View 73M1906B-IVTF_1941204.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

73m1866b/73m1966b microdaa ? with pcm highway simplifying system integration ? data sheet ds_1x66b_001 april 2010 rev. 1.6 ? 2010 teridian semiconductor corporation 1 description the 73m1866b and 73m1966b use the teridian patented data access arrangement function (microdaa ? ) designed exclusively for foreign - exchange - office (fxo) in voice - over - ip (voip) applications . these devices provide much of the circuitry required to connect pcm formatted voice channels to a pstn via a two - wire twisted pair interface . the package options provide the necessary functional programmability and protection required for easy worldwide homologation . the family of devices consists of the 73 m1866b and the 73m1966b. the 73m1866b microdaa is the world?s first single - package silicon data access arrangement ( daa). suitable applications for the 73m1866b and 73m1966b devices include voip equipment that must provide connectivity to the pstn for pu rposes of guaranteeing emergency service calling, redundancy for supplementary connectivity for voice, and maintenance services . the 73m1966b device set consists of the 73m1906b host - side device that provides digital data, control interfaces and power to the 73m1916 line - side device . these devices are based on an innovative and patented technology, which sets new standards in reliability and cost . a small pulse transformer forms a digital isolation barrier, transferring both power and data to the pstn lin e - side components . this method results in reliable operation in the presence of emi and a tolerance to line voltage variations by providing power to the line - side device across the barrier . the devices also support the ability to provide up to an additio nal +6 db of analog gain to the line - side transmit and +3 db in the receive signal paths. the device supports transmit and receive digital gain ranging from ? 18 db to +7.375 db by increments of 0.125 db. the digital side provides a pcm highway interface w ith automatic clock rate detection. with an 8 - khz sampling rate, the devices include an itu - t g.711 compliant codec with selectable - law and a - law companding modes. the devices also provide a 16 - bit linear mode, which is suitable for interfacing with wi de band codecs, as well as 16 khz sampling rate. device control is performed over an spi interface. the spi supports daisy chain operation. through its pcm interface, the 73m1966b can be connected to other pcm enabled devices such as pots codecs, isdn codecs, e1/t1 framers, etc. additional daa functions supported by the 73m1x66b devices include a call progress monitor, caller id type i and ii, ring detection, pulse dialing, billing tone detection and polarity reversal detection. applications ? computer t elephony ? voip equipment ? pbx systems ? internet appliances ? voicemail systems ? pots termination equipment features ? pcm highway data interface supporting both slave and master modes ? pcm highway interface supporting both e - 1 and t - 1 ? spi control interface, with daisy chain support for up to 16 devices ? designed to meet global daa compliance fcc, etsi es 203 021 - 2 , jate and other ptt standards. ? 8 khz and 16 khz sample rates ? 16- bit linear mode ? tx and rx gains adjustable in 0.125 db increments ? - law, a - law itu - t recommendation g.711 compliant compander operation ? automatic clock rate detection ? low power modes ? polarity reversal detection ? gpio for user - configurable i/o ports ? call progress monitor ? isolation up to 6 kv ? thd - 80 db ? 5 v tolerant i/o on selected pins ? 3.0 v ? 3.6 v operating voltage ? industrial temperature range ( - 40 c to +85 c) ? 5x5 mm 32 - pin qfn or 20 - pin tssop packages ? rohs compliant (6/6) lead - free package
73m1866b/73m1966b data sheet ds_1x66b_001 2 rev. 1.6 table of contents 1 introduction ................................................................................................................................... 6 2 pinout ............................................................................................................................................. 8 2.1 73m1906b 20 - pin tssop pinout ............................................................................................ 8 2. 2 73m1916 20 - pin tssop pinout .............................................................................................. 9 2.3 73m1906b 32 - pin qfn pinout .............................................................................................. 10 2.4 73m1916 32 - pin qfn pinout ................................................................................................ 12 2.5 73m1866b pinout ................................................................................................................. 14 2.6 requisite use of exposed bottom pad on 73m1866b and 73m1966b qfn packages .......... 15 3 electrical characteristics and specifications ............................................................................. 16 3.1 isolation barrier characteristics ............................................................................................. 16 3.2 electrical specificat ions ......................................................................................................... 16 3.2.1 absolute maximum ratings ....................................................................................... 16 3.2.2 recommended operating conditions ........................................................................ 16 3.2.3 dc characteristics ..................................................................................................... 17 3.3 interface timing specification ................................................................................................ 18 3.3.1 spi interface ............................................................................................................. 18 3.3.2 pcm highway interface ............................................................................................. 19 3.4 analog specifications ............................................................................................................ 20 3.4.1 dc specifications ...................................................................................................... 20 3.4.2 call progress monitor ................................................................................................ 21 3.5 73m1x66b line - side electrical specifications (73m1916) ...................................................... 22 3.6 reference and regulation ..................................................................................................... 23 3.7 dc transfer characteristics .................................................................................................. 23 3.8 transmit path ....................................................................................................................... 24 3.9 receive path ........................................................................................................................ 25 3.10 transmit hybrid cancellation ................................................................................................ 26 3.11 receive n otch filter .............................................................................................................. 26 3.12 detectors .............................................................................................................................. 27 3.12.1 over - voltage detector ............................................................................................... 27 3.12.2 over - current detector ............................................................................................... 27 3.12.3 under - voltage detector ............................................................................................. 27 3.12.4 over - load detector ................................................................................................... 27 4 applications information ............................................................................................................. 28 4.1 example schematic of the 73m1966b and 73m1866b .......................................................... 28 4.2 bill of m aterials ...................................................................................................................... 30 4.3 over - voltage and emi protection .......................................................................................... 31 4.4 isolation barrier pulse transformer ....................................................................................... 32 5 spi interface ................................................................................................................................. 33 6 control and status registers ...................................................................................................... 37 7 hardware control functions ....................................................................................................... 41 7.1 device revision .................................................................................................................... 41 7.2 interrupt control .................................................................................................................... 41 7.3 power management .............................................................................................................. 42 7.4 device clock management .................................................................................................... 42 7.5 gpio registers ..................................................................................................................... 43 7.6 call progres s monitor ............................................................................................................ 44 7.7 16 khz operation of call progress monitor ............................................................................ 44 7.8 device reset ........................................................................................................................ 44 8 pcm highway interface and signal processing ......................................................................... 45 8.1 pcm highway interface timing ............................................................................................. 45 8.2 pcm clock frequencies ........................................................................................................ 47 8.3 master mode ......................................................................................................................... 47 8.4 a - law / - law compander ...................................................................................................... 47
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 3 8.5 transm it and receive levels ................................................................................................ 48 8.5.1 a - law ........................................................................................................................ 48 8.5.2 - law ........................................................................................................................ 48 8.5.3 tra nsmit and receive level control .......................................................................... 48 8.6 transmit path signal processing ........................................................................................... 49 8.6.1 general description ................................................................................................... 49 8.6.2 total transmit path response ................................................................................... 49 8.6.3 73m1x66b transmit spectrum ................................................................................... 50 8.7 receive pat h signal processing ............................................................................................ 50 8.7.1 general description ................................................................................................... 50 8.7.2 total receive path response .................................................................................... 51 8.7.3 receiver dc offset subtraction ................................................................................. 51 8.8 pcm control functions ......................................................................................................... 52 8.8.1 transmit and receive level c ontrol .......................................................................... 57 8.8.2 time slot assignment example ................................................................................. 59 9 barrier information ...................................................................................................................... 60 9.1 isolation barrier ..................................................................................................................... 60 9.2 barrier powered options ....................................................................................................... 60 9.2.1 barrier powered operation ........................................................................................ 60 9.2.2 line powered operation ............................................................................................ 60 9.3 synchronization of the barrier ............................................................................................... 60 9.4 auto - poll ............................................................................................................................... 61 9.5 barrier control functions ...................................................................................................... 61 9.6 line - side device operating modes ....................................................................................... 63 9.7 fail - safe operation of line - side device ................................................................................ 63 10 configurable direct access arrangement (daa) ....................................................................... 64 10.1 pulse dialing ......................................................................................................................... 64 10.2 dc termination ..................................................................................................................... 64 10.3 ac termination ..................................................................................................................... 66 10.4 billing tone reje ction ........................................................................................................... 67 10.5 trans - hybrid cancellation ..................................................................................................... 68 10.6 direct access arrangement control functions ....................................................................... 68 10.7 international register settings table for dc and ac terminations ........................................ 72 11 line sensing and status ............................................................................................................. 73 11.1 auxiliary a/d converter ......................................................................................................... 73 11.2 ring detection ...................................................................................................................... 73 11.3 line in use detection (liu) ................................................................................................... 73 11.4 parallel pick up (ppu) .......................................................................................................... 73 11.5 polarity reversal detection ................................................................................................... 73 11.6 off - hook detection of c aller id type ii .................................................................................. 73 11.7 voltage and current detection .............................................................................................. 74 11.8 under voltage detection (uvd) ............................................................................................. 74 11.9 over voltage detection (ovd) .............................................................................................. 74 11.10 ac signal overload detection ............................................................................................. 74 11.11 over current de tection (oid) .............................................................................................. 74 11.12 line sensing control functions ........................................................................................... 75 12 loopback and testing modes ..................................................................................................... 78 13 performance ................................................................................................................................ 80 13.1 transmit ................................................................................................................................ 80 13.2 receive ................................................................................................................................. 82 14 package layout ........................................................................................................................... 85 15 ordering information ................................................................................................................... 87 16 contact information ..................................................................................................................... 87 revision history .................................................................................................................................. 88
73m1866b/73m1966b data sheet ds_1x66b_001 4 rev. 1.6 figures figure 1: simple 73m1x66b reference block diagram ............................................................................ 6 figure 2: 73m 1906b 20 - pin tssop pinout .............................................................................................. 8 figure 3: 73m1916 20 - pin tssop pinout ................................................................................................ 9 figure 4: 73m 1906b 32 - pin qfn pinout ................................................................................................ 10 figure 5: 73m1916 32 - pin qfn pinout .................................................................................................. 12 figure 6: 73m1866b 42 - pin pinout ........................................................................................................ 14 figure 7: spi timing diagram ................................................................................................................ 18 figure 8: pcm timing diagram for positive edge transmit mode and negative edge receive mode ..... 19 figure 9: pcm timing diagram for negative edge transmit mode and positive edge receive mode ..... 20 figure 10: frequency response of the call progress monitor filter ....................................................... 21 figure 11: demo board circuit connecting aout to a speaker ............................................................. 21 figure 12: recommended circuit for the 73m1966b .............................................................................. 28 figure 13: recommended circuit for the 73m1866b .............................................................................. 29 figure 14: suggested over - voltage protection and emi suppression circuit ......................................... 31 figure 15: daisy - chain configuration .................................................................................................... 34 figure 16: spi write operation ? 8 - bit mode .......................................................................................... 34 figure 17: spi r ead transaction ? 8 - bit mode ....................................................................................... 35 figure 18: spi write transaction ? 16- bit mode ..................................................................................... 35 figure 19: spi read transaction ? 16 - bit mode ..................................................................................... 35 figure 20: 8 - bit transmission example .................................................................................................. 45 figure 21: 16 - bit transmission example ................................................................................................ 46 figure 22: example of pcm highway interconnect ................................................................................. 46 figure 23: example of pcm highway interconnect for typical large systems ....................................... 46 figure 24: mapping of a - law code to 16 - bit code .................................................................................. 48 figure 25: mapping of - law code to 16 - bit code .................................................................................. 48 figure 26: transmit path overall frequency response to fs of 8 khz ................................................... 49 figure 27: transmit path passband response for an 8 khz sample rate .............................................. 49 figure 28: transmit spectrum to 32 khz for an 8 khz sample rate ....................................................... 50 figure 29: overall frequency response of the receive path ................................................................. 51 figure 30: pass - band response of the overall receive path ................................................................. 51 figure 31: timing relationships with various tts, tcs, tpol, and rts, rcs, rpol settings ............ 59 figure 32: line - side device ac and dc circuits .................................................................................... 63 figure 33: dc - iv characteristics ............................................................................................................ 64 figure 34: tip - ring voltage versus current using different dciv settings ............................................. 65 figure 35: voltage versus current in the seize mode is the same for all dciv settings ......................... 66 figure 36: magnitude response of impedance matching filter, acz (3:0)=0010 (es 203 021 - 2) ........... 67 figure 37: magnitude response of billing tone notch filter .................................................................. 67 figure 38: trans - hybrid cancellation ..................................................................................................... 68 figure 39: loopback modes highlighted ................................................................................................ 78 figure 40: variation of transmit gain digital input to analog output at the line ..................................... 80 figure 41: gain versus frequency for digital input to analog output at the line ..................................... 81 figure 42: signal to total distortion versus input level for digital input to analog output to the line ...... 81 figure 43: variation of receiver analog gain at the line to the digital dx output .................................. 82 figure 44: gain versus frequency for analog input at the line to the digital dx output ......................... 83 figure 45: signal to total distortion versus input level for analog at the line to the digital dx output ... 83 figure 46: return loss, @ 80 ma .......................................................................................................... 84 figure 47: 20 - pin tssop package dimensions ..................................................................................... 85 figure 48: 32 - pin qfn package dimensions ......................................................................................... 85 figure 49: 42 - p in qfn package dimensions ......................................................................................... 86
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 5 tables table 1: 73m 1906b 20 - pin tssop pin definitions .................................................................................. 8 table 2: 73m1916 20 - pin tssop pin definitions ..................................................................................... 9 table 3: 73m 1906b 32 - pin qfn pin definitions ..................................................................................... 10 table 4: 73m1916 32 - pin qfn pin definitions ....................................................................................... 12 table 5: 73m1866b pin definitions ........................................................................................................ 14 table 6: isolation barrier characteristics ................................................................................................ 16 table 7: absolute maximum device ratings .......................................................................................... 16 table 8: recommended operating conditions ....................................................................................... 16 table 9: dc character istics ................................................................................................................... 17 table 10: spi interface switching characteristics .................................................................................. 18 table 11: switching characteristics ? pcm interface (slave mode) ........................................................ 19 table 12: switching characteristics ? pcm interface (master mode) ...................................................... 19 table 13: reference voltage specifications ........................................................................................... 20 table 14: component values for the speaker driver .............................................................................. 21 table 15: call progress monitor specification ........................................................................................ 22 table 16: line - side absolute maximum ratings .................................................................................... 22 table 17: vbg specifications ................................................................................................................ 23 table 18: maximum dc transmit levels ................................................................................................ 23 table 19: transmit path ......................................................................................................................... 24 table 20: receive path ......................................................................................................................... 25 table 21: transmit hybrid cancellation characteristics .......................................................................... 26 table 22: receive notch filter ............................................................................................................... 26 table 23: over - voltage dete ctor ............................................................................................................ 27 table 24: over - current detector ............................................................................................................. 27 table 25: under - voltage detector .......................................................................................................... 27 table 26: over - load detector ................................................................................................................. 27 table 27: reference bill of materials for 73m1x66b ............................................................................... 30 table 28: reference bill of materials for figure 14 ................................................................................. 31 table 29: compatible pulse transformer sources ................................................................................. 32 table 30: pulse transformer electrical characteris tics ........................................................................... 32 table 31: control and status register map ............................................................................................ 37 table 32: alphabetical bit map .............................................................................................................. 38 table 33: pcm control functions .......................................................................................................... 52 table 34: transmit gain control ............................................................................................................ 57 table 35: recommended gain setting ................................................................................................... 57 table 36: receive gain control ............................................................................................................. 59 table 37: barrier control functions ........................................................................................................ 61 table 38: daa control functions ........................................................................................................... 68 table 39: recommended register settings for international compatibility ............................................. 72 table 40: line sensing control functions .............................................................................................. 75 table 41: loopback modes .................................................................................................................... 78 table 42: loopback modes summary .................................................................................................... 79 table 43: order numbers and packaging marks .................................................................................... 87
73m1866b/73m1966b data sheet ds_1x66b_001 6 rev. 1.6 1 introduction the 73m1966b is a two - device chip set that provides embedded fxo functionality by connecting a pcm interface to a voice - band pstn. the device set supports itu - t recommendation g.711 - law and a - law companding, and also a 16 - bit linear mode. high - voltage isolation is provided by the physical separation of the host - side (73m19106) and line - side (73m1916) devices. the host - side and the line - side devices communicate with each other using a single pulse transformer. a few low - cost components complete the daa interface to the network. the pulse transformer transmits encoded digital data rather than analog signals as with other tra nsformer designs. data is transmitted and received without the usual degradation from common mode noise and magnetic coupling typical of other capacitive and voice - band transformer techniques. the data stream passed between the host - side and line - side de vices includes the media stream data, control, status, and clocking information. this data sheet describes both the 73m1966b and 73m1866b, which will be collectively referred to as the 73m1x66b in this document. a unique capability of the 73m1x66b host s ide dev ice (73m1906b) is its ability to prov ide power to the 73m1x66b line side device (73m1916) via the pulse transformer. the 73m1906b exchanges control and status information with the host using the spi interface, w hile the pcm encoded media streams connect with other pcm - enabled devices using the pcm highway bus interface. figure 1 shows a reference block diagram of the 73m1x66b connected by a pulse transformer and example external line interface circuitry s hown for clarification. prm scm (lsbi) sinc3 filter on-chip lic (onlic) spi interface pcm interface interpolation filter filter pcm spi tip ring prp scp host -side device 73m1906b line-side device 73m1916 aux a/d txa rxa off-chip lic (offlic) (hsbi) decimation transmit receive host interface side barrier interface side barrier line digital sigma delta modulator transmit analog front end receive analog front end (with sigma delta modulator) call progress monitor audio out figure 1 : simple 73m1x66b reference block diagram the host - side device (73m1906b) consists of: 1. pcm interface block (pcm) 2. spi interface block (spi) 3. transmit interpolation filter 4. receive decimation filter 5. host - side barrier interface circuit (hsbi)
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 7 the line - side device (73m1916) consists of: 1. digital sigma delta modulator 2. transmit analog front end 3. receive analog front end including sigma delta modulator 4. sinc 3 filter (sinc3) 5. on - chip line interface circuit 6. line - side barrier interface circuit (lsbi) received data from a host connected to the pcm bus is interpolated from the sampling frequency of 8 khz or 16 khz (for pcm encoded streams) to twice the sampling frequency. the c ontrol information is multiplexed with the audio stream signals and transmitted across the isolation barrier to the line - side device. in the line - side device, the two streams are separated and the audio signal is converted to analog for transmission to th e line. an audio stream received at the analog line input pins is converted to a serialized data stream and, along with status information such as line condition from the auxiliary analog to digital converter, is transmitted over the isolation barrier usi ng the pulse transformer. the data is extracted with status information being transmitted on the spi. the audio stream is sent to a host using the pcm bus. the 73m1x66b is an enhanced version of the 73m1966 that includes the additional functionality of finer resolution of transmit and receive gain, receiver dc offset subtraction and support for t - 1 pclk frequencies.
73m1866b/73m1966b data sheet ds_1x66b_001 8 rev. 1.6 2 pinout the 73m1906b and the 73m1916 are supplied as 20 - pin tssop packages and as 32 - pin qfn packages. 2.1 73m1906b 20 - pin tssop pinout figure 2 shows the 73m 1906b 20 - pin tssop pinout. 73m190 6b 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 cs vpd dr dx fs pclko pclki vna/vnd aout vpa vnt sclk sdi sdit sdo rst prm prp vpt int figure 2 : 73m 1906b 20 - pin tssop pinout table 1 describes the pin functions for the device. decoupling capacitors on the power supplies should be included for each pair of supply pins. table 1 : 73m 1906b 20- pin tssop pin definitions pin number pin name type description 1 cs i spi chip select (active low) 2 vpd pwri positive digital supply 3 dr i pcm transmit data sent to the d to a 4 dx o pcm received data from the a to d 5 fs i/o pcm frame synchronization 6 pclko o pcm clock output 7 pclki i pcm clock in 8 vna/vnd gnd negative analog/digital groun d 9 aout o audio output ? must be buffered for speaker 10 vpa pwri positive analog supply 11 vnt gnd negative transformer supply 12 prm i/o transformer primary minus 13 prp i/o transformer primary plus 14 vpt pwri positive transformer supply 15 rst i hardware reset (active low) 16 sdit o spi data out for daisy chain mode 17 sdi i spi data in 18 sdo o spi data out 19 int o interrupt / ring detect (active low ? open drain) 20 sclk i spi clock
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 9 2.2 73m1916 20 - pin tssop pinout figure 3 shows the 73m1916 20 - pin tssop pinout. 73m1916 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 dci rgn rgp ofh vnx scp mid vpx sre srb vbg dcs dcd txm rxm rxp acs vns vps dcg figure 3 : 73m1916 20 - pin tssop pinout table 2 describes the pin functions for the device. decoupling capacitors on the power supplies should be included for each pair of supply pins. table 2 : 73m1916 20 - pin tssop pin definitions pin number pin name t ype description 1 dci i dc loop input 2 rgn i ring detect negative v oltage input 3 rgp i ring detect positive voltage input 4 ofh o off - hook control 5 vnx gnd negative supply voltage (line side of the barrier) 6 scp i/o positive side of the secondary pulse transformer winding 7 mid i/o charge pump midpoint 8 vpx pwr supply from the barrier 9 sre i voltage regulator sense 10 srb o voltage regulator drive 11 vbg o vbg bypass, connect to 0.1 f capacitor to vns 12 acs i ac current sense 13 vns gnd analog negative supply voltage 14 vps pw ro analog positive supply v oltage (output) 15 rxp i receive plus ? signal input 16 rxm i receive minus ? signal input 17 txm o transmit minus ? transhybrid cancellation output 18 dcd o dc loop output 19 dcs i dc loop current sense 20 dcg o dc loop control
73m1866b/73m1966b data sheet ds_1x66b_001 10 rev. 1.6 2.3 73m1906b 32 - pin qfn pinout figure 4 shows the 73m 1906b 32 - pin qfn pinout. 6 7 8 9 5 4 3 2 1 17 18 19 20 24 23 22 21 10 11 12 13 14 15 16 32 31 30 29 28 27 26 25 gpio7 tsc dx vpd fs pclko pclki vnd sdo sdi sdit rst vpd vpt prp prm vna / vnpll vbg aout vpa / vppll n/c vnt n/c n/c 73m1906b gpio5 gpio6 dr vpd cs sclk int vnd figure 4 : 73m 1906b 32 - pin qfn pinout table 3 describes the pin functions for the device. decoupling capacitors on the power supplies should be included for each pair of supply pins. table 3 : 73m 1906b 32- pin qfn pin definitions pin number pin name type description 1 gpio7 i/o configurable inp ut/output pin 2 tsc o pcm time slot control (active low) 3 dx o pcm received data from the a to d 4 vpd pwr positive digital supply 5 fs i/o pcm frame synchronization 6 pclko o pcm clock output 7 pclki i pcm clock in 8 vnd gnd negative digital groun d 9 vna/vnpll gnd negative analog/pll ground 10 vbg o band gap voltage reference monitor 11 aout o audio output ? must be buffered for speaker 12 vpa/vppll pwr positive analog/pll supply 13 n/c ? no connect 14 vnt gnd negative transformer supply 15 n/c ? no connect 16 n/c ? no connect
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 11 pin number pin name type description 17 prm i/o transformer primary minus 18 prp i/o transformer primary plus 19 vpt pwr positive transformer supply 20 vpd pwr positive digital supply 21 rst i hardware reset (active low) 22 sdit o spi data out for daisy - chain mode 23 sdi i spi data in 24 sdo o spi data out 25 gpio5 i/o configurable input/output pin 26 vnd gnd negative digital ground 27 int o interrupt / ring detect (active low ? open drain) 28 sclk i spi clock 29 cs i spi chip select (ac tive low) 30 vpd pwr positive digital supply 31 dr i pcm transmit data sent to the d to a 32 gpio6 i/o configurable input/output pin
73m1866b/73m1966b data sheet ds_1x66b_001 12 rev. 1.6 2.4 73m1916 32 - pin qfn pinout figure 5 shows the 73m1916 32 - pin qfn pinout. 6 7 8 9 5 4 3 2 1 17 18 19 20 24 23 22 21 10 11 12 13 14 15 16 32 31 30 29 28 27 26 25 cko ofh cki vnx scp mid scm vpx rst dcd tst txm sacin rxm rxp vps rct byp sre srb vns vbg acs vns 73m1916 dcs gpo gpi vns/vnd rgp rgn dci dcg figure 5 : 73m1916 32 - pin qfn pinout table 4 describes the pin functions for the device. decoupling capacitors on the power supplies should be included for each pair of supply pins. table 4 : 73m1916 32 - pin qfn pin definitions pin number pin name t ype description 1 cko o test point for recovered clock 2 ofh o off - hook control 3 cki i test input for clock 4 vnx gnd negative supply volt age 5 scp i/o positive side of the secondary pulse transformer winding 6 mid i/o charge pump midpoint 7 scm i/o negative side of the secondary pulse transformer winding 8 vpx pwr supply from the barrier 9 rct i external rectification ? disables inter nal rectifier when low, leave open 10 byp i test pin, leave open 11 sre i voltage regulator sense 12 srb o voltage regulator drive 13 vns gnd digital negative supply voltage 14 vbg o vbg bypass, connect to 0.1f capacitor to vns 15 acs i ac current sense
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 13 pin number pin name t ype description 16 vns gnd analog negative supply voltage 17 vps pw ro analog positive supply voltage (output) 18 rxp i receive plus ? signal input 19 rxm i receive minus ? signal input 20 sacin i caller id mode ac impedance connection 21 txm o transmit minus ? transhybrid cancellation output 22 tst i factory test mode, leave open 23 rst i resets the control registers to default ? weakly pulled high 24 dcd o dc loop output 25 dcs i dc loop current sense 26 dcg o dc loop control 27 dci i dc loop input 28 rgn i ring detect negative voltage input 29 rgp i ring detect positive voltage input 30 vns gnd negative supply voltage (line side of the barrier) 31 gpi i general purpose input (test pin) 32 gpo o general purpose output (test pin)
73m1866b/73m1966b data sheet ds_1x66b_001 14 rev. 1.6 2.5 73m1866b pinout figure 6 shows the 73m1866b 42 - pin pinout. dx vpd fs pclko vna pclki aout vpa vnt prm prp vpt rst sdit sdi vnd sdo int sclk cs dr sre srb vbg acs vns vps rxm rxp txm dcd dcs dcg dci rgn rgp ofh m20pb vnx scp mid vpx 73 m18 66b 1 2 3 4 5 6 7 8 9 10 20 11 12 13 14 15 16 17 18 19 21 22 23 24 25 26 27 28 29 30 31 32 33 35 34 36 37 38 39 40 41 42 figure 6 : 73m1866b 42 - pin pinout table 5 describes the pin functions for the device. decoupling capacitors on the power supplies should be included for each pair of supply pins. table 5 : 73m1866b pin definitions pin number pin name t yp e description 1 dx o pcm received data from the a to d 2 vpd pwr positive digital supply 3 fs i/o pcm frame synchronization 4 pclko o pcm clock output 5 vna gnd negative analog ground 6 pclki i pcm clock in 7 aout o audio output ? must be buffered f or speaker 8 vpa pwr positive analog supply 9 vnt gnd negative transformer supply 10 prm i/o transformer primary minus 11 prp i/o transformer primary plus 12 vpt pwr positive transformer supply 13 rst i hardware reset (active low) 14 sdit o spi data out for daisy - chain mode 15 sdi i spi data in 16 sdo o spi data out
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 15 pin number pin name t yp e description 17 vnd gnd negative digital ground 18 int o interrupt / ring detect (active low ? open drain) 19 sclk i spi clock 20 cs i spi chip select (active low) 21 dr i pcm transmit data sent to the d to a 22 sre i voltage regulator sense 23 srb o voltage regulator drive 24 vbg o vbg bypass, connect to 0.1f capacitor to vns 25 acs i ac current sense 26 vns gnd analog negative supply voltage 27 vps pw ro analog positive supply voltage (output) 28 rxp i receive plus ? signal input 29 rxm i receive minus ? signal input 30 txm o transmit minus ? transhybrid cancellation output 31 dcd o dc loop output 32 dcs i dc loop current sense 33 dcg o dc loop control 34 dci i dc loop input 35 rgn i ring detect negative voltage input 36 rgp i ring detect positive voltage input 37 ofh o off - hook control 38 m20pb i test pin. connect to vnx. 39 vnx gnd negative supply voltage 40 scp i/o positive side of the secondary pulse transformer winding 41 mid i/o charge pump midpoint 42 vpx pwr supply from the barrier 2.6 requisite use of expo sed bottom pad on 73m1866b and 73m1966b qfn packages the exposed bottom pad is not intended for thermal relief (heat dissipation) and should not be soldered to the pcb. soldering of the exposed pad could also compromise electrical isolation/insulation re quirements for proper voltage isolation. avoid any pcb traces or through - hole vias on the pcb beneath the exposed pad area.
73m1866b/73m1966b data sheet ds_1x66b_001 16 rev. 1.6 3 electrical characteristics and specifications 3.1 isolation barrier characteristics table 6 provides the cha racteristics of the 73m1x66b isolation barrier. table 6 : isolation barrier characteristics parameter rating barrier frequency 768 khz data transfer rate across the barrier for the sampling rate of 8 khz 1.536 mbps when 16 khz sampling rate is selected, the frequency and data transfer rates are twice those shown above. 3.2 electrical specifications this section provides the absolute maximum ratings, the recommended operating conditions and the dc characteristics. 3.2.1 absolute maximum ratings table 7 lists the maximum operating conditions for the 73m1x66b . permanent device damage may occur if absolute maximum ratings are exceeded. exposure to the extremes of the absolute maximum rating for extended periods m ay affect device reliability. table 7 : absolute maximum device ratings parameter min max unit supply voltage - 0.5 4.0 v pin input voltage (except oscin) - 0.5 6.0 v pin input voltage (oscin) - 0.5 to vdd 0.5 v 3.2.2 recommended operat ing conditions function operation should be restricted to the recommended operating conditions specified in table 8 . table 8 : recommended operating conditions parameter min max unit supply voltage (vdd) w ith respect to vss 3.0 3.6 v operating temperature - 40 85 c
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 17 3.2.3 dc characteristics table 9 lists the 73m1x66b dc characteristics. table 9 : dc characteristics parameter condition min nom max unit input low voltage vil ? - 0.5 ? 0.2 ? vdd v input high voltage vih1 ? 0.7 vdd ? 5.5 v output low voltage vol iol=4 ma ? ? 0.45 v output low voltage fsb,sclk, vol iol=1 ma ? ? 0.45 v output high voltage voh ioh= - 4 ma vdd - 0.45 ? v output high voltage fsb, fsbd , sclk voh ioh= - 1 ma vdd - 0.45 ? v input low leakage current iil1 vss < vin < vil1 10 ? 40 a input high leakage current iih1 vih1 < vin < 5.5 ? ? 1 a idd current at 3.0 v ? 3.6 v nominal at 3.3 v active digital current idd1 dig ? ? 1.0 1.5 ma active pll current idd1 pll ? ? 1.0 1.5 ma active analog current idd1 ana ? ? 12 17 ma idd to tal current* idd1 ? ? 15 20 ma idd total current* idd2 ? ? 20 30 ma idd current pwdn=1 idd3 ? ? 1.0 5 a idd current sleep=1 (ext ref clk) idd4 ? ? 0.5 1.0 ma idd current enfeh=0 (ext ref clk) idd6 ? ? 1.0 1.5 ma *note: idd1 is with the secondary of the barrier left open. idd2 is with the secondary of the barrier connected to 73m1916 fully powered.
73m1866b/73m1966b data sheet ds_1x66b_001 18 rev. 1.6 3.3 interface timing specification there are three interfaces associated with the 73m1x66b : the spi interface, the pcm highway interface and the line i nterface. this section provides the timing specification for the spi interface and the pcm highway interface. 3.3.1 spi interface table 10 lists the characteristics for the spi interface. table 10: spi interfa ce switching characteristics parameter symbol min typ max unit sclk cycle time 1 t scy 62.5 ? ? ns sclk rise time t scr ? ? 25 ns sclk fall time t scf ? ? 25 ns cs setup time t ics 25 ? ? ns cs hold time t ich 20 ? ? ns sdi setup time t ids 25 ? ? ns sdi h old time t idh 20 ? ? ns sdo turn on delay t odd ? ? 20 ns sdo turn off delay t odo ? ? 20 ns sdo hold time t odh ? ? 20 ns sdi to sdithru propagation delay t idt ? 6 ? ns note 1 : the minimal value of this parameter is for the case where only one 73m 1906b is connected to the host. if the daisy chain mode is used, the minimum sclk cycle time increases according to the number of slaves in the chain . cs sclk sdi sdo t ics t scy t ids t idh t odd t odh t odo t ich figure 7 : spi timing diagram
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 19 3.3.2 pcm highway interface table 11 : switching characteristics ? pcm interface (slave mode) parameter symbol min typ max unit pclk_in cycle time t pcy 122 ? 3906 ns pclk_in rise time t pcr ? ? 25 ns pclk_in fall time t pcf ? ? 25 ns fs setup time t ifs 25 ? ? ns fs hold time t ifh 20 ? ? ns fs cycle time t ifc ? 125 ? s dr setup time t ids 25 ? ? ns dr hold time t idh 20 ? ? ns dx turn on delay t odd ? ? 20 ns dx turn off delay t odo ? ? 20 ns dx hold time t odh ? ? 20 ns table 12: s witching characteristics ? pcm interface (master mode) parameter symbol min typ max unit pclk_out cycle time t pcy ? 488 ? ns pclk_out rise time t pcr ? ? 25 ns pclk_out fall time t pcf ? ? 25 ns fs setup time t ifs 50 ? ? ns fs hold time t ifh 50 ? ? ns fs cycle time t ifc ? 125 ? s dr setup time t ids 25 ? ? ns dr hold time t idh 20 ? ? ns dx turn on delay t odd ? ? 20 ns dx turn off delay t odo ? ? 20 ns dx hold time t odh ? ? 20 ns fs pclk dr dx t ifs t pcy t ids t idh t ird t odd t odo t ifh t ifc t odh figure 8 : pcm timing diagram for positive edge transmit mode and negative edge receive mode
73m1866b/73m1966b data sheet ds_1x66b_001 20 rev. 1.6 fs pclk dr dx t ifs t pcy t ids t idh t ird t odd t odo t ifh t odh figure 9 : pcm timing diagram for negative edge transmit mode and positive edge receive mode 3.4 analog specifications this section provides the electrica l characterizations of the 73m1x66b analog circuitry. 3.4.1 dc specifications vbg is to be connected to an external bypass capacitor with a minimum value of 0.1 f. this pin is not intended for any other external use. table 13 : reference voltage specifications parameter test condition min nom max units vbg vdd=3.0 v ? 3.6 v 0.9 1.19 1.4 v vbg noise 300 hz ? 3.3 khz ? - 86 - 80 dbm 600 vbg psrr 300 hz ? 30 khz 40 ? ? db
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 21 3.4.2 call progress monitor the call progress monitor monitors activities on the line. the audio output contains both transmit and receive data with a configurable level individually set by register 10h. figure 10 shows the frequency response of the call progress monitor filter based upon the characteristics of the device plus the external circuitry as shown. figure 10 : frequency response of the call progres s monitor filter u1 njm2135 cd 1 -vin 4 v+ 6 gnd 7 vout1 5 vout2 8 vref1 2 vref2 3 aout vcc vcc r3 120k + c2 2.2uf ls1 intervox at-2308 c4 1uf r2 120k r1 120k c3 1uf c1 0.1uf figure 11 : demo board circuit connecting aout to a speaker table 14 : component values for the speaker driver quantity reference part description part 1 c1 ceramic capacitor 0.1 f 1 c2 ceramic capacitor 2.2 f (optional) 2 c3, c4 ceramic capacitor 1 f 1 ls1 sound transducer speaker (intervox) 3 r1, r2, r3 1/8 w resistor 0603 120 k 1 u1 audio amplifier njm2135 (new japan radio) all measurements are at the aout pin with cmvsel=0. note that when cmvsel=1, the peak signal at aout is increased to approximately 1.11 vpk.
73m1866b/73m1966b data sheet ds_1x66b_001 22 rev. 1.6 table 15 : call progress monitor specificatio n parameter test condition min nom max units aout for transmit 1 khz full swing code (atx) cmr xg=11 (mute) observe aout pin ? ? ? ? cmtxg=00 ? 0.98 ? vpk cmtxg=01 relative to cmtxg=00 ? - 6 ? db cmtxg=10 relative to cmtxg=00 ? - 12 ? db cmtxg=11 (mute) ? mute ? db aout transmit thd cmtxg=00 ? 40 ? db aout for receive 1.0 vpk, 1 khz at the line or 0.5 vpk at rxp/rxm with rxg=10 cmtxg=11 (mute) observe aout pin ? ? ? ? cmrxg=00 ? 0.96 ? vpk cmrxg=01 relative to cmrxg=00 ? - 6 ? db cmrxg=10 relative to cmrxg=00 ? - 12 ? db cmrxg=11 (mute) ? mute ? db aout receive thd cmrxg=00 ? 4 0 ? db aout output impedance ? 10 ? k 3.5 73m1x66b line - side electrical specifications (73m1916) table 16 lists the absolute maximum ratings for the line side. operation outside these rating limits may cause permanent damage to this device. table 16 : line - side absolute maximum ratings parameter min max unit pin input voltage from vpx to vnx - 0.5 6.0 v pin input voltage (all other pins) to vns - 0.5 4.0 v
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 23 3.6 reference and regulation table 17 lists the vbg specificati ons. vbg should be connected to an external bypass capacitor with a minimum value of 0.1 f. this pin is not intended for any other external use. the following conditions apply: vpx=5 v; barrier powered mode; barrier data rate across the barrier=1.5 mbps; vbg connected to 0.1 f external cap. table 17 : vbg specificat ions parameter test condition min nom max units vbg see conditions above. ? 1.19 ? v vbg noise 300 hz ? 3.3 khz ? - 86* - 80 dbm 600 vbg psrr 300 hz ? 30 khz 40 ? ? db vps vpx=5.5 v ? 3.15 ? v vps psrr vpx=4.5 v to 5.5 v ? 40 ? db 3.7 dc transfer character istics table 18 lists the maximum dc transmit levels. all tests are driven at pin dci and measured at pin dcs. dcen=1. ilm=1. table 18 : maximum dc transmit levels parameter test condition min nom max un its v dcon (dc "on" voltage) dciv=00 0.62 0.69 0.78 v dciv=01 0.83 0.92 1.00 v dciv=10 1.08 1.16 1.24 v dciv=11 1.32 1.42 1.53 v with enac=0 dciv=xx 0.20 0.26 0.30 v dc gain v dcon 73m1866b/73m1966b data sheet ds_1x66b_001 24 rev. 1.6 3.8 transmit path table 19 list the transmit path characteristics. a pattern for a sinusoid of 1 khz, full scale (code word of +/ - 32,767) from the 73m1x66b is forced and a cs is measured with r10=174 . unless stated otherwise, test conditions are: acz=0000 (600 termination), then=1, aten=1, daa=01, txbst=0, sample rate=8khz. table 19 : transmit path parameter test condition min nom max units offs et voltage 8 and 16 khz sample rate 50% 1?s density relative to 1.4 v common mode. ? 25 ? mv tx gain, relative to daa[1:0]=01 daa=00 2.5 +3 3.5 db daa=01 - 0.5 0 0.5 db daa=10 - 4.5 - 4 - 3.5 db daa=11 - 8.5 - 8 - 7.5 db ac swing (1 khz sinusoid) 8 and 16 khz sample rate daa=01 ? 0.317 ? vpk daa=00 ? 0.447 ? vpk txbst=1, daa=xx ? 0.634 ? vpk acz=0001 ? 0.211 ? vpk acz=0010 ? 0.211 ? vpk acz=0011 ? 0.200 ? vpk acz=0100 ? 0.254 ? vpk acz=0101 ? 0.220 ? vpk acz=0110 ? 0.171 ? vpk acz=0111 ? 0.194 ? vpk acz=1000 ? 0.222 ? vpk acz=1001 ? 0.205 ? vpk acz=1010 ? 0.223 ? vpk acz=1011 ? 0.313 ? vpk acz=1100 ? 0.208 ? vpk acz=1101 ? 0.211 ? vpk acz=1110 ? 0.285 ? vpk acz=1111 ? 0.235 ? vpk idle noise 300 hz ? 4 khz ? - 80 ? dbm th d 300 hz ? 4 khz ? - 80 ? db intermod distortion 1.0 khz and 1.2 khz summed 300 hz ? 4 khz ? - 85 ? db passband ripple 150 hz ? 3.3 khz - 0.125 ? +0.125 db gain relative to 1 khz ? ? ? db 0.5 khz ? 0.17 ? db 1.0 khz ? 0 ? db 2.0 khz ? 0.193 ? db 3.3 khz ? - 0.12 ? db aliased image fs +/ - 1 khz, relative to 1 khz ? - 75 ? db
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 25 3.9 receive path table 20 lists the receive path characteristics. all test inputs are driven through an ac coupling network shown in figure 29. the r eceive bit stream is measured at the dx pin. rxen=1. table 20 : receive path parameter test condition min nom max units differential input resistance rxp/rxm ? 1000 ? k input level differential, rxp/rxm ? 1.1 1.16 vpk input level common mode, rxp/rxm ? 1.37 ? v overall sigma - delta adc modulation gain inclusive of 73m 1906b processing normalized to vbg = 1.19 v. rxg = 00 divide vrxp/m by pcm output ? 47.3 ? v/bit offset voltage r6 = 17.4 k, r8 = 52.3 k, r9 = 21 k. see figure 12 . ? 0 +/ - 30 mv rx gain (see note 1.) rxg=00 - 0.5 0 0.5 db rxg=01 2.5 3 3.5 db rxg=10 5.5 6 6.5 db rxg=11 8.5 9 9.5 db rxbst=1, rxg=00 18.3 19.3 20.3 db overall re ceive frequency response inclusive of 73m1906b processing relative to 1 khz ? ? ? ? 0.3 khz ? 3.3 khz - 0.25 0 +0.25 db fs (8 khz) ? - 75 ? db idle noise 300 hz ? 4 khz ? - 80 ? dbm thd rxg=00 ? - 85 ? db rxbst=1 ? - 60 ? intermod dist 1.0 khz and 1. 2 khz summed 300 hz ? 4 khz ? - 85 ? db crosstalk 1 vpk 1 khz sine wave at txp; fft on rx adc samples, first four harmonics reflected to the line. ? - 90 ? dbm cmrr rxp=rxm 1 vpk 40 ? ? db psrr - 30 dbm signal at vpx in barrier powered mode; 300 hz ? 30 k hz. ? ? 40* db on - hook ac impedance 300 hz ? 4 khz, without emi caps. ? 2 ? m note 1: rxg controls the amount of gain or attenuation of the receiver analog gain element as specified in table 20 . the overall receiver channel gain has 6 db of attenuation and the net effect of the rxg bits on the receiver channel gain is defined in table 36.
73m1866b/73m1966b data sheet ds_1x66b_001 26 rev. 1.6 3.10 transmit hybrid cancellation table 21 lists the transmit hybrid cancellation characteri stics. unless stated otherwise, test conditions are: acz[3:0]=0000 (600 termination), then=1, aten=1, daa[1:0]=01, txbst=0. txm is externally fed back into the 73m1916 to effect cancellation of transmit signal. table 21 : transmit hybrid canc ellation characteristics parameter test condition min nom max units transmit hybrid cancellation measure in 73m1906b ? 20 ? db offset voltage 50% 1?s density ? 0 25 mv ac swing 1 khz sinusoid 1.00 1.05 1.10 vpk idle noise 300 hz ? 4 khz ? - 80 ? dbm 3.11 r eceive notch filter table 22 lists the receive notch filter characteristics. all measurements taken with rlpnen=1, txen=0, rxg=00, aten=1. rxp is driven with 1 vpk signal. table 22 : receive notch filter parameter test condition min nom max unit magnitude response rlpnh = 0 (12 khz notch) 300 hz ? 0.0 ? db 1 khz ? +0.03 ? db 3 khz ? +0.04 ? db 12 khz - 30 - 50 ? db passband ripple (0.3 khz ? 3.4 khz) ? +/ - 0.15 ? db delay ? 28.8 ? s 300 hz ? 28 .93 ? s 1 khz ? 30.25 ? s 3 khz ? 41.62 ? s 12 khz ? 9.95 ? s magnitude response rlpnh = 1 (16 khz notch) 300 hz ? 0.0 ? db 1 khz ? +0.04 ? db 3 khz ? +0.11 ? db 16 khz - 30 - 50 ? db passband ripple (0.3 khz ? 3.4 khz) ? +/ - 0.15 ? db de lay ? 30.53 ? s 300 hz ? 30.66 ? s 1 khz ? 31.93 ? s 3 khz ? 42.26 ? s 16 khz ? 4.74 ? s
ds_1x66b_001 73m1866b/ 73m1966b data sheet rev. 1.6 27 3.12 detectors this section provides electrical characteristics for the following detectors: ? over - voltage. ? over - current. ? under - voltage. ? over - load. 3.12.1 over - vo ltage detector the values in table 23 were measured between rgp and rgn. table 23 : over - voltage detector parameter test condition min nom max unit over voltage levels ovdth=0 0.52 0.6 0.68 v ovdth=1 0.5 9 0.7 0.77 v 3.12.2 over - current detector the values in table 24 were measured in barrier powered mode. table 24 : over - current detector parameter test condition min nom max unit over current level measured at dcs. 0.90 1.025 1.20 v 3.12.3 under - voltage detector the values in table 25 were measured in barrier powered mode. in the recommended schematic (see figure 12 ), disconnect q5 collector and connect to an exter nal power supply, vpe, through a 600 resistor. table 25 : under - voltage detector parameter test condition min nom max unit under voltage detect measure vpe when uvd is detected as vpe is decreased. ? 7.5 ? v 3.12.4 over - load detector the values in table 26 were measured in barrier powered mode. table 26 : over - load detector parameter test condition min nom max unit over load level measured at dci with 1 khz. 0.6 0.75 0.9 vpk
73m1866b/73m1966b data sheet ds_1x66b_001 28 rev. 1.6 r69 100k* c14 15pf int\ sclk c41 220pf, 300v sdo sdi vcc sdithru + c8 4.7uf r2 10m, 0805 r12 5.1k r11 3k c39 5.6nf q7 mmbta42 1 3 2 r68 1m, 0805 c3 0.022uf, 200v r st\ c48 0.1uf q6 bcp-56 1 2 3 4 dr vps c49 100pf c1 0.022uf, 200v r8 52.3k, 1% r9 21k, 1% r5 8.2, 0805 r3 412k, 1% u1 73m1916-20 ofh 4 vnx 5 scp 6 mi d 7 vpx 8 vbg 11 acs 12 sre 9 srb 10 vns 13 vps 14 r xp 15 r xm 16 txm 17 dcs 19 dcd 18 dci 1 rgn 2 rgp 3 dcg 20 r6 17.4k, 1% r66 1m, 0805 c38 0.1uf c12 0.1uf r4 100k, 1% c7 4.7uf, 25v u2 73m1906b-20 cs 1 aout 9 vpd 2 vpt 14 pclko 6 pclki 7 sclk 20 dx 4 dr 3 fs 5 sdit 16 sdo 18 sdi 17 vpa 10 vna/vnd 8 prm 12 prp 13 rst 15 vnt 11 int 19 dx audio c33 1nf fsio isolation barrier c31 0.1uf clko c35 220pf, 3kv clki - + br1 hd04 4 1 3 2 c36 220pf, 3kv c37 0.01uf tp15 vps 1 tp14 ofh 1 r58 240 l1 2k ohms @ 100 mhz c9 0.22uf t1 1 4 2 3 f1 trf600-150 l2 2k ohms @ 100 mhz c10 0.22uf tisp4290t3bj r10 174, 1% q3 mmbta42 1 3 2 r65 200 q4 mmbta92 1 3 2 e1 p3100sbrp q5 mmbta06 1 3 2 c24 nc (tbd as needed, 3kv) c13 15pf c26 1nf cs\ sre srb c20 1nf scp c43 1nf note: gnd for c35 and c36 should be on the host side of the barrier + c4 10uf vcc c30 1nf + c21 3.3uf c17 0.1uf + c45 3.3uf vcc ti p ring d1 mmsz4710t1* 4 a pplications information this section provides general usage information for the design and implementation of the 73m1x66b . 4.1 example schematic of the 73m1966b and 73m1866b figure 12 shows a typical application schematic for the imp lementation of the 73m1966b . figure 13 shows a typical application schematic for the implementation of the 73m1866b . note that minor changes may occur to the reference material from time to time and the reader is encouraged to contact teridian for the latest information. for more information about schematic and layout design, see the 73m1866b/73m1966b schematic and layout guidelines . figure 12 : recommended circuit for the 73m1966b
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 29 figure 13 : recommended circuit for the 73m1866b r6 17.4k, 1% t1 pulse transf ormer 1 4 2 3 c1 0.022uf, 200v c3 0.022uf, 200v c43 1nf c49 100pf c35 220pf, 3kv c30 1nf r5 8.2 c33 1nf r3 412k, 1% r66 1m, 0805 vns vcc c37 0.01uf maintain 2.5 mm spacing between line and host side components isolation barrier c38 0.1uf f1 trf600-150 e1 p3100sbrp c20 1nf u1 73m1866b dx 1 vpd 2 fs 3 pclko 4 vna 5 pclki 6 aout 7 vpa 8 vnt 9 prm 10 prp 11 vpt 12 rst 13 sdit 14 sdi 15 sdo 16 vnd 17 int 18 sclk 19 cs 20 dr 21 sre 22 srb 23 vbg 24 acs 25 vns 26 vps 27 rxp 28 rxm 29 txm 30 dcd 31 dcs 32 dcg 33 dci 34 rgn 35 rgp 36 ofh 37 m20pb 38 vnx 39 scp 40 mi d 41 vpx 42 r stb c26 1nf sdithru spi out spi in spi clk c39 5.6nf c36 220pf, 3kv vns spi csb c9 0.22uf pc m tx c41 220pf, 300v intb r11 3k vcc vcc vcc r68 1m, 0805 c17 0.1uf pcm clkin c13 15pf c12 0.1uf l1 2 kohm@100mhz pcm clko c14 15pf vns vns aout r2 10m + c45 3.3uf + c21 3.3uf + c8 4.7uf ring ti p r12 5.1k - + br1 hd04 4 1 3 2 r58 240 r9 21k, 1% q3 mmbta42 1 3 2 q6 bcp56 1 2 3 4 l2 2 kohm@100mhz q4 mmbta92 1 3 2 r10 174, 1% r4 100k, 1% q5 mmbta06 1 3 2 pcm fs c10 0.22uf q7 mmbta42 1 3 2 c7 4.7uf, 25v pcm rx r65 200 note: gnd for c35 and c36 should be on the host side of the barrier c31 0.1uf c48 0.1uf r8 52.3k, 1% c24 nc (as needed, 3kv) + c4 10uf d1 mmsz4710t1* r69 100k*
73m1866b/73m1966b data sheet ds_1x66b_001 30 rev. 1.6 4.2 bill of materials table 27 provides the 73m1x66 bill of materials for the reference schematics provided in figu re 12 and figure 13 . table 27 : reference bill of materials for 73m1x66b qty reference part description source example mfr p/n 1 br1 hd04 rectifier bridge, 0.8a, 400v diodes inc. hd04 - t 2 c1, c3 0.022f 200v, x7r, 1206 panasonic ecj - 3fb2d223k 1 c4 10f 6.3v, tantalum, 0805 avx, panasonic tcp0j106m8r a 1 c7 4.7f 25v, x5r, 0805 avx, panasonic 08053d475kat2a 1 c8 4.7uf 6.3v, tantalum, 0805 rohm tcp0j475m8r 2 c9, c10 0.22f 16v, x7r, ceramic, 0603 panasonic c0603c224k8ractu 4 c12,c17,c31, c38, c48 0.1f 16v, x7r, ceramic, 0603 panasonic, kemet c0603c104k8ractu 2 c13, c14 15pf 50v, ceramic, 0603 panasonic ecj - 1vc1h150j 5 c20, c26, c30, c33, c43 1nf 10v, x7r, ceramic, 0603 panasonic c0603c102k8ract u 2 c21, c45 3.3f 6.3v, tantalum, 0805 rohm tcp0j335m8r 1 c37 0.01f 50v, x7r, ceramic, 0603 avx, panasonic 06035c103kat2a 1 c39 5.6nf 50v, x7r, 10% ceramic, 0603 panasonic ecj - 1vb1h562k 1 c49 100pf 50v, ceramic, 0603 taiyo yuden umk107ch101jz - t 1 d 1 25v, 500mw zener diode on semi mmsz4710t1, 1 q5 mmbta06, npn 80 v transistor sot23 diodes, fairchild, central, on semi mmbta06lt1g 1 q4 mmbta92, pnp 300 v transistor sot23 diodes, fairchild, central, on semi mmbta92lt1g 2 q3, q7 mmbta42, npn 300 v tra nsistor sot23 diodes, fairchild, central, on semi mmbta42lt1g 1 q6 npn 80 v transistor sot223 fairchild, on semi bcp56 1 r2 10m, 5%, 1/8w resistor 0805 yageo rc0805jr - 0710ml 1 r3 412k, 1%, 1/10w resistor 0603 yageo rc0603fr - 07412kl 1 r4 100k, 1%, 1/10w resistor 0603 yageo rc0603fr - 07100kl 1 r5 8.2, 5%, 1/8w resistor 0805 yageo rc0805jr - 078r2l 1 r6 17.4k, 1%, 1/10w resistor 0603 yageo rc0603fr - 0717k4l 1 r8 52.3k, 1%, 1/10w resistor 0603 yageo rc0603fr - 0752k3l 1 r9 21k, 1%, 1/10w resistor 0603 yageo r c0603fr - 0721kl 1 r10 174, 1%, 1/10w resistor 0603 yageo rc0603fr - 07174rl 1 r11 3k, 5%, 1/10w resistor 0603 yageo rc0603jr - 073k0l 1 r12 5.1 k, 5%, 1/10w resistor 0603 yageo rc0603jr - 075k1l 1 r58 240, 5%, 1/10w resistor 0603 yageo rc0603jr - 07240rl 1 r65 200, 5%, 1/10w resistor 0603 yageo rc0603jr - 07200rl 2 r66, r68 1 m, 5%, 1/8w resistor 0805 yageo rc0603jr - 071ml 1 r69* 100k typ. 5%, 1/10w resistor 0603 yageo rc0603jr - 07100kl 1 t1 pulse transformer see table 29. * optional ? see the 73m 1866b/ 1966b schematics and layout guidelines for details.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 31 4.3 over - voltage and emi protection over - voltage protection is required to meet worst - case conditions for target countries. ul1950, en60950, iec 60950, itu - t k.20/k.21 and gr - 1089 - cor e specifications define the protection requirements for many countries. a single design can be implemented to meet all these requirements. figure 14 shows a recommended protection circuit topology. fuse (f1) sho uld be rated appropriately for the country of operation, and the bidirectional thyristor (e1) should have a minimum break - over of 220 v, a maximum break - over of 275 v and be able to survive a 100 a fast transient. in addition to over - voltage and current protection, the 73m1x66b should make provisions to prevent emi emissions and emc susceptibility. figure 14 also illustrates how l1, l2, c35, c36 and c41can provide this suppression. the ferrite beads, l1 and l2, should be capable of passing 150 ma and have an impedance of 2k at 100 mhz. c35, c36 and c41 should be between 47pf and 220nf, and rated for a breakdown voltage greater than the highest isolation voltage or line voltage that is required for country comp atibility. c35 and c36 should be returned to an earth ground. emi suppression is highly dependent on the physical design of the overall circuit and not all the suppression components may be needed in every design and application. c35 220pf, 3kv c36 220pf, 3kv l1 2k ohm @ 100mhz f1 tr600-150 l2 2k ohm @ 100mhz j1 rj-11 1 2 3 4 5 6 e1 p3100sbrp or equiv . t r c41 220pf, 300v figure 14 : suggested over - voltage protection and emi suppression circuit table 28 : reference bill of materials for figure 14 reference part description source example mfr p/n e1 bidirectional thyristo r diodes inc., bourns tb3100h - 13 - h, tisp4290t3bjr - s f1 pptc fuse tyco, bourns mf - r015/600 or equiv. l1,l2 2 k @ 100 mhz, 150 ma min, 0805 steward, tdk mpz2012s601a c35, c36 220 pf, 3000 v tdk c4532cog3f221k c41 220 pf, 300 v vishay vj1206y221kxeat5z
73m1866b/73m1966b data sheet ds_1x66b_001 32 rev. 1.6 4.4 isolation barrier pulse transformer the isolation element used by the 73m1x66b is a standard digital pulse transformer. several vendors supply compatible transformers with up to 6000 v ratings. since the transformer is the only component crossing the i solation barrier other than emi capacitors that may be required , it solely determines the isolation between the pstn and the fxo?s digital interface. this method of isolation is significantly superior to other isolation techniques with major advantages in high common mode voltage operation, lower radiated noise (emi) and improved operation in noisy environments. table 29 lists some pulse transformers compatible with the 73m1x66b. the tabl e also includes low - voltage transformers that offer low - cost alternatives if such voltages are sufficient. table 29 : compatible pulse transformer sources company number sumida esmit 4180 esmit 4181 wurth electronics midcom inc. 750110001 umec tg - utb01543s datatronics pt79280 aasupreme p950003 table 30 lists some of the typical pulse transformer specifications used by the 73m1x66b. contact the manufacturer directly for product information. table 30: pulse transforme r electrical characteristics parameter test condition min nom max tolerance unit inductance 100 khz, 10 mvac, 1 - 2, ls. 54 60 200 ? h interwinding capacitance ? ? ? 6 ? pf turn ratio ? ? 1:1 ? 2 % n/a dc resistance primary ? ? 0.25 ? secondary ? ? 0.25 ? dielectric breakdown voltage 1 sec 2 000 3750 ? ? vrms et constant ? ? 1.2 ? ? v s surge test 1.2 x 50 s 2800 6 000 ? v operating temperature ? - 40 ? 85 ? c
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 33 5 spi interface the host accesses the 73m1x66b using an spi interface to write to control registers and read status registers. the host is the master of the transaction. four pins orchestrate the communication be tween the host and the spi, and a fifth pin is dedicated to support the daisy - chain mode. the signals are as follows: ? sdi serial data input driven by the host. ? sdo serial data output driven by the 73m1x66b . ? sclk clock input driven by the host. ? cs chi p select input driven by the host. ? sdit serial data output for daisy - chain mode. the spi implemented by the 73m1x66b has the following key features: ? support for 8 - bit and 16 - bit mode operations. ? support for daisy - chain operations. ? support for both conti nuously active sclk or sclk active during transfers only. ? support for broadcast mode. transactions between the host and the 73m1x66b require three bytes. all bytes are transmitted most significant byte first. the first is the control byte, the second th e address byte and the third is the data byte. the control byte is structured as follows: bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 brct r/w x x cid[0] cid[1] cid[2] cid[3] the value of cid[0:3] determines which 73m1x66b in the daisy chain shoul d execute the read or write operation requested by the host. up to 16 devices in the daisy chain can be supported. the daisy chain organization is shown in figure 15 . the control byte is submitted to the first 7 3m1x66b in the daisy chain. if the value of cid[0:3] is different from zero, the spi of that device decreases the value of cid[0:3] by one and passes the new value through sdit to the next 73m1x66b in the chain. this process continues until cid[0:3] is z ero, thus stopping at the device designated to execute the operation. the value of cid will be the position in the daisy chain for the device being addressed minus one. if the host is controlling only one 73m1x66b , cid[0:3] must be set to 0. the brct bit overrides the chip addressing driven by cid[0:3]. the host asserts brct for all write operations that must be executed by all 73m1x66b devices in the chain. at that time, whatever comes in sdi comes out through sdit. brct does not affect read opera tions.
73m1866b/73m1966b data sheet ds_1x66b_001 34 rev. 1.6 host 73m1906b channel 0 73m1906b channel 1 73m1906b channel 15 ... sclk sclk sclk sclk cs cs cs sdo sdo sdo sdo cs sdi sdi sdi sdi sdithru sdithru sdithru cid=cidin-1 cid=cidin-2 cidin cid=000 (target) figure 15 : daisy - chain configuration the r/w bit determines whether the host requests a read (1) or a write (0) operation. the second byte of the spi transaction is the address byte. the ad dress byte simply contains the 8 - bit value for the register targeted by the operation. for the 73m1x66b, only six bits of the address are relevant for the register space, and the two most - significant bits of the address byte are always set to 0. the thir d byte of the spi transaction is the data byte. it contains the data to write to the addressed 73m1x66b registers or the data read from the addressed 73m1x66b register. in the 8 - bit mode, the three bytes are exchanged over three frames, as directed by cs . figure 16 and figure 17 show a write and read transaction between the 73m1x66b and the host in 8 - bit mode. control address data [7:0] sclk sdi sdo hi-z cs figure 16 : spi write operation ? 8 - bit mode
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 35 cs sclk sdo hi-z data [7:0] control address data [7:0] sdi figure 17 : spi read transaction ? 8 - bit mode in 16 - bit mode, the first frame of 16 bits contains both the control and address bytes, and the second frame contains the data bytes. note that the second part of the second frame is irrelevant. figure 18 and figure 19 show the write and read transactions in 16 - bit mode. control cs sclk sdi sdo hi-z address data[7:0] xxxxxxxx figure 18 : spi write transaction ? 16 - bit mode control cs sclk sdi sdo hi-z address xxxxxxxx xxxxxxxx data[15:8] data[7:0] figure 19 : spi read transaction ? 16- bit mode the transaction diagrams show the case where sclk is only active dur ing the transaction frames. the same transaction remains valid even if sclk runs continuously, regardless of frame boundaries. the spi state machine resets when the host sends a frame containing a number of sclk periods different from a multiple of eight:
73m1866b/73m1966b data sheet ds_1x66b_001 36 rev. 1.6 ? in 8 - bit mode, if either the control or the address frames do not correspond to a multiple of eight sclk cycles, the spi state machine resets and the transaction is aborted. if the data frame is shorter than eight sclk cycles, the state machine resets a nd the transaction is aborted. if the data frame is longer than eight sclk cycles, while not being a multiple of eight cycles, the write/read transaction is performed and the state machine resets. ? in 16 - bit mode, if the control/address frame does not cont ain a multiple of eight sclk cycles, the spi state machine resets and the transaction is aborted. if the data frame is shorter than eight sclk cycles, the state machine resets and the transaction is aborted. if the data frame is longer than eight sclk cy cles, while not being a multiple of eight cycles, the write/read transaction is performed and the state machine resets. this scheme can be used to reset the spi if one looses track of frames.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 37 6 control and status registers table 31 shows the 73m1x66b register map of addressable registers. the shaded cells indicate read - only bits and cannot be modified. reserved bits should be left in their default state. accessing unspecified registers should be avoided. each register and bit i s described in detail in the following sections. for registers 0x12 through 0x1f, which are located in the line - side device, there is a minimum time between consecutive write transactions of 300 s when using a n 8 k hz sample rate . table 31 : control and status register map address (hex) default bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 02 10h tmen reserved reserved reserved reserved enlpw reserved reserved 03 e0h gpio7 gpio6 gpio5 pclkdt rgmon det synl rg d t 04 e4 h dir7 dir6 dir5 reserved revhsd 3 revhsd 2 revhsd 1 revhsd 0 05 1bh engpio7 engpio6 engpio5 enpclkdt enapol endet ensynl enrgdt 06 00h pol7 pol6 pol5 reserved reserved reserved reserved reserved 07 00h reserved reserved reserved reserved reserved reserved dts t1 dts t0 08 00h txdg - 12 txdg - 6 txdg +3.5 txdg +2 txdg +1 txdg +0.5 txdg +0.25 txdg +0.125 09 00h rxdg - 12 rxdg - 6 rxdg +3.5 rxdg +2 rxdg +1 rxdg +0.5 rxdg +0.25 rxdg +0.125 0d 40h lokdet slhs reserved reserved rstl sbi reserved reserved reserved 0e 00h frcvco reserved reserved reserved reserved reserved rgth1 r gth0 0f 80h enfeh pwdn sleep reserved reserved reserved reserved reserved 10 00h reserved reserved reserved cmvsel cmtxg1 cmtxg0 cmrxg1 cmrxg0 12 00h ofh endc enac enshl enlvd e nfel endt ennom 13 00h dciv1 dciv0 ilm reserved pldm ovdth idispd sel16k 14 00h txbst daa1 daa0 reserved rxbst rlpnh rxg1 rxg0 15 00h enold disntr reserved cidm then enuvd enovd enoid 16 00h txen rxen rlpnen aten acz3 acz2 acz1 acz0 17 00h reserved reserved rxocen reserv ed reserved reserved reserved reserved 18 01h tes t3 tes t2 tes t1 tes t0 reserved reserved reserved reserved 19 00h poll ma tch reserved reserved indx3 indx2 indx1 indx0 1a 00h rng7 rng6 rng5 rng4 rng3 rng2 rng1 rng0 1b 00h lv7 lv6 lv5 lv4 lv3 lv2 lv1 reserved 1c 00h lc6 lc5 lc4 lc3 lc2 lc1 lc0 reserved 1d 0 0h revlsd 3 revlsd 2 revlsd 1 revlsd 0 reserved reserved reserved reserved 1e 00h ilmon uvdet ovdet oidet oldet slls reserved reserved 1f 00h polval7 polval6 polval5 polval4 polval3 polval 2 polval1 polval0 20 00h tpol tts6 tts5 tts4 tts3 tts2 tts1 tts0 21 00h rpol rts6 rts5 rts4 rts3 rts 2 rts1 rts0 22 00h sr adj rcs2 rcs1 rcs0 tcs2 tcs1 tcs0 23 00h pcmen master pcode3 pcode2 pcode1 pcode0 lin law 24 00h reserved reserved reserved reserved reserved reserved reserved lb 25 00h rxom7 rxom6 rxom5 rxom4 rxom 3 rxom2 rxom1 rxom0
73m1866b/73m1966b data sheet ds_1x66b_001 38 rev. 1.6 throughout this document, type w is read/write, type wo is write only and type r is read only. registers and bits are defined as 0x16[3:0], where 0x16 is the regis ter address and the numbers in square brackets specify the address bits. the bit order is [msb ? lsb] for a field. for example, [3:0] means bits 3 through 0 of a particular field. table 32 : alphabetical bit map bit name register page default type category acz adj aten cidm cmrxg1/0 cmtxg1/0 cmvsel d aa1/0 dciv1/0 det dir5 dir6 dir7 disntr dtst1/0 enac enapol endc endet endt enfeh enfel engpio7 engpio6 engpio5 enlpw enlvd ennom enoid enold enovd enpclkdt enrgdt enshl ensynl enuvd frcvco gpio5 gpio6 gpio7 idispd ilm ilmon indx law lb lc lin lokdet 0x16[3:0] 0x22[6] 0x16[4] 0x15[4] 0x10[1:0] 0x10[3:2] 0x10[4] 0x14[6:5] 0x13[7:6] 0x03[2] 0x04[5] 0x04[6] 0x 04[7] 0x15[6] 0x07[1:0] 0x12[5] 0x05[3] 0x12[6] 0x05[2] 0x12[1] 0x 0f[7] 0x12[2] 0x05[7] 0x05[6] 0x05[5] 0x02[2] 0x12[3] 0x12[0] 0x15[0] 0x15[7] 0x15[1] 0x05[4] 0x05[0] 0x12[4] 0x05[1] 0x15[2] 0x0e[7] 0x03[5] 0x03[6] 0x03[7] 0x13[1] 0x13[5] 0x1e[7] 0x19[3:0] 0x23[0] 0x24[0] 0x1c[7:1] 0x23[1] 0x0d[7] 68 52 69 75 44 44 44 52 69 76 43 43 43 61 79 69 61 69 76 76 42 70 43 43 43 61 70 70 77 77 77 52 75 70 61 76 42 43 43 43 69 70 70 40 52 79 76 52 42 00 00 0 0 0 00 00 0 00 00 0 1 1 1 0 00 0 1 0 0 0 1 0 0 0 0 0 0 0 0 0 0 1 1 0 1 0 0 1 1 1 0 0 0 0 0 0 0 0 0 w w w w w w w w o w o r w w w w o w w o w w o w w o w w o w w w w w o w o w o w o w o w w w o w w o w w w w w o w o r w w w r r/ w r daa control function pcm control function daa control function daa control function call progress monitor call progress monitor call progr ess monitor pcm control function daa control function line sensing control gpio control gpio control gpio control barrier control function loopback control daa control function barrier control function daa control function line sen sing control line sensing control power management current limiting detection control and status gpio control gpio control gpio contr ol barrier control function current limiting detection control and status daa control function over - current detection control and status over - load dete ction control and status over - voltage detection control and status pcm control function ring detection function current limiting detection control and status barrier control function under - voltage detection control and status device clock management gpio control gpio control gpio control daa control function current limiting detection control and status current limiting detection control and status line - side device register polling pcm control funct ion loopback control function auxiliary a/d converter status pcm control function device clock management
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 39 bit name register page default type category lv master match ofh oidet oldet ovdet ovdth pclkdt pcmen pcode pldm pol7 pol6 pol5 poll polval pwdn rcs r evhsd revlsd rg d t rgmon rgth1/0 rlpnen rlpnh rng rpol rstl sbi rts rxbst rxdg rxen rxg0 rxg1 rxocen rxom sleep slhs slls sr synl tcs then tmen tpol test tts txbst txdg txen uvdet 0x1b[7:1] 0x23[6] 0x19[6] 0x12[7] 0x1e[4] 0x1e[3] 0x1e[5] 0x13[2] 0x03[4] 0x23[7] 0x23[5:2] 0x13[3] 0x06[7] 0x06[6] 0x06[5] 0x19[7] 0x1f[7:0] 0x0f[6] 0x22[5:3] 0x04[3:0] 0x1d[7:4] 0x03[0] 0x03[3] 0x0e[1:0] 0x16[5] 0x14[2] 0x1a[7:0] 0x21[7] 0x0d[3] 0x21[6:0] 0x14[3] 0x09[7:0] 0x16[6] 0x14[0] 0x14[1] 0x17[5] 0x25[7:0] 0x0f[5] 0x0d[6] 0x1e[2] 0x22[7] 0x03[1] 0x22[2:0] 0x15[3] 0x02[7] 0x20[7] 0x18[7:4] 0x20[6:0] 0x14[7] 0x08[7:0] 0x16[7] 0x1e[6] 76 52 41 70 77 77 77 77 52 52 53 70 43 43 43 40 40 42 53 41 41 78 78 75 71 71 76 53 62 53 75 54 54 54 54 54 54 42 62 62 55 62 55 71 79 55 79 55 55 56 56 76 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 100 0 0 0 0 0 0 0 0 0 0000000 0 00000000 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0000000 0 00000000 0 0 r w r w o r r r w o r w w w o w w w w r w w r r r r w w w r w w w w o w o w o w o w o w w w r r w r w w w w w w w o wo wo r auxiliary a/d converter status pcm control function line - side device register polling daa control function over - current detection control and status over - load detectio n control and status over - voltage detection control and status over - voltage detection control and status pcm control function pcm control function pcm control function daa control function gpio control function gpio control function gpio control function line - side devi ce register polling line - side device register polling power management pcm control function device revision device rev ision ring detection function ring detection function ring detection function daa control function daa control function auxiliary a/d converter status pcm control function barrier control function pcm control function pcm contro l function pcm control function pcm control function pcm control function pcm control function pcm control function pcm control function power management barrier control function barrier control function pcm control function barrier control function p cm control function daa control function loopback control function pcm control function loopback control function pcm control function pcm control function pcm control function pcm control function under - voltage detection control and status
73m1866b/73m1966b data sheet ds_1x66b_001 40 rev. 1.6 while all registers may be read or written to via a n spi operation without error , some registers react differently to read and write operations, as follows: ? read/write ( w) registers change in response to a n spi write transaction a nd report their correct current valu e for a read spi transaction. ? read only (r) registers do not change in response to a n spi write transaction but report their correct current value for a read spi transaction. ? write o nly (wo) registers are shadow regist ers to corresponding registers on the line - side d evice (0x12 - 0x18) that are writt en to during the barrier communications, and so are written to indirectly. the true contents of these line - s ide registers cannot be read directly from the shadow registers representing them, but t hese line - s ide registers can be read using the polling regi ster described in 6.1 . certain events , such as lightning or voltage surges , could corrupt the co ntents of the l ine - s ide registers, so to verify their contents, the polling registers ( 0x19 and 0x1f ) must be used . 6.1 line - side device register polling the register map as read from a 73m1x66b host - side device consists of two groups. the first is the host - side device registers (0x00 through 0x10 and 0x20 through 0x24) and the second is a copy of the line - side device r egisters (0x12 through 0x1f). as an extra degree of integrity, the 73m1x66b supports the ability to manually monitor the registers of its line - side device. this is achieved by using the manual poll function. the line - side registers that can be polled a re 0x12 through 0x18 (index values 0x 0 - 0x6 respectively) . the method is to write the offset address of the line - side device register to be read into the indx field. the value of this is the offset index from 0x12; that is, register 0x12 is 0x0, 0x13 is 0x 1, etc. the next step is to set the poll bit, which causes the device to read the requested register from the line - side device. the value of the requested line - side device register is written by the line - side device into polval (0x1f). this value is com pared with that of the host - side copy and, if they are the same, the match bit is set to 1. the value s presented at match and polval are valid approximately 600 s after a poll request, and are valid only after the poll bit has been reset by the host - side device . function mnemonic register location type description indx 0x19[3:0] w index address of the register to be manually polled with the results placed in polval. this address should be cleared after the poll. default = 0. match 0x19[6] r polling m atch 0 = no match. (default) 1 = this read - only bit indicates that there is match with the corresponding polled register in the host - side device. the result of the polling function can be read only after the poll bit is reset to zero by the 73m1x66b. po ll 0x19[7] w polling enable 0 = polling disabled. (default) 1 = manually polls the control register in the line - side device whose address is given by indx. the poll bit remains high until the match result is available at which time it will be reset to 0 and the match bit status can be read. polval 0x1f[7:0] r polling value when 73m1x66b is polled, the content of the line - side device register given by the offset address in indx is placed in this register. default = 0. this register can be read after th e poll bit has been reset to zero , indicating the result is ready.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 41 7 hardware control functions this section describes the 73m1x66b capabilities with respect to its configuration and hardware pin control. these include features such as device revision, int errupt management, power management, clock control, general purpose input/output (gpio) and control of the call progress monitor. 7.1 device revision the 73m1x66b provides the device revision number for the host - side device and the line - side device. for th e 73m1x66b : ? revision for the host - side device is: 0100. ? revision f or the line - side device is: 1101 . function mnemonic register location type description revhsd 0x04[3:0] r host - side device revision these read only status bits indicate the revision of th e 73m1x66b host - side device (73m1906b). revlsd 0x1d[7:4] r line - side device revision these read - only status bits provide the device id for the 73m1x66b line - side device (73m1916). when barrier is synchro nized, rev has the value of 1101 . when barrier is not synchronized, the value of the field is 0000. 7.2 interrupt control the 73m1x66b supports a single interrupt that can be asserted under several configurable conditions. these include status of gpios, pclkdt, rgmon, det, synl and rgdt. all interrupt sou rces that are enabled are ored together to create the int output signal. gpio ports that are configured to be output will not generate interrupts. when the int pin goes active (low), the host should read the interrupt source register 0x03, which is then automatically cleared after the read operation. an interrupt during wake - on - ring should be interpreted as the detection of a valid ring signal. address 0x03 reset state e0h bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 gpio7 gpio6 gpio5 pclkdt rgmon det synl rgdt
73m1866b/73m1966b data sheet ds_1x66b_001 42 rev. 1.6 7.3 power management the 73m1x66b supports three modes of power control for the device. normal mode the 73m1x66b operates normally. enfeh = 0 in this mode the host side of the barrier interface is disabled and the line side device is disable d. the host side continues to operate normally. sleep mode the device pll is turned off and pclk is propagated on the clock tree. the pcm dx and tsc outputs are tri - stated. control and status registers of the host side maintain their content. power dow n the device is shut down altogether. the registers remai n accessible through the spi. control and status registers of the host side maintain their content. to restart the pcm operations, the pcode register must be set for the appropriate pclk frequency value. in all reduced power modes of operation the spi interface remains active. function mnemonic register location type description enfeh 0x0f[7] w enable front end host 1 = enable front end of the 73m 1906b host - side device. (default) 0 = disable f ront end of the 73m 1906b host - side device. pwdn 0x0f[6] w power down mode 0 = disable power down mode. (default) 1 = enable power down mode. sleep 0x0f[5] w sleep mode 0 = disable sleep mode. (default) 1 = enable sleep mode. 7.4 device clock management function mnemonic register location type description frcvco 0x0e[7] w force vco 0 = the system clock is the same as pclk. (default) 1 = the system clock is derived from locked pll. this is set to 0 upon reset, sleep or power down mode enabled. lokdet 0 x0d[7] r phase locked loop lock detect 0 = pll is not locked. (default) 1 = pll is locked to pclk.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 43 7.5 gpio registers three user - defined i/o pins are provided in the 32 - pin qfn package of the 73m 1966b only. the pins are gpio7, gpio6 and gpio5. gpio pins are not available on the 20 - pin package of the 73m 1966b . gpio pins are not available on the 42 - pin package of the 73m1866b. each pin can be configured independently as either an input or an output by writing to the corresponding i/o direction ( dir ) register. at power on and after a reset, the gpio pins are initialized to a high impedance state to avoid unwanted current contention and consumption. the input structures are protected from floating inputs, and no output levels are dri ven by any of the gpio pins. the mapping of gpio pins is designed to correspond to the bit location in their control and status registers. the 73m1x66b supports the ability to generate an interrupt on the int pin. the source can be configured to generat e on a rising or a trailing edge. only gpio ports that are configured as inputs can be used to generate interrupts. function mnemonic register location type description dir 0x04[7:5] w gpio input/output select these control bits are used to designate th e gpio pins as either inputs or outputs. 0 = gpio pin is defined as an output. 1 = gpio pin is defined as an input. (default) gpion 0x03[7:5] w gpio state these bits reflect the status of the gpio7, gpio6 and gpio5 pins. if the dir bit is reset, reading this field returns the logical value of the appropriate gpion pin as an input. if the dir bit is set, the pins output the logical value as written. engpion 0x05[7:5] w gpio enable each of the gpio enable bits in this register enables the corresponding gp io bit as an edge - triggered interrupt source. if a gpio bit is set to one, an edge (which edge depends on the value in the gip register) of the corresponding gpio pin will cause the int pin to go active low, and the edge detectors will be rearmed when the gpio data register is read. poln 0x06[7:5] w gpio interrupt edge selection defines the interrupt source as being either on a rising or a falling edge of the corresponding gpio pin. 0 = a rising edge will trigger an interrupt from the corresponding pin. (default) 1 = a falling edge will trigger an interrupt from the corresponding pin.
73m1866b/73m1966b data sheet ds_1x66b_001 44 rev. 1.6 7.6 call progress monitor for the purpose of monitoring activities on the line, a call progress monitor is provided in the 73m1x66b. this audio output contains both transmit and receive data with configurable levels. 7.7 16 k hz operation of call progress monitor after switching from 8 khz sampling rate to 16 khz sampling rate, the sleep bit must be enabled then disabled if the call progress monitor function is used. after cycling the sleep bit, the line - side device register s (registers 0x12 to 0x18) must be reconfigured. 7.8 device reset for a correct reset of the 73m1x66b, the rst signal must be asserted for a minimum period of 1 ms. pclk must be active for a minimum of 8 clock cycles before the rst signal can be de - asserted. the pll locks to the pclk after 20 pcm frames as defined by the occurrence of the frame sync signal (fs). this gives a minimum period of 3.5 ms from the assertion of rst until the pll is locked and normal operations may occur, including access to all de vice registers and the transmission and reception of pcm data samples. if pclk changes frequency, then the pll will lose lock so a stable clock must be used during this reset period. if a pclk frequency change is required after the reset, the user should implement the procedure described for pcode (register 0x23 bits 2 to 5). function mnemonic register location type description cmrxg 0x10[1:0] w receive path gain setting 00 0 db (for full swing, aout=1.08 vpk) (default) 01 - 6 db 10 - 12 db 11 mute cmtxg 0x10[3:2] w transmit path gain setting 00 0 db (for full swing, aout=1.08 vpk) (default) 01 - 6 db 10 - 12 db 11 mute cmvsel 0x10[4] w call progress monitor voltage reference select quiescent dc voltage select at aout. 0 = 1.5 vdc. (default) 1 = vcc/2 vdc.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 45 8 pcm highway interface and signal processing the pcm highway is the method by which the 73m1x66b exchanges pcm data with the host or other pcm - enabled devices. the pcm data can b e in either 8 - bit compressed mode or in 16 - bit linear mode. compression of the received signals from the pstn line interface is selectable a - law or - law, as specified by itu - t recommendation g.711 . the 73m1x66b is configurable with respect to tuning the clock and time slot relationships. see section 8.1 for details. the pcm interface provided by the 73m1x66b consists of the following signals: ? pclk the frequency at which bits are driven on the pcm highway. (goes to the pcl ki pin.) ? fs pcm frame synchronization pulse. ? dx pcm data transmitted to the pcm highway. ? dr pcm data received from the pcm highway. the basic timing relationship of pcm highway interface signals is shown in figure 20. fs pclk dx msb lsb figure 20 : 8 - bit transmission example 8.1 pcm highway interface timing signal fs defines the frame boundaries by being asserted at a rate of 8 khz. the duration of fs is defined by the setup and hold times a round the falling edge of pclk and can be extended to multiple pclk cycles. the timing relationship between fs and pclk is determined by the rising edge of fs and the first falling edge of pclk that follows the fs rising edge. pclk and fs are common to a ll devices connected to the pcm highway. the ratio of pclk frequency to fs frequency determines the number of bit slots available during a frame, i.e., the number of bits per frame. the number of bit slots divided by 8 is the number of 8 - bit time slots a vailable during the frame. pclk frequency = bits per frame bits per frame = number of time slots per frame fs frequency (8 khz) 8 - bits per time slot refined granularity to the time slot can be achieved by programming the clock slot offset. the clo ck slot defines an offset in terms of the number of bits from the start of the time slot. the combination of the transmit and receive time slot and clock slot registers determines the bit slot at which the 73m1x66b begins transmitting or receiving a data sample. adjustments of a half clock period can be made using these controls in conjunction with tpol and rpol. the 73m1x66b supports a 16 - bit linear transmission and receive mode. the transmission and reception of the data samples consumes two adjacent 8 - bit time slots each on the pcm highway. the 16 - bit data sample is transmitted most significant bit first starting at the bit slot defined by the tts and tcs controls. the transmission lasts for 16 consecutive bit slots, as illustrated in figure 21 .
73m1866b/73m1966b data sheet ds_1x66b_001 46 rev. 1.6 fs pclk dx msb lsb figure 21 : 16 - bit transmission example similarly, the 16 - bit data sample is received most significant bit first, beginning at the bit slot defined by the rts and rcs control registers. the reception lasts for 16 consecutive bit slots. sr selects between 8 khz and 16 khz sampling rates. however, fs remains constant at 8 khz. therefore, in 16 khz sampling mode, two data samples are transmitted to (or received fro m) the pcm highway starting at the bit slot dictated by the time and clock slot registers. in 16 khz mode, either two or four adjacent 8 - bit time slots are used for two compressed 8 - bit data samples or two linear 16 - bit data samples, respectively. the 16 khz mode is enabled by setting sr =1 followed by sel16k =1. when switching to 16 khz sampling rate and if the call progress monitor function is being used, the line - side device needs to be reconfigured. see se ction 7.7 . pcm highway interfaces are designed such that a device can transmit and receive to other devices on the pcm highway. for example, codec a will use a time slot assignment for its transmit to the pcm highway and code c b will assign its receiver to the same time slot. the time slot assignment is such that if codec a wants to transmit its data sample to codec b, then codec a transmit time/clock slot value is identical to the codec b receive time/clock slot value. the 73m1x66b uses the dx signal pin to transmit to the pcm highway and the dr signal pin to receive from the pcm highway. figure 22 illustrates a typical example. codec a dr dx tsc codec b dr dx tsc codec n dr dx tsc pcm highway to system figure 22 : example of pcm highway interconnect larger systems may use buffers to interconnect multiple segments of the pcm highway (across line cards for instance). in the 73m1x66b , control tsc is used to control the tri - state mode of the transmit side o f the pcm highway as shown in figure 23 . tsc is asserted (active low) for the duration of the time slot during which the 73m1x66b is transmitting to the pcm highway. codec a dr dx tsc codec b dr dx tsc codec n dr dx tsc receive pcm highway transmit pcm highway tsc tri-state control from system to system figure 23 : example of pcm highway interconnect for typical large systems
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 47 8.2 pcm clock frequencies the 73m1x66b supports the following pclk input frequencies: ? 256 khz ? 512 khz ? 768 khz ? 1.024 mhz ? 1.536 mhz ? 1.544 mhz ? 2.048 mhz ? 3.088 mhz ? 4.096 mhz ? 6.176 mhz ? 8.192 mhz the 73m1x66b automatically detects the frequency of pclk and adjusts its internal pll parameters accordingly. at startup, the first eight frames are discarded. the next eight frames are used to count the number of pclk cycles during each fram e. if the count differs among these eight frames or if the count is a non - supported value, then a pclkdt interrupt is asserted. if pclk is set at a frequency different from the above list, the pll will be set for a pclk of 2.048 mhz. since there will be a discrepancy between the frequency of pclk and the frequency considered for pll settings, a pclkdt interrupt may occur if required. it takes about 20 pcm frames before pll is locked, which is shown through the assertion of the frcvco status bit. pclk m ust be running for several cycles when reset is de - asserted. after that point, spi transactions can start. 8.3 master mode the default mode of operation for the pcm highway in the 73m1x66b is the slave mode i.e., fs and pclk are inputs to the device. the 7 3m1x66b offers a master mode by which a 4.096 mhz clock is applied to the pclki pin. the master clock is divided by two to generate a 2.048 mhz clock that is connected to the pcm highway via the pclko pin. similarly, fs of one 2.048 mhz period long is ge nerated and driven to the pcm highway. the master mode is set by setting the master bit. 8.4 a - law / - law compander the 73m1x66b may be programmed for compressed a - odzprghfrpsuhvvhg - law mode, or linear mode. compression schemes are used to minimize th e bandwidth required for exchanging data samples on the pcm highway. for instance, when pclk is 8.192 mhz there are 128 8 - bit time slots available. the density of the overall system is halved when working in linear mode, which requires 16 - bit time slots. the 73m1x66b fully complies with the a - odzdqg - law companding specifications defined in the itu - t recommendation g.711 .
73m1866b/73m1966b data sheet ds_1x66b_001 48 rev. 1.6 8.5 transmit and receive levels 8.5.1 a - law according to the itu - t recommendation g.711 , a - law assumes +4096 (in sign plus 12 bit) to represent 3.14 dbm. that is, a sinusoid having a peak value of +4095 to correspond to +3.14 dbm or 1.1119 vrms or 1.5725 vpk or 3.145 vpp. figure 24 shows the mapping implied in the itu - t recommendation g.711 . therefore, one least significant bit in 16 - bit code is equivalent to: bit v v lsb / 0 . 48 8 2 5725 . 1 15 = ? = a-law (sign + 12 bits) 16 bits linear 0 1 1 1 1 1 1 1 1 1 1 1 1 0 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 figure 24 : mapping of a - law code to 16 - bit code for a - law, 0 dbm=774.6 mvrms=1.095 vp (sinusoid) implies a peak code of 22,821= 5925h. 8.5.2 - law 6lploduo\ - law assumes +8159 (in sign plus 13 bit) to represent 3.17 dbm. that is, a sinusoid having a peak value of +8159 to correspond to +3.17 dbm or 1.1157 vrms or 1.578 vpk or 3.156 vpp. figure 25 shows the mapping implied in the itu - t recommendation g.711 . therefore, one least significant bit in 16 - bit code is equivalent to: bit v v lsb / 35 . 48 32636 578 . 1 = = u-law (sign + 13 bits) 16 bits linear 0 1 1 1 1 1 1 1 0 1 0 1 1 1 1 1 1 1 0 1 1 1 1 1 0 0 1 1 1 1 figure 25 : mapping of - law code to 16 - bit code )ru - law, 0 dbm=774.6 mvrms=1.095 vp (sinusoid) implies a peak code of 22,647=5876h. 8.5.3 transmit and receive level control the 73m1x66b provides digital and analog control over the gains of transmit and receive signal. the over all transmit gain adjustment is +1 3.4 db to ? 26 db and the range of the receiver gain is +10.4 db to ? 24 db. both gain adjustments are in steps of 0.125 db. optimal performance on how the overall gain is to be achieved requires the appropriate management of the gain elements in the sign al paths.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 49 8.6 transmit path signal processing 8.6.1 general description in the transmit path, data is first sent by the host dsp through a serial interface to the 73m1x66b then interpolated by an interpolation filter, serialized and transmitted across barrier inte rface to the line - side device, which is floating relative to the host - side device earth ground. the data received on the line - side device is then de - serialized and digitally sigma - delta modulated to a one - bit data stream of 1.536 mbps for a sample freque ncy of 8 khz or 3.072 mbps for a sample frequency of 16 khz. the signal is further filtered first by a switched capacitor filter and then a continuous time anti - aliasing circuit. ? the 0.2 db pass - band ripple frequency is from dc to 3.422 khz for an 8 khz sample rate or 6.844 khz for a 16 khz sample rate . ? the 3 db bandwidth is 3.65 khz for an 8 khz sample rate or 7.299 khz for a 16 khz sample rate . 8.6.2 total transmit path response figure 26 and figure 27 show the transmit path frequency response. the response shape is the same, but the frequencies double for a 16 khz sample rate. 0 1 2 3 4 5 6 7 8 100 90 80 70 60 50 40 30 20 10 0 10 transmit path overall frequency response freq(khz) gain (db) 10 100 ? comp osite x ( ) 8 0 x 16 ? com iplo xo u xo u figure 26 : transmit path overall frequency response to fs of 8 khz 0 0.5 1 1.5 2 2.5 3 3.5 4 1 0.8 0.6 0.4 0.2 0 0.2 0.4 0.6 0.8 1 transmit passband response freq(khz) gain (db) 1. 1.0 ? comp osite x ( ) 4 0 x 16 ? figure 27 : transmit path passband response for an 8 khz sample rate
73m1866b/73m1966b data sheet ds_1x66b_001 50 rev. 1.6 8.6.3 73m1x66b transmit spectrum figure 28 shows the transmit spectrum observed on the line f rom dc to 32 khz for a sample frequency (fs) of 8 khz. the transmit signal is band - limited (by default) to fs/2=4 khz and is flat (with 0.2 db ripple) to 3.65 khz and is marked as txdb(x) in the figure. all frequencies double for a 16 khz sample rate al so shown, and marked as signaldb(x), is the baseband signal from 1 khz to 2 khz for a n 8 khz sample rate (2 khz to 4 for a 16 khz sample rate). the aliases of signaldb(x) are shown as aliasdb(x) and are attenuated significantly with better than 80 db atte nuation at 8 khz, better than 60 db at 16 khz, better than 100 db at 24 khz, etc for an 8 khz sample rate and the frequencies double for a 16 khz sample rate. 0 4 8 12 16 20 24 28 32 140 120 100 80 60 40 20 0 20 transmit spectrum freq spectrum (db) 20 140 ? signaldb x ( ) aliasdb x ( ) t xdb x ( ) 32 0 16x figure 28 : transmit spectrum to 32 khz for an 8 khz sample rate 8.7 receive path signal processing 8.7.1 general description in the receive path, the signal from the telephone line is input to the anti - aliasing filter and passed through a selectable low pass (notch) filter, which can be used to attenuate in - band bil ling tones. the analog signal is digitized by a sigma - delta analog to digital converter. the resulting high frequency one - bit data stream is decimated and sent to the host - side device via the barrier. another decimation fir filter in the host - side devi ce filters the received data and sends it to the host dsp for processing. the response of the receive path, in conjunction with the decimation filter in the host - side device, provides a flat pass - band response to 3.342 khz at an 8 khz sample rate or 6.744 khz with a 16 khz sample rate with 0.2 db ripple. the 3 db bandwidth is 3.58 khz at 8khz sample rate or 7.226 khz at a 16 khz sample rate. . the one- bit data stream is 1.536 mbps for an 8 khz sample rate or 3.072 mbps with a 16 khz sample rate.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 51 8.7.2 total receive path response figure 29 : overall frequency response of the receive path figure 30 : pass - band response of the overall receive path 8.7.3 receiver dc offset subtraction the 7 3m1x66b provides a method to improve audio quality by reducing unwanted dc offset from the receiver signal path in a - law or - law compression modes. this method requires that a signal path calibration be performed. this calibration is benign to the perfo rmance of the device and is only required after an initialization or device reset sequence. receiver dc offset calibration can only be executed when the device is on - hook and not in linear mode, otherwise the process will disturb signal quality. see the 73m1866b/73m1966b implementer?s guide for the steps to enable the calibration of receive dc offset .
73m1866b/73m1966b data sheet ds_1x66b_001 52 rev. 1.6 8.8 pcm control functions table 33 : pcm control functions function mnemonic register location type description adj 0x22[6] w adjacent t ime slot driver control allows lsb of the pcm frame (dx) to be tri - stated during the second half of the clock cycle. this feature allows adjacent time slots to be used by different devices without risking a contention at the time slot boundary . 0 = driv es dx during the entire bit time. (default) 1 = drives dx only during the first half of bit time . daa 0x14[6:5] w da a transmit gain used in conjunction with txbst to manage transmit level. see section 8.8.1 . enpclkdt 0x05[4] w enable pclk error detection interrupt 0 = disables this function. 1 = enables the detection of an interrupt resulting from an incoherency in the pclk count during the second set of eight frames received after power up. (default) law 0 x23[0] w law compression mode selects the pcm compression mode. 0 = selects the a - law compression mode. (default) 1 = selects the - law compression mode. lin 0x23[1] w linear mode enable 0 = the compression modes of either a - law or - law are enabled. (default.) see the law bit. 1 = 16 - bit linear mode. master 0x23[6] w master/slave mode the 73m1x66b is in slave mod e by default. see section 8.3 for details of master and slave operation. 0 = enables slave mode. (default) 1 = enables master mode. pclkdt 0x03[4] r pclk detect error pclkdt is an interrupt resulting from th e detection of two possible events: 1. the number of pclk periods per frame is not consistent among the second set of eight frames after power up. 2. the number of pclk periods per frame does not equate to any of the acceptable pclk frequencies. this i s a maskable interrupt. it is enabled by the enpclkdt bit. see section 7.2 . pcmen 0x23[7] w pcm transmit enable controls dx and tsc . this bit must be set on completion of all configuration changes to enable transmission on to the pcm highway. when powered up, the 73m1x66b pcm outputs are tri - stated. the host must set pcmen after setting the time/clock slot control bits to avoid contention on the pcm highway.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 53 function mnemonic register location type description pcode 0x23[5:2] w pcm clock code the default st ate of pcode out of reset is 0000. in pcm slave mode at reset, the device will attempt to automatically detect the correct frequency of pclk. if the pclk frequency is different from those listed in the table below or an incorrect pcode value is written, the pll will not lock (lockdet 0x0d[7] == 0) . to modify the value of pcode, first write a value of 0000 and then write the required pcode value. toggling of the master bit 0x23[6] (0 ? 1 ? 0) with a pcode of 0000 will also restart the automatic pclk frequ ency detection function. pclk frequency pcode [3:0] 256 khz 0001 512 khz 0010 768 khz 0011 1.024 mhz 0100 1.536 mhz 0101 1.544 mhz 0110 2.048 mhz 0111 3.088 mhz 1000 4.096 mhz 1001 6.176 mhz 1010 8.192 mhz 1011 rcs 0x22[5:3] w receive clock slot these bits control the starting clock of the receive channel. the clock slot value allows the adding of an offset of up to 7 (111) bits to the time slot value. a value of 000 is zero offset. rpol 0x21[7] w receive polarity 0 = the receive pcm data is to be sampled on the falling edge of pclk. (default) 1 = the receive pcm data is to be sampled on the rising edge of pclk. rts 0x21[6:0] w receive time slot selects the time slot number on the pcm highway for the receiver. the maximum number of 8 - bi t time slots is 128 (with a pclk frequency of 8.192 mhz). a value of 0000000 is time slot zero and 1111111 is time slot 128. the default is 0000000.
73m1866b/73m1966b data sheet ds_1x66b_001 54 rev. 1.6 function mnemonic register location type description rxdg 0x09[7:0] wo receiver digital gain these bits controls the value of the digital gain section of the 73m1x66b receive path. each bit indicates either a gain or attenuation value. the net value of the gain setting is the linear sum of each attributed value. reading the rxdg register returns all zeros, regardless of what was written to them. rxdg ? 12db rxdg ? 6db rxdg +3.5db rxdg +2db rxdg +1db rxdg +0.5db rxdg +0.25db rxdg +0.125db gain/attenuate 0 0 0 0 0 0 0 0 0db (default) 1 0 0 0 0 0 0 0 - 12 db 0 1 0 0 0 0 0 0 - 6 db 0 0 1 0 0 0 0 0 +3.5 db 0 0 0 1 0 0 0 0 +2 db 0 0 0 0 1 0 0 0 +1 db 0 0 0 0 0 1 0 0 +0.5 db 0 0 0 0 0 0 1 0 +0.25 db 0 0 0 0 0 0 0 1 +0.125 db examples: 10000000 - 12db 00100000 +3.5db 00010011 +2 + 0.25 + 0.125 =2.375db 01001000 - 6 + 1 = - 5db rxen 0x16[6] w receive path enable 1 = enable receive path. 0 = disable receive path. (default) rxg 0x14[1:0] w receive gain sets the receive path gain/attenuation. see table 36. rxocen 0x17[5] w rx dc offset calibrate enable when rxocen is set to 1 and ofh, endc and ennom are reset to 0, the receiver dc offset calibration process is enabled. rxocen must be reset to 0 before ofh, endc and ennom are set to 1 in order for the calibration to operate correctly. rxocen should not be used in linear mode. default value is 0. rxom 0x25[7:0] w rx offset measur ement stores the result of the receive offset measurement. see section 8.8.3.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 55 function mnemonic register location type description sel16k 0x13[0] w sample rate mode configuration select configures the 16 khz mode of operation. see also sr . 0 = 8 khz sampling rate. (default) 1 = 16 k hz sampling rate. the 16 khz mode is enabled by setting sr=1 followed by sel16k=1. sr 0x22[7] w sampling rate mode enables the 16 khz mode of operation. see also sel16k . 0 = 8 khz sampling rate. (default) 1 = 16 khz sampling rat e. the 16 khz mode is enabled by setting sr=1 followed by sel16k=1. tcs 0x22[2:0] w transmit clock slot controls the starting clock of the transmit channel. the clock slot value allows the adding of an offset of up to 7 (111) bits to the time slot value. a value of 000 is zero offset. tpol 0x20[7] w transmit polarity 0 = the transmit pcm data is to be transmitted based on the falling edge of pclk. (default) 1 = the transmit pcm data is to be transmitted based on the rising edge of pclk. tts 0x20[6:0] w transmit time slot selects the time slot number on the pcm highway for the transmitter. the maximum number of 8 - bit time slots is 128 (with a pclk frequency of 8.192 mhz). a value of 0000000 is time slot zero and 1111111 is time slot 128. the default is 0000000. txbst 0x14[7] w o transmit boost used in conjunction with daa to manage transmit level. see section 8.8.1 .
73m1866b/73m1966b data sheet ds_1x66b_001 56 rev. 1.6 function mnemonic register location type description txdg 0x08[7:0] wo transmitter digital gain these bits control the value of the digital gai n section of the 73m1x66b transmit path. each bit indicates either a gain or attenuation value. the net value of the gain setting is the linear sum of each attributed value. reading the txdg register returns all zeros, regardless of what was written to them. txdg ? 12db txdg ? 6db txdg +3.5db txdg +2db txdg +1db txdg +0.5db txdg +0.25db txdg +0.125db gain/attenuate 0 0 0 0 0 0 0 0 0 db (default) 1 0 0 0 0 0 0 0 - 12 db 0 1 0 0 0 0 0 0 - 6 db 0 0 1 0 0 0 0 0 +3.5 db 0 0 0 1 0 0 0 0 +2 db 0 0 0 0 1 0 0 0 +1 db 0 0 0 0 0 1 0 0 +0.5 db 0 0 0 0 0 0 1 0 +0.25 db 0 0 0 0 0 0 0 1 +0.125 db examples: 10000000 - 12db 00100000 +3.5db 00010011 +2 + 0.25 + 0.125 =2.375db 01001000 - 6 + 1 = - 5db txen 0x16[7] w o transmit path enable 1 = enable transmit path. 0 = disable transmit path. (default)
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 57 8.8.1 transmit and receive level control refer to section 8.5 for information about 73m1x66b levels. 8.8.1.1 transmit gain scaling the first gain stage in the transmit signal path is the digital gai n whose value is controlled by writing to register 0x08 (txdg). the second gain stages are the analog gains that are controlled by register 0x14[7] (txbst) and register 0x14[6:5] (daa). as a general rule to prevent clipping of the analog gain stages, it is important to choose a value of the digital gain such that the transmit data after multiplied by txdg does not exceed +1.25 dbm. so for correct use of the gain controls the appropriate mix of digital and analog settings must be used. generally speaking , for best s/n performance, it is advisable to make the digital words, after digital gain scaling, as large as possible without going over the +1.25 dbm limit. example: if +2 dbm transmit level is desired for the case where the maximum input is 0 dbm: s et analog gain to +3 db (i.e. txbst and daa = 0) add attenuation of ? 1 db by setting txdg to 01101100 ( - 6 + 3.5 + 1 + 0.5 = - 1); therefore, +3 - 1 = +2. note in this case any digital gain could cause clipping at high input levels in the analog circuitry. table 34 lists transmit level analog gain adjustment settings based upon the values of txbst and daa. table 34 : transmit gain control txbst 0x14[7] daa1 0x14[6] daa0 0x14[5] gain, nom. (db ) 0 0 0 +3.0 0 0 1 0.0 0 1 0 - 4.0 0 1 1 - 8.0 1 0 0 +6.0 1 0 1 +6.0 1 1 0 +2.0 1 1 1 - 2.0 table 35 shows a recommended gain settings for various transmit levels. with 0 dbm of tx data and default setting of daa1:0 = 01, txbst=0, txdg =00h, the transmit level is slightly off at ? 0.25 dbm. txdg =00000010 is required to achieve 0 dbm transmit level. for tx level > 6 dbm, tx data is assumed less than 0 dbm such that the product of tx data and txdg is less than 1.25 dbm. table 35 : recommended gain setting tx level analog gain digital gain ana+dig dbm txbst daa1 daa0 db txdg db db - 26 0 1 1 - 8 1100_0010 - 17.75 - 25.75 - 25 0 1 1 - 8 1100_1010 - 16.75 - 24.75 - 24 0 1 1 - 8 1101_0010 - 15.75 - 23.75 - 23 0 1 1 - 8 1101_1010 - 14.75 - 22.75 - 22 0 1 1 - 8 1110_0110 - 13.75 - 21.75 - 21 0 1 1 - 8 1110_1110 - 12.75 - 20.75 - 20 0 1 1 - 8 1000_0010 - 11.75 - 19.75 - 19 0 1 1 - 8 1000_1010 - 10.75 - 18.75 - 18 0 1 1 - 8 1001_0010 - 9.75 - 17.75
73m1866b/73m1966b data sheet ds_1x66b_001 58 rev. 1.6 tx level analog gain digital gain ana+dig dbm txbst daa1 daa0 db txdg db db - 17 0 1 1 - 8 1001_101 0 - 8.75 - 16.75 - 16 0 1 1 - 8 1010_0110 - 7.75 - 15.75 - 15 0 1 1 - 8 1010_1110 - 6.75 - 14.75 - 14 0 1 1 - 8 0100_0010 - 5.75 - 13.75 - 13 0 1 1 - 8 0100_1010 - 4.75 - 12.75 - 12 0 1 1 - 8 0101_0010 - 3.75 - 11.75 - 11 0 1 1 - 8 0101_1010 - 2.75 - 10.75 - 10 0 1 1 - 8 0110_ 0110 - 1.75 - 9.75 - 9 0 1 1 - 8 0110_1110 - 0.75 - 8.75 - 8 0 1 1 - 8 0000_0010 0.25 - 7.75 - 7 0 1 1 - 8 0000_1010 1.25 - 6.75 - 6 0 1 0 - 4 0110_0110 - 1.75 - 5.75 - 5 0 1 0 - 4 0110_1110 - 0.75 - 4.75 - 4 0 1 0 - 4 0000_0010 0.25 - 3.75 - 3 0 1 0 - 4 0000_1010 1.25 - 2.7 5 - 2 1 1 1 - 2 0000_0010 0.25 - 1.75 - 1 0 0 1 0 0110_1110 - 0.75 - 0.75 0 0 0 1 0 0000_0010 0.25 0.25 1 0 0 1 0 0000_1010 1.25 1.25 2 1 1 0 2 0000_0010 0.25 2.25 3 0 0 0 3 0000_0010 0.25 3.25 4 0 0 0 3 0000_1010 1.25 4.25 5 1 0 0 6 0110_1110 - 0.75 5.25 6 1 0 0 6 0000_0010 0.25 6.25 note (1) 1 0 0 6 0000_1010 1.25 7.25 note (1) 1 0 0 6 0001_0010 2.25 8.25 note (1) 1 0 0 6 0001_1010 3.25 9.25 note (1) 1 0 0 6 0010_0110 4.25 10.25 note (1) 1 0 0 6 0010_1110 5.25 11.25 note (1) 1 0 0 6 0011_0110 6.25 12.25 note 1. tx data is assumed small enough that the combination of tx data and txdg is less than 1.25 dbm. 8.8.1.2 receive gain scaling on the receive side, a 0 dbm receive signal on the line results in ~0 dbm at the pcm interface. means is provided to adjust receive signal path gain by use of a digital gain stage. this gain value is controlled by register 0x09[7:0] (rxdg). the gain values are explained in table 33. the two rxg bits (register 0x14[1:0]) control the value of the receiver analog gain. the rxg bits must be set to 10 to enable 0 db gain in the receive path. for the best s/n performance it is recommended to use a gain value up front in the analog domain. the digital control should be used to fine - tune the receiver signal path gain. when the received line signal exceeds a voltage level greater than specified by itu - t recommendation g.711 , the receive gain must be reduced to prevent saturation and clipping within the receive signal processing path.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 59 table 36 lists the value of receive gain for each value of rxg. table 36 : receive gain control rxg1 0x14[1] rxg0 0x14[0] gain nom (db) 0 0 - 6.0 0 1 - 3.0 1 0 0.0 1 1 +3.0 the precise values of the digital gain settings a re: bit 7 6 5 4 3 2 1 0 gain 0.25 0.5 1.5 1.25 1.125 1.0625 1.03125 1.015625 gain / attenuation - 12.04db - 6.02db 3.52db 1.94db 1.02db 0.53db 0.27db 0.13db 8.8.1.3 maximum levels the 73m1x66b is capable of providing gain attenuation in both the digital an d ana log domain. it is important to note that for optimum performance the transmitter output and receiver input should not exceed more than +7.25 dbm. signal levels that are greater than this will cause distortion and reduced performance. this implies that t he maximum input signal capable by the transmitter, if adjusted for unity gain, is the +7.25 dbm, e.g. digital gain of - 6.0 db (ensures analog input is less than +1.25 dbm) and analog gain of +6 db gives +7.25 dbm. 8.8.2 time slot assignment example figure 31 shows an example of the timing of transmit and receive time slots with changes in the time slot, clock slot and edge controls. refer to section 8.8 , pcm control functions. to program the first transmi t time slot after fs , ttc=31, tcs=7 and tpol=1: ? the first receive time slot after fs would be rts=31, rcs=7 and rpol=0. ? adjustments of ? clock period can be made using these registers. fs pclk dr dr rts, rcs = 0, 0 rpol=0 rts, rcs = 0, 0 rpol=1 rts, rcs = 31, 7 rpol=0 rts, rcs = 31, 7 rpol=1 dx dx tts, tcs = 0, 0 tpol=1 tts, tcs = 0, 0 tpol=0 tts, tcs = 31, 7 tpol=0 tts, tcs = 31, 7 tpol=1 figure 31 : timi ng relationships with various tts, tcs, tpol, and rts, rcs, rpol settings
73m1866b/73m1966b data sheet ds_1x66b_001 60 rev. 1.6 9 barrier information 9.1 isolation barrier the 73m1x66b uses the teridian microdaa proprietary isolation method based upon low - cost pulse transformer coupling. this technique provides se veral advantages over other methods, including: ? lower bom cost. ? reduced component count. ? lower radiated noise (emi). ? improved operation in noisy environments. the microdaa has additional and enhanced functionality such as the support of powering the line - side daa circuit from the host - side device. this allows operation on leased lines circuits and on low current conditions commonly encountered in long loops. the microdaa can also operate entirely from line power when sufficient loop current is available . since the transformer is the only component crossing the isolation barrier, it solely determines the isolation between the pstn and the fxo?s digital interface. several vendors can supply compatible transformers with ratings up to 6000 v. communica tion of pcm data, control data and status data is performed in the digital domain and is bidirectional at a rate of 1.536 mbps. 9.2 barrier powered options the 73m1x66b has the ability to be used either in a line powered mode or one where the line - side device can be powered across the barrier from the host - side device. the power - on default for the 73m1x66b is barrier powered mode. 9.2.1 barrier powered operation in this default mode of operation, the 73m1x66b host - side device drives the pulse transformer in such a way that power pulses are time division multiplexed into the transmit bit stream (half the time) that is rectified by circuitry in the line - side device and use s this energy to power itself. 9.2.2 line powered operation if there is sufficient current availabl e from the pstn line, the 73m1x66b can be programmed to use line power instead of power from across the barrier. 9.3 synchronization of the barrier since the communication across the barrier is digital, synchronization of data across the barrier is of absolut e importance. to that end, the devices implement special procedures to ensure reliability across the barrier. when loss of synchronization is detected, the slhs bit is set to 1 and likewise synl is also set to 1 and initiates an interrupt to the host. o nce the synl bit is asserted a new barrier synchronization sequence will automatically begin. once read, the slhs bit is reset, but will be set again if the synchronization loss continues.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 61 upon power up, the following sequence should be used to ensure ba rrier synchronization: 1. the 73m 1906b starts in barrier powered mode and transmits a preamble to aid the pll locking of the line - side device. 2. when pll lock detect is achieved the line - side device transmits status data to the host - side device. 3. when the line - side status data is detected by the host - side device, the barrier is considered to be in synchronization by the host - side device. 4. if the auto - poll mode is enabled, the device id is transmitted, which is followed by transmit data. 5. upon detection of the devi ce id, the line - side device considers the barrier to be in synchronization in host - to - line side direction. 6. the line - side device starts sending receive data. 7. if the auto - poll bit is enabled, the host - side device will have polled the device id of the line - si de device. if the barrier is synchronized, then regi ster 1dh, bits 7 - 4, will be 1101 . if not synchronized, then 0000. 9.4 auto - poll once the barrier interface acquires synchronization, the barrier interface state machine automatically sends a polling comman d to line - side device requesting it to return its device id. this is provided in rev. upon power up or loss of barrier synchronization, the contents of rev is cleared. after the auto - poll sequence, the host should read rev. a non - zero value indicates t hat synchronization is established. the auto - poll mechanism is disabled by resetting the enapol control bit. 9.5 barrier control functions table 37 : barrier control functions function mnemonic register location type description di sntr 0x15[6] w o disable no - transition timer if enabled, the no - transition timer is a safety feature. if the barrier fails, i.e. no transition is detected for 400 s, the line - side device resets itself and goes on hook to prevent line holding in a failure condition. 0 = enables no - transition timer of 400 s. (default) 1 = disables no - transition timer. enapol 0x05[3] w enable automatic polling 0 = disables automatic polling. 1 = initiates automatic polling of the 73m1x66b device id upon the establishment of the barrier syn. (default) if syn is lost, the device id will be reset to 0000. enlpw 0x02[2] w enable line power 0 = barrier powered mode is selected. (default) 1 = line powered mode is selected. bit enlvd must have the value of 0 before switching fr om line powered mode to barrier powered mode. otherwise level detection is disabled and the transition to barrier powered mode will not occur. ensynl 0x05[1] w enable synch loss detection interrupt 0 = disables synch loss detection interrupt. 1 = enables synch loss detection interrupt. (default) when the 73m1x66b detects a loss of synchronization in host - side barrier interface, synl 0x03[1] will be set and reset when read.
73m1866b/73m1966b data sheet ds_1x66b_001 62 rev. 1.6 function mnemonic register location type description rstl sbi 0x0d[3] w reset line - side barrier interface to reset the line - side barri er interface, set this bit to 1. 1 = resets the line - side barrier interface. the chip sets this bit back to 0 after it has completed resetting the line - side barrier interface. slhs 0x0d[6] r synchronization lost host side this bit indicates the status o f the barrier interface as seen from the host - side. 0 = host - side barrier interface is synchronized. 1 = host - side barrier interface lost synchronization. once read, the slhs bit is reset, but will be set again if the synchronization loss continues. slls 0x1e[2] r synchronization loss line side 0 = txrdy will continuously be generated following synchronization loss so as to allow slls information to be transferred across the barrier. this causes an automatic transfer of 1eh. (default) 1 = synchronization is lost in the line - side device due to header. synl 0x03[1] r barrier synchronization loss 0 = indicates synchronization of data across the barrier. 1 = indicates a loss of synchronization of data across the barrier. this status bit is reset when read. this is a maskable interrupt. it is enabled by the ensynl bit.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 63 9.6 line - side device operating modes the architecture of the 73m1x66b is unique in that the isolation barrier device, an inexpensive pulse transformer, is used to provide power and also bidirect ional data between the host - side device and the line - side device. when the 73m1x66b is on hook, all the power for the line - side device is provided over the barrier interface. after the line - side device goes off hook, the telco line supplies approximately 8 ma to the line - side device while the host provides the remainder across the barrier. it is also possible to power the line - side device entirely from the line provided there is at least 17 ma of loop current available. setting the enlpw bit enables thi s mode and turns off the power supplied across the barrier. there is a penalty in using this mode in that the noise and dynamic range are about 6 db worse than with the barrier powered mode. it is therefore recommended that the line powered mode be reser ved for applications where the absolute minimum power from the host side is a priority and the reduction in performance can be tolerated. figure 32 shows the ac and dc circuits of the line - side device. + c4 10uf q7 mmbta42 1 3 2 q6 bcp - 56 1 2 3 4 r65 200 u2 73m1916 - 20 ofh 4 vnx 5 scp 6 mid 7 vpx 8 vbg 11 acs 12 sre 9 srb 10 vns 13 vps 14 rxp 15 rxm 16 txm 17 dcs 19 dcd 18 dci 1 rgn 2 rgp 3 dcg 20 r3 412k, 1% r12 5.1k tp14 ofh 1 r11 5.1k r58 240 r4 100k, 1% q3 mmbta42 1 3 2 q4 mmbta92 1 3 2 q5 mmbta06 1 3 2 ohs txm sre rxm srb rxp dci dcd r5 8 .2 - + br1 hd04 4 1 3 2 figure 32 : line - side device ac and dc circuits the dciv bits control the voltage versus current characteristics of the 73m1x66b by monitoring the voltage at the line divided down by the ratios of (r3+r4)/r4 (5:1) measured at the dci pin. this voltage does not include the voltage across the q4 and the bridge. when both the enac and endc bits are set (the hold mode), the dciv characteristics follow approximately a 50 load line offset by a factor determined by the dciv bits. if endc=1 and enac=0, the 73m1x66b will go into the ?seize state mode? and the dc voltage load characteristic will be reduced to meet the australian seize voltage requirements regardless of the s etting of the dciv bits. 9.7 fail - safe operation of line - side device the 73m1x66b provides additional protection against improper operation during error and harmful external events. these include power or communication failure with the line - side device and t he detection of abnormal voltages and currents on the line. the basis of this protection is to ensure that under these conditions the device is in the on - hook state and the isolation is provided. the following events will cause the 73m1x66 line - side devi ce to go to the on - hook state if it is off - hook: 1. a power - on reset occurs while off - hook. 2. the non - transition timer function (see disntr ) is triggered by the absence of any signal transitions for more than 400 s on the barrier inte rface, indicating a problem with communications. 3. the power supply to the line - side device is below normal operating levels.
73m1866b/73m1966b data sheet ds_1x66b_001 64 rev. 1.6 10 configurable direct access arrangement (daa) the 73m1x66b line - side device integrates most of the circuitry to implement a pstn line interface or daa that is capable of being globally compliant with a single bill of materials. the 73m1x66b supports the following daa functions: ? pulse dialing ? on and off hook switch control ? loop current (dc - iv) regulation ? line impedance matching ? ring de tection ? tip and ring voltage polarity reversal detection ? billing tone rejection ? trans - hybrid cancellation the device is able to support barrier powered mode in which the pstn loop current may be as low as 8 ma. 10.1 pulse dialing the 73m1x66b supports pulse dialing. see section 10.6 for the descriptions of applicable control and status bits. 10.2 dc termination dc termination or loop current (dc - iv) regulation is managed by the 73m1x66b line - side device by configuring the appropriate registers. no additional components are necessary. the 73m1x66b provides a dc transconductance circuit that regulates the tip to ring voltage depending on the dc current supplied by the line. there are four settings that can be used to set the voltage to current ratio. figure 33 shows the dc - iv characteristics of the 73m1x66b with special regions of interest. figure 33 : dc - iv characteristics v i 41 * programmable turn-on voltage given by dciv control bits current limit turn-on=42 ma 2.2 k current limit turned on * ~50 ? with 8 ? fuse resistance seize voltage
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 65 the 73m1x66b can: ? shift the characteristics by settin g the turn - on voltage. ? enable a current limit of 42 ma. the 73m1x66b meets a wide range of different countries? requirements under software control. see section 10.7 . there are two operating states f or the dc - iv circuits: hold and seize. 0 2 4 6 8 10 12 14 5 9 15 20 30 40 50 60 70 80 90 96 110 tip/ring voltage dc current, ma dcvi performance dciv=00 dciv=01 dciv=10 dciv=11 figure 34 : tip - r ing voltage v ersus current using d ifferent dciv settings the hold state is the nominal operational point for the dc - iv circuits. the response s hown in figure 34 is for the hold state (both dc and ac transconductance circuits are enabled). the slope of the dc - iv characteristics is approximately 50 when the series resistance of a typical pptc resettable fuse is taken into account. the seize state is a condition that is used by some central offices to determine an off - hook condition. in th is state an additional load is added to the nominal operational dc - iv characteristics used during the hold state in the seize state (only the dc transconductance circuit is enabled), the tu rn - on voltage is reduced on the line independent of the dciv contr ol bits. see figure 35 and the description of the dciv bit s in section 10.6 .
73m1866b/73m1966b data sheet ds_1x66b_001 66 rev. 1.6 an example of the use of the seize state is for australia, which requires this state for the first 300 ms immediately after going off hook. 0 2 4 6 8 10 12 14 0 10 20 30 40 50 60 70 80 90 100 tip/ring voltage dc current, ma dcvi performance dciv=xx australian not recommended region australian prohibited region figure 35 : voltage versus current in the seize mode is the same for all dciv settings to facilitate the quick capture of the loop, the bandwidth of the dc loop is high upon power up. on the completion of dc loop capture, it should be lowered to avoid the interaction of dc and ac loops. see the description of the ennom bit in section 10.6 . 10.2.1 current limit detection if the daa current limiting feature is e nabled and the dev ice detects an i - limit condition, a status bit is set to report this event. 10.3 ac termination the 73m1x66b supports 16 impedance configurations. this set of ac impedance s has been selected to provide global coverage without the need for c hanging external components. the ac termination function is controlled by an enable and a disable control bit and by writing the appropriate network configuration code to the device. the ac terminations provided include ones suitable for etsi es 203 021 - 2, australia, fcc and china, among others. see section 10.7 on how to select a configuration. when using the 900 termination, an additional gain of 1.75 db should be added to the transmitter path. upon selection of a part icular ac impedance configuration, the 73m1x66b monitors the line and controls the ac current back to the line, such that the desired impedance looking into the rxp pins is realized. the 73m1x66b provides an ac transconductance circuit that is used to mo dulate the ac signal onto the line as well as to regulate the current and provide the ac load in the ac signal path. figure 36 shows the magnitude response of the impedance matching filter for the case of es 203 021 - 2.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 67 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 0 1 2 3 4 5 6 7 8 9 10 freq response of ipmf, az=01 khz 10 0 f1db f 1000 ? ( ) 5 0 f figure 36 : magnitude response of impedance matching filter, acz (3:0)=0010 (es 203 021 - 2) 10.4 billing tone rejection some countries use a large amplitude out - of - band tone to measure call duration and to allow remote central offices to determine the duration of a call for billing purposes. to avoid saturation and distortion of the input caused by these tones, it is important to be able to reject them. these frequencies are typically 12 khz or 16 khz. the 73m1x66b has an int egrated notch filter that attenuates either of these tones. by enabling this filter and selecting the position of the notch frequency, such tones will be attenuated. figure 37 shows the magnitude response of the filter with a no tch at either 12 khz (f1) or 16 khz (f2). 0 2 4 6 8 10 12 14 16 18 20 50 40 30 20 10 0 10 spans 20khz 10 50 ? f1db f 1000 ? ( ) f2db f 1000 ? ( ) 20 0 f figure 37 : magnitude response of billing tone notch filter in addition to the notch filter, the 73m1x66b can indicate the presence of an overload condition when a line? s ac voltage exceeds 3.5 vpk.
73m1866b/73m1966b data sheet ds_1x66b_001 68 rev. 1.6 10.5 trans - hybrid cancellation in order to improve performance, the trans - hybrid cancellation option allows a replica of the transmit signal to be created within the 73m1x66b and fed back to the rxm pin via an external circuit at the line interface. with a well matched ac impedance the amount of cancellation achieved is >26 db. this function can be enabled or disabled. rxm rxp txm tx buf vin - vin+ rp rn 52.3 k 17.4 k 21 k 4.7 uf + - rx buf from the line figure 38 : trans - hybrid cancellation 10.6 direct access arra ngement control functions these transmit control registers contain control information to set up the line side of the 73m1x66b . included are dc - iv characteristics, off - hook control, etc. table 38 : daa control functions function m nemonic register location type description acz 0x16[3:0] w active termination loop controls the selection of the active termination loops per the table shown below. aten must be set to 1 for selection to be enabled. acz field active termination loop set ting 0000 600 ? 0001 900 ? 0010 270 ? + 750 ? || 150 nf and 275 ? + 780 ? || 150 nf ( etsi es 203 021 - 2) 0011 220 ? + 820 ? || 120 nf and 220 ? + 820 ? || 115 nf (australia) 0100 370 ? + 620 ? || 310 nf 0101 320 ? + 1050 ? || 230 nf 0110 370 ? + 820 ? || 110 nf 0111 275 ? + 780 ? || 115 nf 1000 120 ? + 820 ? || 110 nf 1001 350 ? + 1000 ? || 210 nf 1010 200 ? + 680 ? || 100 nf (china) 1011 600 ? + 2.16 f 1100 900 ? + 1 f 1101 900 ? + 2.16 f 1110 220 ? + 400 ? || 70 nf (china) 1111 270 ? + 6 00 ? || 150 nf (global impedance)
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 69 function m nemonic register location type description aten 0x16[4] w active termination loop enable enables or disables active termination loop. 0 = disable. (default) 1 = enable active termination loop. note: normal operation requires this bit to be set to always enable a termination circuit. dciv 0x13[7:6] w dc current voltage characteristic control hold state with endc and enac=1, at 20 ma dc loop current measured at dci . the tip/ring voltage assumes that there is a 5:1 attenuation of off - hook voltage at the dci input pin . dciv1 dciv0 description 0 0 dc loop on voltage of 0.73 v (5.60 v at tip/ring assuming a 5:1 step down of off - hook voltage) 0 1 dc loop on voltage of 0.977 v (6.75 v at tip/ring assuming a 5:1 step down of off - hook voltage) 1 0 dc loop on voltag e of 1.232 v (7.65 v at tip/ring assuming a 5:1 step down of off - hook voltage) 1 1 dc loop on voltage of 1.488 v (9.35 v at tip/ring assuming a 5:1 step down of off - hook voltage) *seize state with endc=1 and enac=0, 20 ma loop current. dciv = xx provides a dc loop ? on ? voltage of 0.281v (3.9 v at tip/ring assuming 5:1 step down of off - hook voltage) enac 0x12[5] w o enable ac transconductance circuit 0 = shut down ac transconductance circuit. aux a/d input = ring detect buffer ( rgp/ rgn) / line voltage (dc i). seize state for going off hook. (default) 1 = enable ac transconductance circuit. aux a/d input = line current (dcs) / line voltage (dci). endc 0x12[6] w o enable dc transconductance circuit 0 = shut down transconductance circuit. (default) 1 = enab le transconductance circuit. enfel 0x12[2] w o enable front end line - side circuit 0 = power down front end line - side circuits. (default) 1 = enable front end blocks excluding dcgm, acgm, shunt regulator.
73m1866b/73m1966b data sheet ds_1x66b_001 70 rev. 1.6 function m nemonic register location type description enlvd 0x12[3] w o lev detection (ovdet, uvdet, oide t monitors) 0 = enable lev detection. (default) 1 = disable lev detection (used in line - powered mode to save power). this bit will be 0 when line powered mode is detected (enlpw is set in register 0x02[2]) and set to 1 when an interrupt occurs within the 73m1916. this bit must be reset prior to switching back to barrier powered mode. ennom 0x12[0] w o enable nominal operation 0 = speeds up the on and off hook transitions time by increasing the dc loop bandwidth of the dc transconductance circuit in the 7 3m1x66b . this should be used for pulse dialing , going on and off hook, etc . in addition, ennom=0 prevents the reset of all bits in register 0x12. (default) 1 = enter nominal operation. reduces the loop bandwidth of the dc transconductance circuit. all ows reset of register 0x12 caused by bits uvdet, ovdet or oidet. enshl 0x12[4] w o enable shunt loading 0 = disable shunt loading. (default) 1 = enable shunt loading of the line. not used for most applications. idispd 0x13[1] w o discharge and pulse dia ling controls the dc discharge current and how fast the loop turns off. affects pulse dialing waveform. controls the amount of discharge current during hook switch transitions. 0 = minimum current. (default) 1 = maximum current. it is recommended to set idispd to 1 prior to hook switching operations. ilm 0x13[5] wo current limit enable this control enables or disables loop current limit. 0 = no current limit. (default) 1 = 42 ma current limit enabled. ilmon 0x1e[7] r current limit mode on this status bit is effective only when the ilm bit is set to 1. 0 = loop current is lower than 42 ma. 1 = loop current is higher than 42 ma and the current limiting mode is active. ofh 0x12[7] w o off - hook enable this bit controls the state of the hook signal. 0 = o n - hook. (default) 1 = off - hook. pldm 0x13[3] w o pulse dialing mode enable alleviat es the strict timing requirements for the host having to control endc and ofh during pulse dialing. with pldm = 1, the host only has to toggle o fh to perform pulse dialin g. 0 = pulse dialing mode is disabled . (default) 1 = pulse dialing mode is enabled . rlpnen 0x16[5] w rec eive low pass notch enable 0 = billing tone receive low pass notch (rlpn) filter bypassed. (default) 1 = rlpn filter enabled. see rlpnh for notch frequency selection.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 71 function m nemonic register location type description rlpnh 0x14[2] w receive low pass notch 0 = selects receive low pass notch (rlpn) at 12 khz. (default) 1 = selects rlpn at 16 khz. see rlpnen ( register 0x16[5] ) t o enable the filter. then 0x15[3] w enable transhybrid circuit the rejection of the transmit signal from the receive signal path. 0 = transhybrid circuit disabled. (default) 1 = transhybrid circuit enabled. this bit should always be set for optimal perfo rmance.
73m1866b/73m1966b data sheet ds_1x66b_001 72 rev. 1.6 10.7 international register settings table for dc and ac terminations table 39 lists the recommended acz and dciv register settings for various countries. other parameters can also be set in addition to the ac and dc termina tion. these settings along with the reference schematic (see figure 12 ) can realize a single design for global usage without country - specific modifications. for more information on worldwide approvals, refer to the 73m1x66 world wide design guide application note . table 39 : recommended register settings for international compatibility country acz(3:0) dciv(1:0) country acz(3:0) dciv(1:0) country acz(3:0) dciv(1:0) argentina 0000 10 hungary 1 0010 10 pakist an 0000 10 australia 0011 11 iceland 2 0010 10 peru 0000 10 austria 1 0010 10 india 0000 10 phi lippi nes 0000 10 bahrai n 0000 10 indo nesia 0000 10 poland 1 0010 10 belgium 1 0010 10 ireland 1 0010 10 portugal 1 0010 10 bolivia 0000 10 israel 0000 10 romania 1 0010 10 brazil 0000 10 italy 1 0010 10 russia 0000 10 bulgaria 1 0010 10 japan 0000 00 saudi arabia 0000 10 canada 0000 10 jordan 0000 10 singapore 0000 10 chile 0000 10 kazakhstan 0000 10 slovakia 1 0010 10 chi na 3 1110 10 kuwait 0000 10 slovenia 1 0010 10 columbia 0000 10 latvia 1 0010 10 south africa 3 0011 10 croatia 0010 10 lebanon 0000 10 south korea 0000 10 cyprus 1 0010 10 leichtenstein 2 0010 10 spain 1 0010 10 czech rep 1 0010 10 lithuania 1 0010 10 sweden 1 0010 10 denmark 1 0010 10 luxembourg 1 0010 10 switzerland 2 0010 10 ecuador 0000 10 macao 0000 10 syria 0000 10 egypt 0000 10 malaysia 0000 10 taiwan 0000 10 el salvador 0000 10 malta 1 0010 10 es 203 021 - 2 0010 10 estonia 1 0010 10 mexico 0000 10 thai land 0000 10 finland 1 0010 10 morocco 0000 10 turkey 0000 10 france 1 0010 10 netherlands 1 0010 10 uae 0000 10 germany 1 0010 10 new zealand 3 0100 10 uk 1 0010 10 greece 1 0010 10 nigeria 0000 10 ukraine 0000 00 guam 0000 10 norway 2 0010 10 usa 0000 10 hong ko ng 0000 10 oman 0000 10 yemen 0000 10 1 these countries are members of the european union, where there are no longer any regulatory requirements for ac impedance. the suggested setting complies with etsi es 203 021 - 2 . other settings can be used if desired. 2 these countries are members o f the european free trade association, and their regulations generally follow the european union model. the suggested setting complies with etsi es 203 021 - 2 . 3 these countries can use the suggested complex setting for voice or data products
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 73 11 line sens ing and status the 73m1x66 supports the means to implement several line status functions such as ring detection, line in use detection, parallel pickup detection, and line voltage polarity reversals. to support these functions, 73m1x66 is able to measure the line voltage and current characteristics. in conjunction with these measurements, procedures can be implemented in the host to fully support these capabilities in an application. 11.1 auxiliary a/d converter an 8 - bit auxiliary a/d converter integrated in the 73m1x66b provides line monitoring and sensing capabilities. the a/d converter input signals are connected to the rgp and rgn pins of the device. it is possible to use this a/d converter to sample signals unrelated to pstn daa functions. however, in this application, it is necessary to isolate the input signal with optical or other means since the 73m1x66b is connected directly to the pstn. under normal conditions, rgp and rgn are ac coupled to the line through high voltage (250 v) capacitors. throu gh the use of this auxiliary a/d converter, the following line status sensing features are supported by the 73m1x66b : ? ring detection. ? pstn line already in use detection. ? off - hook detection that a parallel phone has been picked - up ? parallel pick - up detec tion (ppu). ? on - hook detection of dc loop voltage polarity reversals. ? on - hook detection of type ii caller id. 11.2 ring detection ring detection is provided through circuitry connected to the device pins rgp and rgn. any large voltage transition (ringing or l ine reversal) will be a source for the ?wake up? signal to the 73m1x66b . upon reception of a wake - up signal, the 73m1x66b passes the detected signal to the host where it is to be qualified for frequency and cadence (on and off timing of the ring tone burs ts) as a valid ring signal. 11.3 line in use detection (liu) if the 73m1x66b is preparing to go off - hook and dial, it is required to be aware whether the phone line is already in use by another device. if the 73m1x66b determines that the phone line is present ly in use, it can avoid going off - hook and interrupting the call in progress. the timing of the fxo?s off - hook transition can be delayed until the fxo determines that the phone line is available. liu sensing is done at pin dcin with the aux a/d. 11.4 paralle l pick up (ppu) parallel pick up is a means for the 73m1x66b to determine and notify a host in the case when the daa is off - hook and a second or parallel - connected device during the course of a connection is also made to go off - hook. 11.5 polarity reversal de tection a third type of line sensing requirement is associated with caller id protocols found in japan and some european countries. in these countries, the caller id signals are sent prior to the start of normal ringing. a polarity reversal is used to in dicate to the fxo that transmission of caller id information is about to begin. the detection of a polarity reversal takes place while the fxo is in the on - hook state. 11.6 off - hook detection of caller id type ii it is also possible to receive caller id si gnals while the telephone is in use, referred to as type ii cid. this requires the 73m1916 to constantly monitor the line for signals, such as special in - band or cas tones, while the fxo is in the off - hook state. this is done through the normal receive p ath.
73m1866b/73m1966b data sheet ds_1x66b_001 74 rev. 1.6 11.7 voltage and current detection the 73m1x66b is capable of detecting the following circumstances: ? under voltage on the line. ? over voltage on the line. ? over current. these 73m1x66b built - in mechanisms provide protection to both the device itself and th e external line circuitry. if enabled, over voltage and over current detection will cause the 73m1x66b to go on - hook without the intervention of the host. if configured in line powered mode, the detection of an under - voltage condition causes the 73m1x66b to switch automatically to barrier powered operation (see section 9.2.1 ). this is done without the intervention of the host. for each of the detection functions there are enable control bits and detection status bits. for each function there is a master detection function enable bit that must be set in order for the functions to work. 11.8 under voltage detection (uvd) under voltage detection is an important feature of 73m1x66b . it determines if the phone line is not capable o f supplying the current that the 73m1x66b requires from the line for proper operation. if this function is enabled and if the line is not capable of providing this current, the uvd condition will be asserted and can become a source of interrupt from the 7 3m1x66b to its connected host. 11.9 over voltage detection (ovd) if enabled, over voltage detection is indicated if the device senses that the line voltage exceeds a defined threshold. the device allows the selection of choice of either 60 vpk or 70 vpk (depen ding upon the attenuation ratio, typically this is 100:1). if enabled, the 73m1x66b will automatically go on - hook if over voltage is detected. 11.10 ac signal overload detection this is the same feature as used for the detection of billing tones (see section 10.4 ). in this most generic sense, this detector provides an indicator that the ac signal on the line exceeds a value of 3.5 vpk. 11.11 over current detection (oid) when the line current exceeds the safe operating range of the 73m1 x66b or the external transistors, the device indicates this condition. if enabled, the 73m1x66b will automatically go on - hook if an over current event is detected.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 75 11.12 line sensing control functions these registers contain control information to set up and u se the 73m1x66b line sensing functions. table 40 : line sensing control functions function mnemonic register location type description cidm 0x15[4] w caller id mode 0 = disable caller id mode. (default) 1 = enables caller id mode by coupling the signal from the rgn/rgp pins to the pcm dx pins in the appropriate pcm codec format. a 20 db gain boost is included in the signal path. the rxbst bit should also be set to allow the total nominal gain of 40 db in the caller id path. the normal signal path is disconnected. rxbst 0x14[3] w o received boost if set to 1, receive signal is increased by 20 db. default is 0. this is used to amplify signals that are passed through the auxiliary a/d when on - hook. ring detection status bits enr gdt 0x05[0] w enable ring detection interrupt this control bit enables the ring detection interrupt. 0 = ring detection interrupt disabled. 1 = ring detection interrupt enabled. (default) when 73m1922 detects an incoming ring signal, this bit will be set , if enabled, and reset when read. rgdt 0x03[0] r ring or line reversal detection voltage greater than the ring detect threshold was detected at rgp/rgn . this value is latched up on the event and cleared on read. the threshold i s determined by rgth. this is a maskable interrupt. it is enabled by the enrgdt bit. 0 = no latched ring or line reversal detection event. (default) 1 = a latched ring or line reversal detection event. rgmon 0x03[3] r ringing monitor bit 3 monitors t he activity of ringing for further cadence check by the host: 0 = silent 1 = ringing this bit is not latched. this status bit is reset when read. rgth 0x0e[1:0] w ring detect threshold controls the ring detect threshold assuming a 100:1 reduction of rin g voltage into the rgp/rgn pins. rgth1 rgth0 description 0 0 ring detect disabled. for ring detection to occur, these bits must be programmed to a non - zero state. 0 1 0.15 vpk equivalent to 15 vpk at auxiliary a/d input. 1 0 0.30 vpk equivalent to 30 vpk at auxiliary a/d input. 1 1 0.45 vpk equivalent to 45 vpk at auxiliary a/d input.
73m1866b/73m1966b data sheet ds_1x66b_001 76 rev. 1.6 function mnemonic register location type description auxiliary a/d converter status bits lc 0x1c[7:1] r loop current in dc path result of auxiliary a/d measuring the l oop c urrent (7 - bit resolution, least significant bits only). note : lc0=1 lsb=1.31/128=~10.23 mv=1.25 ma; magnitude only. the value of the resistor between the rectifier bridge and the dcs pin is assumed to be 8.2 ? . example: 0000011 ? 30.7 mv/re=3.74 ma; 0010000 ? 20 ma note: the ac path also has ~7 m a of loop current that should be added to get the total loop current provided by the line. lv 0x1b[7:1] r line voltage on and off hook contains the seven most significant bits of an 8 - bit a/d representation of the voltage of the input of pin dci. the vol tage at the dci pin is equal to the decimal value of lv bits [7:1] x 11 mv. for example, if the value of 0100000 x is read from lv bits [7:1], this has a decimal value of 64, therefore dci voltage equals 64 x 11 = 704 mv. note that the voltage at the dc i pin is the voltage divided by 5 (off hook) or 100 (on hook). when offhook the diode bridge, switch saturation voltage, etc. should also be added to calculate the voltage at tip and ring. rng 0x1a[7:0] r result of auxiliary a/d measuring the attenuated ring voltage. note: 1 lsb=1.31/128=~10.23 mv; 1?s compliment. example: 00100000 ? 327 mv or ring voltage=32.7 v line sensing control det 0x03[2] r detection of voltage or current fault 0 = none of the three conditions is detected. 1 = indicates the detection of one of three conditions: under voltage, over voltage and over current. this status bit is reset when read. this is a maskable interrupt. it is enabled by the endet bit. endet 0x05[2] w enables line sensing interrupt on host - side device thi s bit controls whether an interrupt is generated based upon the detection of under voltage, over voltage and over current. 0 = disable detector interrupt (default) 1 = enable detector interrupt. endt 0x12[1] w o enable detectors on line - side device 0 = uv d, ovd and oid conditions are ignored. (default) 1 = enables uvd, ovd and oid in the line - side device and allows them to be used in the host - side device. under - voltage detection control and status enuvd 0x15[2] w o enable under voltage detector on line - s ide device 0 = under voltage detector not enabled. 1 = under voltage detector enabled. when enabled, the ennom bit is temporarily set to the wide bandwidth mode if an under - voltage condition detected to allow fast reacquisition of the line. uvdet 0x1e[6 ] r under - voltage detector on line - side device 0 = under voltage condition is not detected at vps. 1 = under voltage condition is detected at vps.
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 77 function mnemonic register location type description over - voltage detection control and status enovd 0x15[1] w o enable over - voltage detector on line - side device 0 = over voltage detector not enabled. 1 = over voltage detector enabled (not latched). over voltage detector is enabled if enovd, enfel and ennom all equal 1. ovdet 0x1e[5] r over - voltage detector on line - side device 0 = over voltage condition is not d etected at rgp/rgn inputs. 1 = over voltage condition is detected at rgp/rgn inputs. ovdth 0x13[2] w o over - voltage threshold setting 0 = over voltage threshold is 0.6 vpk at the chip or 60 vp on the line. 1 = over voltage threshold is 0.7 vpk at the chip or 70 vp on the line. over - load detection control and status enold 0x15[7] w o enable over - load detector 0 = over load detector is not enabled. 1 = over load detector is enabled (not latched). oldet 0x1e[3] r over - load detector 0 = over - load condition is not detected. 1 = over - load condition detected. asserted when the line voltage exceeds 3.5 vpk typically. oldet is performed partially in analog domain and partially in digital domain. oldet is asserted when the delta from aux a/d between two consecuti ve dci samples is greater than 76. over - current detection control and status enoid 0x15[0] w o enable over - current detector on line - side device 0 = over - current detector is not enabled. (default) 1 = over - current detector is enabled. oidet 0x1e[4] r ove r - current (i) detector on line - side device 0 = over - current (i) condition is not detected. 1 = over - current (i) condition is detected at the dcs pin when loop current is > 125 ma if ilm=0, or > 55 ma if ilm=1.
73m1866b/73m1966b data sheet ds_1x66b_001 78 rev. 1.6 12 loopback and testing modes figure 39 shows the six loop back modes available within the 73m1x66b . tbs dsdm prm scm msbi lsbi rxafe sinc3 filter onchip lic spi interface pcm interface txafe interp. filter decim. filter txdata rxdata rbs tip ring prp scp txd rxd ctl sta external lic 73m1906b 73m1916 aux a/d sta alb intlb1 diglb2 diglb1 intlb2 rxa txa pcmlb figure 39 : loopback modes highlighted table 41 describes how the above control bits interact to provide each of the six loopback modes. table 41 : loopback modes test tmen dtst lb loopback mode mnemonic 0000 0 00 0 normal mode. (default) no loops 0000 0 00 1 loopback between pcm compander and fxo core. pcmlb 0000 1 10 0 digital loopback mode interpolated txdata (txd) is looped back to the decimated rxdata input (rxd). diglb1 0000 1 11 0 remote analog loopback received rxd is looped back as txd and transmitted back to the 73m1x66b line - side device; rxd is d/a converted to yield the analog transmit signal (txa). intlb1 0001 0 00 0 digital loopback mode dr transmit bit stream (tbs) is looped back to receive digital channel and received at dx (diglb2). diglb2 0010 0 00 0 remote analog loopback receive analog signal is con verted to received bit stream (rbs) and is looped back to tbs and the analog transmit channel (intlb2). intlb2 0011 0 00 0 analog loopback the transmit dr data is connected to the receiver at the analog interface and received at the dx pin (alb). alb
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 79 12.1 l oopback controls table 42 describes the registers used for loopback control. table 42 : loopback controls function mnemonic register location type description tmen 0x02[7] w test mode enable used to enable the activation of the test loops controlled by the dtst bits (diglb1 and intlb1). 0 = disables dtst loops. 1 = enables dtst loops. tmen has to be set to 1 before the setting of the dtst bits. dtst 0x07[1:0] w digital test mode select these control bits enable diglb1 and intlb1. prior to writing to these bits, tmen must be set to 1. dtst1 dtst0 selected test mode 0 0 normal (default) 1 0 diglb1 1 1 intlb1 lb 0x24[0] w loopback 0 = disables pcm loopback. 1 = enables pcm loopback within the hos t - side device. test 0x18[7:4] w this four - bit field is used to enable the loopback mode per the following table: test loopback mode 0000 normal mode. (default) transmit and receive channels are independent. 0001 digital loopback mode. dr transmit bit stream (tbs) is looped back to receive digital channel and received at dx (diglb2). 0010 remote analog loopback. receive analog signal is converted to received bit stream (rbs) and is looped back to tbs and the analog transmit channel (intlb2). 0011 anal og loopback. the transmit dr data is connected to the receiver at the analog interface and received at the dx pin (alb).
73m1866b/73m1966b data sheet ds_1x66b_001 80 rev. 1.6 13 performance this section provides an overview of typical performance characteristics measured using 73m1x66b production devices o n a teridian reference board. the measurements were made using a wandel and goltermann pcm - 4 test unit. the tests conform to itu - t recommendation g.712 (2001) . for more information, see the 73m1966b performance characterization . 13.1 transmit figure 40 provides performance characteristics for transmit gain tracking. figure 40 : variation of transmit gain digital input to analog output at the line
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 81 figure 41 provides performance characteristics for receive gain variation against frequency. figure 41 : gain versus frequency for digital input to analog output at the line figure 42 provides performance characteristics for distor tion in the direction of the digital port to analog port. figure 42 : signal to total distortion versus input level for digital input to analog output to the line
73m1866b/73m1966b data sheet ds_1x66b_001 82 rev. 1.6 13.2 receive figure 43 provides performance characteristics for receive gain tracking. figure 43 : variation of receiver analog gain at the line to the digital dx output
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 83 figure 44 provides performance characteristics for gain variation against f requency. figure 44 : gain versus frequency for analog input at the line to the digital dx output figure 45 provides performance characteristics for distortion in the direction of the analog port to di gital port. figure 45 : signal to total distortion versus input level for analog at the line to the digital dx output
73m1866b/73m1966b data sheet ds_1x66b_001 84 rev. 1.6 figure 46 : return loss, @ 80 ma
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 85 14 package layout figure 47 : 20 - pin tssop package dimensions 2.5 5 2.5 5 top view 1 2 3 0.2 min. 0.35 / 0.45 1.5 / 1.875 3.0 / 3.75 0.18 / 0.3 bottom view 1 2 3 0.25 0.5 0.5 0.25 3.0 / 3.75 1.5 / 1.875 0.35 / 0.45 chamfered 0.30 figure 48 : 32 - pin qfn package dimensions 0.85 nom. / 0.9max. 0.00 / 0.005 0.20 ref. seating plane side view
73m1866b/73m1966b data sheet ds_1x66b_001 86 rev. 1.6 figure 49 : 42 - pin qfn package dimens ions
ds_1x66b_001 73m1866b/73m1966b data sheet rev. 1.6 87 15 ordering information table 43 lists the order numbers and packaging marks used to identify 73m1x66b products. table 43 : order numbers and packaging marks part description order number packaging mark h ost/line 73m1966b 32 - pin qfn, lead free 73m1966b - im/f 73m1916a - m 73m 1906b line - side ic host - side ic 73m1966b 32 - pin qfn, lead free, tape and reel 73m1966b - imr/f 73m1916a - m 73m 1906b line - side ic host - side ic 73m1966b 20 - pin tssop, lead free 73m1966b - ivt/ f 73m1916avt 73m 1906b vt line - side ic host - side ic 73m1966b 20 - pin tssop, lead free, tape and reel 73m1966b - ivtr/f 73m1916avt 73m 1906b vt line - side ic host - side ic 73m1866b 42 - pin qfn, lead free 73m1866b - im/f 73m 1866b - im 73m1866b 42 - pin qfn, lead free, tape and reel 73m1866b - imr/f 73m 1866b - im 16 contact information for more information about teridian semiconductor products or to check the availability of the 73m1966b , contact us at: 6440 oak canyon road suite 100 irvine, ca 92618 - 5201 telephone: (714) 508 - 8800 fax: (714) 508 - 8878 email: fxo .support@teridian.com for a complete list of worldwide sales offices, go to http://www.teridian.com .
73m1866b/73m1966b data sheet ds_1x66b_001 88 rev. 1.6 revision history revision date description 1.0 11/7/2007 first publ ication. 1.1 5/13/2008 1.2 7/30/2008 1.3 11/17/2008 1.4 7/21/2009 1.5 10/16/2009 1.6 4/2 /2010 replaced table 16 with a new table. replaced the schematics in figure 12 and figure 13 with new schematics. moved the steps to enable the calibration of receive dc offset from section 8.8.3 to the 73m1866b/73m1966b implementer?s guide . corrected the types (r, w, wo) in table 32. rewrote the description of the adj bit . added clarification to the description of the pldm bit . added clarification to the description of the rgdt bit . teridian semiconductor co rporation is a registered trademark of teridian semiconductor corporation. simplifying system integration is a trademark of teridian semiconductor corporation. microdaa is a registered trademark of teridian semiconductor corporation. all other trademarks a re the property of their respective owners. teridian semiconductor corporation makes no warranty for the use of its products, other than expressly contained in the company?s warranty detailed in the teridian semiconductor corporation standard terms and co nditions. the company assumes no responsibility for any errors which may appear in this document, reserves the right to change devices or specifications detailed herein at any time without notice and does not make any commitment to update the information contained herein. accordingly, the reader is cautioned to verify that this document is current by comparing it to the latest version on http://www.teridian.com or by checking with your sales representative. teridian semiconductor corp., 6440 oak canyon, suite 100, irvine, ca 92618 tel (714) 508 - 8800, fax (714) 508 - 8877, http://www.teridian.com

▲Up To Search▲

Price & Availability of 73M1906B-IVTF

	To Download 73M1906B-IVTF Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .