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| p/n: pm0306 1 features ? single +5v power supply ? sigma-delta a/d d/a with digital filters ? support u/a law and 16-bit linear format ? on-chip automatic level control ? on-chip differential line driver ? on-chip digital volume control ? programmable transmit/receive gain control ? support switch paths for dam (digital answering machine) applications ? easy interface to general purpose dsps ? easy read/write of control register by microproces- sors ? programmable power-down ? support power-low/battery-low detection ? 28-pin dip/sop package rev. 3.0, jul 15, 1996 mx93000 mx93000 product overview the mx93000 special codec integrates key functions of the analog-front-end of digital answering machine (dam) into a single integrated circuit. the mx93000 is intended to provide a complete, low cost, and single chip solution for telephone applications requiring a single +5v power supply. the mx93000 special codec is especially powerful when applied to some dam models which are intended to meet different countries' specifications in the same system hardware. user can achieve this goal by simply setting control firmware. this benifit will help dam system makers to save developing time and r/d resources. the a/d d/a converters are implemented with 2nd- order sigma-delta modulators. the on-chip digital filters, which are carried out with 16-bit and 2's complement format, are used to get the required frequency response of a pcm codec. the codec can support 8-bit u/a law and linear format. for the latter, it is 16-bit format with 14-bit resolution . before the a/d digitizing the voice-band analog signal into digital format, the analog signal can be processed by a built-in automatic level control (alc) and pro- grammable gain amplifier (pga). the alc circuit controls the input level of a/d converter to about 1.5 volt, so as to get a better signal to noise ratio during a low-level input. the pga circuit is used to control the gain of different sources : microphone, aux or line input. after the digital data is converted into analog signal by the d/a converter, a fully differential line driver is supported to drive the telephone line directly without the need of external amplifier. on the other hand, the analog signal can be monitored by passing the analog signal to the on-chip volume control circuit, which can drive an external driver like lm386. in addition, the mx93000 supports switches and control registers so that users can program the special codec to be under line operations and all other specific operations of dam. to enhance an easy read/write of control registers by microprocessors, the control data is clocked by the 8 khz sampling clock and synchro- nized by sden\, where sden\ is coming from the output port of microprocessor by detecting one of the rising edge of 8 khz clock. pin configuration 28pin sop/dip 28 27 26 25 24 23 22 21 20 19 18 17 16 15 2 3 4 5 6 7 8 9 10 11 12 13 14 sdata sden\ dx dr fs mclk vdd gnd prst bat\ vbat pdn\ vpow lin spk vr vref filt alcc alcrc pgac aux mic ag agnd avdd lout2 lout1 mx93000 1
mx93000 mx93000 2 special codec block diagram mx93000 mx93000 3 pcm codec : this block includes a/d & d/a converters and all of the digital filters. a/d & d/a converters: which are implemented with 2nd-order sigma-delta modulation. output formats are a-law/u-law/16-bit linear, where u/a laws are of ccitt specifications and the 16-bit linear data can get 14-bit resolution and higher linearity than that of u/a law. digital filters : for the purpose of a/d out-of-band noise filtering and d/a image attenuation, digital filters are implemented on the same chip. the digital input applied to d/a converter can not be a dc signal other than idle (bits all zero), as limit cycles in the digital modulator at a level of -70 dbm will present at the analog output. power management : the mx93000 supports the automatic power-down control and power supply detection. this function will work well even under 3v power supply. regarding the power_down procedure please refer to register 4 description for details. power_low/battery_low detectors : active low 2 comparators and references are used to check whether power_low/battery_low or not. the relationship between power_on_reset and power_low/battery_low is as the following table: (i) power_low (pdn\) 0 0 1 1 (i) battery_low (bat\) 0 1 0 1 (0)power_on_reset (prst) 0 1 1 1 line driver : not only support the programmable gain from 0 to 22.5 db with 16 steps and 1.5 db/step, but also fully differentially drive -5 dbm power over 300 ohms. if switches swe , swj , and swk are opened, then the line driver will be muted to -70db automatically. in addition, when swj or swk are turned on, there are loss at the line driver output due to single-ended to fully-differential transform. line_in buffer : buffer stage with selection of echo cancellation path or not. for the echo cancellation path, 3-6 db cancellation can get it. programable gain control (pga) : it supports 0 to 22.5 db gain with 16 steps and 1.5db/step. the gain value is controlled separately by 3 registers, where different input signal paths will have a different gain value, and when the input path is changed, the respective register value will keep no change. functional description mx93000 mx93000 4 automatic level control (alc) : the alc can support 36 db gain with the attack time and release time controlled by c6 and r3 * c6, respectively. spk attenuator : speaker output signal can be attenuated either by internal register or external resister. for the former, the attenuation is from 0 to -45 db with 16 steps and -3.0db/step. for the later, 10k ohms variable resistor is suggested. if switches swf and swh are open, then attenuator will be muted to -70db automatically. serial_control_interface : to read/write the internal registers. sden\ (serial data enable) is used to start receiving control signal. 8khz frame sync.is used to transmit/receive the serial data (sdata). codec_serial_port : 4-pin signal will complete the data trasmitting/receiving. mclk is not only the data rate but also the chip master clock. currently, it is fixed at 1.536 mhz and the frame synchronization clock, fs, is 8 khz. for simplicity, the a/d and d/a are synchronous so that mclk and fs are enough. data transfer of dx/dr are msb first in both 8-bit and 16-bit formats. voltage reference : two 2.25v voltage references are on-chip generated . vref is for external and ag is for internal uses. both two pins need the decoupling capacitors agnd at all times. vref can be used to bias the microphone, the level shift circuits, or others. switches : there are 2 registers which are used to control all of the switches so that user can direct many different signal paths, of which 3 of them are : a) path of normal operation mic input --> swa --> pga/alc --> swc --> swd --> pcm codec ain lout1/lout2 <-- line driver <-- swe <-- pcm codec aout b) path of room monitor mic input --> swa --> pga/alc --> swc --> swj --> line driver line in --> line buffer --> swi --> pcm codec ain c) path of line play line in --> swa --> pga/alc --> swc --> swd --> pcm codec ain lout1/lout2 <-- line driver <-- swe <-- pcm codec aout spk <-- attenuator <-- swf <-- pcm codec aout mx93000 mx93000 5 parameter min typ max units input voltage with max s/(n+thd) mic/aux/line/filt 3.4 vpp input resistance* 15 kohm input capacitance* 15 pf analog input parameter reg.5 d1=0 reg.5 d1=1 units min typ max min typ max dynamic range* 36 30 db thd* < 75 mvpp 40 db < 1 vpp 30 db < 100 mvpp 40 db <1 vpp 25 db parameter min typ max units gain range 0 22.5 db step size 1.3 1.5 1.7 db programmable gain amplifier specifications parameter min typ max units line driver: gain range 0.0 22.5 db step size 1.2 1.5 1.8 db full swing output (@600 ohm load) -- fully differential(lout1-lout2) 6.0 vpp -- single ended (lout1) 3.0 vpp external load -- resistance* 300 ohm -- capacitance* 200 pf analog output automatic level control mx93000 mx93000 6 spk attenuator : gain range -45 0.0 db step size -3.5 -3.0 -2.4 db full swing output 3.0 vpp external load -- resistance* 10 kohm -- capacitance* 100 pf mute attenuation* -70 db filt (i/o) input resistance* 10 kohm output resistance* 10 kohm external load -- capacitance * 1000 pf aux (i/o) input capacitance* 15 pf input resistance* 20 kohm output resistance* 1 kohm external load -- capacitance* 100 pf parameter min typ max units vref output 2.0 2.25 2.5 v vref output current* 800 ua voltage reference parameter min typ max units comparator transfer point 1.10 1.25 1.40 v hysteresis* 0.15 v comparator detector mx93000 mx93000 7 parameter min typ max units dynamic range (-40 db fs) 72 db thd+n (-6 db fs) -50 db thd+n (u law) -36 db interchannel isolation* line/aux/mic 70 db gain variation (note 3) 5 % frequency response 50-60 -25 db 300-3k -1.0 +1.0 db 3.2k-3.4k -0.9 +0.25 db 4k -15 db > 4.6 k -32 db a/d path characteristics (note 1) parameter min typ max units dynamic range (-40 db fs) 72 db thd+n (-6 db fs) -50 db gain variation (note 3) 5 % total out-of-band energy .6 fs to 20 khz -50 db frequency response < 300 -0.25 +0.25 db 300-3k -0.25 +0.25 db 3.2k-3.4k -0.9 +0.25 db 4k -15 db > 4.6k -32 db d/a path characteristics (note 2) mx93000 mx93000 8 parameter min typ max units idle-channel noise (note 4) -- a/d path -70 db -- d/a path -70 db vdd power supply rejection (note 5) -- a/d channel 40 db -- d/a channel 40 db avdd power supply rejection (note 5) -- a/d channel -50 db -- d/a channel -50 db crosstalk* -- a/d to d/a (note 6) -65 db -- d/a to a/d (note 7) -65 db noise parameter min typ max units high level input voltage (vih) 2.0 vdd volt low level input voltage (vil) 0 0.8 volt high level output voltage (voh) 2.4 vdd volt low level output voltage (vol) 0.4 volt output capacitance* 15 pf input capacitance* 15 pf digital static specifications parameter min typ max units power supply - digital & analog 4.5 5.5 volt power supply current -- operating -- analog (note 8) 24 ma -- digital 6 ma power supply current -- power down 0.6 ma power supply mx93000 mx93000 9 parameter symbol min max units supply voltage vdd-gnd -0.3 6.0 volt voltage on any i/o pin gnd-0.3 vdd+0.3 volt current on any i/o pin +-8 ma operating ambient temperature 0 70 c storage temperature -65 150 c absolute maximum ratings note: * these items are guaranteed by characterization, not production testing. 1.vdd=avdd=5.0v, temp=25c, sampling rate=8khz, linear mode, fin=1 khz, measurement bandwidth=300--3.4k hz a/d path=mic --> pga (0db) --> a/d, no alc. 2.vdd=avdd=5.0v, temp=25c, sampling rate=8khz, linear mode, fin=1 khz, measurement bandwidth=300--3.4k hz d/a path=d/a --> spk (0db) output 3.vin=0db -- -50db, fin=1khz. 4. input is grounded. measurement bandwidth=300 -- 3.4k hz. 5. a/d & d/a input grounded, frequency=1khz, 100m vp signal on power supply. 6. 0 db at a/d input, d/a input grounded, then d/a output measured. 7. 0 db at d/a input, a/d input grounded, then a/d output measured. 8. power supply current does not include output loading. mx93000 mx93000 10 timing description min max unit tfs from vmckh1 to vfsh1 0 ns tfsh holding time for frame sync. mclk ns from vfsh1 to vfsh2 tdxs setting time for codec transmit data 110 ns from vmckh1(n) to dx(n) data ready tdrh1 holding time for codec receive data 0 ns from dr(n) data ready to vmckh2(n) tdrh2 holding time for codec receive data 150 ns from vmckl(n) to dr(n) ending tupen1 from vfsh1 to venl 40 fs ns tupen2 from vfsh1 to venh 40 fs ns tups1 setting time for up/dsp transmit sdata 40 fs ns from vupenl to up/dsp sdata (n) ready (where tupen1 + tups1 must be less than fs) tups2 setting time for up/dsp transmit sdata 40 fs ns from vfsh1(n+1) to up/dsp sdata (n+1) ready tuph holding time for up/dsp transmit sdata 40 tups 2 ns from vfsh1(n+1) to up/dsp sdata(n) ending tcdrd from vfsh(n+1) to codec read sdata(n) 20 ns tupo2i from vupenl to up/dsp changing its sdata interface into 40 fs ns input port tcdi2o from vfsh1 to codec changing its sdata 20 ns interface into output port tcds1 setting time for codec transmit sdata 20 ns from vcdi2o to codec sdata(n) ready tcds2 setting time for codec transmit sdata 20 ns from vfsh1(n+2) to codec sdata(n+1) ready tcdh holding time for codec transmit sdata fs ns from sdata(n) ready to vfsh1(n+2) tcdo2i from venh to codec changing its sdata 20 ns interface into input port tuprd from vfsh1(n+1) to up/dsp reading sdata(n) 40 fs ns tupi2o from vfsh1 to up/dsp changing its sdata 40 fs ns interface into output port special codec timing description : mx93000 mx93000 11 special codec timing diagram : pcm codec master clock , frame sync. & data timing mclk fs u-law,a-low dr/x linear dr/x 1 2 3 4 5 68 7 9 12 345 6 78 12 345 6 78 910 11 12 14 15 13 16 lsb 1 2 1 2 1 2 tfsh tfs vmckh1 vmckh2 vmckl vfsh1 vfsh2 vmckh1 tdxs (n) (n+1) (n) (n) (n+1) (n+1) tdxs tdrh2 tdrh1 mclk fs dx dr lsb msb msb 10 11 12 13 14 15 16 mx93000 mx93000 12 pcm codec control register r/w timing codec read sdata codec write sdata fsr/x sden\ up/dsp sdata interface codec sdata interface 1 23 4 5 678 9 12 13 14 venl tupen1 tuph tups1 a2 a1 a0 d7 d6 d5 d4 d3 d2 d0 d1 tuph tups2 venh tupen2 codec read sdata n n+1 n+2 10 11 tcdrd n n+1 fsr/x sden\ codec sdata interface up/dsp sdata interface 1 23 4 5 678 9 10 11 12 13 14 vcdi2o tupen1 tcdo2i a2 a1 a0 d7 d6 d5 d4 d3 d2 d0 d1 tupo2i n n+1 n+2 tcds1 tcdi2o up/dsp read sdata tcds2 tcdh tupen2 tupi2o vfsh1 tuprd n+1 n mx93000 mx93000 13 register 0: address bit a2 a1 a0 data 0 0 0 data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 0 0 0 0 description swa-ctl swb-ctl swc-ctl swd-ctl swe-ctl swf-ctl swg-ctl registers definition : (swa-ctl) d(7,6) = (1,1) : path of swa is "c==>a" pga setting following line-in gain setting = (1,0) : path of swa is "b==>a" pga setting following aux-in gain setting (see note 1.) = (0,1) : path of swa is "a==>a" pga setting following mic-in gain setting = (0,0) : path of swa is "d==>a" (grounding to ag) (swb-ctl) d(5) = (1) : path of swb is "close" = (0) : path of swb is "open" (swc-ctl) d(4) = (1) : path of swc is "b==>a" = (0) : path of swc is "a==>a" (swd-ctl) d(3) = (1) : path of swd is "close" = (0) : path of swd is "open" (swe-ctl) d(2) = (1) : path of swe is "close" = (0) : path of swe is "open" (swf-ctl) d(1) = (1) : path of swf is "close" = (0) : path of swf is "open" (swg-ctl) d(0) = (1) : path of swg (attenuator) is "a==>b" attenuator setting following alarm-out setting = (0) : path of swg (attenuator) is "a==>a" attenuator adjusted by external vr1 mx93000 mx93000 14 register 1 : address bit a2 a1 a0 data 0 0 1 data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 0 0 0 0 description line-in gain setting line-out gain setting (aux-in gain setting) d(7-4) = (f) - (0) : 22.5db - 0db, 1.5db/step (mic-in gain setting) d(3-0) = (f) - (0) : 22.5db - 0db, 1.5db/step register 2 : address bit a2 a1 a0 data 0 1 0 data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 0 0 0 0 description aux-in gain setting mic-in gain setting (line-in gain setting) d(7-4) = (f) - (0) : 22.5db - 0db, 1.5db/step (line-out gain setting) d(3-0) = (f) - (0) : 22.5db - 0db, 1.5db/step mx93000 mx93000 15 register 3 : address bit a2 a1 a0 data 0 1 1 data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 1 1 1 1 description swh-ctl swi-ctl swj-ctl swk-ctl alarm-out attenuator setting (swh-ctl) d(7) = (1) : path of swh is "close" = (0) : path of swh is "open" (see note 1.) (swi-ctl) d(6) = (1) : path of swi is "close" = (0) : path of swi is "open" (swj-ctl) d(5) = (1) : path of swj is "close" = (0) : path of swj is "open" (swk-ctl) d(4) = (1) : path of swk is "close" = (0) : path of swk is "open" (see note 1.) (alarm-out attenuator setting) d(3-0) = (f) - (0) : -45db - 0db 3db/step where alarm-out attenuator ==> attenuator channel-b spk-out attenuator ==> attenuator channel-a (adjusted by vr1 10ky) mx93000 mx93000 16 data bit d7 d6 d5 d4 d3 d2 d1 d0 power_on 0 0 0 0 0 0 0 0 description pdn echo master clock codec format register 4 : address bit a2 a1 a0 data 1 0 0 (pdn) d(6)=1 : power down mode. a.when d(6) is set to 1, the mx93000 will enter power down mode after 5 mclks. the 5_mclk period is for the initialization of digital circuits in the mx93000. b.when the mx93000 enters power down mode, it will clear all registers after 20us. c.when system power recovers and mclk is enabled, the mx93000 will wake up after 30ms and then user can restore all registers. sign\scale min max positive 0000 0000 0000 0000 0111 1111 1111 1100 negative 1111 1111 1111 1100 1000 0000 0000 0000 lineaer 16 bits format : 14 bits resolution with 2lsb=0 (echo) d(5) = (1):echo canceller on (3-6db) (0):echo canceller off (master clock) d(3,2) = (0,0): 1.536 mhz (codec format) d(1,0) = (1,1): linear coder & decoder (16 bits format) = (1,0): linear coder & decoder (16 bits format) = (0,1): a-law coder & decoder (8 bits format) = (0,0): u-law coder & decoder (8 bits format) mclk (pin 6) pdn\ (pin12) reg4 pdn bit codec power-consumption > 5 mclks 20 us 30 ms mclk keep hi or low ckts power_on up set pdn = 1 mx93000 mx93000 17 register 5 : address bit a2 a1 a0 data 1 0 1 data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 0 0 0 0 description alc (alc) d(1) = 1 : alc loop gain attenuate 6db d(1) = 0 : alc loop gain attenuate 0db register 6 : address bit a2 a1 a0 data 1 1 0 @@ reserve for internal use data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 0 0 0 0 description @@ reserve for future use data bit d7 d6 d5 d4 d3 d2 d1 d0 power-on 0 0 0 0 0 0 0 0 description read register address register 7 : address bit a2 a1 a0 data 1 1 1 (read) d(3) = 1 : read data from register 0-6 = 0 : write data to register 0-7 (register address) d(2-0) : 1.when read = 1, read will be cleared automatically. 2.when read = 1, next up/dsp sden\ signal active low, codec will change codec sdata interface into output and following the last time register address to output the content of register. note 1. :when using swk or swh, the path between aux and swa will disconnect. oppositely, if using the path between aux and swa, then swk and swh will be invalid. mx93000 mx93000 18 referance part description r1 620 y matching resistor; to reflect 600y at the transformer primary r2 2 ky current-limit resistor; to limit mic bias current ; please follow mic specification r3 75 ky time constant ; alc release time constant = r3 * c6 r4,r5 to scale down system power supply (vpow) and compare with 1.25v to do power-down check r6,r7 to scale down battery (vbat) and compare with 1.25v to do power-down check r8 10ky the time constant for power-on-reset circuits ; where rc=r8 * c11 r9 10 ky current-limit resistor for q1 r10 330 ky discharge path for alc circuit when q1 turns off r11 200 ky to attenuate line-in signal c1,c4 0.1 uf dc blocking capacitor c2,c3 10 uf to decouple analog virtual ground ; where ag = vref = 2.25v c5 10 uf dc blocking capacitor c6 47 uf time constant ; alc attack time contant > 2ky 10% * c6 c7 1uf dc offset cancellation decouple capacitor c8 1000 pf anti-aliasing capacitor c9 0.1 uf decoupling capacitor for power supply of codec digital circuit c10 0.1 uf decoupling capacitor for power supply of codec analog circuit c11 10 uf the time constant for power-on-reset circuits ; where rc = r8 * c11 vr1 10ky to attenuate the input signal from swh or swf ; if using digital volume control, then connecting pin-27 vr to vref q1 2n3904 alc feedback component ; all npn (? > 100) transistor can play this role d1 1n4148 to protect reset circuits from spike the following list is basic component required : mx93000 mx93000 19 pin descriptions : symbol pin type pin number description sdata i/o(d) 1 bidirectional serial port ; it's an interface for microprocessor serial data transfer sden\ i (d) 2 serial data enable ; active low ; for starting to receive/transmit serial data (a2-d0) dx o (d) 3 transmit data pin (codec serial data) dr i (d) 4 receive data pin (codec serial data) fs i (d) 5 codec frame sync ; 8khz frame synchronization clock for the transmit/receive channel mclk i (d) 6 master clock input (mclk=1.536 mhz) when this pin is continuously high or low and set register4/bit- 6 "pdn=1", then the mx93000 will enter power-down mode vdd (d) 7 digital power ; 5v power supply for all internal digital logic gnd (d) 8 digital ground ; ground reference (0v) for all internal digital logic prst o (d) 9 power on reset (active high) ; determined by pdn\ and batt\ input signal bat\ o (a) 10 battery detector output (active low); referenced to 1.25v vbat i (a) 11 battery detector input ; the voltage is divided from battery power for reference to 1.25v pdn\ o (a) 12 power down detector output (active low) ; referenced to 1.25v vpow i (a) 13 power down detector input ; system dc power is divided and then connected so as to compare with reference voltage (1.25v) lin i (a) 14 telephone signal line input , can be switched to pga. lout1 o (a) 15 telephone line output (postive) with pga ; where pga gain is from 0 to 22.5db lout2 o (a) 16 telephone line output (negative) with pga ; where pga gain is from 0 to 22.5db note : "d" means digital "a" means analog mx93000 mx93000 20 symbol pin type pin number description avdd (a) 17 analog power supply ; 5v power for all internal analog circuitry agnd (a) 18 analog ground ; ground reference(0v) for all internal analog circuitry ag o (a) 19 internal analog ground ; nominal 2.25v and must not be used to sink or source current mic i (a) 20 microphone signal input, can be switched to pga, where pga gain is from 0 to 22.5db aux i/o (a) 21 1.auxiliary signal input, can be switched to pga, where pga gain is from 0 to 22.5db 2.as an output port for aout or an input port for attenuator or line driver pgac o (a) 22 programmable gain amplifier output port alcrc o (a) 23 auto level control time constant ; where rc=2k10%*c6 alcc o (a) 24 offset cancellation capacitor (positive) ; normally add a 1 uf capacitor filt i/o (a) 25 1.anti-aliasing filter; normally add a 1000pf capacitor 2.as an input port for codec or an output port for swd or swi vref o (a) 26 voltage reference ; normal 2.25v and can sink 500ua vr 0 (a) 27 speaker volume control ; use a variable resistor 10ky spk o (a) 28 speaker output ; it can be attenuated by vr or control register from 0 to -45db mx93000 mx93000 21 appendix : mx93000 buglist 1.a/d full swing : full swing of a/d is 3.4 volt in stead of the original target 3.0 volt. 2.maximum external attenuation of spk through vr pin is only 27 db. 3.line drive gain: line driver will behave as a gain loss rather than a gain loss rather than a gain stage whenever line driver inputs are come from swk and/or swj. line driver gain if input from swe swk/swj 0.0 db -9.0 db 1.5 db -8.7 db 3.0 db -7.6 db 4.5 db -6.8 db 6.0 db -6.0 db 7.5 db -5.3 db 9.0 db -4.6 db 10.5 db -4.0 db 12.0 db -3.5 db 13.5 db -3.0 db 15.0 db -2.6 db 16.5 db -2.2 db 18.0 db -1.9 db 19.5 db -1.6 db 21.0 db -1.4 db 22.5 db -1.2 db 4.the larger of vref's bypass capacitor, the better of d/a idle channel noise. 100 uf rather than 10uf can get a good performance. mx93000 mx93000 22 item millimeters inches a 17.83 max. .702 max. b 1.194 max. .026 max. c 1.27 [tp] .047 [tp] d .41 [typ.] .016 [typ.] e .20 min. .008 min. f 2.54 max. .100 max. g 2.34 .13 .092 .005 h 10.31 .31 .406 .012 i 7.60 .13 .299 .005 j 1.37 .20 .054 .008 k .25 [typ.] .010 [typ.] l .91 .20 .036 .008 28-pin plastic sop (300 mil) note: each lead centerline is located within .25 mm[.01 inch] of its true position [tp] at a maximum material condition. 114 15 28 a dc b e gf l k j i h 28-pin plastic dip (300 mil) note: each lead centerline is located within .25 mm[.01 inch] of its true position [tp] at a maximum material condition. item millimeters inches a 34.29 max 1.350 max b .64 [ref] .025 [ref] c 2.54 [tp] .100 [tp] d .46 [typ.] .018 [typ.] e 32.99 1.300 f 1.52 [typ.] .060 [typ.] g 3.30 .25 .130 .010 h .51 [ref] .020 [ref] i 3.30 2.5 .130.098 j 3.81 max. .150 max. k 7.87 2.5 .310.098 l 7.32 2.5 .288.098 m .25 [typ.] .010 [typ.] ij hg b c f d e a 1 14 k l m 2~8� 15 28 mx93000 mx93000 23 ordering information mx 93 000 k c commericial 0 ~ 70 c mxic compony prefix family prefix product number package type k:pdip s:sop mx93000 mx93000 24 macronix international co., ltd headquarters : tel : +886-3-578-8888 fax : +886-3-578-8887 europe office : tel : +32-2-456-8020 fax : +32-2-456-8021 japan office : tel : +81-44-246-9100 fax : +81-44-246-9105 singapore office : tel : +65-747-2309 fax : +65-748-4090 taipei office : tel : +886-2-2509-3300 fax : +886-2-2509-2200 macronix america inc. tel : +1-408-453-8088 fax : +1-408-453-8488 chicago office : tel : +1-847-963-1900 fax : +1-847-963-1909 http : //www.macronix.com macronix international co., ltd. reserves the right to change product and specifications without notice. |
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