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| short form data sheet 82p33731 revision 1 10/20/14 1 ?2014 integrated device technology, inc. synchronous equipment timing source for 10g/ 40g synchronous ethernet 82p33731 highlights ? synchronous equipment timing source (sets) for synchronous ethernet (synce) per itu-t g.8264 ? dpll1 generates itu-t g.8262 compli ant synce clocks, telcordia gr-1244-core/gr-253-core , and itu-t g.813 compliant sonet/sdh clocks ? dpll2 performs rate conversions fo r synchronization interfaces or for other general purpose timing applications ? apll3 is voltage controlled crystal oscillator (vcxo) based and generates clocks with jitter <0.3 ps rms (10 khz to 20 mhz) for: 10gbase-r, 10gbase-w and 40gbase-r ? apll1 and apll2 generate clocks with jitter < 1 ps rms (12 khz to 20 mhz) for: 1000base-t and 1000base-x ? fractional-n input dividers suppor t a wide range of reference fre- quencies ? locks to 1 pulse per second (pps) references ? dplls, apll1 and apll2 can be configured from an external eeprom after reset features ? composite clock inputs (in1 and in 2) accept 64 khz synchronization interface signals per itu-t g.703 ? differential reference inputs (in3 to in8) accept clock frequencies between 1 pps and 650 mhz ? single ended inputs (in9 to in14) accept reference clock frequencies between 1 pps and 162.5 mhz ? loss of signal (los) pins (los0 to los3) can be assigned to any clock reference input ? reference monitors qualify/disqua lify references depending on activ- ity, frequency and los pins ? automatic reference selection state machines select the active refer- ence for each dpll based on the reference monitors, priority tables, revertive and non-revertive settings and other programmable settings ? fractional-n input dividers enable the dplls to lock to a wide range of reference clock frequencies including: 10/100/1000 ethernet, 10g ethernet, otn, sonet/sdh, pdh, tdm, gsm, cpri, and gnss frequencies ? any reference inputs (in3 to in14) can be designated as external sync pulse inputs (1 pps, 2 khz, 4 khz or 8 khz) associated with a selectable reference clock input ? frsync_8k_1pps and mfrsync_2k_1pps output sync pulses that are aligned with the selected ex ternal input sync pulse input and frequency locked to the associated reference clock input ? dpll1 can be configured with bandwidths between 0.09 mhz and 567 hz ? dpll1 locks to input references with frequencies between 1 pps and 650 mhz ? dpll2 locks to input references with frequencies between 8 khz and 650 mhz ? dpll1 complies with itu-t g.8262 for synchronous ethernet equip- ment clock (eec), and g.813 fo r synchronous equipment clock (sec); and telcordia gr-253-core / gr-1244-core for stratum 3 and sonet minimum clock (smc) ? dpll1 generates clocks with pdh, tdm, gsm, cpri/obsai, 10/ 100/1000 ethernet and gnss frequencies; these clocks are directly available on out1 ? dpll2 generates n x 8 khz clocks up to 100 mhz that are output on out9 and out10 ? apll1, apll2 and apll3 are connected to dpll1 ? apll1 and apll2 generate 10/100/1000 ethernet, 10g ethernet, or sonet/sdh frequencies ? apll3 generates 10g ethernet, wan-phy, and lan-phy frequen- cies ? any of eight common tcxo/ocxo frequencies can be used for the system clock: 10 mhz, 12.8 mhz, 13 mhz, 19.44 mhz, 20 mhz, 24.576 mhz, 25 mhz or 30.72 mhz ? the i2c slave interface can be used by a host processor to access the control and status registers ? the i2c master interface can aut omatically load a device configura- tion from an external eeprom after reset; apll3 must be config- ured via the i2c slave interface ? dplls can be connected to an internal composite clock generator that outputs its 64 khz synch ronization signal on out8 ? differential outputs out3 to out6 output clocks with frequencies between 1 pps and 650 mhz ? differential outputs out11 and out12 output clocks with frequen- cies up to 650 mhz ? single ended outputs out1, out2 and out7 output clocks with fre- quencies between 1 pps and 125 mhz ? single ended outputs out9 and out10 output clocks n*8 khz multi- ples up to 100 mhz ? dpll1 supports independent programmable delays for each of in3 to in14; the delay for each input is programmable in steps of 0.61 ns with a range of ~78 ns ? the input to output phase delay of dpll1 is programmable in steps of 0.0745 ps with a total range of 20 s ? the clock phase of each of the output dividers for out1 (from apll1) to out7 is individually programmable in steps of ~200 ps with a total range of +/-180 ? 1149.1 jtag boundary scan ? 144-pin cabga green package applications ? access routers, edge routers, core routers ? carrier ethernet switches ? multiservice access platforms ?pon olt ? lte enodeb ? itu-t g.8264 synchronous equipment timing source (sets) ? itu-t g.8262 synchronous ethernet equipment clock (eec) ? itu-t g.813 synchronous equipment clock (sec) ? telcordia gr-253-core/gr1244-core stratum 3 clock (s3) and sonet minimum clock (smc)
82p33731 short form data sheet synchronous equipment timing source for 10g/ 40g synchronous ethernet 2 revision 1 10/20/14 description the 82p33731 synchronous equipment timing source (sets) for 10g synchronous ethernet (synce) prov ides tools to manage timing re fer- ences, clock generation and timi ng paths for synce based clocks, per itu-t g.8264 and itu-t g.8262. 82p33731 meets the requirem ents of itu-t g.8262 for synchronous ethernet equipment cl ocks (eecs) and itu-t g.813 for synchronous equipment cl ocks (sec). the device outp uts low-jit- ter clocks that can directly synchroni ze 40gbase-r, 10gbase-r and 10gbase-w and lower-ra te ethernet interfaces; as well as cpri /obsai, sonet/sdh and pdh interfaces. the 82p33731 accepts six differential reference inputs and six si ngle ended reference inputs that can operate at common gnss, e thernet, sonet/sdh and pdh frequencies that range from 1 pulse per second (pps) to 650 mhz. the device also provides two alternate mark inversion (ami) inputs for composite clock (cc) signal s bearing 64 khz, 8 khz and 0.4 khz synchroni zation information. the references are continually moni- tored for loss of signal and for frequency offs et per user programmed thresholds. all of the references are available to both d igital plls (dplls). the active reference for each dpll is determined by forced selecti on or by automatic selection bas ed on user programmed priorities and locking allow- ances and based on the reference monitors and los inputs. the 82p33731 can accept a clock reference and an associated phase lock ed sync signal as a pair. dpll1 can lock to the clock ref erence and align the frame sync and multi-frame sync out puts with the paired sync input. the device allows any of the differential or sing le ended reference inputs to be configured as sync inputs that can be associated with any of the other differential or single ended reference inputs. the input sync signals can have a frequency of 1 pps, 2 khz, 4 khz or 8 khz. this featur e enables dpll1 to phase align its frame sync and multi-frame sync outputs with a sync input without the need use a low bandwidth setting to lock directly to the sync input. the dplls support three primary operating m odes: free-run, locked and holdover. in free- run mode the dplls synthesize clocks ba sed on the system clock alone. in locked mode the dplls filter reference clock jitter with the selected bandwidth. in locked mode, the long-term output fre- quency accuracy is the same as the long term frequency accuracy of the selected input reference. in holdover mode, the dpll use s frequency data acquired while in locked mode to generate accurate fr equencies when input refer ences are not available. the 82p33731 requires a system clock for it s reference monitors and other digital ci rcuitry. the frequency accuracy of the syst em clock deter- mines the frequency accuracy of the dplls in free-run mode. the frequency stability of the system clock determines the frequenc y stability of the dplls in free-run mode and in holdover mode; and it af fects the wander generation of the dplls in locked mode. when used with a suitable system clock, dpll1 meets the frequency accuracy, pull-in, hold-in, pullout, noise generation, noise tolerance, tran- sient response, and holdover performance r equirements of the following applications: itu-t g.8262/g.813 eec/sec options 1 and 2 , telcordia gr- 1244 stratum 3 (s3), telcordia gr-253-co re s3 and sonet minimum clock (smc). dpll1 can be configured with a range of selectable filtering band widths from 0.09 mhz to 567 hz. the 17 mhz bandwidth can be us ed to lock the dpll directly to a 1 pps reference. the 92 mhz bandwidth can be used for g.8262/g.813 option 2, or telcordia gr-253-core s3, or smc applica- tions. the bandwidths in the range 1.1 hz to 8.9 hz can be us ed for g.8262/g.813 option 1 applications. the bandwidth of 1.1 hz or 2.2 hz can be used for telcordia gr-1244-core s3 applications. bandwidths abov e 10 hz can be used in jitter attenuation and rate conversion a pplications. dpll2 is a wideband (bw > 25hz) frequency translator that can be used, for example, to convert a recovered line clock to a 1.54 4 mhz or 2.048 mhz synchronization interface clock. for sets applications per itu-t g.8264, dpll1 is configured as an eec/sec to output clocks for the t0 reference point and dpll2 is used to output clocks for the t4 reference point. clocks generated by dpll1 can be passed thr ough apll1 or apll2 which are lc based jitter attenuating analog plls (aplls). the o utput clocks generated by apll1 and apll2 are suitable fo r serial gbe and lower rate interfaces. clocks generated by dpll1 can be passed through apll3 which is a vo ltage controlled crystal oscillator (vcxo) based jitter atte nuating apll. apll3 can be provisioned with one or two sele ctable crystal resonators to support up to two base frequencies. the output clocks generated by apll3 are suitable for serial 40gbase-r and lower rate interfaces. the device provides an ami output for a cc signal bearing 64 khz, 8 khz and 0.4 khz sync hronization information. the cc output can be con- nected to either dpll1 or dpll3. all 82p33731 control and status registers are accessed through an i2c slave microprocesso r interface. for configuring the dplls , apll1 and apll2, the i2c master interface can automatically load a configur ation from an external eeprom after reset. apll3 must be confi gured via the i2c slave interface. 82p33731 short form data sheet revision 1 10/20/14 3 synchronous equipment timing source for 10g/ 40g synchronous ethernet functional block diagram figure 1. functional block diagram control and status registers outdiv outdiv i2c slave jtag i2c master reference monitors reference selection frac-n input dividers sys pll apll1 apll2 outdiv outdiv outdiv dpll1 (t0) out3p/n out4p/n out5p/n out6p/n out7 system clock los0 / xo_freq0 los1 / xo_freq1 los2 / xo_freq2 los3 ex_sync module composite clocks in1(cc) in2(cc) in5(p/n) in6(p/n) in7(p/n) in3(p/n) in4(p/n) in8(p/n) in9 in10 in11 in12 in13 in14 frsync_8k_1pps mfrsync_2k_1pps crystal outdiv out1 outdiv out2 outdiv outdiv out11p/n out12p/n apll3 (vcxo) outdiv outdiv out9 out10 out8 composite clock dpll2 (t4) 82p33731 short form data sheet synchronous equipment timing source for 10g/ 40g synchronous ethernet 4 revision 1 10/20/14 1 pin assignment figure 2. pin assignment (top view) idt confidential 123456789101112 a out5_pos out5_neg out6_pos out6_neg vddao out12_pos vddao out11_pos cap2 xtal2_in sonet/sdh/lo s3 xtal1_in a b vssao vddao vddao vssao vssao out12_neg vssao out11_neg vssa xtal2_out mpu_mode1/i 2cm_scl xtal1_out b c vdda vssa vss out7 i2c_sda vdda vdda ic cap1 ic mpu_mode0/i 2cm_sda mfrsync_2 k_1pps c d vssa vdda vsscom vssd vddd vssa vssa cap3 i2c_ad2 i2c_scl out10 out9 d e osci vssa ic vdddo i2c_ad1 vddd0 vssdo vssa dpll2_lock in14 in13 frsync_8k_ 1pps e f tms vdda vssa vssdo vss vssd vddd vssa vdda in12 in8_neg in8_pos f g tck vdda ic vss vss vss ic vss ic in11 in7_neg in7_pos g h xo_freq0/ los0 vdda vssa vss vss vss vss vss dpll1_lock in10 vssd vddd_1_8 h j xo_freq1/ los1 xo_freq2/ los2 vss vss vss vss vss vss int_req in9 in6_neg in6_pos j k vdda vdda trstb vssao out2 rstb vssdo ms_sl in2 in1 in5_neg in5_pos k l vssa vssa tdi vddao tdo ic vdddo out1 vssd vddd_1_8 in4_neg in4_pos l m out4_pos out4_neg vssao vddao out3_pos out3_neg vssdo vdddo out8_pos out8_neg in3_neg in3_pos m 123456789101112 82p33731 short form data sheet revision 1 10/20/14 5 synchronous equipment timing source for 10g/ 40g synchronous ethernet 2 pin description table 1: pin description pin no. name i/o type description global control signal e1 osci i cmos osci: crystal oscillator system clock a clock provided by a crystal oscillator is input on this pin. it is the system clock for the device. the oscillator frequency is selected via pins xo_freq0 ~ xo_freq2 k8 ms/sl i pull-up cmos ms/sl: master / slave selection this pin, together with the ms_sl_ctrl bit, controls whether the device is configured as the master or as the slave. the signal level on this pin is reflected by the master_slave bit. a11 sonet/sdh/ los3 i pull-down cmos sonet/sdh: sonet / sdh frequency selection during reset, this pin determines the default value of the in_sonet_sdh bit (b2, 09h): high: the default value of the in_sonet_sdh bit is ?1? (sonet); low: the default value of the in_sonet_sdh bit is ?0? (sdh). after reset, this pin takes on the operation of los3 los3- this pin is used to disqualify input clocks. see input clocks section for more details. k6 rstb i pull-up cmos rstb: reset a low pulse of at least 50 s on this pin re sets the device . if loading from an eeprom, the maximum time from rstb de-assert to have stable clocks is 100 ms. if not loading from eeprom the maximum time from rstb de-ass ert to have stable clocks is 10 ms. h1 j1 j2 xo_freq0/ los0 xo_freq1/ los1 xo_freq2/ los2 i pull-down cmos xo_freq0 ~ xo_freq2: these pins set the oscillator frequency. xo_freq[2:0] oscillator frequency (mhz) 000 10.000 001 12.800 010 13.000 011 19.440 100 20.000 101 24.576 110 25.000 111 30.720 los0 ~ los2 - these pins are used to disqualify input clocks. see input clocks section for more details. after reset, this pin takes on the operation of los0-los2 input clock and frame synchronization input signal k10 in1 i ami in1: input clock 1 a 64 khz + 8 khz or 64 khz + 8 khz + 0.4 khz composite clock is input on this pin. ami input has internal 1k ohm to 1.5v termination. this pin can also be used as a frame pulse input, and in this case a 8 khz signal can be input on this pin. k9 in2 i ami in2: input clock 2 a 64 khz + 8 khz or 64 khz + 8 khz + 0.4 khz composite clock is input on this pin. ami input has internal 1k ohm to 1.5v termination. this pin can also be used as a frame pulse input, and in this case a 8 khz signal can be input on this pin. m12 m11 in3_pos in3_neg i pecl/lvds in3_pos / in3_neg: positive / negative input clock 3 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. l12 l11 in4_pos in4_neg i pecl/lvds in4_pos / in4_neg: positive / negative input clock 4 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. k12 k11 in5_pos in5_neg i pecl/lvds in5_pos / in5_neg: positive / negative input clock 5 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. j12 j11 in6_pos in6_neg i pecl/lvds in6_pos / in6_neg: positive / negative input clock 6 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. 82p33731 short form data sheet synchronous equipment timing source for 10g/ 40g synchronous ethernet 6 revision 1 10/20/14 g12 g11 in7_pos in7_neg i pecl/lvds in7_pos / in7_neg: positive / negative input clock 7 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. f12 f11 in8_pos in8_neg i pecl/lvds in8_pos / in8_neg: positive / negative input clock 8 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. j10 in9 i pull-down cmos in9: input clock 9 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. h10 in10 i pull-down cmos in10: input clock 10 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. g10 in11 i pull-down cmos in11: input clock 11 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. f10 in12 i pull-down cmos in12: input clock 12 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. e11 in13 i pull-down cmos in13: input clock 13 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. e10 in14 i pull-down cmos in14: input clock 14 a reference clock is input on this pin.this pin can also be used as a sync input, and in this case a 2 khz, 4 khz, 8 khz, or 1pps signal can be input on this pin. output frame synchronization signal e12 frsync _8k_1pps ocmos frsync_8k_1pps: 8 khz frame sync output an 8 khz signal or a 1pps sync signal is output on this pin. c12 mfrsync _2k_1pps ocmos mfrsync_2k_1pps: 2 khz mu ltiframe sync output a 2 khz signal or a 1pps sync signal is output on this pin. output clock l8 k5 out1 out2 ocmos out1 ~ out2: output clock 1 ~ 2 m5 m6 out3_pos out3_neg o pecl/lvds out3_pos / out3_neg: positive / negative output clock 3 this output is set to lvds by default. m1 m2 out4_pos out4_neg o pecl/lvds out4_pos / out4_neg: positive / negative output clock 4 this output is set to lvds by default. a1 a2 out5_pos out5_neg o pecl/lvds out5_pos / out5_neg: positive / negative output clock 5 this output is set to lvds by default. a3 a4 out6_pos out6_neg o pecl/lvds out6_pos / out6_neg: positive / negative output clock 6 this output is set to lvds by default. c4 out7 o cmos out7: output clock 7 m9 m10 out8_pos out8_neg oami out8_pos / out8_neg: positive / negative output composite clock a 64 khz + 8 khz or 64 khz + 8 khz + 0.4 khz composite clock is differentially output on this pair of pins. d12 out9 o cmos out9: output clock 9 d11 out10 o cmos out10: output clock 10 a8 b8 out11_pos out11_neg o pecl out11_pos / out11_neg: positive / negative output clock 11 a6 b6 out12_pos out12_neg o pecl out12_pos / out12_neg: positive / negative output clock 12 table 1: pin description (continued) pin no. name i/o type description 82p33731 short form data sheet revision 1 10/20/14 7 synchronous equipment timing source for 10g/ 40g synchronous ethernet miscellaneous c9, a9, d8 cap1, cap2, cap3 cap1, cap2 and cap3: analog power filter capacitor connection 1 to 3. these capacitors are be part of the power filtering. a12 xtal1_in i analog crystal oscillator 1 input. determines first of two frequency families (sonet/sdh, ethernet or ethernet*66/64) available for apll3. connect to ground if xtal1 is not used. b12 xtal1_out o analog crystal oscillator 1 output. leave open if xtal1 is not used. a10 xtal2_in i analog crystal oscillator 2 input. determines first of two frequency families (chosen from sonet/sdh, ethernet or ethernet*66/ 64) available for apll3. connect to ground if xtal2 is not used b10 xtal2_out o analog crystal oscillator 2 output. leave open if xtal2 is not used. lock signal e9 dpll2_lock ocmos dpll2_lock this pin goes high when dpll2 is locked h9 dpll1_lock ocmos dpll1_lock this pin goes high when dpll1 is locked microprocessor interface j9 int_req o tri-state cmos int_req: interrupt request this pin is used as an interrupt request. b11 c11 mpu_mode1/ i2cm_scl mpu_mode0/ i2cm_sda i/o pull-down cmos/ open drain mpu_mode[1:0]: microprocessor interface mode selection during reset, these pins determine the default value of the mpu_sel_cnfg[1:0] bits as fol- lows: 00: i2c mode 01 ~ 10: reserved 11: i2c master (eeprom) mode i2cm_scl: serial clock line in i2c master mode, the serial clock is output on this pin. i2cm_sda: serial data input for i2c master mode in i2c master mode, this pin is used as the for the serial data. d9 i2c_ad2 i pull-down cmos i2c_ad2: device address bit 2 i2c_ad[2:1] pins are the address bus of the microprocessor interface. e5 i2c_ad1 i pull-down cmos i2c_ad1: device address bit 1 i2c_ad[2:1] pins are the address bus of the microprocessor interface. d10 i2c_scl i cmos i2c_scl: serial clock line the serial clock is input on this pin. c5 i2c_sda i/o open drain i2c_sda: serial data input/output this pin is used as the input/output for the serial data. jtag (per ieee 1149.1) f1 tms i pull-up cmos tms: jtag test mode select the signal on this pin controls the jtag test performance and is sampled on the rising edge of tck. k3 trstb i pull-up cmos trstb: jtag test reset (active low) a low signal on this pin resets the jtag test port. this pin should be connected to ground when jtag is not used. g1 tck i pull-down cmos tck: jtag test clock the clock for the jtag test is input on this pin. tdi and tms are sampled on the rising edge of tck and tdo is updated on the falling edge of tck. if tck is idle at a low level, all stored-state devices contained in the test logic will indefinitely retain their state. table 1: pin description (continued) pin no. name i/o type description 82p33731 short form data sheet synchronous equipment timing source for 10g/ 40g synchronous ethernet 8 revision 1 10/20/14 2.1 recommendations for unused input and output pins 2.1.1 inputs control pins all control pins have internal pul l-ups or pull-downs ; additional resis- tance is not required but can be added for additional protection. a 1k resistor can be used. single-ended clock inputs for protection, unused single- ended clock inputs should be tied to ground. differential clock inputs for applications not requiring the use of a differential input, both *_pos and *_neg can be left floating. though not required, but for additional protection, a 1k resistor can be tied from _pos to ground. xtal inputs for applications not requiring the us e of a crystal oscillator input, both _in and _out can be left floating. though not required, but for additional protection, a 1k resistor can be tied from _in to ground. 2.1.2 outputs status pins for applications not requiring the use of a status pin, we recommend bringing out to a test point for debugging purposes. single-ended clock outputs all unused single-ended clock outputs can be left floating, or can be brought out to a test point for debugging purposes. differential clock outputs all unused differential outputs can be left floating. we recommend that there is no trace attached. both sides of the differential output pair should either be left floating or terminated. l3 tdi i pull-up cmos tdi: jtag test data input the test data are input on this pin. they are clocked into the device on the rising edge of tck. l5 tdo o tri-state cmos tdo: jtag test data output the test data are output on this pin. they are clocked out of the device on the falling edge of tck. tdo pin outputs a high impedance signal except during the process of data scanning. power & ground c1, c6, c7, d2, f2, f9, g2, h2, k1, k2 vdda power - vdda : analog core power - +3.3v dc nominal a5, a7, b2, b3, l4, m4 vddao power vddao : analog output power - +3.3v dc nominal e4, e6, l7, m8 vdddo power vdddo : digital output power - +3.3v dc nominal d5, f7 vddd power vddd : digital core power - +3.3v dc nominal l10, h12 vddd_1_8 power vddd_1_8 : digital core power - +1.8v dc nominal b9, c2, d1, d6, d7, e2, e8, f3, f8, h3, l1, l2 vssa ground - vssa : ground b1, b4, b5, b7, k4, m3 vssao ground vssao : ground e7, f4, k7, m7 vssdo ground vssdo : ground d4, f6, h11, l9 vssd ground vssd : ground d3 vsscom ground - vsscom: ground c3, f5, g4, g5, g6, g8, h4, h5, h6, h7, h8, j3, j4, j5, j6, j7, j8 vss ground - vss : ground other c8, c10, e3, g3, g7, g9, l6 ic - - ic : internal connection internal use. this pin must be left open for normal operation. table 1: pin description (continued) pin no. name i/o type description 82p33731 short form data sheet revision 1 10/20/14 9 synchronous equipment timing source for 10g/ 40g synchronous ethernet package dimensions figure 3. 144-pin bag package dimensions 82p33731 short form data sheet synchronous equipment timing source for 10g/ 40g synchronous ethernet 10 revision 1 10/20/14 figure 4. 144-pin bag package recommended land pattern 82p33731 short form data sheet revision 1 10/20/14 11 synchronous equipment timing source for 10g/ 40g synchronous ethernet ordering information "g" after the two-letter package code denotes pb-free configuration, rohs compliant. while the information presented herein has been checked for both a ccuracy and reliability, integrated device technology (idt) a ssumes no responsibility for either its use or for the infringement of an y patents or other rights of th ird parties, which would resul t from its use. no other circuits, patents, or licenses are implied. this product is intended for use in normal commercial applications. any other applications such as those requiring extended temperatur e range, high reliability, or other extr aordinary environmental requirements are not recommended without additional processing by idt. idt does no t authorize or warrant any idt product for use in life support dev ices or critical medical instruments. revision history table 2: ordering information part/order number package temperature 82p33731abag 144-pin cabga green package -40 o to +85 o c rev. date description of change disclaimer integrated device technology, inc. (idt) and its subsidiaries reserve the right to modify the products and/or specifications d escribed herein at any time and at idt?s sole discretion. all information in this document, including descriptions of product features and performance, is subject to change without notice. performance spe cifications and the operating parameters of the described products are determined in the independent state and are not guaranteed to perform the same way when installed in customer products. the information co ntained herein is provided without representation or warranty of any kind, whether express or implied, including, but not limi ted to, the suitab ility of idt?s products for any particular purpose, an implied war ranty of merchantability, or non-infringement of the intellectual property rights of others. this document is presented only as a guide and does not convey any license under intellectual property rights of idt or any third pa rties. idt?s products are not intended for use in applications involvin g extreme environmental conditions or in life support systems o r similar devices where the failure or malfunction of an idt product can be reasonably expected to significantly affect the health or safety of users. anyone using an idt product in such a manner does so at their o wn risk, absent an express, written agreement by idt. integrated device technology, idt and the idt logo are registered trademarks of idt. product specification subject to change wi thout notice. other trademarks and service marks used herein, including protected names, logos and designs, are the property of idt or their respective third party owners. copyright ?2014 integrated device technology, inc.. all rights reserved. corporate headquarters 6024 silver creek valley road san jose, ca 95138 usa sales 1-800-345-7015 or 408-284-8200 fax: 408-284-2775 www.idt.com tech support email: clocks@idt.com |
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