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| asahi kasei [AK2504A] ms0143-e-01 - 1 - 2004/01 AK2504A ds3/sts-1/e3 transceiver general description the AK2504A is a dsp based line transceiver. it provides the analog transmit/receive line interface functions for ds3(44.736mhz) /sts-1(51.84mhz) or e3(34.368mhz) interface. transmitter includes on-chip pulse shaper, b3zs/ hdb3 encoder. pulse level adjustment function is very useful to put a pulse into pulse mask for any customer?s system. receiver includes root-f equalizer, automatic-gain control, clock and data recovery, b3zs/hdb3 decoder, loss-of-signal and loss-of-lock alarm function. local and remote loop-back function is included for system level trouble shooting. the device operates at a single +3.3 volt supply and is transparent to the framing format. package - 64 pin lqfp feature - ?robust? dsp based line transceiver - provides complete analog line transmitter and receiver function for ds3, sts-1 and e3 applications - transmit pulse level adjustment - provides line equalization, and clock and data recovery functions - compliance with bellcore gr-499-core and gr-253-core, ansi t1.102, t1.404, - compliance with itu-t g.703 and g.823 - local/remote loopback functions - b3zs/hdb3 encoder/decoder - low voltage supply : +3.3v applications - interfacing network transmission equipment such as sonet multiplexor and m13 to a dsx-3 cross connect. - interfacing e3 network transmission equipment. - interfacing customer premises equipment to a line.
asahi kasei [AK2504A] ms0143-e-01 - 2 - 2004/01 block diagram gain and line equalization data recovery los logic clock recovery rpdata rndat a /lcv rclk rlos rring rlol vssv test2 test3 test1 vddp tcap1 tcap2 exclk losthr iref eqdis reset pulse shaper output driver loop back mux b3zs/hdb3 encoder b3zs/hdb3 decoder ttip tring tpdata tndat a tclk lloop rloop nrz taos pla vddd vssd rckpol e3 vssp vddb test circuit rtip vssb tckpol lbo vddv 61 43 24 25 23 3 6 41 20 21 22 test4 vsss 46 9 27 26 8 10 42 62 30 28 55 60 35 56 39 37 14 7 51 45 44 12 13 11 52 53 4 5 54 57 vdda vsst 38 59 vsst 29 vddt 36 test6 test5 19 58 test7 40 asahi kasei [AK2504A] ms0143-e-01 - 3 - 2004/01 pin location nc nc tcap1 vsst tcap2 test3 test4/etx tndata tpdata tclk rndata/lcv rpdata rclk test5 nc nc nc nc eqdis vddv vssv vddb iref pla vssb test6 vdda lbo reset rlos nc nc nc nc test1 rtip rring e3 losthr rckpol test7 ttip vsst tring vddt taos nc nc nc nc nrz vddp vssp tckpol exclk rloop test2 lloop vsss vddd vssd rlol nc nc 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 nc: no connection. leave these pins open. asahi kasei [AK2504A] ms0143-e-01 - 4 - 2004/01 pin condition no. pin name i/o pin type maximum ac load minimum dc load status on reset remarks 3 nrz i cmos 4 vddp - 5 vssp - 6 tckpol i cmos 7 exclk i cmos 8 rloop i cmos 9 test2 i cmos 10 lloop i cmos 11 vsss - 12 vddd - 13 vssd - 14 rlol o cmos 15pf ?h? 19 test5 i cmos 20 rclk o cmos 15pf ?h? 21 rpdata o cmos 15pf ?l? 22 rndata /lcv o cmos 15pf ?l? 23 tclk i cmos 24 tpdata i cmos 25 tndata i cmos 26 test4 o cmos 27 test3 i cmos 28 tcap2 o analog note 1 29 vsst - 30 tcap1 o analog note 1 note: *) nc pin number : no. 1, 2, 15, 16, 17, 18, 31, 32 nc: no connection. leave these pins open. 1)external capacitor (0.1 uf) is connected to vss. asahi kasei [AK2504A] ms0143-e-01 - 5 - 2004/01 no. pin name i/o pin type maximum ac load minimum dc load status on reset remarks 35 taos i cmos 36 vddt - 37 tring o analog hi-z 38 vsst - 39 ttip o analog hi-z 40 test7 o cmos 41 rckpol i cmos 42 losthr i analog 43 e3 i cmos 44 rring i analog 45 rtip i analog 46 test1 i cmos 51 eqdis i cmos 52 vddv - 53 vssv - 54 vddb - 55 iref o analog note 2 56 pla o analog note 3 57 vssb - 58 test6 i cmos 59 vdda - 60 lbo i cmos 61 reset i cmos note 4 62 rlos o cmos 15pf ?h? note *)nc pin number : no. 33, 34, 47, 48, 49, 50, 63, 64 nc: no connection. leave these pins open. 2)external resister 4.7 k ? 1% should be connected between iref and vss. 3)external resister should be connected between pla and vss. normally 1.33k ? is connected for ds3/sts-1 or 1.27k ? for e3. 4)pulled up to vdd with internal register. (typical 50k ? ) asahi kasei [AK2504A] ms0143-e-01 - 6 - 2004/01 pin description receive no. pin name i/o function 42 losthr i loss of signal threshold control (see table 15) the voltage forced on this pin controls the input loss-of-signal threshold. two settings are provided by forcing vss or vdd. 14 rlol o receive pll loss-of-lock active high alarm. if the recovered clock frequency is larger than approximately 0.5% of exclk, rlol alarm goes high. 45 rtip i receive tip input receive input for differential ami signal. requires a 1:1 transformer. 44 rring receive ring input receive input for differential ami signal. requires a 1:1 transformer. 62 rlos o receive loss-of-signal. this pin is set high on loss of the incoming signal at rin. 7 exclk i external reference clock. a valid ds3/sts-1/e3 clock must be provided at this input. the exclk frequency determines the operating frequency of the device. 20 rclk o recovered clock. 22 rndata /lcv o receive negative data/line code violation indicator this pin?s function depends on the input level. nrz = low : receive negative data output nrz = high : bipolar violation output 1 bit period of high level signal is output if a bipolar violation not corresponding to the appropriate coding rule or a code error is detected in the incoming data stream. the violation pulse corresponding to the appropriate coding rule is removed from the incoming data. 21 rpdata o receive positive data this pin?s function depends on the input level. nrz = low : receive positive data output nrz = high : nrz data output 41 rckpol i rclk polarity select. rckpol=l : received data is output on the rising edge of rclk. rckpol=h : received data is output on the falling edge of rclk. 51 eqdis i equalizer disable. when eqdis=h, equalizer is disable. 59 vdda - power supply for adc. +3.3 volts. 52 vddv - power supply for vga. +3.3 volts. 53 vssv - ground for vga. 0 volts. 4 vddp - power supply for pll. +3.3 volts 5 vssp - ground for pll. 0 volts. 54 vddb - power supply for bandgap reference. +3.3 volts. 57 vssb - ground for bandgap reference. 0 volts. asahi kasei [AK2504A] ms0143-e-01 - 7 - 2004/01 transmit no. pin name i/o function 24 tpdata i transmit positive data/nrz data this pin?s function depends on the input level. nrz = low : positive ami data output nrz = high : nrz data 25 tndata i transmit negative data this pin?s function depends on the input level. nrz = low : negative ami data output nrz = high : should be tied to vss 23 tclk i transmit clock tpdata and tndata are sampled on the rising or falling edge of tclk. sampling edge must be assigned by tckpol pin. 6 tckpol i tclk polarity select. tckpol=low : transmit data is sampled on the rising edge of tclk. tckpol=high : transmit data is sampled on the falling edge of tclk. 39 ttip o 37 tring o transmit tip / ring output ami signal output. requires a 1:1ct transformer. hi-z when reset = low. 56 pla i pulse level adjustment transmit pulse level can be adjusted by the external resister. normally 1.33k ? is connected for ds3/sts-1 or 1.27k ? for e3. if the signal power level is larger than a requirement, you can tweak it by increasing the value of this resister. 3 nrz i nrz mode enable active high input enables nrz data interface with tpdata and rpdata. nrz tpdata tndata rpdata rndata 0 positive negative positive negative 1 nrz (vss) nrz lcv in nrz mode, tndata should be tied to vss and rndata indicates lcv. 60 lbo i line built out if lbo is set to high, line built out function is enable. lbo input cable length low 225 ? 450ft high 0 ? 225ft this pin is active only with e3 pin set to high(ds3/sts-1 mode). 30 tcap1 o reference voltage output for the tx driver. an external capacitor (0.1 f 20%) should be connected to vssa. 28 tcap2 o reference voltage output for the tx driver. an external capacitor (0.1 f 20%) should be connected to vssa. 35 taos i transmit all ones select active high input. a continuous ami all 1?s pattern to be transmitted from ttip and tring. transmit rate is defined by tclk. 36 vddt - power supply for transmitter. +3.3 volts. 29, 38 vsst - ground for transmitter . 0 volts asahi kasei [AK2504A] ms0143-e-01 - 8 - 2004/01 others no. pin name i/o function 43 e3 - ds3/sts-1 or e3 select pin high : ds3/sts-1 low : e3 55 iref o current reference output external resistance (4.7 k ? 1%) should be connected to vssa. 8 rloop i remote loop back active high input. rpdata and rndata are transmitted from ttip and tring using rclk. input high on both rloop and lloop are inhibited. 10 lloop i local loop back active high input. tpdata,tndata and tclk are looped back to rpdata, rndata and rclk. input high on both rloop and lloop are inhibited. 61 reset i active low reset. pulled up to vdd with internal resister. 46 test1 i test mode. should be connected to vss. test1=high : the part goes into test mode. test1=low : the part goes into the normal operation mode. 9 test2 i should be connected to vss. 27 test3 i should be connected to vss. 26 test4 o output ?low? when test1=low (normal operation mode) 19 test5 i should be connected to vss. 58 test6 i should be connected to vss. 40 test7 o should be open. 12 vddd - power supply for digital. +3.3 volts. 13 vssd - ground for digital . 0 volts 11 vsss - ground for substrate. 0 volts asahi kasei [AK2504A] ms0143-e-01 - 9 - 2004/01 functional description the AK2504A provides the basic transmit and receive functions of a high-speed line card. signal requirements ds3/sts1 pulse characteristics are specified at the dsx-3. table table table table 1 1 1 1. . . . ds3 interface specification parameter specification line rate 44.736mbps 20ppm line code b3zs test load 75 ? 5% standards gr-499-core , ansi t1.102 , t1.404 table table table table 2 2 2 2. . . . sts-1 interface specification parameter specification line rate 51.840mbps 20ppm line code b3zs test load 75 ? 5% standards gr-253-core , ansi t1.102 asahi kasei [AK2504A] ms0143-e-01 - 10 - 2004/01 fig. 1 dsx-3 pulse mask fig. 2 sts-1 pulse mask table table table table 3 3 3 3. . . . ds3 pulse mask and equations (ansi t1.102, t1.404, gr-499-core) lower curve upper curve time equation time equation -0.85 t -0.36 -0.03 -0.85 t -0.68 0.03 -0.36 t 0.36 0.5{1+sin[( /2)(1+t/0.18)]}-0.03 -0.68 t 0.36 0.5{1+sin[( /2)(1+t/0.34)]}+0.03 0.36 t 1.4 -0.03 0.36 t 1.4 0.08+0.407e -1.84(t-0.36) table table table table 4 4 4 4 sts-1 pulse mask and equations (gr-253-core, t1.102) lower curve upper curve time equation time equation -0.85 t -0.36 -0.03 -0.85 t -0.68 0.03 -0.36 t 0.36 0.5{1+sin[( /2)(1+t/0.18)]}-0.03 -0.68 t 0.26 0.5{1+sin[( /2)(1+t/0.34)]}+0.03 0.36 t 1.4 -0.03 0.26 t 1.4 0.1+0.61e -2.4(t-0.26) -0.2 0.0 0.2 0.4 0.6 0.8 1.0 1.2 -1.0 -0.5 0.0 0.5 1.0 1.5 time[ui] normalized amplitude -0.2 0 0.2 0.4 0.6 0.8 1 1.2 -1.00 -0.50 0.00 0.50 1.00 1.50 time[ui] normilized amplitud e asahi kasei [AK2504A] ms0143-e-01 - 11 - 2004/01 e3 pulse characteristics are specified at the output ports table table table table 5 5 5 5. . . . e3 pulse specification (g.703) pulse shape (nominally rectangular) all marks of a valid signal must conform with the mask (see fig.3), irrespective of the sign pair(s) in each direction one coaxial pair test load impedance 75 ? s resistive nominal peak voltage of a mark (pulse) 1.0 v peak voltage of a space (no pulse) 0 v 0.1 v nominal pulse width 14.55 ns ratio of the amplitudes of positive and negative pulses at the center of a pulse interval 0.95 to 1.05 ratio of the widths of positive and negative pulses at the nominal half amplitude 0.95 to 1.05 ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� ����������� 17 ns 0 t1818860-92 v nominal pulse figure 17/g.703 pulse mask at the 34 368-kbit/s interface (14.55 + 2.45) 8.65 ns (14.55 ? 5.90) 14.55 ns 12.1 ns (14.55 ? 2.45) 24.5 ns (14.55 + 9.95) 0.1 0.1 0.2 0.2 0.1 0.1 0.1 0.1 0.2 29.1 ns (14.55 + 14.55) 0.5 1.0 fig. 3 e3 pulse mask asahi kasei [AK2504A] ms0143-e-01 - 12 - 2004/01 logic data interface AK2504A can handle positive/negative data and nrz data. positive/negative data interface if nrz pin = low, the transmitter accepts positive/negative transmit data on tpdata/tndata and the receiver outputs positive/negative received data on rpdata/rndata. in this mode, b3zs/hdb3 encoder/decoder is disable. transmit and received data is output transparently. nrz data interface if nrz pin = high, the transmitter accepts nrz transmit data on tpdata (tndata should be tied to vss). the receiver outputs nrz received data on rpdata. in this mode, b3zs/hdb3 encoder/decoder is enable. lcv alarm will be indicated on rndata whenever a bipolar violation is detected in the incoming data stream. tpdata tndata rpdata rndata nrz low tpdata tndata rpdata rndata nrz high positive/negative ami nrz tpos tneg rpos rneg tnrz rnrz bpv b3zs hdb3 encoder decoder b3zs hdb3 encoder decoder disable enable fig. fig. fig. fig. 4 4 4 4 logic data interface logic data interface logic data interface logic data interface line code violation if a bipolar violation not corresponding to the appropriate coding rule or a code error is detected in the incoming data stream, lcv is set high for one bit period. the violation pulse corresponding to the appropriate coding rule is removed from the incoming data. bipolar violation b3zs, hdb3 : b, v (+1,+1) or (-1,?1) rpdata --- 1, 1 lcv --- 0, 1 hdb3: b, 0, v (+1, 0,+1) or (-1, 0,?1) rpdata --- 1, 0, 1 lcv --- 0, 0, 1 coding violation (with an even number of bs since the last v) b3zs : 0, v ( 0,+1) or ( 0,?1) rpdata --- 0, 1 lcv --- 0, 1 hdb3: 0, 0, v ( 0, 0,+1) or ( 0, 0,?1) rpdata --- 0, 0, 1 lcv --- 0, 0, 1 asahi kasei [AK2504A] ms0143-e-01 - 13 - 2004/01 excessive zeros b3zs : 0, 0, 0 rpdata --- 0, 0, 0 lcv --- 0, 0, 1 hdb3: 0, 0, 0, 0 rpdata --- 0, 0, 0, 0 lcv --- 0, 0, 0, 1 ���� ���� 0 100v1110v 1 v0 0 1 1 0 v 0 0 01 ���� ���� ����� ����� ami lcv receive data includes b3zs encode error rpdata ���� ���� 000 000 bipolar violation code violation excessive zeros fig. fig. fig. fig. 5 5 5 5 rpdata and lcv outputs in nrz mode (b3zs) rpdata and lcv outputs in nrz mode (b3zs) rpdata and lcv outputs in nrz mode (b3zs) rpdata and lcv outputs in nrz mode (b3zs) ���� ���� 0 100 v1110 v 1 v0011 0 v 0 0 01 ����� ����� ���� ���� ami lcv receive data includes hdb3 encode error rpdata ����� ����� 00 0 00 0 bipolar violation code violation excessive zeros 00 0 0 00 fig. fig. fig. fig. 6 6 6 6 rpdata and lcv outputs in nrz mode (hdb3) rpdata and lcv outputs in nrz mode (hdb3) rpdata and lcv outputs in nrz mode (hdb3) rpdata and lcv outputs in nrz mode (hdb3) asahi kasei [AK2504A] ms0143-e-01 - 14 - 2004/01 pulse shaper pulse shaper generates a waveform meeting the pulse mask such as described in table 3,4,5. the input data of pulse shaper is the sampled data of tpdata and/or tndata pins on the rising or falling edge of tclk. polarity of tclk is selected by tckpol pin. line built out when lbo = high, the transmit pulse is output through lbo circuit which makes transmit pulse filtered with the frequency response equivalent to the 225ft cable. table 6 transmit pulse amplitude (ds3/sts-1) lbo cable length ds3, sts-1 low 225 ? 450 ft 1150mvpk(typ) high 0 ? 225ft 800mvpk(typ) note; lbo pin is active only with e3 pin set to high(ds3/sts-1 mode). transmit all ones select if taos pin is high, continuos ami 1s are transmitted from ttip/tring. while this all 1s pattern is transmitted, the input data on tpdata/tndata are ignored. in local loopback mode (lloop pin is high), taos request is accepted and the input data on tpdata/tndata are loopback to rpdata/r ndata. in remote loopback mode (rloop pin is high), taos request is accepted and the recoverd data is output to rpdata/rndata. line short protect if line is short, there is no large current on the transmit output driver because that the driver is a current source drive type. asahi kasei [AK2504A] ms0143-e-01 - 15 - 2004/01 equalization ds3/sts1 the incoming data may have the loss of cable and/or flat. cable type and length from the cross-connect are specified as shown in table 8. equalizer compensates appropriately for a nominal dsx-3/sts-1 pulse as attenuated by 450 feet of 728a cable. table 8 ds3/sts-1 cable specification parameter specification remarks cable type type 728a coaxial cable (or equivalent) cable length 0 ? 450 feet (from dsx-3 point) fig.7?(1)(2) e3 the incoming data may have the cable loss as shown in table 9. equalizer compensates appropriately for a nominal e3 pulse as attenuated by the cable. table 9 e3 cable specification parameter specification remarks cable loss 0 ? 12db fig.7?(1)(2) equalizer bypass if the incoming signal is attenuated by flat loss only (zero cable loss), the internal equalizer should be bypassed with eqdis=1. the level of the incoming signal should satisfy the rin input range (50mvpk - 1000mvpk for ds3/sts-1, 90mvpk - 1200mvpk for e3). table 10 equalizer bypass control eqdis equalizer 0 enable 1 bypass (2) flat loss only ds3 : dsx-3 sts-1 : dsx-3 e3 : transmitter port equalizer enable transmitter monitoring circuit (1)cable loss + flat loss flat loss ak2504 eqdis equalizer bypass 1 cable flat loss 0 - 6db ak2504 eqdis ds3 :0 ? 450 feet sts-1:0 ? 450 feet e3 :0 ? 12 db 0 fig. 7 AK2504A application asahi kasei [AK2504A] ms0143-e-01 - 16 - 2004/01 clock acquisition if a valid input signal is assumed to be already present at the analog input, the maximum time between the application of device power and error-free operation is typically 20 ms. table 11 pll lock acquisition time (ta = tmin to tmax; v+ = 3.3v 0.3v; gnd** = 0v) conditions min typ max units power up power : off -> on input data : valid 20 ms input data restore power : on input data : loss -> valid 1.0 5.0 ms ** ) gnd=vssp= vssv= vssb=vsst=vsss=vssd=0v output jitter typical output jitter characteristics is shown in the table of analog specifications . jitter transfer jitter transfer characteristics is shown in the table of analog specifications. jitter tolerance typical jitter tolerance characteristics is shown in the table of analog specifications. ds3/sts-1 compliance with gr-499-core, gr-253-core, g.752, g.824 e3 compliance with itu-t g.823. asahi kasei [AK2504A] ms0143-e-01 - 17 - 2004/01 loopback AK2504A has two loopback modes, which are remote loopback mode and local loopback mode. each function of those is shown in table 12 and fig. 8. table 12 loopback function mode rloop lloop function remote 1 0 rpdata ttip rndata tring transmit rate is determined by rclk. tpdata/tndata are ignored. local 0 1 tpdata rpdata tndata rndata tclk rclk transmit rate is determined by tclk. tpdata/tndata are ignored. 1 1 not permitted that both rloop and lloop are high. fig. 8 loopback path rpdata rndata/bp v rclk rring loop back mux b3zs/hdb3 encoder ttip tring tpdata tndata tclk lloop rloop rtip b3zs/hdb3 encoder pulse shaper output driver clock&data recovery rpdata rndata/bp v rclk rring loop back mux b3zs/hdb3 encoder ttip tring tpdata tndata tclk lloop rloop rtip b3zs/hdb3 encoder pulse shaper output driver clock&data recovery remote loopback rloop=1 lloop=0 local loopback rloop=0 lloop=1 asahi kasei [AK2504A] ms0143-e-01 - 18 - 2004/01 tx and rx output status related to nrz, taos, rloop, lloop input table table table table 13 tx and rx output status 13 tx and rx output status 13 tx and rx output status 13 tx and rx output status e3b nrz taos rloo p lloo p ttip/tring rpdata/rndata x 0 1 1 0 ami ones recovered data 0 1 1 1 0 ami ones recovered data(unhdb3) 1 1 1 1 0 ami ones recovered data(unb3zs) x 0 0 1 0 recovered data recovered data 0 1 0 1 0 recovered data recovered data(unhdb3) 1 1 0 1 0 recovered data recovered data(unb3zs) x 0 1 0 1 ami ones tpdata/tndata 0 1 1 0 1 ami ones tpdata/tndata(unhdb3) 1 1 1 0 1 ami ones tpdata/tndata(unb3zs) x 0 0 0 1 tpdata/tndata tpdata/tndata 0 1 0 0 1 tpdata/tndata(hdb3) tpdata/tndata(unhdb3) 1 1 0 0 1 tpdata/tndata(b3zs) tpdata/tndata(unb3zs) x x 1 0 0 ami ones recovered data x 0 0 0 0 tpdata/tndata recovered data 0 1 0 0 0 tpdata/tndata(hdb3) recovered data(unhdb3) 1 1 0 0 0 tpdata/tndata(b3zs) recovered data(unb3zs) loss-of-lock detection if the recovered clock frequency is larger than approximately 0.5% of exclk, rlol alarm goes high. external reference clock an external reference clock exclk is used to set the frequency of the pll. the frequency of exclk should be within the ideal clock 100ppm. reset AK2504A goes into reset status if reset input is low. output pins status is as follows during the low input on reset . rlos : high rlol : high rpdata : low rndata : low rclk : high test mode the AK2504A goes into test mode when test1 pin is high. asahi kasei [AK2504A] ms0143-e-01 - 19 - 2004/01 loss of signal ds3/sts-1 AK2504A detects the loss of signal by analog and digital methods. loss of signal function in ds3/sts-1 mode is as follows. analog loss of signal(alos) analog loss detector operates as follows. - analog loss detector monitors the peak level of the incoming signal. - if the peak level falls below alarm set threshold as shown in table 14, output pins status is shown in the diagram below. table 14 analog loss-of-signal thresholds (ds3/sts-1/e3) losthr clear alarm level set alarm level voltage min. upper threshold max. upper threshold min. lower threshold max. lower threshold units vss 80 160 70 150 mvpk vdd 50 110 40 100 mvpk notes: - set alarm level is 0.5db lower than clear alarm level. digital loss of signal(dlos) digital loss detector operates as follows. - a digital loss detector monitors consecutive 0s and 1s density in recovered data. - rlos is set high if 175 5 consecutive 0s is detected. - rpdata,rndata are set low if alos is detected. - rlos is set low if 33% 1s density (58 1s in 175 consecutive bits) and no consecutive 100 0s are detected. asahi kasei [AK2504A] ms0143-e-01 - 20 - 2004/01 175 +/- 5 bits of consecutive 0s in the incoming data normal operation rclk : recovered from rin data rpdata : recovered data rndata : recovered data rlos : low dlos rclk : recovered from rin data rpdata : recovered data rndata : recovered data rlos : high alos rclk : recovered from exclk rpdata : low rndata : low rlos : high 175bits of the incoming data includes the following data. 1) 58bits of 1s (33% 1s density) 2) no 100bits of consecutive 0s < clear alarm threshold level set alarm threshold level peak level of the incoming data > peak level of the incoming data fig. 9 loss of signal state diagram (ds3/sts-1) asahi kasei [AK2504A] ms0143-e-01 - 21 - 2004/01 loss of signal e3 AK2504A detects the loss of signal by analog and digital methods. loss of signal function in e3 mode is as follows. - analog loss detector monitors the peak level of the incoming signal. - if the peak level falls below set alarm threshold level as shown in table 15, dlos circuit starts counting the number of the incoming data bits as described in the following section ?dlos?. - if dlos circuit detects consecutive 128 5 bits of the incoming data lower than set alarm threshold level, AK2504A alarms loss of signal by setting rlos high. other output pins status is as shown in the diagram below. - rlos is set low if 32 5 bits of the incoming data higher than clear alarm threshold level are detected. normal operation rclk : recovered from rin input rpdata : recovered data rndata : recovered data rlos : low los rclk : recovered from exclk rpdata : low rndata : low rlos : high for 128 +/- 5 consecutive bits of the incoming data for 32 +/- 5 bits of the incoming data < set alarm threshold level peak level of the incoming data > set alarm threshold level peak level of the incoming data fig. 10 loss of signal state diagram (e3) asahi kasei [AK2504A] ms0143-e-01 - 22 - 2004/01 absolute maximum ratings parameter symbol min max units dc supply (referenced to gnd) (note 1) v+ -0.3 4.6 v input voltage, any pin vin gnd-0.3 (v+)+0.3 v input current, any pin (note 2) iin - 10 ma ambient operating temperature ta -40 85 c storage temperature tstg -65 150 c power dissipation pd - 1 w warning: operation at or beyond these limits may result in permanent damage to the device. normal operation is not guaranteed at these extremes. note; 1.gnd=vssv=vssp=vssb=vsst=vssd=vsss=0v 2.transient currents of up to 100 ma will not cause scr latch up. recommended operating conditions parameter symbol condition min typ max units dc supply (referenced to gnd) v+ 3.0 3.3 3.6 v ambient operating temperature ta -40 25 85 c ds3 pn20 - 200 220 ma sts-1 pn20 - 210 230 ma supply current: e3 is pn20 - 160 180 ma ds3 44.736 - 100ppm 44.736 44.736 + 100ppm mhz sts-1 51.84 - 100ppm 51.84 51.84 + 100ppm mhz exclk frequency e3 34.368 - 100ppm 34.368 34.368 + 100ppm mhz asahi kasei [AK2504A] ms0143-e-01 - 23 - 2004/01 receiver analog specifications (ta = tmin to tmax; v+ = 3.3v 0.3v; gnd = 0v) parameter condition min typ max units 3db bandwidth - 205 - khz jitter transfer with repetitive 100 pattern (note 3) peaking - 0.05 0.1 db 5khz 20 uipp 10khz 15 uipp 60khz 2 uipp 300khz 0.6 uipp jitter tolerance (note 4) 1mhz 0.4 uipp signal noise immunity (note 5) - 8 12 db all one's pattern - 1.4 - nsp-p output jitter (note 3) repetitive 1000 pattern - 1.8 - nsp-p output clock duty cycle (note 3) 45 - 55 % ds3/sts1 50 - 1000 mvpk receiver input range e3 90 - 1200 mvpk dlos detection ds3/sts1 170 175 180 bits loss detection e3 123 128 133 bits rin to rpdata delay time 8 bits note; 3. measured with repetitive input at nominal dsx-3 level(ds3/sts-1), nominal g.703 level(e3) with (v+)=3.3v, ta=25 c 4. typical performance is shown in fig 11. 5. measured with sinusoidal noise, peak amplitude of noise is 11db down from peak amplitude of signal. the noise frequency is 22mhz(ds3), 25mhz(sts-1), 17mhz(e3). fig. 11 jitter tolerance 0.05u ipp g.752 3.2k, 14u ipp g r-499 category i g r-499 category ii 300k, 0.3u ipp 0.01 0.1 1 10 100 0.01 0.1 1 10 100 1000 10000 jitter f requency [kh z] jitter amplitude [uipp] asahi kasei [AK2504A] ms0143-e-01 - 24 - 2004/01 transmitter analog specifications (ta = tmin to tmax; v+ = 3.3v 0.3v; gnd = 0v) parameter condition min typ max units lbo=1 700 800 900 mvpk transmitter amplitude (note 6) ds3/sts1 lbo=0 1050 1150 1250 mvpk e3 920 1000 1080 mvpk note; 6. measured at the line side of the transformer. digital characteristics (ta = tmin to tmax; v+ = 3.3v 0.3v; gnd = 0v) parameter symbol min typ max units high-level input voltage vih (v+) x 0.7 - (v+) v low-level input voltage vil gnd - 0.5 v high-level output voltage iout=-40 a voh (v+) x 0.8 - (v+) v low-level output voltage iout=1.6ma (note 7) iout=0.4ma (note 8) vol gnd - 0.4 v input leakage current (note 9) 10 a note; 7. rclk, rpdata, rndata 8. rlos, rlol, test4, test7 9. except for reset asahi kasei [AK2504A] ms0143-e-01 - 25 - 2004/01 receiver switching specifications (ta = tmin to tmax; v+ = 3.3v 0.3v; gnd = 0v; input: logic 0 = 0v, logic 1 = v+ ) parameter symbol min typ max units rclk pulse width ds3 (note 10, 11) tpwh tpwl 10.1 10.1 11.177 11.177 12.2 12.2 ns ns rclk pulse width sts-1 (note 12, 11) tpwh tpwl 8.7 8.7 9.645 9.645 10.6 10.6 ns ns rclk pulse width e3 (note 13, 11) tpwh tpwl 13.1 13.1 14.548 14.548 16.0 16.0 ns ns exclk duty cycle (exclk min rise/fall time : 5ns) 45 - 55 % rise time, rclk (note 11) tr - - 3.5 ns fall time, rclk (note 11) tf - - 3.5 ns delay time: rclk high to rpdata/rndata (note 14) tdcrd 0 - 3.5 ns transmitter switching specifications (ta = tmin to tmax; v+ = 3.3v 0.3v; gnd = 0v; input: logic 0 = 0v, logic 1 = v+ ) parameter symbol min typ max units tclk duty cycle (tclk min rise/fall time : 5ns) 30 - 70 % rise time, tclk (note 11) tr - - 3.5 ns fall time, tclk (note 11) tf - - 3.5 ns setup time, tpdata/tndata to tclk falling tstdc 4 - - ns hold time, tpdata/tndata to tclk falling thtdc 5 - - ns note; 10. assumes pll is locked to 44.736 mhz signal. 11. the sum of the pulse widths must always meet the frequency specifications. 12. assumes pll is locked to 51.84 mhz signal 13. assumes pll is locked to 34.368mhz signal. 14. load cap = 15pf. asahi kasei [AK2504A] ms0143-e-01 - 26 - 2004/01 rclk 10% 10% 90% 90% t r t f fig. 12 signal rise and fall characteristics rclk t pwh t pwl rpdata rndata t dcrd fig. 13 recovered clock and data switching characteristics exclk t pwh1 t pw vdd/2 fig. 14 exclk duty cycle requirements tclk t sdc t hdc tpdata tndata fig. 15 transmitter switching characteristics asahi kasei [AK2504A] ms0143-e-01 - 27 - 2004/01 application circuit example coax 3.3v tpdata tndata tclk rlos 1:1 rlol tcap1 tcap2 losthr iref 0.1uf 0.1uf 37.4 ? framer control logic AK2504A 23 24 25 exclk clock source 7 14 62 42 30 28 55 59 4.7 k ? 1% ttip tring rtip rring 1ct : 1 rpdata rndata rclk 20 21 22 tckpol 6 rckpol 41 nrz 3 taos 35 vdda vssv vdd v vssp vddp vssb vddb vsst vddt vssd vddd vsss 52 53 4 5 54 57 36 29 12 13 11 39 ? 0.1 uf pla 56 r pla : 1.33k ? 1% for ds3/sts-1, 1.27k ? 1% for e3 note) if the power of transmit signal is larger than the requirement, the power can be reduced by increasing the value of r pla . 39 ? 3.3v 0.01 uf 37.4 ? 39 37 45 44 0.01 uf 0.01 uf 0.01 uf 0.01 uf 0.01 uf 0.01 uf 38 vsst recommended transformer : maker product no. ratio tdk wbtrid2.5-j004c002 1ct:1 tdk wbtrid2.5-0340n 1:1 75 ? 150 nh recommended diode : any diode with v(forward) = 0.58v to 0.89v for i(forward)=10ma in all temperature range can be used. e.g. 1ss184, 1ss181 43 46 lbo reset 60 51 test5 19 eqdis 61 rloop 8 10 lloop e3 9 test2 27 test3 26,40 test4, test7 test1 open test6 58 r pla note : leave the following nc pins open. pin 1,2,15,16,17,18,31,32,33,34,47,48,49,50,63,64. asahi kasei [AK2504A] ms0143-e-01 - 28 - 2004/01 marking AK2504A xxxxyzz akm akm akm akm - 64pin lqfp (1) pin #1 indication (2) date code: 7digits xxxxyzz (3)marketing code: AK2504A (4)akm logo asahi kasei [AK2504A] ms0143-e-01 - 29 - 2004/01 outline dimensions 0.10 m 0.210.05 1 16 17 32 33 48 49 64 10.0 12.00.3 12.00.3 10.0 0.5 0-10 0.170.05 1.0 0.450.2 1.70max 0.100.10 1.40 0.10 asahi kasei [AK2504A] ms0143-e-01 - 30 - 2004/01 important 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 status. 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 export 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 any 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 is 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 significant 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 containing 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 notification. |
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