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exar corporation 48720 kato road, fremont ca, 94538 ? (510) 668-7000 ? fax (510) 668-7017 ? www.exar.com ? ? ? ? XRT75L04 four channel e3/ds3/sts-1 line interface unit with jitter attenuator november 2003 rev. 1.0.1 general description the XRT75L04 is a four-channel fully integrated line interface unit (liu) with jitter attenuator for e3/ds3/ sts-1 applications. it incorporates four independent receivers, transmitters and jitter attenuators in a single 176 pin qfp package. each channel of the XRT75L04 can be configured to operate in e3 (34.368 mhz), ds3 (44.736 mhz) or sts-1 (51.84 mhz) rates that are independent of each other. each transmitter can be turned off and tri- stated for redundancy support and for conserving power. the XRT75L04s differential receivers provide high noise interference margin and are able to receive the data over 1000 feet of cable or with up to 12 db of cable attenuation. the XRT75L04 incorporates an advanced crystal- less jitter attenuator per channel that can be selected either in the transmit or receive path. the jitter attenuator performance meets the etsi tbr-24 and telcordia gr-499, gr-253 specifications. the XRT75L04 provides both serial microprocessor interface as well as hardware mode for programming and control. the XRT75L04 supports local, remote and digital loop-backs. the XRT75L04 also contains an on- board pseudo random binary sequence (prbs) generator and detector with the ability to insert and detect single bit error. features receiver: on chip clock and data recovery circuit for high input jitter tolerance. meets the jitter tolerance requirements as specified in itu-t g.823_1993 for e3 and telcordia gr-499- core for ds3 applications. detects and clears los as per g.775. receiver monitor mode handles up to 20 db flat loss with 6 db cable attenuation. on chip b3zs/hdb3 encoder and decoder that can either be enabled or disabled. on-chip clock synthesizer generates the appropriate rate clock from a single frequency xtal. provides low jitter clock outputs for either ds3,e3 or sts-1 rates. transmitter: compliant with telcordia gr-499, gr-253 and ansi t1.102 specification for transmit pulse tri-state transmit output capability for redundancy applications transmitters can be turned on or off. jitter attenuator: on chip advanced crystal-less jitter attenuator. jitter attenuators can be selected in receive or transmit paths. compliant with jitter transfer template outlined in itu g.751, g.752, g.755, gr-253 and gr-499- core,1995 standards. meets etsi tbr 24 jitter transfer requirements. 16 ,32 or 128 bits selectable fifo size. meets the wander specifications described in t1.105.03b. jitter attenuators can be disabled. control and diagnostics: serial microprocessor interface for control and configuration. supports optional internal transmit driver monitoring. prbs error counter register to accumulate errors. supports local, remote and digital loop-backs. single 3.3 v 5% power supply. 5 v tolerant i/o. maximum power dissipation 1.8w. available in 176 pin qfp package - 40c to 85c industrial temperature range. applications e3/ds3 access equipment. sts1-spe to ds3 mapper. dslams. digital cross connect systems. csu/dsu equipment. routers.
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 2 transmit interface characteristics accepts either single-rail or dual-rail data from terminal equipment and generates a bipolar signal to the line integrated pulse shaping circuit. built-in b3zs/hdb3 encoder (which can be disabled). accepts transmit clock with duty cycle of 30%-70%. generates pulses that comply with the itu-t g.703 pulse template for e3 applications. generates pulses that comply with the dsx-3 pulse template, as specified in telcordia gr-499 -core and ansi t1.102_1993. generates pulses that comply with the stsx-1 pulse template, as specified in telcordia gr-253-core. transmitters can be turned off to support redundancy designs. receive interface characteristics integrated adaptive receive equalization for optimal clock and data recovery. declares and clears the los defect per itu-t g.775 requirements for e3 and ds3 applications. meets jitter tolerance requirements, as specified in itu-t g.823_1993 for e3 applications. declares loss of signal (los) and loss of lock (lol) alarms. built-in b3zs/hdb3 decoder (which can be disabled). f igure 1. b lock d iagram of the xrt 75l04 host/hw sts-1/ds3_(n) e3_(n) reqen_(n) rtip_(n) rring_(n) sr/dr XRT75L04 XRT75L04 rlb_(n) rlos_(n) jatx/rx tpdata_(n) tndata_(n) txclk_(n) taos_(n) txlev_(n) txon_(n) channel 3 channel 0 channel 1..2 notes: 1. (n) = 0, 1, 2 or 3 for respective channels 2. serial processor interface input pins are shared by the four channels in "host" mode and redefined in the "hardw are" mode. device monitor mtip_(n) mring_(n) dmo_(n) timing control ttip_(n) tring_(n) tx pulse shaping hdb3/ b3zs encoder rlol_(n) rxon rxclkinv rxclk_(n) rpos_(n) rneg_(n)/ lcv_(n) tx control jitter attenuator mux line driver llb_(n) invert remote loopback hdb3/ b3zs decoder mux agc/ equalizer peak detector los detector slicer jitter attenuator serial processor interface local loopback clock & data recovery clock synthesizer e3clk,ds3clk, sts-1clk reset cs sclk int sdo sdi clkout
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 3 recovered data can be muted while the los condition is declared. outputs either single-rail or dual-rail data to the terminal equipment. f igure 2. p in o ut of the XRT75L04 ordering information p art n umber p ackage o perating t emperature r ange XRT75L04iv 176 pin qfp -40 c to +85 c XRT75L04 test ict reqen_2 e3_2 sts1/ds3_2 llb_2 rlb_2 rxavdd_2 rring_2 rtip_2 rxagnd_2 reqen_3 e3_3 sts1/ds3_3 llb_3 rlb_3 rxavdd_3 rring_3 rtip_3 rxagnd_3 refagnd rxa rxb refavdd_1 rxagnd_1 rtip_1 rring_1 rxavdd_1 rlb_1 llb_1 sts1/ds3_1 e3_1 reqen_1 rxagnd_0 rtip_0 rring_0 rxavdd_0 rlb_0 llb_0 sts1/ds3_0 e3_0 reqen_0 agnd agnd 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 reset host/hw nc sr/dr nc rlos_2 rlol_2 dgnd_2 rpos_2 rneg/lcv_2 rxclk_2 dvdd_2 rlos_3 rlol_3 dgnd_3 rpos_3 rneg/lcv_3 rxclk_3 dvdd_3 txmon ja0 ja1 jatx/rx sfm_en jadvdd_3 clkout_3 jadgnd_3 jadgnd_2 clkout_2 jadvdd_2 jaavdd_2 clkouten_2 jaagnd_2 jaagnd_3 clkouten_3 jaavdd_3 txon_2 taos_2 txlev_2 txon_3 taos_3 txlev_3 txclk_2 tpos_2 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 sclk/txclkinv sdi/rxon cs/rxclkinv sdo/rxmon int/losmut rlos_0 rlol_0 dgnd_0 rpos_0 rneg/lcv_0 rxclk_0 dvdd_0 rlos_1 rlol_1 dgnd_1 rpos_1 rneg/lcv_1 rxclk_1 dvdd_1 e3clk clkvdd ds3clk clkgnd sts1clk/12m jadvdd_1 clkout_1 jadgnd_1 jadgnd_0 clkout_0 jadvdd_0 jaavdd_0 clkouten_0 jaagnd_0 jaagnd_1 clkouten_1 jaavdd_1 txon_0 taos_0 txlev_0 txon_1 taos_1 txlev_1 txclk_0 tpos_0 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 tneg_2 txavdd_2 dmo_2 ttip_2 txvdd_2 tring_2 txgnd_2 mtip_2 mring_2 txagnd_2 txclk_3 tpos_3 tneg_3 txavdd_3 dmo_3 ttip_3 txvdd_3 tring_3 txgnd_3 mtip_3 mring_3 txagnd_3 txagnd_1 mring_1 mtip_1 txgnd_1 tring_1 txvdd_1 ttip_1 dmo_1 txavdd_1 tneg_1 tpos_1 txclk_1 txagnd_0 mring_0 mtip_0 txgnd_0 tring_0 txvdd_0 ttip_0 dmo_0 txavdd_0 tneg_0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44
XRT75L04 ? ? ? ? rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator i table of contents general description .................................................................................................1 f eatures ............................................................................................................................... ......................1 a pplications ............................................................................................................................... .................1 t ransmit i nterface c haracteristics ........................................................................................................2 r eceive i nterface c haracteristics ..........................................................................................................2 f igure 1. b lock d iagram of the xrt 75l04 ..................................................................................................................... ......... 2 f igure 2. p in o ut of the XRT75L04...................................................................................................................... ...................... 3 ordering information........................................................................................................... ..........3 pin descriptions (by function) .............................................................................4 t ransmit i nterface ............................................................................................................................... ......4 r eceive i nterface ............................................................................................................................... ........7 c lock i nterface ............................................................................................................................... ..........9 ............................................................................................................................... ....................................10 control and alarm interface .................................................................................................... ..10 o perating m ode s elec t ..........................................................................................................................12 ............................................................................................................................... ....................................13 s erial m icroprocessor i nterface .........................................................................................................13 ............................................................................................................................... ....................................14 j itter a ttenuator interface ...................................................................................................................14 a nalog p ower and g round .....................................................................................................................14 digital p ower and g round ......................................................................................................................16 1.0 electrical characteristics .............................................................................................. ......17 t able 1: a bsolute m aximum r atings ............................................................................................................................... .......... 17 t able 2: dc e lectrical c haracteristics : .............................................................................................................................. .. 17 2.0 timing characteristics .................................................................................................. ............18 f igure 3. t ypical interface between terminal equipment and the XRT75L04 ( dual - rail data )........................................... 18 f igure 4. t ransmitter t erminal i nput t iming .......................................................................................................................... 18 f igure 5. r eceiver d ata output and code violation timing ................................................................................................... 19 f igure 6. t ransmit i nterface circuit for e3, ds3 and sts-1 r ates .................................................................................... 19 3.0 line side characteristics: .............................................................................................. ..........20 3.1 e3 line side parameters: ................................................................................................ ...................... 20 f igure 7. p ulse m ask for e3 (34.368 mbits / s ) interface as per itu - t g.703......................................................................... 20 t able 3: e3 t ransmitter line side output and receiver line side input specifications ........................................................ 20 f igure 8. b ellcore gr-253 core t ransmit o utput p ulse t emplate for sonet sts-1 a pplications ............................. 21 t able 4: sts-1 p ulse m ask e quations ............................................................................................................................... ...... 21 t able 5: sts-1 t ransmitter l ine s ide o utput and r eceiver l ine s ide i nput s pecifications (gr-253) .............................. 22 f igure 9. t ransmit o uput p ulse t emplate for ds3 as per b ellcore gr-499 ..................................................................... 22 t able 6: ds3 p ulse m ask e quations ............................................................................................................................... ......... 23 t able 7: ds3 t ransmitter l ine s ide o utput and r eceiver l ine s ide i nput s pecifications (gr-499) ................................. 23 f igure 10. m icroprocessor s erial i nterface s tructure ...................................................................................................... 24 f igure 11. t iming d iagram for the m icroprocessor s erial i nterface ................................................................................ 24 t able 8: m icroprocessor s erial i nterface t imings ( ta = 250c, vdd=3.3v 5% and load = 10 p f) .................................. 25 4.0 the transmitter section: ................................................................................................ ..........26 4.1 transmit clock: ......................................................................................................... .............................. 26 4.2 b3zs/hdb3 encoder: ...................................................................................................... ........................... 26 4.2.1 b3zs encoding: ......................................................................................................... ............................................. 26 f igure 12. s ingle -r ail or nrz d ata f ormat (e ncoder and d ecoder are e nabled )............................................................ 26 f igure 13. d ual -r ail d ata f ormat ( encoder and decoder are disabled ) ............................................................................. 26 4.2.2 hdb3 encoding:......................................................................................................... ............................................. 27 4.3 transmit pulse shaper: .................................................................................................. ...................... 27 f igure 14. b3zs e ncoding f ormat ............................................................................................................................... ............ 27 f igure 15. hdb3 e ncoding f ormat ............................................................................................................................... ........... 27 4.3.1 guidelines for using transmit build out circuit: ....................................................................... .......... 28 4.3.2 interfacing to the line:............................................................................................... ..................................... 28 4.4 transmit drive monitor: ................................................................................................. ...................... 28 f igure 16. t ransmit d river m onitor set - up . ........................................................................................................................... 28 4.5 transmitter section on/off: ............................................................................................. ................. 29 5.0 the receiver section: ................................................................................................... ..............29
? ? ? ? XRT75L04 four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 ii 5.1 agc/equalizer: .......................................................................................................... ................................ 29 5.1.1 interference tolerance: ................................................................................................ ................................ 30 f igure 17. i nterference m argin t est s et up for ds3/sts-1................................................................................................ 30 5.2 clock and data recovery: ................................................................................................ .................. 31 5.3 b3zs/hdb3 decoder: ...................................................................................................... .......................... 31 f igure 18. i nterference m argin t est s et up for e3. ............................................................................................................ 31 t able 9: i nterference m argin t est r esults ........................................................................................................................... 31 5.4 los (loss of signal) detector: .......................................................................................... ............... 32 5.4.1 ds3/sts-1 los condition: ............................................................................................... ..................................... 32 d isabling alos/dlos d etection : .......................................................................................................... 32 5.4.2 e3 los condition:...................................................................................................... ............................................ 32 t able 10: t he alos (a nalog los) d eclaration and c learance t hresholds for a given setting of reqen (ds3 and sts- 1 a pplications ) .............................................................................................................................. .............................. 32 f igure 19. l oss o f s ignal d efinition for e3 as per itu-t g.775.......................................................................................... 33 f igure 20. l oss of s ignal d efinition for e3 as per itu-t g.775. ......................................................................................... 33 5.4.3 muting the recovered data with los condition:.......................................................................... ......... 34 6.0 jitter: ................................................................................................................. ............................... 35 6.1 jitter tolerance - receiver: ............................................................................................ .................. 35 6.1.1 ds3/sts-1 jitter tolerance requirements:............................................................................... ................ 35 f igure 21. j itter t olerance m easurements ........................................................................................................................... 35 6.1.2 e3 jitter tolerance requirements:...................................................................................... ....................... 36 f igure 22. i nput j itter t olerance f or ds3/sts-1................................................................................................................ 36 f igure 23. i nput j itter t olerance for e3 ............................................................................................................................ .. 36 6.2 jitter transfer - receiver/transmitter: ................................................................................. ..... 37 6.3 jitter generation: ...................................................................................................... ............................ 37 6.4 jitter attenuator: ...................................................................................................... ........................... 37 t able 11: j itter a mplitude versus m odulation f requency (j itter t olerance ) .................................................................. 37 t able 12: j itter t ransfer s pecification /r eferences ............................................................................................................ 37 t able 13: j itter t ransfer p ass m asks ............................................................................................................................... ..... 38 f igure 24. j itter t ransfer r equirements and j itter a ttenuator p erformance ................................................................ 38 7.0 serial host interface: .................................................................................................. ............. 39 t able 14: f unctions of shared pins ............................................................................................................................... .......... 39 t able 15: r egister m ap and b it n ames ............................................................................................................................... ..... 39 t able 16: r egister m ap d escription - g lobal ......................................................................................................................... 40 t able 17: r egister m ap and b it n ames - c hannel 0 r egisters .............................................................................................. 41 t able 18: r egister m ap and b it n ames - c hannel 1 r egisters .............................................................................................. 41 t able 19: r egister m ap and b it n ames - c hannel 2 r egisters .............................................................................................. 42 t able 20: r egister m ap and b it n ames - c hannel 3 r egisters .............................................................................................. 42 t able 21: r egister m ap d escription ............................................................................................................................... ......... 43 8.0 diagnostic features: .................................................................................................... ............. 48 8.1 prbs generator and detector: ............................................................................................ ............ 48 8.2 loopbacks: .............................................................................................................. .................................. 48 8.2.1 analog loopback:....................................................................................................... ........................................ 48 f igure 25. prbs mode................................................................................................................ ............................................. 48 8.2.2 digital loopback:...................................................................................................... .......................................... 49 f igure 26. a nalog l oopback ............................................................................................................................... ...................... 49 f igure 27. d igital l oopback ............................................................................................................................... ....................... 49 8.2.3 remote loopback:....................................................................................................... ........................................ 50 8.3 transmit all ones (taos): ............................................................................................... ..................... 50 f igure 28. r emote l oopback ............................................................................................................................... ..................... 50 f igure 29. t ransmit a ll o nes (taos)........................................................................................................................ .............. 50 appendix b .................................................................................................................... 5 1 t able 22: transformer recommendations .............................................................................................. .................... 51 t able 23: t ransformer d etails ............................................................................................................................... ................. 51 ordering information ........................................................................................................... ....... 53 p ackage d imensions - 176 pin package .................................................................................................. 53 r evisions ............................................................................................................................... .................... 54
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 4 pin descriptions ( by function ) transmit interface p in #s ignal n ame t ype d escription 52 49 169 172 txon_0 txon_1 txon_2 txon_3 i transmitter on input - channel 0: transmitter on input - channel 1: transmitter on input - channel 2: transmitter on input - channel 3: these pins are active only when the corresponding txon bit is set. table below shows the status of the transmitter based on thetxon bit and txon pin settings. n otes : 1. these pins will be active and can control the ttip and tring outputs only when the txon_n bits in the channel register are set . 2. when transmitters are turned off the ttip and tring outputs are tri- stated. 3. these pins are internally pulled up. 46 34 175 11 txclk_0 txclk_1 txclk_2 txclk_3 i transmit clock input for tpos and tneg - channel 0: transmit clock input for tpos and tneg - channel 1: transmit clock input for tpos and tneg - channel 2: transmit clock input for tpos and tneg - channel 3: the frequency accuracy of this input clock must be of nominal bit rate 20 ppm. the duty cycle can be 30%-70%. by default, input data is sampled on the falling edge of txclk when input data is changing on the rising edge of txclk.. 44 32 1 13 tneg_0 tneg_1 tneg_2 tneg_3 i transmit negative data input - channel 0: transmit negative data input - channel 1: transmit negative data input - channel 2: transmit negative data input - channel 3: in dual-rail mode, these pins are sampled on the falling or rising edge of txclk_n . n otes : 1. these input pins are ignored and must be grounded if the transmitter section is configured to accept single-rail data from the terminal equipment. bit 0 0 transmitter status off off pin 0 1 1 1 off on 0 1 host/hw 1 1 1 1 x off 0 0 x on 1 0
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 5 45 33 176 12 tpos_0 tpos_1 tpos_2 tpos_3 i transmit positive data input - channel 0 : transmit positive data input - channel 1 : transmit positive data input - channel 2 : transmit positive data input - channel 3 : by default sampled on the falling edge of txclk 41 29 4 16 ttip_0 ttip_1 ttip_2 ttip_3 o transmit ttip output - channel 0: transmit ttip output - channel 1: transmit ttip output - channel 2: transmit ttip output - channel 3: these pins along with tring transmit bipolar signals to the line using a 1:1 transformer. 39 27 6 18 tring_0 tring_1 tring_2 tring_3 o transmit ring output - channel 0: transmit ring output - channel 1: transmit ring output - channel 2: transmit ring output - channel 3: these pins along with ttip transmit bipolar signals to the line using a 1:1 trans- former. 50 47 171 174 txlev_0 txlev_1 txlev_2 txlev_3 i transmit line build-out enable/disable select - channel 0: transmit line build-out enable/disable select - channel 1: transmit line build-out enable/disable select - channel 2: transmit line build-out enable/disable select - channel 3: these input pins are used to select the transmit line build-out circuit of chan- nel n. setting these pins to "high" disables the line build-out circuit of channel n. in this mode, channel n outputs partially-shaped pulses onto the line via the ttip_n and tring_n output pins. setting these pins to "low" enables the line build-out circuit of channel n. in this mode, channel n outputs shaped pulses onto the line via the ttip_n and tring_n output pins. to comply with the isolated dsx-3/stsx-1 pulse template requirements per bellcore gr-499-core or bellcore gr-253-core: 1. set these pins to "1" if the cable length between the cross-connect and the transmit output of channel is greater than 225 feet. 2. set these pins to "0" if the cable length between the cross-connect and the transmit output of channel is less than 225 feet. these pins are active only if the following two conditions are true: a. the XRT75L04 is configured to operate in either the ds3 or sonet sts-1 modes. b. the XRT75L04 is configured to operate in the hardware mode. n otes : 1. these pins are internally pulled down. 2. if the XRT75L04 is configured in host mode, these pins should be tied to gnd. transmit interface p in #s ignal n ame t ype d escription
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 6 88 txclkinv/ sclk i hardware mode: transmit clock invert host mode: serial clock input: function of this pin depends on whether the XRT75L04 is configured to operate in hardware mode or host mode. in hardware mode, setting this input pin high configures all three transmitters to sample the tpos_n and tneg_n data on the rising edge of the txclk_n . n otes : 1. if the XRT75L04 is configured in host mode, this pin functions as sclk input pin (please refer to the pin description for microprocessor interface). 152 txmon i transmitter monitor: when this pin is pulled high, mtip and mring are connected internally to ttip and tring and allows self monitoring of the transmitter. 51 48 170 173 ta o s _ 0 ta o s _ 1 ta o s _ 2 ta o s _ 3 i transmit all ones select - channel 0: transmit all ones select - channel 1: transmit all ones select - channel 2: transmit all ones select - channel 3: a high" on this pin causes the transmitter section of channel_n to generate and transmit a continuous ami all 1s pattern onto the line. the frequency of this 1s pattern is determined by txclk_n. n otes : 1. this input pin is ignored if the XRT75L04 is operating in the host mode and should be tied to gnd. 2. analog loopback and remote loopback have priority over request. 3. this pin is internally pulled down. transmit interface p in #s ignal n ame t ype d escription
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 7 receive interface p in # s ignal n ame t ype d escription 78 71 143 150 rxclk_0 rxclk_1 rxclk_2 rxclk_3 o receive clock output - channel 0: receive clock output - channel 1: receive clock output - channel 2: receive clock output - channel 3: by default, rpos and rneg data sampled on the rising edge rxclk.. set the rxclkinv bit to sample rpos/rneg data on the falling edge of rxclk 80 73 141 148 rpos_0 rpos_1 rpos_2 rpos_3 o receive positive data output - channel 0: receive positive data output - channel 1: receive positive data output - channel 2: receive positive data output - channel 3: n ote : if the b3zs/hdb3 decoder is enabled in single-rail mode, then the zero suppression patterns in the incoming line signal (such as: "00v", "000v", "b0v", "b00v") is removed and replaced with 0. 79 72 142 149 rneg_0/lcv_0 rneg_1/lcv_1 rneg_2/lcv_2 rneg_3/lcv_3 o receive negative data output/line code violation indicator - channel 0: receive negative data output/line code violation indicator - channel 1: receive negative data output/line code violation indicator - channel 2: receive negative data output/line code violation indicator - channel 3: in dual rail mode, a negative pulse is output through rneg. line code violation indicator - channel n: if configured in single rail mode then line code violation will be output. 97 106 124 115 rring_0 rring_1 rring_2 rring_3 i receive ring input - channel 0: receive ring input - channel 1: receive ring input - channel 2: receive ring input - channel 3: these pins along with rtip receive the bipolar line signal from the remote ds3/ e3/sts-1 terminal. 98 107 123 114 rtip_0 rtip_1 rtip_2 rtip_3 i receive tip input - channel 0: receive tip input - channel 1: receive tip input - channel 2: receive tip input - channel 3: these pins along with rring receive the bipolar line signal from the remote ds3/e3/sts-1 terminal.
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 8 91 100 130 121 reqen_0 reqen_1 reqen_2 reqen_3 i receive equalizer on/off - channel 0: receive equalizer on/off- channel 1: receive equalizer on/off - channel 2: receive equalier on/off- channel 3: tie these pins high to enable the receive equalizer. n otes : 1. this input pin is ignored and should be connected to gnd if the XRT75L04 is operating in the host mode 2. this pin is internally pulled down. 87 rxon/ sdi i hardware mode: receiver turn on input host mode: serial data input: function of this pin depends on whether the XRT75L04 is configured to operate in hardware mode or host mode. in hardware mode, setting this input pin high turns on and enables the receivers of all three channels. n otes : 1. if the XRT75L04 is configured in host mode, this pin functions as sdi input pin (please refer to the pin description for microprocessor interface) 2. this pin is internally pulled down. 86 rxclkinv/ cs i hardware mode: rxclk invert host mode: chip select : function of this pin depends on whether the XRT75L04 is configured to operate in hardware mode or host mode. in hardware mode, setting this input pin high configures the receiver sec- tion of all channels to invert the rxclk_n output signals and outputs the recov- ered data via rpos_n and rneg_n on the falling edge of rxclk_n. n ote : if the XRT75L04 is configured in host mode, this pin functions as cs input pin (please refer to the pin description for microprocessor interface). 85 rxmon/ sdo i hardware mode: receive monitoring mode host mode: serial data output: in hardware mode, when this pin is tied high all 4 channels configure into monitoring channels. in the monitoring mode, the receiver is capable of moni- toring the signals with 20 db flat loss plus 6 db cable attenuation. this allows monitoring very weak signal before declaring los. in host mode each channel can be independently configured to be a monitor- ing channel by setting the bits in the channel control registers. n ote : if the XRT75L04 is configured in host mode, this pin functions as sdo pin (please refer to the pin description for the microprocessor interface). receive interface p in # s ignal n ame t ype d escription
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 9 clock interface p in # s ignal n ame t ype d escription 69 e3clk i e3 clock input (34.368 mhz 20 ppm): if any of the channels is configured in e3 mode, a reference clock 34.368 mhz is applied on this pin. n ote : in single frequency mode, this reference clock is not required. 67 ds3clk i ds3 clock input (44.736 mhz 20 ppm): if any of the channels is configured in ds3 mode, a reference clock 44.736 mhz. is applied on this pin. n ote : in single frequency mode, this reference clock is not required. 65 sts-1clk/ 12m i sts-1 clock input (51.84 mhz 20 ppm): if any of the channels is configured in sts-1 mode, a reference clock 51.84 mhz is applied on this pin.. in single frequency mode, a reference clock of 12.288 mhz 20 ppm is con- nected to this pin and the internal clock synthesizer generates the appropriate clock frequencies based on the configuration of the channels in e3, ds3 or sts-1. 156 sfm_en i single frequency mode enable: tie this pin high to enable the single frequency mode. a reference clock of 12.288 mhz 20 ppm is applied. this offers the flexibility of using a low cost ref- erence clock and configures the board for either e3 or ds3 or sts-1 without the need to change any components on the board. in the single frequency mode (sfm) an output clock is provided for each chan- nel if the clk_en bit is set thus eliminating the need for a separate clock source for the framer. tie this pin low if single frequency mode is not selected. in this case, the appropriate reference clocks must be provided. n ote : this pin is internally pulled down 57 54 164 167 clkouten_0 clkouten_1 clkouten_2 clkouten_3 o clock output enable for channel 0 clock output enable for channel 1 clock output enable for channel 2 clock output enable for channel 3 pull this pin high to output low jitter clock on the clkout_n pins. n otes : 1. this clock output is only available in sfm mode. 2. the maximum drive capability for the clockouts is 16 ma. 60 63 161 158 clkout_0 clkout_1 clkout_2 clkout_3 o clock output for channel 0 clock output for channel 1 clock output for channel 2 clock output for channel 3 if clkouten_n pin is high, low jitter clock is output for each channel. fre- quency of these clocks is based on the mode (e3,ds3 or sts-1) the channels are configured. this eliminates the need for a separate clock source for the framer. n otes : 1. this clock output is only available in sfm mode. 2. the maximum drive capability for the clockouts is 16 ma.
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 10 control and alarm interface p in # s ignal n ame t ype d escription 36 24 9 21 mring_0 mring_1 mring_2 mring_3 i monitor ring input - channel 0: monitor ring input - channel 1: monitor ring input - channel 2: monitor ring input - channel 3: the bipolar line output signal from tring_n is connected to this pin via a 270 w resistor to check for line driver failure. n ote : this pin is internally pulled "low". 37 25 8 20 mtip_0 mtip_1 mtip_2 mtip_3 i monitor tip input - channel 0: monitor tip input - channel 1: monitor tip input - channel 2: monitor tip input - channel 3: the bipolar line output signal from ttip_n is connected to this pin via a 270- ohm resistor to check for line driver failure. n ote : this pin is internally pulled "low". 42 30 3 15 dmo_0 dmo_1 dmo_2 dmo_3 o drive monitor output - channel 0: drive monitor output - channel 1: drive monitor output - channel 2: drive monitor output - channel 3: if mtip_n and mring_n has no transition pulse for 128 32 txclk_n cycles, dmo_n goes high to indicate the driver failure. dmo_n output stays high until the next ami signal is detected. 83 76 138 145 rlos_0 rlos_1 rlos_2 rlos_3 o receive loss of signal output indicator - channel 0: receive loss of signal output indicator - channel 1: receive loss of signal output indicator - channel 2: receive loss of signal output indicator - channel 3: this output pin toggles "high" if the receiver has detected a loss of signal con- dition. the criteria for declaring /clearing an los condition depends upon whether it is operating in the e3 or sts-1/ds3 mode. 82 75 139 146 rlol_0 rlol_1 rlol_2 rlol_3 o receive loss of lock output indicator - channel 0: receive loss of lock output indicator - channel 1: receive loss of lock output indicator - channel 2: receive loss of lock output indicator - channel 3: this output pin toggles "high" if a loss of lock condition is detected. lol (loss of lock) condition occurs if the recovered clock frequency deviates from the reference clock frequency (available at either e3clk or ds3clk or sts- 1clk input pins) by more than 0.5%. 111 rxa **** external resistor of 3 k w 1%. should be connected between rxa and rxb for internal bias. 110 rxb **** external resistor of 3k w 1%. should be connected between rxa and rxb for internal bias.
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 11 131 ict i in-circuit test input : setting this pin "low" causes all digital and analog outputs to go into a high- impedance state to allow for in-circuit testing. for normal operation, tie this pin "high". n ote : this pin is internally pulled high". 132 test **** factory test pin n ote : this pin must be connected to gnd for normal operation. 84 losmut/ int i/o hardware mode: mute-upon-los enable input host mode: interrupt ouput: in hardware mode, setting pin high configures all three channels to mute the recovered data on the rpos_n and rneg_n whenever one of the channels declares an los condition. rpos_n and rneg_n outputs are pulled low. muting of the output data can be configured/controlled on a per channel basis in host mode. n ote : if the XRT75L04 is configured in host mode, this pin functions as int pin (please refer to the pin description for the microprocessor interface). control and alarm interface
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 12 94 103 127 118 llb_0 llb_1 llb_2 llb_3 i local loop-back - channel 0 : local loop-back - channel 1 : local loop-back - channel 2 : local loop-back - channel 3 : this input pin along with rlb_n configures different loop-back modes. a "high" on this pin with rlb_n set to "low" configures channel_n to operate in the analog local loop-back mode. a "high" on this pin with rlb_n set to "high" configures channel_n to operate in the digital local loop-back mode. n ote : this input pin is ignored and should be connected to gnd if the XRT75L04 is operating in the host mode. 95 104 126 117 rlb_0 rlb_1 rlb_2 rlb_3 i remote loop-back - channel 0: remote loop-back - channel 1: remote loop-back - channel 2: remote loop-back - channel 3: this input pin along with llb_n configures different loop-back modes. a "high" on this pin with llb_n set to low" configures channel_n to operate in the remote loop-back mode. a "high" on this pin with llb_n set to "high" configures channel_n to operate in the digital local loop-back mode. n ote : this input pin is ignored and should be connected to gnd if the XRT75L04 is operating in the host mode. operating mode select p in #s ignal n ame t ype d escription 134 host/(hw )i host/hardware mode select: tie this pin high to configure in host mode. tie this low to configure in hardware mode. when configured in host mode, the states of many of the discrete input pins are controlled by internal register bits. n ote : this pin is internally pulled up. control and alarm interface rlb_n 0 0 loopback mode normal operation analog local llb_n 0 1 1 1 remote digital 0 1
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 13 92 101 129 120 e3_0 e3_1 e3_2 e3_3 i e3 mode select input a "high" on this pin configures channel_n to operate in e3 mode. a "low" on this pin configures channel_n to operate in either sts-1 or ds3 mode depending on the settings on pins 93,102,128 and 119 pins. n otes : 1. this pin is internally pulled down 2. this pin is ignored and should be tied to gnd if configured to operate in host mode. 93 102 128 119 sts-1/ds3 _0 sts-1/ds3 _1 sts-1/ds3 _2 sts-1/ds3 _3 i sts-1/ds3 select input a high on these pins configures the channel_n to operate in sts-1 mode. a low on these pins configures the channel_n to operate in ds3 mode. these pins are ignored if the e3_n pins are set to high. n otes : 1. this pin is internally pulled down 2. this pin is ignored and should be tied to gnd if configured to operate in host mode. 136 sr/dr i single-rail/dual-rail select: setting this high configures both the transmitter and receiver to operate in single-rail mode and also enables the b3zs/hdb3 encoder and decoder. in single-rail mode, tneg_n pin should be grounded. setting this low configures both the transmitter and receiver to operate in dual-rail mode and disables the b3zs/hdb3 encoder and decoder. n ote : this pin is internally pulled down. serial microprocessor interface 86 cs rxclkinv i microprocessor serial interface - chip select toggle this pin low to enable the communication with the microprocessor serial interface.( see figures 10 & 11) n ote : if configured in hardware mode, this pin functions as rxclkinv. 88 sclk txclkinv i serial interface clock input the data on the sdi pin is sampled on the rising edge of this signal. addition- ally, during read operations the microprocessor serial interface updates the sdo output on the falling edge of this signal. n ote : if configured in hardware mode, this pin functions as txclkinv. 87 sdi rxon i serial data input: data is serially input through this pin. the input data is sampled on the rising edge of the sclk pin (pin 88). n otes : 1. this pin is internally pulled down 2. if configured in hardware mode, this pin functions as rxon. 85 sdo rxmon i/o serial data output: this pin serially outputs the contents of the specified command register during read operations. the data is updated on the falling edge of the sclk and this pin is tri-stated upon completion of data transfer. n ote : if configured in hardware mode, this pin functions as rxmon. operating mode select
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 14 84 int losmut i/o interrupt output: this pin functions as interrupt output for serial interface. a transition to low indicates that an interrupt has been generated by the serial interface. the inter- rupt function can be disabled by setting the interrupt enable bit to 0 in the channel control register. n otes : 1. in hardware mode, this pin functions as losmut. 2. this pin will remain asserted low until the interrupt is serviced. 133 reset i register reset: setting this input pin "low" causes the XRT75L04 to reset the contents of the command registers to their default settings and default operating configuration n ote : this pin is internally pulled up. jitter attenuator interface p in #s ignal n ame t ype d escription 154 ja1 i jitter attenuator select 1: in hardware mode, this pin along with the pin ja0 configures the jitter attenua- tor as shown in the table. n ote : this pin is internally pulled down. 155 jatx/rx i jitter attenuator path select in hardware mode, tie this pin high to select the jitter attenuator in the trans- mit path . connect this pin low to select the jitter attenuator in the receive path. this applies to all4 channels. n ote : this pin is internally pulled down. 153 ja0 i jitter attenuator select 0: in hardware mode, this pin along with pin 154 configures the jitter attenuator as shown in the above table f. n ote : this pin is internally pulled down. analog power and ground p in #s ignal n ame t ype d escription 43 txavdd_0 **** transmitter analog 3.3 v 5% vdd - channel 0 31 txavdd_1 **** transmitter analog 3.3 v 5% vdd - channel 1 serial microprocessor interface ja0 0 0 mode 16 bit fifo 32 bit fifo ja1 0 1 1 1 128 bit fifo 0 1 disable jitter attenuator
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 15 2 txavdd_2 **** transmitter analog 3.3 v 5% vdd - channel 2 14 txavdd_3 **** transmitter analog 3.3 v 5% vdd - channel 3 35 txagnd_0 **** transmitter analog gnd - channel 0 23 txagnd_1 **** transmitter analog gnd - channel 1 10 txagnd_2 **** transmitter analog gnd - channel 2 22 txagnd_3 **** transmitter analog gnd - channel 3 96 rxavdd_0 **** receiver analog 3.3 v 5% vdd - channel 0 105 rxavdd_1 **** receiver analog 3.3 v 5% vdd - channel 1 125 rxavdd_2 **** receiver analog 3.3 v 5% vdd - channel 2 116 rxavdd_3 **** receiver analog 3.3 v 5% vdd - channel 3 99 rxagnd_0 **** receiver analog gnd - channel_0 108 rxagnd_1 **** receive analog gnd - channel 1 122 rxagnd_2 **** receive analog gnd - channel 2 113 rxagnd_3 **** receive analog gnd - channel 3 58 jaavdd_0 **** analog 3.3 v 5% vdd - channel 0 53 jaavdd_1 **** analog 3.3 v 5% vdd - channel 1 163 jaavdd_2 **** analog 3.3 v 5% vdd - channel 2 168 jaavdd_3 **** analog 3.3 v 5% vdd - channel 3 56 jaagnd_0 **** analog gnd - channel 0 55 jaagnd_1 **** analog gnd - channel 1 165 jaagnd_2 **** analog gnd - channel 2 166 jaagnd_3 **** analog gnd - channel 3 89 agnd **** analog gnd 90 agnd **** analog gnd 109 refavdd **** analog 3.3 v 5% vdd - reference 112 refagnd **** reference gnd analog power and ground p in #s ignal n ame t ype d escription
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 16 digital power and ground p in #s ignal n ame t ype d escription 40 txvdd_0 **** transmitter 3.3 v 5% vdd channel 0 28 txvdd_1 **** transmitter 3.3 v 5% vdd channel 1 5 txvdd_2 **** transmitter 3.3 v 5% vdd channel 2 17 txvdd_3 **** transmitter 3.3 v 5% vdd channel 3 38 txgnd_0 **** transmitter gnd - channel 0 26 txgnd_1 **** transmitter gnd - channel 1 7 txgnd_2 **** transmitter gnd - channel 2 19 txgnd_3 **** transmitter gnd - channel 3 77 dvdd_0 **** receiver 3.3 v 5% vdd - channel 0 70 dvdd_1 **** receiver 3.3 v 5% vdd - channel 1 144 dvdd_2 **** receiver 3.3 v 5% vdd - channel 2 151 dvdd_3 **** receiver 3.3 v 5% vdd - channel 3 81 dgnd_0 **** receiver digital gnd - channel 0 74 dgnd_1 **** receiver digital gnd - channel 1 140 dgnd_2 **** receiver digital gnd - channel 2 147 dgnd_3 **** receiver digital gnd - channel 3 59 jadvdd_0 **** vdd 3.3 v 5% 64 jadvdd_1 **** vdd 3.3 v 5% 162 jadvdd_2 **** vdd 3.3 v 5% 157 jadvdd_3 **** vdd 3.3 v 5% 61 jadgnd_0 **** gnd 62 jadgnd_1 **** digital gnd 160 jadgnd_2 **** digital gnd 159 jadgnd_3 **** digital gnd 68 clkvdd **** vdd 3.3 v 5% 66 clkgnd **** digital gnd
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 17 1.0 electrical characteristics n otes : 1. exposure to or operating near the min or max values for extended period may cause permanent failure and impair reliability of the device. 2. esd testing method is per mil-std-883d,m-3015.7 n otes : 1. not applicable for pins with pull-up or pull-down resistors. 2. the digital inputs and outputs are ttl 5v compliant. t able 1: a bsolute m aximum r atings symbol p arameter min max units comments v dd supply voltage -0.5 5.0 v note 1 v in input voltage at any pin -0.5 5+0.5 v note 1 i in input current at any pin 100 ma note 1 s temp storage temperature -65 150 0 c note 1 a temp ambient operating temperature -40 85 0 c linear airflow 0 ft./min thetaja thermal resistance 20 0 c/w linear air flow 0ft/min thetajc 6 0 c/w m levl exposure to moisture 5 level eia/jedec jesd22-a112-a esd esd rating 2000 v note 2 t able 2: dc e lectrical c haracteristics : symbol p arameter min . typ . max . units dv dd digital supply voltage 3.135 3.3 3.465 v av dd analog supply voltage 3.135 3.3 3.465 v i cc supply current (measured while transmitting and receiving all 1s) 450 520 ma p dd power dissipation 1.5 1.8 w v il input low voltage 0.8 v v ih input high voltage 2.0 5.0 v v ol output low voltage, i out = - 4ma 0.4 v v oh output high voltage, i out = 4 ma 2.4 v i l input leakage current 1 10 m a c i input capacitance 10 pf c l load capacitance 10 pf
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 18 2.0 timing characteristics f igure 3. t ypical interface between terminal equipment and the XRT75L04 ( dual - rail data ) f igure 4. t ransmitter t erminal i nput t iming symbol parameter min typ max units txclk duty cycle e3 ds3 sts-1 30 50 34.368 44.736 51.84 70 % mhz mhz mhz t rtx txclk rise time (10% to 90%) 4 ns t ftx txclkfall time (10% to 90%) 4 ns t tsu tpos/tneg to txclk falling set up time 3 ns t tho tpos/tneg to txclk falling hold time 3 ns t tdy ttip/tringto txclk rising propagation delay time 8 ns terminal equipment (e3/ds3 or sts-1 framer) exar e3/ds3/sts-1 liu transmit logic block txpos txneg txlineclk tpdata tndata txclk tpos or tneg ttip or tring txclk t tsu t tho t rtx t ftx t tdy
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 19 f igure 5. r eceiver d ata output and code violation timing symbol parameter min typ max units rxclk duty cycle e3 ds3 sts-1 45 50 34.368 44.736 51.84 55 % mhz mhz mhz t rrx rxclk rise time (10% o 90%) 2 4 ns t frx rxclkfalling time (10% to 90%) 2 4 ns t co rxclkto rpos/rneg delay time 4 ns t lcvo rxclk to rising edge of lcv output delay 2.5 ns f igure 6. t ransmit i nterface circuit for e3, ds3 and sts-1 r ates rxclk t rrx t frx rpos or rneg lcv t lcvo t co 3 k w + 1% ttip(n) tring(n) XRT75L04 (0nly one channel shown) 1:1 r3 75 w txpos(n) txneg(n) txlineclk(n) tpos(n) tneg(n) txclk(n) rxb rxa 31.6 w + 1% 31.6 w +1% r1 r2
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 20 3.0 line side characteristics: 3.1 e3 line side parameters: the XRT75L04 line output at the transformer output meets the pulse shape specified in itu-t g.703 for 34.368 mbits/s operation. the pulse mask as specified in itu-t g.703 for 34.368 mbits/s is shown in figure 7. n ote : the above values are at ta = 2 5 0 c and v dd = 3.3 v 5%. f igure 7. p ulse m ask for e3 (34.368 mbits / s ) interface as per itu - t g.703 t able 3: e3 t ransmitter line side output and receiver line side input specifications parameter min typ max units t ransmitter line side output characteristics transmit output pulse amplitude (measured at secondary of the transformer) 0.90 1.00 1.10 v pk transmit output pulse amplitude ratio 0.95 1.00 1.05 transmit output pulse width 12.5 14.55 16.5 ns r eceiver line side input characteristics receiver sensitivity (length of cable) 1200 feet interference margin -20 -16 db jitter tolerance @ jitter frequency 800khz 0.15 0.30 ui pp signal level to declare loss of signal -35 db signal level to clear loss of signal -15 db occurence of los to los declaration time 10 255 ui termination of los to los clearance time 10 255 ui 0% 50% v = 100% 14.55ns nominal pulse 12.1ns (14.55 - 2.45) 17 ns (14.55 + 2.45) 8.65 ns 10% 10% 20%
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 21 f igure 8. b ellcore gr-253 core t ransmit o utput p ulse t emplate for sonet sts-1 a pplications t able 4: sts-1 p ulse m ask e quations t ime in u nit i ntervals n ormalized a mplitude lower curve -0.85 < t < -0.38 - 0.03 -0.38 < t < 0.36 0.36 < t < 1.4 - 0.03 upper curve -0.85 < t < -0.68 0.03 -0.68 < t < 0.26 0.26 < t < 1.4 0.1 + 0.61 x e -2.4[t-0.26] sts-1 pulse template -0.2 0 0.2 0.4 0.6 0.8 1 1.2 -1 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 1.2 1.3 1.4 time, in ui normalized amplitude lower curve upper curve 0.5 1 p 2 -- - 1 t 0.18 ---------- ? ? 0.03 C + ? sin + 0.5 1 p 2 -- - 1 t 0.34 ---------- ? ? 0.03 ++ ? sin +
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 22 n ote : the above values are at ta = 2 5 0 c and v dd = 3.3 v 5%. t able 5: sts-1 t ransmitter l ine s ide o utput and r eceiver l ine s ide i nput s pecifications (gr-253) p arameter m in t yp m ax u nits t ransmitter line side output characteristics transmit output pulse amplitude (measured with txlev = 0) 0.65 0.75 0.90 v pk transmit output pulse amplitude (measured with txlev = 1) 0.90 1.00 1.10 v pk transmit output pulse width 8.6 9.65 10.6 ns transmit output pulse amplitude ratio 0.90 1.00 1.10 r eceiver line side input characteristics receiver sensitivity (length of cable) 900 1100 feet jitter tolerance @ jitter frequency 400 khz 0.15 0.79 ui pp f igure 9. t ransmit o uput p ulse t emplate for ds3 as per b ellcore gr-499 ds3 pulse template -0.2 0 0.2 0.4 0.6 0.8 1 1.2 -1 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 1.2 1.3 1.4 tim e, in ui normalized amplitude lower curve upper curve
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 23 n ote : the above values are at ta = 2 5 0 c and v dd = 3.3v 5%. t able 6: ds3 p ulse m ask e quations t ime in u nit i ntervals n ormalized a mplitude lower curve -0.85 < t < -0.36 - 0.03 -0.36 < t < 0.36 0.36 < t < 1.4 - 0.03 upper curve -0.85 < t < -0.68 0.03 -0.68 < t < 0.36 0.36 < t < 1.4 0.08 + 0.407 x e -1.84[t-0.36] t able 7: ds3 t ransmitter l ine s ide o utput and r eceiver l ine s ide i nput s pecifications (gr-499) p arameter m in t yp m ax u nits t ransmitter line side output characteristics transmit output pulse amplitude (measured with txlev = 0) 0.65 0.75 0.85 v pk transmit output pulse amplitude (measured with txlev = 1) 0.90 1.00 1.10 v pk transmit output pulse width 10.10 11.18 12.28 ns transmit output pulse amplitude ratio 0.90 1.00 1.10 r eceiver line side input characteristics receiver sensitivity (length of cable) 900 1100 feet jitter tolerance @ 400 khz (cat ii) 0.60 ui pp 0.5 1 p 2 -- - 1 t 0.18 ---------- ? ? 0.03 C + ? sin + 0.5 1 p 2 -- - 1 t 0.34 ---------- ? ? 0.03 ++ ? sin +
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 24 f igure 10. m icroprocessor s erial i nterface s tructure f igure 11. t iming d iagram for the m icroprocessor s erial i nterface d0 d1 d2 d7 d6 d5 d4 d3 high z sdo a0 d0 r/w d1 0 a5 a4 a3 a2 a1 d7 d6 d5 d4 d3 d2 sdi 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 sclk cs high z sdi r/w a1 a0 cs sclk cs sclk sdi sdo d0 d1 d2 d7 t 21 t 22 t 23 t 24 t 26 t 27 t 28 t 29 t 30 t 31 t 32 hi-z hi-z t 25
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 25 t able 8: m icroprocessor s erial i nterface t imings ( t a = 25 0 c, v dd =3.3v 5% and load = 10 p f) s ymbol p arameter m in .t yp .m ax u nits t 21 cs low to rising edge of sclk 5 ns t 22 sdi to rising edge of sclk 5 ns t 23 sdi to rising edge of sclk hold time 5 ns t 24 sclk "low" time 25 ns t 25 sclk "high" time 25 ns t 26 sclk period 50 ns t 27 falling edge of sclk to rising edge of cs 0ns t 28 cs "inactive" time 50 ns t 29 falling edge of sclk to sdo valid time 20 ns t 30 falling edge of sclk to sdo invalid time 10 ns t 31 rising edge of cs to high z 10 ns t 32 rise/fall time of sdo output 5 ns
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 26 4.0 the transmitter section: the transmitter section, within each channel, accepts ttl/cmos level signals from the terminal equipment in selectable data formats. convert the cmos level b3zs or hdb3 encoded data into pulses with shapes that are compliant with the various industry standard pulse template requirements. figures 7, 8 and 9 illustrate the pulse template requirements. encode the un-encoded nrz data into either b3zs format (for ds3 or sts-1) or hdb3 format (for e3) and convert to pulses with shapes and width that are compliant with industry standard pulse template requirements. figures 7, 8 and 9 illustrate the pulse template requirements. in single-rail or un-encoded non-return-to-zero (nrz) mode, data is input via tpos_n pins while tneg_n pins must be grounded. the nrz or single-rail mode is selected when the sr/dr input pin is high (in hardware mode) or bit 0 of channel control register is 1 (in host mode). figure 12 illustrates the single-rail or nrz format. in dual-rail mode, data is input via tpos_n and tneg_n pins. tpos_n contains positive data and tneg_n contains negative data. the sr/dr input pin = low (in hardware mode) or bit 0 of channel register = 0 (in host mode) enables the dual-rail mode. figure 13 illustrates the dual-rail data format. 4.1 t ransmit c lock : the transmit clock applied via txclk_n pins, for the selected data rate (for e3 = 34.368 mhz, ds3 = 44.736 mhz or sts-1 = 51.84 mhz), is duty cycle corrected by the internal pll circuit to provide a 50% duty cycle clock to the pulse shaping circuit. this allows a 30% to 70% duty cycle transmit clock to be supplied. 4.2 b3zs/hdb3 e ncoder : when the single-rail (nrz) data format is selected, the encoder block encodes the data into either b3zs format (for either ds3 or sts-1) or hdb3 format (for e3). 4.2.1 b3zs encoding: an example of b3zs encoding is shown in figure 14. if the encoder detects an occurrence of three consecutive zeros in the data stream, it is replaced with either b0v or 00v, where b refers to bipolar pulse that f igure 12. s ingle -r ail or nrz d ata f ormat (e ncoder and d ecoder are e nabled ) f igure 13. d ual -r ail d ata f ormat ( encoder and decoder are disabled ) txclk tpos data 1 1 0 txclk tpos tneg data 1 1 0
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 27 is compliant with the alternating polarity requirement of the ami (alternate mark inversion) line code and v refers to a bipolar violation (e.g., a bipolar pulse that violates the ami line code). the substitution of b0v or 00v is made so that an odd number of bipolar pulses exist between any two consecutive violation (v) pulses. this avoids the introduction of a dc component into the line signal. 4.2.2 hdb3 encoding: an example of the hdb3 encoding is shown in figure 15. if the hdb3 encoder detects an occurrence of four consecutive zeros in the data stream, then the four zeros are substituted with either 000v or b00v pattern. the substitution code is made in such a way that an odd number of bipolar (b) pulses exist between any consecutive v pulses. this avoids the introduction of dc component into the analog signal. n otes : 1. when dual-rail data format is selected, the b3zs/hdb3 encoder is automatically disabled. 2. in dual-rail format, the bipolar violations in the incoming data stream is converted to valid data pulses. 3. encoder and decoder is enabled only in single-rail mode. 4.3 t ransmit p ulse s haper : the transmit pulse shaper converts the b3zs encoded digital pulses into a single analog alternate mark inversion (ami) pulse that meet the industry standard mask template requirements for sts-1 and ds3. see figures 8 and 9. for e3 mode, the pulse shaper converts the hdb3 encoded pulses into a single full amplitude square shaped pulse with very little slope. this is illustrated in figure 7. the pulse shaper block also includes a transmit build out circuit, which can either be disabled or enabled by setting the txlev_n input pin high or low (in hardware mode) or setting the txlev_n bit to 1 or 0 in the control register (in host mode). f igure 14. b3zs e ncoding f ormat f igure 15. hdb3 e ncoding f ormat 000 1 1 1 1 1 1 1 v b v 1 0 00 00 0 0 0 0 0 0 0 0 000 v bv 0 00 tclk line signal tpdata 0 0 000 1 1 1 1 1 1 1 v b v 1 0 00 00 0 0 0 0 0 0 0 0 00 v 0 00 tclk line signal tpdata
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 28 for ds3/sts-1 rates, the transmit build out circuit is used to shape the transmit waveform that ensures that transmit pulse template requirements are met at the cross-connect system. the distance between the transmitter output and the cross-connect system can be between 0 to 450 feet. for e3 rate, since the output pulse template is measured at the secondary of the transformer and since there is no cross-connect system pulse template requirements, the transmit build out circuit is always disabled. 4.3.1 guidelines for using transmit build out circuit: if the distance between the transmitter and the dsx3 or stsx-1, cross-connect system, is less than 225 feet, enable the transmit build out circuit by setting the txlev_n input pin low (in hardware mode) or setting the txlev_n control bit to 0 (in host mode). if the distance between the transmitter and the dsx3 or stsx-1 is greater than 225 feet, disable the transmit build out circuit. 4.3.2 interfacing to the line: the differential line driver increases the transmit waveform to appropriate level and drives into the 75 w load as shown in figure 6. 4.4 transmit drive monitor: this feature is used for monitoring the transmit line for occurrence of fault conditions such as a short circuit on the line or a defective line driver. to activate this function, connect mtip_n pins to the ttip_n lines via a 270 w resistor and mring_n pins to tring_n lines via 270 w resistor as shown in figure 16. case 1: mtip_1 connected to ttip_1 mring_1 connected to tring_1 txmon_1 (bit) = 0 as shown in the figure 18, connect mtip_1 to ttip_1 and mring_1 to tring_1 via the 270 w resistors. when no transitions on the line are detected for 128 32 txclk_1 periods, the dmo_1 pin will toggle high. the dmo_1 and the dmois_1 bits also will be set in the control register. when the transitions are detected, the dmo_1 pin will toggle back to normal state. the dmo_1 bit also will be cleared. however, the dmois_1 bit will remain set until read. if the dmoie_1 bit has been set, an interrupt will be generated. f igure 16. t ransmit d river m onitor set - up . 3k w + 1% ttip(n) tring(n) XRT75L04 (0nly one channel shown) 1:1 r3 75 w txpos(n) txneg(n) txlineclk(n) tpos(n) tneg(n) txclk(n) rxb rxa 31.6 w + 1% 31.6 w +1% r1 r2 mring(n) mtip(n) r5 270 w r4 270 w
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 29 case 2: mtip_1 connected to ttip_1 mring_1 connected to tring_1 txmon_1 (bit) = 1 this has the same effect as in case 1. it is redundant to use the mtip_1/mring_1 pins in this case. case 3: mtip_1 not connected to ttip_1 mring_1 not connected to tring_1 txmon_1 (bit) = 1 when no transitions on the ttip_1/tring_1 are detected for 128 32 txclk_1 periods, the dmo_1 pin will toggle high. the dmo_1 and the dmois_1 bits also will be set in the control register. when the transitions are detected, the dmo_1 pin will toggle back to normal state. the dmo_1 bit also will be cleared. however, the dmois_1 bit will remain set until read. if the dmoie_1 bit has been set, an interrupt will be generated. please note that the mtip_1/mring_1 pins cannot be used to monitor any other adjacent channels. case 4: mtip_m not connected to ttip_m +n where m = 0,1...3 and n = 0,1...3 mring_m not connected to tring_m +n where m = 0,1...3 and n = 0,1...3 txmon_n (bit) = 0 in this case, with external connection, any of the mtip/mring can be connected to any of the adjacent channel to be monitored. please note that if txmon_n bit is set, then monitoring will be done for that channel n. by toggling the txmon_n bit from 0 to 1, the monitoring can be switched between self-monitoring to monitoring any adajcent channels. n ote : the drive monitor circuit is only for diagnostic purpose and does not have to be used to operate the transmitter. 4.5 transmitter section on/off: the transmitter section of each channel can either be turned on or off. to turn on the transmitter, set the input pin txon_n to high (in hardware mode) or write a 1 to the txon_n control bits (in host mode) with txon_n pins tied high. when the transmitter is turned off, ttip_n and tring_n are tri-stated. n otes : 1. this feature provides support for redundancy. 2. if the XRT75L04 is configured in host mode, to permit a system designed for redundancy to quickly shut-off the defective line card and turn on the back-up line card, writing a 1 to the txon_n control bits transfers the control to txon_n pins. 5.0 the receiver section: this section describes the detailed operation of the various blocks in the receiver. the receiver recovers the ttl/cmos level data from the incoming bipolar b3zs or hdb3 encoded input pulses. 5.1 agc/equalizer: the adaptive gain control circuit amplifies the incoming analog signal and compensates for the various flat losses and also for the loss at one-half symbol rate. the agc has a dynamic range of 30 db. the equalizer restores the integrity of the signal and compensates for the frequency dependent attenuation of up to 900 feet of coaxial cable (1300 feet for e3). the equalizer also boosts the high frequency content of the signal to reduce inter-symbol interference (isi) so that the slicer slices the signal at 50% of peak voltage to generate positive and negative data. the equalizer can either be in or out by setting the reqen_n pin high or low (in hardware mode) or setting the reqen_n control bit to 1 or 0 (in host mode).
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 30 r ecommendations for e qualizer s ettings : the equalizer has two gain settings to provide optimum equalization. in the case of normally shaped ds3/ sts-1 pulses (pulses that meet the template requirements) that has been driven through 0 to 900 feet of cable, the equalizer can be left in by setting the reqen_n pin to high (in hardware mode) or setting the reqen_n control bit to 1 (in host mode). however, for square-shaped pulses such as e3 or for ds3/sts-1 high pulses (that does not meet the pulse template requirements), it is recommended that the equalizer be left out for cable length less than 300 feet by setting the reqen_n pin low (in hardware mode) or by setting the reqen_n control bit to 0 (in host mode).this would help to prevent over-equalization of the signal and thus optimize the performance in terms of better jitter transfer characteristics. n ote : the results of extensive testing indicates that even when the equalizer was left in (reqen_n = high), regardless of the cable length, the integrity of the e3 signal was restored properly over 0 to 12 db cable loss at industrial temperature. the equalizer also contain an additional 20 db gain stage to provide the line monitoring capability of the resistively attenuated signals which may have 20db flat loss. this capability can be turned on by writing a 1 to the rxmon_n bits in the control register or by setting the rxmon pin (pin 69) high. 5.1.1 interference tolerance: for e3 mode, itu-t g.703 recommendation specifies that the receiver be able to recover error-free clock and data in the presence of a sinusoidal interfering tone signal. for ds3 and sts-1 modes, the same recommendation is being used. figure 17 shows the configuration to test the interference margin for ds3/ sts1. figure 18 shows the set up for e3. f igure 17. i nterference m argin t est s et up for ds3/sts-1 ? test equipment pattern generator 2 23 -1 prbs sine wave generator n s cable simulator dut XRT75L04 attenuator ds3 = 22.368 mhz sts-1 = 25.92 mhz
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 31 5.2 clock and data recovery: the clock and data recovery circuit extracts the embedded clock, rxclk_n from the sliced digital data stream and provides the retimed data to the b3zs (hdb3) decoder. the clock recovery pll can be in one of the following two modes: t raining m ode : in the absence of input signals at rtip_n and rring_n pins, or when the frequency difference between the recovered line clock signal and the reference clock applied on the exclk_n input pins exceed 0.5%, a loss of lock condition is declared by toggling rlol_n output pin high (in hardware mode) or setting the rlol_n bit to 1 in the control registers (in host mode). also, the clock output on the rxclk_n pins are the same as the reference clock applied on exclk_n pins. d ata /c lock r ecovery m ode : in the presence of input line signals on the rtip_n and rring_n input pins and when the frequency difference between the recovered clock signal and the reference clock signal is less than 0.5%, the clock that is output on the rxclk_n out pins is the recovered clock signal. 5.3 b3zs/hdb3 decoder: the decoder block takes the output from clock and data recovery block and decodes the b3zs (for ds3 or sts-1) or hdb3 (for e3) encoded line signal and detects any coding errors or excessive zeros in the data stream. f igure 18. i nterference m argin t est s et up for e3. t able 9: i nterference m argin t est r esults m ode c able l ength (a ttenuation )i nterference t olerance e3 0 db -14 db 12 db -18 db ds3 0 feet -17 db 225 feet -16 db 450 feet -16db sts-1 0 feet -16 db 225 feet -15 db 450 feet -15 db ? test equipment noise generator signal source n s cable simulator dut XRT75L04 attenuator 1 attenuator 2
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 32 whenever the input signal violates the b3zs or hdb3 coding sequence for bipolar violation or contains three (for b3zs) or four (for hdb3) or more consecutive zeros, an active high pulse is generated on the rlcv_n output pins to indicate line code violation. n ote : in single- rail (nrz) mode, the decoder is bypassed. 5.4 los (loss of signal) detector: 5.4.1 ds3/sts-1 los condition: a digital loss of signal (dlos) condition occurs when a string of 175 75 consecutive zeros occur on the line. when the dlos condition occurs, the dlos_n bit is set to 1 in the status control register. dlos condition is cleared when the detected average pulse density is greater than 33% for 175 75 pulses. analog loss of signal (alos) condition occurs when the amplitude of the incoming line signal is below the threshold as shown in the table 10.the status of the alos condition is reflected in the alos_n status control register. rlos is the logical or of the dlos and alos states. when the rlos condition occurs the rlos_n output pin is toggled high and the rlos_n bit is set to 1 in the status control register. d isabling alos/dlos d etection : for debugging purposes it is useful to disable the alos and/or dlos detection. writing a 1 to both alosdis_n and dlosdis_n bits disables the los detection on a per channel basis. 5.4.2 e3 los condition: if the level of incoming line signal drops below the threshold as described in the itu-t g.775 standard, the los condition is detected. loss of signal level is defined to be between 15 and 35 db below the normal level. if the signal drops below 35 db for 175 75 consecutive pulse periods, los condition is declared. this is illustrated in figure 19. t able 10: t he alos (a nalog los) d eclaration and c learance t hresholds for a given setting of reqen (ds3 and sts-1 a pplications ) a pplication reqen s etting s ignal l evel to d eclare alos s ignal l evel to c lear alos ds3 0< 17 mv > 70 mv 1< 20 mv > 90 mv sts-1 0< 20 mv > 90 mv 1< 25 mv > 115 mv
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 33 as defined in itu-t g.775, an los condition is also declared between 10 and 255 ui (or e3 bit periods) after the actual time the los condition has occurred. the los condition is cleared within 10 to 255 ui after restoration of the incoming line signal. figure 20 shows the los declaration and clearance conditions. f igure 19. l oss o f s ignal d efinition for e3 as per itu-t g.775 f igure 20. l oss of s ignal d efinition for e3 as per itu-t g.775. 0 db -12 db -15db -35db maximum cable loss for e3 los signal must be declared los signal must be cleared los signal may be cleared or declared actual occurrence of los condition line signal is restored time range for los declaration time range for los clearance g.775 compliance g.775 compliance 0 ui 10 ui 0 ui 10 ui 255 ui 255 ui rtip/ rring rlos output pin
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 34 5.4.3 muting the recovered data with los condition: when the los condition is declared, the clock recovery circuit locks into the reference clock applied to the exclk_n pin and output this clock on the rxclk_n output.in single frequency mode (sfm), the clock recovery locks into the rate clock generated and output this clock on the rxclk_n pins. the data on the rpos_n and rneg_n pins can be forced to zero by pulling the losmut pin high (in hardware mode) or by setting the losmut_n bits in the individual channel control register to 1 (in host mode). n ote : when the los condition is cleared, the recovered data is output on rpos_n and rneg_n pins.
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 35 6.0 jitter: there are three fundamental parameters that describe circuit performance relative to jitter: jitter tolerance (receiver) jitter transfer (receiver/transmitter) jitter generation 6.1 j itter t olerance - r eceiver : jitter tolerance is a measure of how well a clock and data recovery unit can successfully recover data in the presence of various forms of jitter. it is characterized by the amount of jitter required to produce a specified bit error rate. the tolerance depends on the frequency content of the jitter. jitter tolerance is measured as the jitter amplitude over a jitter spectrum for which the clock and data recovery unit achieves a specified bit error rate (ber). to measure the jitter tolerance as shown in figure 21, jitter is introduced by the sinusoidal modulation of the serial data bit sequence. input jitter tolerance requirements are specified in terms of compliance with jitter mask which is represented as a combination of points.each point corresponds to a minimum amplitude of sinusoidal jitter at a given jitter frequency. 6.1.1 ds3/sts-1 jitter tolerance requirements: bellcore gr-499 core, issue 1, december 1995 specifies the minimum requirement of jitter tolerance for category i and category ii. the jitter tolerance requirement for category ii is the most stringent. figure 22 shows the jitter tolerance curve as per gr-499 specification. f igure 21. j itter t olerance m easurements pattern generator pattern generator freq synthesizer dut XRT75L04 error detector modulation freq. data clock
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 36 6.1.2 e3 jitter tolerance requirements: itu-t g.823 standard specifies that the clock and data recovery unit must be able to accommodate and tolerate jitter up to certain specified limits. figure 23 shows the tolerance curve. as shown in the figures 22 and 23 above, in the jitter tolerance measurement, the dark line indicates the minimum level of jitter that the e3/ds3/sts-1 compliant component must tolerate. the table 11 below shows the jitter amplitude versus the modulation frequency for various standards. f igure 22. i nput j itter t olerance f or ds3/sts-1 f igure 23. i nput j itter t olerance for e3 0.01 0.03 15 1.5 0.3 2 20 0.15 jitter amplitude (ui pp ) jitter frequency (khz) 10 5 0.3 100 0.1 gr-253 sts-1 gr-499 cat ii gr-499 cat i 64 41 XRT75L04 0.1 1.5 1 10 jitter amplitude (ui pp ) jitter frequency (khz) 800 itu-t g.823 64 10 0.3 XRT75L04
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 37 6.2 j itter t ransfer - r eceiver /t ransmitter : jitter transfer function is defined as the ratio of jitter on the output relative to the jitter applied on the input versus frequency. there are two distinct characteristics in jitter transfer: jitter gain (jitter peaking) defined as the highest ratio above 0db; and jitter transfer bandwidth.the overall jitter transfer bandwidth is controlled by a low bandwidth loop, typically using a voltage-controller crystal oscillator (vcxo). the jitter transfer function is a ratio between the jitter output and jitter input for a component, or system often expressed in db. a negative db jitter transfer indicates the element removed jitter. a positive db jitter transfer indicates the element added jitter.a zero db jitter transfer indicates the element had no effect on jitter. table 12 shows the jitter transfer characteristics and/or jitter attenuation specifications for various data rates: the above specifications can be met only with a jitter attenuator that supports e3/ds3/sts-1 rates. 6.3 j itter g eneration : jitter generation is defined as the process whereby jitter appears at the output port of the digital equipment in the absence of applied input jitter. jitter generation is measured by sending jitter free data to the clock and data recovery circuit and measuring the amount of jitter on the output clock or the re-timed data. since this is essentially a noise measurement, it requires a definition of bandwidth to be meaningful. the bandwidth is set according to the data rate. in general, the jitter is measured over a band of frequencies. 6.4 jitter attenuator: an advanced crystal-less jitter attenuator per channel is included in the XRT75L04. the jitter attenuator requires no external crystal nor high-frequency reference clock. in host mode, by clearing or setting the jatx/rx _n bits in the channel control registers selects the jitter attenuator either in the receive or transmit path on per channel basis. in hardware mode, jatx/rx pin selects globally all three channels either in receive or transmit path. the fifo size can be either 16-bit,32-bit or 128-bit. in host mode, the bits ja0_n and ja1_n can be set to appropriate combination to select the different fifo sizes or to disable the jitter attenuator on a per channel basis. in hardware mode, appropriate setting of the pins ja0 and ja1 selects the different fifo sizes or disables the jitter attenuator for all three channels. data is clocked into the fifo with the associated clock signal (txclk or rxclk) and clocked out of the fifo with the dejittered clock. when the fifo is within two bits t able 11: j itter a mplitude versus m odulation f requency (j itter t olerance ) b it r ate ( kb / s ) s tandard i nput j itter a mplitude (ui p - p ) m odulation f requency a1 a2 a3 f 1(h z ) f 2(h z ) f 3( k h z ) f 4( k h z ) f 5( k h z ) 34368 itu-t g.823 1.5 0.15 - 100 1000 10 800 - 44736 gr-499 core cat i 5 0.1 - 10 2.3k 60 300 - 44736 gr-499 core cat ii 10 0.3 - 10 669 22.3 300 - 51840 gr-253 core cat ii 15 1.5 0.15 10 30 300 2 20 t able 12: j itter t ransfer s pecification /r eferences e3 ds3 sts-1 etsi tbr-24 gr-499 core section 7.3.2 category i and category ii gr-253 core section 5.6.2.1
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 38 of overflowing or underflowing, the fifo limit status bit, fl_n is set to 1 in the alarm status register. reading this bit clears the fifo and resets the bit into default state. n ote : it is recommended to select the 16-bit fifo for delay-sensitive applications as well as for removing smaller amounts of jitter. table 13 specifies the jitter transfer mask requirements for various data rates: the jitter attenuator in the XRT75L04 meets the latest jitter attenuation specifications and/or jitter transfer characteristics as shown in the figure 24. t able 13: j itter t ransfer p ass m asks r ate ( kbits ) m ask f1 (h z ) f2 (h z ) f3 (h z ) f4 ( k h z ) a1(db) a2(db) 34368 g.823 etsi-tbr-24 100 300 3 k 800 k 0.5 -19.5 44736 gr-499, cat i gr-499, cat ii gr-253 core 10 10 10 10k 56.6k 40 - - - 15k 300k 15k 0.1 0.1 0.1 - - - 51840 gr-253 core 10 40k - 400k 0.1 - f igure 24. j itter t ransfer r equirements and j itter a ttenuator p erformance f1 a1 f2 jitter amplitude jitter frequency (khz) a2 f3 f4
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 39 7.0 serial host interface: a serial microprocessor interface is included in the XRT75L04. the interface is generic and is designed to support the common microprocessors/microcontrollers. the XRT75L04 operates in host mode when the host/hw pin is tied high. the serial interface includes a serial clock (sclk), serial data input (sdi), serial data output (sdo), chip select (cs) and interrupt output (int). the serial interface timing is shown in figure 11. the active low interrupt output signal (int pin) indicates alarm conditions like los, dmo and fl to the processor. when the XRT75L04 is configured in host mode, the following input pins,txlev_n, taos_n, rlb_n, llb_n, e3_n, sts-1/ds3_n, reqen_n, jatx/rx, ja0 and ja1 are disabled and must be connected to ground. the table 14 below illustrates the functions of the shared pins in either host mode or in hardware mode. n ote : while configured in host mode, the txon_n input pins will be active if the txon_n bits in the control register are set to 1, and can be used to turn on and off the transmit output drivers. this permits a system designed for redundancy to quickly switch out a defective line card and switch-in the backup line card. t able 14: f unctions of shared pins p in n umber i n h ost m ode i n h ardware m ode 86 cs rxclkinv 88 sclk txclkinv 87 sdi rxon 85 sdo rxmon 84 int losmut t able 15: r egister m ap and b it n ames a ddress (h ex ) p arameter n ame d ata b its 76543210 0x00 aps/redundancy (read/write) rxon-3 rxon-2 rxon-1 rxon_0 txon_3 txon_2 txon_1 txon_0 0x01- 0 x 1 f channel 0 - 3 control registers 0x20 interrupt enable- global (read/write) reserved inten_3 inten_2 inten_1 inten_0 0x21 interrupt status (read only) reserved intst_3 intst_2 intst_1 intst_0 0x22- 0x2f reserved reserved 0x30 - 0x37 prbs count registers 0x38 prbs holding register 0x39 - 0x3d reserved
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 40 t able 16: r egister m ap d escription - g lobal 0x3e chip_id (read only) device part number (7:0) 0x3f chip_version (read only) chip revision number (7:0) a ddress (h ex ) t ype r egister n ame s ymbol d escription d efault v alue 0x00 r/w aps/redu ndancy rxon_n bit 4 = rxon_0,bit 5 = rxon_1,bit 6 = rxon_2 and bit 7 = rxon_3 receiver turn on. writing a 1 to the bit field turns on the receiver and a 0 turn off the receiver. 0 txon_n bit 0 = txon_0, bit 1 = txon_1, bit 2 = txon_2 and bit 3 = txon_3 table below shows the status of the transmitter based on the bit and pin setting. 0 0x20 r/w interrupt enable inten_n bit 0 = inten_0, bit 1 = inten_1, bit 2 = inten_2 bit 3 = inten_3. writing a 1 to these bits enable the interrupts for the corresponding channels. 0 0x21 read only interrupt status intst_n bit 0 = intst_0, bit 1 = intst_1, bit 2 = intst_2 bit 3 = intst_3. respective bits are set to 1 if an interrupt service is required. the respective source level interrupt status registers are read to determine the cause of interrupt. 0 0x22 - 0x2f reserved 0x39 - 0x3d reserved 0x3e read only device number chip_id this read only register contains device id. 01110100 0x3f read only vers ion number chip_version this read only register contains chip version number 00000001 t able 15: r egister m ap and b it n ames a ddress (h ex ) p arameter n ame d ata b its 76543210 bit 0 0 transmitter status off off pin 0 1 1 1 off on 0 1
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 41 t able 17: r egister m ap and b it n ames - c hannel 0 r egisters a ddress (h ex ) p arameter n ame d ata b its 76 543210 0x01 interrupt enable (read/write) reserved prbser cntie_0 prbseri e_0 flie_0 rlolie_0 rlosie_ 0 dmoie_0 0x02 interrupt status (reset on read) reserved prbser cntis_0 prbseri s_0 flis_0 rlolis_0 rlosis_ 0 dmois_0 0x03 alarm status (read only) reserved prbsls_0 dlos_0 alos_0 fl_0 rlol_0 rlos_0 dmo_0 0x04 transmit control (read/write) reserved txmon_0 insprbs _0 reserved taos_0 txclkinv _0 txlev_0 0x05 receive control (read/write) reserved dlosdis _0 alosdis _0 rxclkinv_ 0 losmut_ 0 rxmon_0 reqen_ 0 0x06 block control (read/write) reserved prbsen_ 0 rlb_0 llb_0 e3_0 sts1/ ds3 _0 sr/dr _0 0x07 jitter attenuator (read/write) reserved dflck_0 pntrst_ 0 ja1_0 jatx/rx _0 ja0_0 0x08 reserved reserved t able 18: r egister m ap and b it n ames - c hannel 1 r egisters a ddress (h ex ) p arameter n ame d ata b its 76543210 0x09 interrupt enable (read/write) reserved prbser cntie_1 prbseri e_1 flie_1 rlolie_1 rlosie_ 1 dmoie_1 0x0a interrupt status (reset on read) reserved prbser cntis_1 prbseri s_1 flis_1 rlolis_1 rlosis_ 1 dmois_1 0x0b alarm status (read only) reserved prbsls_ 1 dlos_1 alos_1 fl_1 rlol_1 rlos_1 dmo_1 0x0c transmit con- trol (read/write) reserved txmon_1 insprbs _1 reserved taos_1 txclkinv _1 txlev_1 0x0d receive control (read/write) reserved dlosdis _1 alosdis _1 rxclkinv _1 losmut_ 1 rxmon_1 reqen_1 0x0e block control (read/write) reserved prbsen_ 1 rlb_1 llb_1 e3_1 sts1/ ds3 _1 sr/dr _1 0x0f jitter attenuator (read/write) reserved dflck_1 pntrst_ 1 ja1_1 jatx/rx _1 ja0_1 0x10 reserved reserved
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 42 t able 19: r egister m ap and b it n ames - c hannel 2 r egisters a ddress (h ex ) p arameter n ame d ata b its 76543210 0x11 interrupt enable (read/write) reserved prbser cntie_2 prbseri e_2 flie_2 rlolie_2 rlosie_ 2 dmoie_2 0x12 interrupt status (reset on read) reserved prbser cntis_2 prbseri s_2 flis_2 rlolis_2 rlosis_ 2 dmois_2 0x13 alarm status (read only) reserved prbsls_ 2 dlos_2 alos_2 fl_2 rlol_2 rlos_2 dmo_2 0x14 transmit con- trol (read/write) reserved txmon_2 insprbs _2 reserved taos_2 txclkinv _2 txlev_2 0x15 receive control (read/write) reserved dlosdis _2 alosdis _2 rxclkinv _2 losmut_ 2 rxmon_2 reqen_2 0x16 block control (read/write) reserved prbsen_ 2 rlb_2 llb_2 e3_2 sts1/ ds3 _2 sr/dr _2 0x17 jitter attenuator (read/write) reserved dflck_2 pntrst_ 2 ja1_2 jatx/rx _2 ja0_2 0x18 reserved reserved t able 20: r egister m ap and b it n ames - c hannel 3 r egisters a ddress (h ex ) p arameter n ame d ata b its 76543210 0x19 interrupt enable (read/write) reserved prbser cntie_3 prbseri e_3 flie_3 rlolie_3 rlosie_ 3 dmoie_3 0x1a interrupt status (reset on read) reserved prbser cntis_3 prbseri s_3 flis_3 rlolis_3 rlosis_ 3 dmois_3 0x1b alarm status (read only) reserved prbsls_ 3 dlos_3 alos_3 fl_3 rlol_3 rlos_3 dmo_3 0x1c transmit con- trol (read/write) reserved txmon_3 insprbs _3 reserved taos_3 txclkinv _3 txlev_3 0x1d receive control (read/write) reserved dlosdis _3 alosdis _3 rxclkinv _3 losmut_ 3 rxmon_3 reqen_3 0x1e block control (read/write) reserved prbsen_ 3 rlb_3 llb_3 e3_3 sts1/ ds3 _3 sr/dr _3 0x1f jitter attenuator (read/write) reserved dflck_3 pntrst_ 3 ja1_3 jatx/rx _3 ja0_3
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 43 t able 21: r egister m ap d escription a ddress (h ex ) t ype r egister n ame bit# s ymbol d escription d efault v alue 0x01 (ch 0) 0x09 (ch 1) 0x11 (ch 2) 0x19 (ch 3) r/w interrupt enable (source level) d0 dmoie_n set this bit to enable an interrupt when the no trans- mission detected on channel output. 0 d1 rlosie_n writng a 1 to this bit enables an interrupt when recieve los of signal is detected. 0 d2 rlolie_n writing a 1 to this bit enables an interrupt when receive loss of lock condition is detected 0 d3 flie_n writing a 1 to this bit enables the interrupt when the fifo limit of the jitter attenuator is within 2 bits of overflow/underflow condition. n ote : this bit field is ignored when the jitter attenuator is disabled. 0 d4 prbserie _n set this bit to enable the interrupt when the prbs error is detected. 0 d5 prbserc ntie_n set this bit to enable the interrupt when the prbs error count register saturates. 0 d7-d6 reserved 0x02 (ch 0) 0x0a (ch 1) 0x12 (ch 2) 0x1a (ch 3) reset on read interrupt status (source level) d0 dmois_n this bit is set every time a dmo status change has occurred since the last cleared interrupt. this bit is cleared when the register bit is read. 0 d1 rlosis_n this bit is set every time a rlos status change has occurred since the last cleared interrupt. this bit is cleared when the register bit is read. 0 d2 rlolis_n this bit is set every time a rlol status change has occurred since the last cleared interrupt. this bit is cleared when the register bit is read. 0 d3 flis_n this bit is set every time a fifo limit status change has occurred since the last cleared interrupt. this bit is cleared when the register bit is read. 0 d4 prbseris _n this bit is set when the prbs error occurs. 0 d5 prbserc ntis_n this bit is set when the prbs error count register saturates. 0 d7-d6 reserved
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 44 0x03 (ch 0) 0x0b (ch 1) 0x13 (ch 2) 0x1b (ch 3) read only alarm sta- tus d0 dmo_n this bit is set when no transitions on the ttip/ tring have been detected for 128 32 txclk periods. 0 d1 rlos_n this bit is set every time the receiver declares an los condition. 0 d2 rlol_n this bit is set every time when the receiver declares a loss of lock condition. 0 d3 fl_n this bit is set every time the fifo in the jitter atten- uator is within 2 bit of underflow/overflow condition. 0 d4 alos_n this bit is set every time the receiver declares ana- log los condition. 0 d5 dlos_n this bit is set every time the receiver declares digital los condition. 0 d6 prbsls_n this bit is set every time the prbs detector is not in sync. 0 d7 reserved 0x04 (ch 0) 0x0c (ch 1) 0x14 (ch 2) 0x!c (ch 3) r/w transmit control d0 txlev_n set this bit for cable length greater than 225 feet. n ote : see section 4.03 for detailed description. 0 d1 txclkinv_ n set this bit to sample the data on tpos/tneg pins on the rising edge of txclk. 0 d2 taos_n set this bit to send a continuous stream of marks (all ones) out at the ttip and tring pins. 0 d3 reserved d4 insprbs_ n setting this bit causes the prbs generator to insert a single-bit error onto the transmit prbs data stream . n ote : prbs generator/detector must be enabled for this bit to have any effect. 0 d5 txmon_n setting this bit causes the driver monitor its own transmit driver. when the transmit failure is detected, dmo output pin goes high and dmois bit is set. when this bit is 0, mtip and mring are connected to other transmit channel for monitoring. 0 d7-d6 reserved t able 21: r egister m ap d escription a ddress (h ex ) t ype r egister n ame bit# s ymbol d escription d efault v alue
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 45 0x05 (ch 0) 0x0d (ch 1) 0x15 (ch 2) 0x1d (ch 3) r/w receive control d0 reqen_n set this bit to enable the receive equalizer. n ote : see section 5.01 for detailed description. 0 d1 rxmon_n set this bit to configure the receiver in monitoring mode. in this mode, the receiver can monitor a sig- nal at the rtip/rring pins that has be attenuated up to 20db flat loss. 0 d2 losmut_ n setting this bit causes the rpos/rneg outputs to 0 while the los condition is declared. n ote : if this bit has been set, it will remain set even after the los condition is cleared. 0 d3 rxclkinv_ n set this bit to configure the receiver to output rpos/rneg data on the falling edge of rxclk_0. 0 d4 alosdis_ n set this bit to disable the alos detector. 0 d5 dlosdis_ n set this bit to disable the dlos detector. 0 d7-d6 reserved t able 21: r egister m ap d escription a ddress (h ex ) t ype r egister n ame bit# s ymbol d escription d efault v alue
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 46 0x06 (ch 0) 0x0e (ch 1) 0x16 (ch 2) 0x1e 9ch 3) r/w block con- trol d0 sr/dr _n setting this bit configures the receiver and trans- mitter in single-rail (nrz) mode. n ote : see section 4.0 for detailed description. 0 d1 sts-1/ ds3 _n setting this bit configures the channel into sts-1 mode. n ote : this bit field is ignored if the channel is configured to operate in e3 mode. 0 d2 e3_n setting this bit configures the channel in e3 mode. 0 d3 llb_n setting this bit configures the channel in local loop- back mode. 0 d4 rlb_n setting this bit configures the channel in remote loopback mode. 0 d5 prbsen_ n setting this bit enables the prbs generator/detec- tor. prbs generator generate and detect either 2 15 - 1 (ds3 or sts-1) or 2 23 -1 (for e3). the pattern generated and detected are unframed pattern. 0 d7-d6 reserved t able 21: r egister m ap d escription a ddress (h ex ) t ype r egister n ame bit# s ymbol d escription d efault v alue rlb_n 0 0 loopback mode normal operation analog local llb_n 0 1 1 1 remote digital 0 1
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 47 0x07 (ch 0) 0x0f (ch 1) 0x17 (ch 2) 0x1f (ch 3) r/w jitter attenuator d0 ja0_n this bit along with ja1_n bit configures the jitter attenuator as shown in the table below. 0 d1 jatx/rx _n setting this bit selects the jitter attenuator in the transmit path. a 0 selects in the receive path. 0 d2 ja1_n this bit along with the ja0_n configures the jitter attenuator as shown in the table. 0 d3 pntrst_n setting this bit resets the read and write pointers of the jitter attenuator fifo. 0 d4 dflck_n set this bit to 1 to disable fast locking of the pll. this helps to reduce the time for the pll to lock to incoming frequeny when jitter attenuator switches to narrow band. 0 d7-d5 reserved 0x30 (ch 0) 0x32 (ch 1) 0x34 (ch 2) 0x36 (ch 3) ro prbs count reg prbs count register msb 0 0x31 (ch 0) 0x33 (ch 1) 0x35 (ch 2) 0x37 (ch 3) ro prbs count reg prbs count register lsb 0 0x38 ro prbs holding reg prbs holding register 0 0x08 0x10 0x18 reserved t able 21: r egister m ap d escription a ddress (h ex ) t ype r egister n ame bit# s ymbol d escription d efault v alue ja0_n 0 0 mode 16 bit fifo 32 bit fifo ja1_n 0 1 1 1 128 bit fifo 0 1 disable jitter attenuator
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 48 8.0 diagnostic features: 8.1 prbs generator and detector: the XRT75L04 contains an on-chip pseudo random binary sequence (prbs) generator and detector for diagnostic purpose. this feature is only available in host mode. with the prbsen_n bit = 1, the transmitter will send out prbs of 2 23 -1 in e3 rate or 2 15 -1 in sts-1/ds3 rate. at the same time, the receiver prbs detector is also enabled. when the correct prbs pattern is detected by the receiver, the rneg/lcv pin will go low to indicate prbs synchronization has been achieved. when the prbs detector is not in sync the prbsls bit will be set to 1 and rneg/lcv pin will go high. with the prbs mode enabled, the user can also insert a single bit error by toggling insprbs bit. this is done by writing a 1 to insprbs bit. the receiver at rneg/lcv pin will pulse high for one rxclk cycle for every bit error detected. any subsequent single bit error insertion must be done by first writing a 0 to insprbs bit and followed by a 1. figure 25 shows the status of rneg/lcv pin when the XRT75L04 is configured in prbs mode. n ote : in prbs mode, the device is forced to operate in single-rail mode. 8.2 loopbacks: the XRT75L04 offers three loopback modes for diagnostic purposes. in hardware mode, the loopback modes are selected via the rlb_n and llb_n pins. in host mode, the rlb_n and llb_n bits n the channel control registers select the loopback modes. 8.2.1 analog loopback: in this mode, the transmitter outputs (ttip_n and tring_n) are connected internally to the receiver inputs (rtip_n and rring_n) as shown in figure 26. data and clock are output at rclk_n, rpos_n and rneg_n pins for the corresponding transceiver. analog loopback exercises most of the functional blocks of the device including the jitter attenuator which can be selected in either the transmit or receive path. XRT75L04 can be configured in analog loopback either in hardware mode via the llb_n and rlb_n pins or in host mode via llb_n and rlb_n bits in the channel control registers. n otes : 1. in the analog loopback mode, data is also output via ttip_n and tring_n pins. 2. signals on the rtip_n and rring_n pins are ignored during analog loopback. f igure 25. prbs mode rclk rneg/lcv sync loss prbs sync single bit error
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 49 8.2.2 digital loopback: the digital loopback function is available either in hardware mode or host mode. when the digital loopback is selected, the transmit clock (txclk_n) and transmit data inputs (tpos_n & tneg_n) are looped back and output onto the rxclk_n, rpos_n and rneg_n pins as shown in figure 27. the data presented on txclk, tpos and tneg are not output on the ttip and tring pins.this provides the capability to configure the protection card (in redundancy applications) in digital loopback mode without affecting the traffic on the primary card. n ote : signals on the rtip_n and rring_n pins are ignored during digital loopback. f igure 26. a nalog l oopback f igure 27. d igital l oopback tring ttip rring rtip rpos rneg rclk tndata tclk tpdata hdb3/b3zs encoder hdb3/b3zs decoder jitter 2 attenuator jitter 2 attenuator timing control data & clock recovery 1 if enabled 2 if enabled and selected in either receive or transmit path tx rx 1 1 tring ttip rring rtip rpos rneg rclk tndata tclk tpdata hdb3/b3zs encoder hdb3/b3zs decoder jitter 2 attenuator jitter 2 attenuator timing control data & clock recovery 1 if enabled 2 if enabled and selected in either receive or transmit path tx rx 1 1
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 50 8.2.3 remote loopback: with remote loopback activated as shown in figure 28, the receive data on rtip and rring is looped back after the jitter attenuator (if selected in receive or transmit path) to the transmit path using rxclk as transmit timing. the receive data is also output via the rpos and rneg pins. during the remote loopback mode, if the jitter attenuator is selected in the transmit path, the receive data after the clock and data recovery block is looped back to the transmit path and passed through the jitter attenuator using rxclk as the transmit timing. n ote : input signals on txclk, tpos and tneg are ignored during remote loopback. 8.3 transmit all ones (taos): transmit all ones (taos) can be set either in hardware mode by pulling the taos_n pins high or in host mode by setting the taos_n control bits to 1 in the channel control registers. when the taos is set, the transmit section generates and transmits a continuous ami all 1s pattern on ttip_n and tring_n pins. the frequency of this 1s pattern is determined by tclk_n.taos data path is shown in figure 29. f igure 28. r emote l oopback f igure 29. t ransmit a ll o nes (taos) tring ttip rring rtip rpos rneg rclk tndata tclk tpdata hdb3/b3zs encoder hdb3/b3zs decoder jitter 2 attenuator jitter 2 attenuator timing control data & clock recovery 1 if enabled 2 if enabled and selected in either receive or transmit path tx rx 1 1 tring ttip rring rtip rpos rneg rclk tndata tclk tpdata hdb3/b3zs encoder hdb3/b3zs decoder jitter 2 attenuator jitter 2 attenuator timing control data & clock recovery 1 if enabled 2 if enabled and selected in either receive or transmit path tx rx taos transmit all 1 1 1
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 51 appendix b transformer vendor information pulse corporate office 12220 world trade drive san diego, ca 92128 tel: (858)-674-8100 fax: (858)-674-8262 europe 1 & 2 huxley road the surrey research park guildford, surrey gu2 5re united kingdom tel: 44-1483-401700 fax: 44-1483-401701 t able 22: transformer recommendations p arameter v alue tu r n s r a t i o 1:1 primary inductance 40 m h isolation voltage 1500 vrms leakage inductance 0.6 m h t able 23: t ransformer d etails p art n umber v endor i nsulation p ackage t ype pe-68629 pulse 3000 v large thru-hole pe-65966 pulse 1500 v samll thru-hole pe-65967 pulse 1500 v smt t 3001 pulse 1500 v smt tg01-0406ns halo 1500 v smt tti 7601-sm transpower 1500 v smt
XRT75L04 ? ? ? ? four channel e3/ds3/sts-1 line interface unit with jitter attenuator rev. 1.0.1 52 asia 150 kampong ampat #07-01/02 ka centre singapore 368324 tel: 65-287-8998 website: http://www.pulseeng.com halo electronics corporate office p.o. box 5826 redwood city, ca 94063 tel: (650)568-5800 fax: (650)568-6165 email: info@haloelectronics.com website: http://www.haloelectronics.com transpower technologies, inc. corporate office park center west building 9805 double r blvd, suite # 100 reno, nv 89511 (800)500-5930 or (775)852-0140 email: info@trans-power.com website: http://www.trans-power.com
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 53 ordering information p art n umber p ackage o perating t emperature r ange XRT75L04iv 24 x 24 x 1.4 mm 176 pin tqfp - 40 c to + 85 c package dimensions - 176 pin package symbol min max min max a 0.055 0.063 1.40 1.60 a1 0.002 0.006 0.05 0.15 a2 0.053 0.057 1.35 1.45 b 0.007 0.011 0.17 0.27 c 0.004 0.008 0.09 0.20 d 1.016 1.031 25.80 26.20 d1 0.941 0.949 23.90 24.10 e0.020bsc 0.50bsc l 0.018 0.030 0.45 0.75 a 0 7 0 7 b note: the control dimension is in millimeters. 7 typ 7 typ inches millimeters b a 176 176 89 89 133 133 132 132 88 88 45 45 44 44 1 1
? ? ? ? XRT75L04 rev. 1.0.1 four channel e3/ds3/sts-1 line interface unit with jitter attenuator 54 notice exar corporation reserves the right to make changes to the products contained in this publication in order to improve design, performance or reliability. exar corporation assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent infringement. charts and schedules contained here in are only for illustration purposes and may vary depending upon a users specific application. while the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. exar corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. products are not authorized for use in such applications unless exar corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; (c) potential liability of exar corporation is adequately protected under the circumstances. copyright 2003 exar corporation datasheet november 2003. reproduction, in part or whole, without the prior written consent of exar corporation is prohibited. revisions p1.0.0 to p1.0.1 = cleaned up the typo errors. included the eval board schematics. added some explanation in the register map. 1.0.1 changed i cc in the electrical characteristics. removed the evaluation board schematic.

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