , the waiting timer of alc recovery operation starts. if the impulse noise is suppli ed at fr = ? 0 ? , the alc recovery operation becomes the faster period than a set of ztm1 - 0 and wtm1 - 0 bits. when fr bit is ? 1 ? , the alc operation is done by normal period. other: when a channel of one side enters the limiter operation during the waiting z ero crossing, the present alc recovery operation stops, according as the small value of ipga (a channel of waiting zero crossing), the alc limiter operation is done. when both channels are waiting for the next alc recovery operation, the alc limiter operat ion is done from the ipga value of a point in time. ztm1 - 0 bits set zero crossing timeout and wtm1 - 0 bits sets the alc recovery operation period. when the alc recovery waiting time (wtm1 - 0 bits) is shorter than zero crossing timeout period of ztm1 - 0 bit, the alc recovery is operated by the zero crossing timeout period of ztm1 - 0 bit. therefore, in this case the auto recovery operation period is not constant. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 16 - the following registers should be changed during the alc operation. ltm1 - 0, lmth, lmat1 - 0, wtm 1 - 0, ztm1 - 0, ratt, ref6 - 0, zelmn manual - mode wr (power management control & signal select registers) wr (lmat1 - 0, ratt, lmth) wr (ref6 - 0) alc operation wr (alc= ? 1 ? , zelmn) wr (ipga6 - 0) wr (ztm1 - 0, wtm1 - 0, ltm1 - 0) wr (a lc= ? 0 ? ) rd (stat) finish alc mode and return to manual mode finish alc mode? stat = ? 1 ? ? * the value of ipga should be the same or smaller than ref ? s. yes yes no no figure 13 . registers set - up sequence at alc operation asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 17 - n fadein mode in fadein mode, the ipga value increases gradually by the step set by fdatt bit when fdin bit cha nges from ? 0 ? to ? 1 ? . the fadein period is set by fdtm1 - 0 bits. the fadein operation is done by the zero crossing detection. this operation stops when the ipga value becomes the ref value or the limiter detection level (lmth). if the limiter operation is d one during fadain period, the fadein operation stops and the alc operation starts. note: when fdin and fdout bits are ? 1 ? at the same time, fadeout operation is prior to fadein operation . ipga output alc bit fdin bit (1) (2) (3) (4) (5) figure 14 . example for controlling sequence in fadein operation (1) wr (alc = fdin = ? 0 ? ): the alc operation is disabled. to start the fadein operation, fdin bit is written in ? 0 ? . (2) wr (ipga = ? mute ? ): the ipga output is muted. (3) wr (alc = fdin = ? 1 ? ): the fadein operatio n starts. the ipga changes from the mute state to the fadein oper a tion. (4) the fadein operation is done until the limiter detection level (lmth ) or the reference level (ref6 - 0). after completing the fadein operation, the AK4565 becomes the alc operation. (5) fade in time is set by fdtm1 - 0 and fdatt bits e.g. fdtm1 - 0 = 32ms, fdatt = 1step (96 x fdtm1 - 0) / fdatt = 96 x 32ms / 1 = 3.07s asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 18 - n fadeout mode in fadeout mode, the present ipga value decreases gradually down to the mute state when fdout bit ch anges from ? 0 ? to ? 1 ? . this operation is done by the zero crossing detection. if the large signal is supplied to the alc circuit during the fadeout operation, the alc limiter operation starts. however, the total time of the fadeout operation is the same ti me, even if the limiter operation is done. the period of fadeout is set by fdtm1 - 0 bits, the number of step is set by fdatt bit. when fdout bit changes into ? 0 ? during the fadeout operation, the alc operation start from the preset ipga value. when fdout an d alc bits change into ? 0 ? at the same time, the fadeout operation stops and the ipga kept the value at that time. note: when fdin and fdout bits are set to ? 1 ? at the same time, fadeout operation is prior to fadein operation. ipga output alc bit fdout bit (1) (5) (6) (7) (4) (3) (2) (8) figure 15 . example for controlling sequence in fadeout operation (1) wr (fdout = ? 1 ? ): the fadeout operation starts. then alc bit should be always ?1? . (2) fadeout time is set by fdtm1 - 0 and fdatt bits. during the fadein operation, t he zero crossing timeout period is ignored and becomes the same as the fadein period. e.g. fdtm1 - 0 = 32ms, fdatt = 1step (96 x fdtm1 - 0) / fdatt = 96 x 32ms / 1 = 3.07s (3) the fadeout operation is completed. the ipga value is the mute state. if f dout bit k e e p s ? 1 ? , the ipga value keeps the mute state. (4) analog and digital outputs mutes externally. then the ipga value is the mute state. (5) wr (alc = fdout = ? 0 ? ): exit the alc and fadeout operations (6) wr (ipga): the ipga value changes the initial value (ex iting mute state). (7) wr (alc = ? 1 ? , fdout = ? 0 ? ): the alc operation restarts. but the alc bit should be written until completing zero crossing detection operation of ipga. (8) release an external mute function for analog and digital outputs. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 19 - n operation of i pga [writing operation at alc enable] writing to ipga6 - 0 bit is ignored during alc operation and fadein/out operation. [writing operation at alc disable] when writing to the control register continually , the control register should be written by an int erval more than zero crossing timeout. if not, there is a possibility that each ipga of l/r channels has a different gain. [ipga gain after completing alc operation] the ipga gain changed by alc operation. the actual gain of ipga is changed during alc o peration but the ipga register doesn ? t change. therefore, when completing alc operation (alc bit; ? 1 ? ? 0 ? ), the ipga register is different from the actual gain of ipga. the value should be written to the ipga register in order to set the actual gain of i pga with a register value. [operation of ipga at power - down by the control register] ipga gain is reset when pm0 bit is ? 0 ? , and then ipga operation starts from the default value when pm0 bit is changed to ? 1 ? . when ipga6 - 0 bits are read, the register va lues written by the last write operation are read out regardless the actual gain. n control register r/w timing the data on the 4 wires serial interface consists of op - code (3bit), address (lsb - first, 5bit) and control data (lsb - first, 8bit). the tran smitting data is output to each bit by ? ? of cclk, the receiving data is latched by ? - ? of cclk. writing data becomes effective by ? - ? of csn. reading data becomes hi - z (floating) by ? - ? of csn. csn should be held to ? h ? at no access. in case of connectin g between cdti and cdto, the i/f can be also contolled by 3 - wires. cclk always needs 16 edges of ? - ? during csn = ? l ? . reading/writing of the address except 00h ~ 09h are inhibited. reading/writing of the control registers by except op0 = op1 = ? 1 ? are i nvalid. write read hi-z hi-z csn cclk 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 cdti cdto hi-z cdti cdto op1 op0 op0 op1 op2 a2 a2 a1 a1 a3 a3 a4 a4 a0 a0 d0 d0 d1 d1 d2 d2 d3 d3 d4 d4 d5 d5 d6 d6 d7 d7 op2 op0-op2: op code (110:read, 111:write) a0-a4: register address d0-d7: control data ? 1 ? ? 0 ? ? 1 ? ? 1 ? ? 1 ? ? 1 ? figure 16 . control data timing asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 20 - n register map addr register name d7 d6 d5 d4 d3 d2 d1 d0 00h input select 0 0 0 0 line ext int1 int0 01h power management 0 0 pm3 pm2 0 pm1 0 pm0 02h mod e control 0 0 dmute fs dif1 dif0 dem1 dem0 03h timer select fdtm1 fdtm0 ztm1 ztm0 wtm1 wtm0 ltm1 ltm0 04h alc mode control 1 0 0 lmat1 lmat0 fdatt ratt1 ratt0 lmth 05h alc mode control 2 0 ref6 ref5 ref4 ref3 ref2 ref1 ref0 06h operation mode 0 0 zelmn fr stat fdin fdout alc 07h input pga control 0 ipga6 ipga5 ipga4 ipga3 ipga2 ipga1 ipga0 08h test 0 0 0 0 0 0 0 0 09h test 0 0 0 0 0 0 0 0 n register definitions all registers inhibit writing at pdn pin = ? l ? . writing to 08h and 09h is ignored and these addresses respond ? 0 ? at reading. for addresses from 0ah to 1fh, data must not write. addr register name d7 d6 d5 d4 d3 d2 d1 d0 00h input select 0 0 0 0 line ext int1 int0 r/w r/w default 0 0 0 0 0 0 0 1 int0: select on/off of intl0 and intr 0 (0: off, 1: on) int1: select on/off of intl1 and intr1 (0: off, 1: on) ext: select on/off of extl and extr (0: off, 1: on) line: select on/off of lin and rin (0:off, 1:on) when line bit is ? 1 ? , int0, int1 and ext bits are ignored. these inputs are alwa ys off. when line bit is ? 1 ? , the gain table of ipga switches line side. when line bit is ? 0 ? , if int0, int1 and ext bit s go to ? 1 ? at the same time, the input signals are mixed by 0db gain . asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 21 - addr register name d7 d6 d5 d4 d3 d2 d1 d0 01h power manage ment 0 0 pm3 pm2 0 pm1 0 pm0 r/w r/w default 0 0 0 1 0 1 0 1 pm0: ipga and alc circuit power control. 0: power off 1: power on (default) after exiting pm0 = ? 0 ? , ipga goes default value. pm1: adc power control. 0: power off 1: power on (defaul t) after exiting pm1 = ? 0 ? , the initializing cycle (4128/fs) of adc is started. then output data of adc becomes ? 0 ? . pm2: dac power control. 0: power off 1: power on (default) pm3: used both as power control of analog loopback circuit and as selectio n of mux. (0: dac, 1: analog loopback) when pm3 goes ? 1 ? , input for output - amp is selected to analog loopback circuit from dac output. output mux and amp are powered - down when pdn = ?l? or pm2 = pm3 = ? 0 ? . the loopback output and the mux selecting dac o utput is a mixer with the switch in practice. therefore, when both pm2 and pm3 select on, the analog loopback signal and dac output are mixed by gain 1. the AK4565 can be partially powered - down by on/off ( ? 1 ? / ? 0 ? ) of pm3 - 0 bits. when pdn pin goes ? l ? , a ll the circuit in AK4565 can be powered - down regardless of pm3 - 0 bits. when the AK4565 is powered - down by pm3 - 0 bits, contents of registers are kept. however ipga gain is reset when pm0 bit is ? 0 ? . (refer to ? operation of ipga ? description) vcom circuit i s powered - down when pm bit is all ? 0 ? . mclk, bclk and lrck should not stopped except the case of pm0 = pm1 = pm2 = pm3 = ? 0 ? or pdn= ? l ? . asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 22 - ipga alc adc dac mux amp pm2 pm0 pm1 1) all power on pm0: 1 pm1: 1 pm2: 1 pm3: 0 ipga alc adc pm0 pm1 2) rec mode pm0: 1 pm1: 1 pm2: 0 pm3: 0 ipga alc adc mux amp pm3 pm0 pm1 3) rec monitor pm0: 1 pm1: 1 pm2: 0 pm3: 1 dac mux amp pm2 4) play pm0: 0 pm1: 0 pm2: 1 pm3: 0 ipga alc mux amp pm3 pm0 5) analog - thr ough mode pm0: 1 pm1: 0 pm2: 0 pm3: 1 organization of power management bit ipga alc adc dac mux amp pm3 pm2 pm0 pm1 figure 17 . power management asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 23 - addr register name d7 d6 d5 d4 d3 d2 d1 d0 02h mode control 0 0 dmute fs dif1 dif0 dem1 dem0 r/w r/w default 0 0 0 1 0 0 0 1 dem1 - 0: select de - emphasis frequency the AK4565 includes the digital de - emphasis filter (tc = 50/15 m s) by iir filter. the filter corresponds to three s ampling frequencies (32khz, 44,1khz and 48khz). the de - emphasis filter selected by dem0 and dem0 bits are enabled for input audio data. dem1 dem0 mode 0 0 44.1khz 0 1 off default 1 0 48khz 1 1 32khz table 2 . select de - emph asis frequency dif1 - 0: select audio serial interface format no. dif1 bit dif0 bit sdto0/sdto1(adc) sdti (dac) bclk figure 0 0 0 20bit msb justified 16bit lsb justified 3 32fs figure 9 default 1 0 1 20bit msb justified 20bit lsb justified 3 40 fs figure 10 2 1 0 20bit msb justified 20bit msb justified 3 40 fs figure 11 1 1 16bit i 2 s compatible 16bit i 2 s compatible = 32fs figure 12 3 1 1 20bit i 2 s compatible 20bit i 2 s compatible 3 40 fs figure 12 table 3 . select audio serial interface format fs: select sampling frequency 0:fs=32khz 1:fs=48khz (default) fs bit can set limiter period (ltm1 - 0 bit), recovery period (wtm1 - 0 bit), zero crossing timeout (ztm1 - 0 bit) and fadein/fadeout period (fdtm1 - 0 bit) the same period at fs=32khz and 48khz. dmute: control of sdto1 output data 0: sdto1 output data is enabled. 1: sdto1 ou tput data is muted. (default) asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 24 - addr register name d7 d6 d5 d4 d3 d2 d1 d0 03h timer select fdtm1 fdtm0 ztm1 ztm0 wtm1 wtm0 ltm1 ltm0 r/w r/w default 0 0 0 0 0 0 0 1 ltm1 - 0: alc limiter period at zelmn = ? 1 ? the ipga value is changed immediately. w hen the ipga value is changed continuously, the change is done by the period specified by ltm1 - 0 bit. these periods are value at fs=32khz (fs bit = ? 0 ? ) or fs=48khz (fs bit = ? 1 ? ). ltm1 ltm0 period 0 0 63 m s 0 1 125 m s default 1 0 250 m s 1 1 500 m s t able 4 . alc limiter operation period wtm1 - 0: alc recovery waiting period a period of recovery operation when any limiter operation does not occur during alc operation. recovery operation is done at period set by wtm1 - 0 bits. whe n the input signal level exceeds auto recovery waiting counter reset level set by lmth bit, the auto recovery waiting counter is reset. the waiting timer starts when the input signal level becomes below the auto recovery waiting counter reset level. these periods are value at fs=32khz (fs bit = ? 0 ? ) or fs=48khz (fs bit = ? 1 ? ). wtm1 wtm0 period 0 0 8ms default 0 1 16ms 1 0 64ms 1 1 512ms table 5 . alc recovery operation waiting period ztm1 - 0: zero crossing timeout at writing operation by m p, the alc recovery operation and the alc limiter operation at zelmn = ? 0 ? when ipga of each l/r channels do zero crossing or timeout independently, the ipga value is changed by m p write operation, the alc recovery operation or the alc limit er operation at zelmn = ? 0 ? . these periods are value at fs=32khz (fs bit = ? 0 ? ) or fs=48khz (fs bit = ? 1 ? ). ztm1 ztm0 period 0 0 8ms default 0 1 16ms 1 0 64ms 1 1 512ms table 6 . zero crossing timeout asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 25 - fdtm1 - 0: fadein/ou t period setting the fadein/out operation is done by a period set by fdtm1 - 0 bits when fdin or fdout bits are set ? 1 ? . when ipga of each l/r channel do zero crossing or timeout independently, the ipga value is changed. these period are value at fs=32khz ( fs bit = ? 0 ? ) or fs=48khz (fs bit = ? 1 ? ). fdtm1 fdtm0 period 0 0 24ms default 0 1 32ms 1 0 48ms 1 1 64ms table 7 . fadein/out period asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 26 - addr register name d7 d6 d5 d4 d3 d2 d1 d0 04h alc mode control 1 0 0 lmat1 lmat0 fd att ratt1 ratt0 lmth r/w r/w default 0 0 0 0 0 0 0 0 lmth: auto limiter detection level / auto recovery waiting counter reset level lmth alc limiter detection level alc recovery waiting counter reset level 0 adc input 3 ? 4.0db - 4.0db > adc input 3 - 6 .0db default 1 adc input 3 ? 2.0db - 2.0db > adc input 3 - 4.0db table 8 . auto limiter detection level / auto recovery waiting counter reset level ratt1 - 0: alc recovery gain step during the alc recovery operation, the number of s teps changed from current ipga value is set. for example, when the current ipga value is 30h, ratt1= ?0? and ratt0= ?1? are set, ipga changes to 32h by the auto limiter operation, the input signal level is gained by 1db ( =0.5db x 2 ) . when the ipga value ex ceeds the reference level ( ref6-0 ) , the ipga value does not increase. ratt1 ratt0 gain step 0 0 1 default 0 1 2 1 0 3 1 1 4 table 9 . alc recovery gain step fdatt: fadein/out att step during the fadein/out operation, the nu mber of steps changed from current ipga value is set. for example, when the current ipga value is 30h, fd att = ?1? are set, ipga changes to 32h (fadein) or 2eh (fadeout) by the fadein/out operation, the input signal level is gained by 1db(=0.5db x 2). when the ipga value exceeds the reference level (ref6-0) or 00h , the ipga value does not increase. fdatt att step 0 1 default 1 2 table 10 . fadein/out att step lmat1 - 0: alc limiter att step during the alc limiter operation, when i nput signal exceeds the alc limiter detection level set by lmth, the number of steps attenuated from current ipga value is set. for example, when the current ipga value is 6 0 h in the state of lmat 1 -0 = ? 11 ?, it becomes ipga= 5c h by the alc limiter operation , the input signal level is attenuated by 2 db ( =0.5db x 4) . the alc limiter period is set by ltm1 - 0 bits at zelmn = ? 1 ? and ztm1 - 0 bits at zelmn = ? 0 ? . when the attenuation value exceeds ipga = ? 00h ? (mute), it clips to ? 00 ? . lmat1 lmat0 att step 0 0 1 default 0 1 2 1 0 3 1 1 4 table 11 . alc limiter att step asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 27 - addr register name d7 d6 d5 d4 d3 d2 d1 d0 05h alc mode control 2 0 ref6 ref5 ref4 ref3 ref2 ref1 ref0 r/w r/w default 0 28h ref6 - 0: set the reference value at alc recovery operation during the alc recovery operation, when ipga value becomes the reference value set by ref6 - 0, the gain of the alc recovery operation exceeds the reference value. the reference value is set commonly as for lch and rch of ipga. dur ing the alc recovery operation, if ipga value exceeds the setting reference value by gain operation, ipga does not become the larger than the reference value. for example, when ref6 - 0 = 30h, ratt = 2 step and ipga = 2fh, ipga will become 2fh + 2 step = 31 h by the alc recovery operation , but ipga value becomes 30h as ref value is 30h. ipga should be certainly set to the same value or smaller than ref value before entering alc mode (including the fadein/out operation). gain(db) data mic line step level 60h +28.0 +6.0 5fh +27.5 +5.5 5eh +27.0 +5.0 28h +0.0 - 22.0 27h - 0.5 - 22.5 19h - 7.5 - 29.5 18h - 8.0 - 30.0 0.5db 73 17h - 9.0 - 31.0 16h - 10.0 - 32.0 11h - 15.0 - 37.0 10h - 16.0 - 38.0 1db 8 0fh - 18.0 - 40.0 0eh - 20.0 - 42.0 05h - 38.0 - 60.0 04h - 40.0 - 62.0 2db 12 03h - 44.0 - 66.0 02h - 48.0 - 70.0 01h - 52.0 - 74.0 4db 3 00h mute mute 1 table 12 . setting reference value at alc recovery operation asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 28 - addr register na me d7 d6 d5 d4 d3 d2 d1 d0 06h operation mode 0 0 zelmn fr stat fdin fdout alc r/w r/w rd r/w default 0 0 0 0 0 0 0 0 alc: alc enable flag 0: alc disable (default) 1: alc enable fdout: fadeout enable flag 0: fadeout disable (default) 1: fadeout enabl e fdin: fadein enable flag 0: fadein disable (default) 1: fadein enable stat: status flag 0: alc (including fadein and fadeout) operation or initializing operation (default) 1: manual mode stat bit is ? 0 ? during initializing operation after exiting powe r - down by pdn pin. after the finish of the initializing operation, stat bit becomes ? 1 ? . during the alc operation, stat bit becomes ? 1 ? after the max ? 1 ? att/gain operation is completed by internal state. fr: select alc operation mode 0: the alc operat ion corresponds to impulse noise. (default) 1: normal operation zelmn : enable zero crossing detection at alc limiter operation 0: enable ( default ) 1: disable in case of zelmn = ? 0 ? , ipga of each l/r channel do zero crossing or timeout independently, the ipga value is changed by the alc operation. zero crossing timeout is the same as the alc recovery operation. in case of zelmn = ? 1 ? , the ipga value is changed immediately. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 29 - addr register name d7 d6 d5 d4 d3 d2 d1 d0 07h input pga control 0 ipga6 ipga5 ipga4 ipga3 ipga2 ipga1 ipga0 r/w r/w default 0 28h ipg a6 - 0: input analog pga; 97 levels; commonly lch and rch of ipga. the ipga value should be the same or smaller than ref value before the alc operation including the fadein/fadeout operation. when ipga gain is changed, ipga6 - 0 bits should be written while pm0 bit is ? 1 ? and alc bit is ? 0 ? . (refer to ? operation of ipga ? description ) gain(db) data mic line step level 60h +28.0 +6.0 5fh +27.5 +5.5 5eh +27.0 +5.0 28h +0.0 - 22.0 27h - 0.5 - 22.5 19h - 7.5 - 29.5 18h - 8.0 - 30.0 0.5db 73 17h - 9.0 - 31.0 16h - 10.0 - 32.0 11h - 15.0 - 37 .0 10h - 16.0 - 38.0 1db 8 0fh - 18.0 - 40.0 0eh - 20.0 - 42.0 05h - 38.0 - 60.0 04h - 40.0 - 62.0 2db 12 03h - 44.0 - 66.0 02h - 48.0 - 70.0 01h - 52.0 - 74.0 4db 3 00h mute mute 1 table 13 . input gain setting ipga val ue is reset at pm0 = ? 0 ? . asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 30 - system design figure 18 shows the system connection diagram. an evaluation board (akd4565) is available which demonstrates the application circuit, the optimum layout, power supply arrangements an d measurement results. 2.3 ~ 3.6v analog supply 2.2 m 0.1 m 10 1.5 ~ 3.6v digital supply micro controller audio controller lout rout intl1 intr1 intl0 intr0 extr lin rin vcom agnd va vref vd dgnd vt sdto0 lrck mclk bclk cdto cdti csn cclk pdn sdto1 sdti 1 2 3 5 6 7 8 9 11 12 13 14 15 16 17 18 19 20 21 24 25 26 27 28 AK4565 extl + 10 22 23 4 + 10 m 0.1 m 10 m 0.1 m + + 10 m 0.1 m figure 18 . system connection diagram note: - agnd and dgnd of AK4565 should be distributed separately from the ground of external controller etc. - when lout/rout drives some capacitive load, some resistor should be added in series between lout/rout and capacitive load. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 31 - 1. grounding and power supply decoupling the AK4565 requires careful attention to power supply and grounding arrangements. va is usually supplied from analog supply in system and vd is supplied from analog supply in system via a resistor of 10 ohms. alternatively if va and vd are supplied separately, the power up sequence is not taken care. vt is a power supply pin to interface with the external ics and is sup plied from digital supply in the system. agnd and dgnd of the AK4565 should be connected to the analog ground plane. system analog ground and digital ground should be connected together near to where the supplies are brought onto the printed circuit board. decoupling capacitors should be as near to the AK4565 as possible, with the small value ceramic capacitor being the nearest. 2. voltage reference the differential voltage between vref and agnd sets the analog input/output range. vref pin is normally con nected to va with a 0.1 m f ceramic capacitor. vcom is output to 0.45 x va(typ.) and is a signal ground of this chip. an electrolytic capacitor 2.2 m f parallel with a 0.1 m f ceramic capacitor attached to vcom pin eliminates the effects of high frequency noise. no load current may be drawn from vcom pin. all signals, especially clocks, should be kept away from the vref and vcom pins in order to avoid unwanted coupling into the AK4565. 3. analog inputs the analog inputs are single - ended and the input resistanc e is 10k w (typ) at mic gain table and 125k w (typ) at line gain table. the input signal range scales with the vref voltage and nominally 0.6 x vref vpp centered in the internal common voltage. usually the input signal cuts dc with a capacitor. the cut - off f requency is fc = (1/2 p rc). the AK4565 can accept input voltages to (va - 0.1) vpp. the adc output data format is 2 ? s complement. the dc offset including adc ? s own dc offset is removed by the internal hpf (fc=3.7hz@fs=48khz). the AK4565 samples the analog in puts at 64fs. the digital filter rejects noise above the stopband except for multiples of 64fs. the AK4565 includes an anti - aliasing filter (rc filter) to attenuate a noise around 64fs. 4. analog outputs the analog outputs are single - ended and nominally 0.6 x vref vpp centered in the internal common voltage. the input data format is 2 ? s complement. if the noise generated by the delta - sigma modulator beyond the audio band would be the problem, the attenuation by external circuit is required. dc offsets on analog outputs are eliminated by ac coupling since analog outputs have dc offsets of a few mv + vcom volrage. asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 32 - package 0.5 0.2 *1: dimension does not include mold flash. 9.8 0.2(* 1) 1 14 15 28 28 pin vsop (unit: mm) 5.6 0.08 0.65 0.12 +0.10 0.22 -0.05 m 0.10 0.05 1.15 0.10 0 ~ 10 7.6 0.2 +0.10 0.15 - 0.05 n material & lead finish package molding compound: epoxy lead frame material: cu l ead frame surface treatment: solder (pb free) plate asahi kasei [ ak 4565 ] ms0132 - e - 01 2003/05 - 33 - marking akm AK4565 v f xxxbyyyyc xxxbyyyyc date code identifier xxxb : lot number (x : digit number, b : alpha character) yyyyc : assembly date (y : digit number, c alpha character) i m p ortant notice these products and their specifications are subject to change without notice. before considering any use or application, consult the asahi kasei microsystems co., ltd. (akm) sales office or authorized distributor concerning their current s tatus. akm assumes no liability for infringement of any patent, intellectual property, or other right in the application or use of any information contained herein. any export of these products, or devices or systems containing them, may require an expo rt license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. akm products are neither intended nor authorized for use as critical components in a ny safety, life support, or other hazard related device or system, and akm assumes no responsibility relating to any such use, except with the express written consent of the representative director of akm. as used here: a. a hazard related device or system i s one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in signifi cant injury or damage to person or property. b. a critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containin g it, and which must therefore meet very high standards of performance and reliability. it is the responsibility of the buyer or distributor of an akm product who distributes, disposes of, or otherwise places the product with a third party to notify that party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold akm harmless from any and all claims arising from the use of said product in the absence of such noti fication. |
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