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1 of 31 september 4, 2007 ? 2007 integrated device technology, inc. *notice: the information in this document is subject to change without notice dsc 6930 advance information ? idt and the idt logo are registered trademarks of integrated device technology, inc. device overview the 89hpes12t3g2 is a member of idt?s precise? family of pci express? switching solutions. the pes12t3g2 is a 12-lane, 3-port gen2 peripheral chip that performs pci express base switching with a feature set optimized for high performance applications such as servers, storage, and communications/network ing. it provides connectivity and switching functions between a pci express upstream port and two downstream ports and supports switching between downstream ports. features high performance pci express switch ? twelve 5 gbps gen2 pci express lanes ? three switch ports ? one x4 upstream port ? two x4 downstream ports ? low latency cut-through switch architecture ? support for max payload size up to 2048 bytes ? one virtual channel ? eight traffic classes ? pci express base specification revision 2.0 compliant flexible architecture with numerous configuration options ? automatic per port link width negotiation to x4, x2 or x1 ? automatic lane reversal on all ports ? automatic polarity inversion ? ability to load device configuration from serial eeprom legacy support ? pci compatible intx emulation ? bus locking highly integrated solution ? incorporates on-chip internal memory for packet buffering and queueing ? integrates twelve 5 gbps embedded serdes with 8b/10b encoder/decoder (no separate transceivers needed) ? receive equalization (rxeq) reliability, availability, an d serviceability (ras) features ? internal end-to-end parity protection on all tlps ensures data integrity even in systems that do not implement end-to-end crc (ecrc) ? supports ecrc and advanced error reporting ? supports pci express native hot-plug, hot-swap capable i/o ? compatible with hot-plug i/o expanders used on pc mother- boards ? supports hot-swap power management ? utilizes advanced low-power design techniques to achieve low typical power consumption ? support pci express power management interface specifica- tion (pci-pm 2.0) block diagram figure 1 internal block diagram 3-port switch core / 12 pci express lanes frame buffer route table port arbitration scheduler serdes phy logical layer multiplexer / demultiplexer transaction layer data link layer (port 0) (port 2) multiplexer / demultiplexer transaction layer data link layer (port 4) serdes phy logical layer serdes phy logical layer multiplexer / demultiplexer transaction layer data link layer 89hpes12t3g2 data sheet advance information* 12-lane 3-port gen2 pci express? switch
2 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet *notice: the information in this document is subject to change without notice advance information ? unused serdes are disabled. ? supports advanced configuration and power interface spec- ification, revision 2.0 (acpi) supporting active link state testability and debug features ? built in pseudo-random bit stream (prbs) generator ? numerous serdes test modes ? ability to read and write any internal register via the smbus ? ability to bypass link training and force any link into any mode ? provides statistics and performance counters nine general purpose input/output pins ? each pin may be individually configured as an input or output ? each pin may be individually configured as an interrupt input ? some pins have selectable alternate functions packaged in a 19mm x 19mm, 324-ball bga with 1mm ball spacing product description utilizing standard pci express interconnect, the pes12t3g2 provides the most efficient fan-out solution for applications requiring high throughput, low latency, and simple board layout with a minimum number of board layers. it provides 12 gbps (96 gbps) of aggregated, full-duplex switching capacity through 12 integrated serial lanes, using proven and robust idt technology. each lane provides 5 gbps of band- width in both directions and is fully compliant with pci express base specification, revision 2.0. the pes12t3g2 is based on a flexible and efficient layered architec- ture. the pci express layer consists of serdes, physical, data link and transaction layers in compliance with pci express base specification revision 2.0. the pes12t3g2 can operate either as a store and forward or cut-through switch and is designed to switch memory and i/o transactions. it supports eight traffic classes (tcs) and one virtual channel (vc) with sophisticated resource management to enable effi- cient switching and i/o connectivity for servers, storage, and embedded processors with limited connectivity. figure 2 i/o expansion application memory memory memory processor memory north bridge pes12t3g2 i/o 10gbe i/o 10gbe i/o sata pci express slot processor x4 x4 x4 x4 smbus interface the pes12t3g2 contains two smbus interfaces. the slave inter- face provides full access to the configuration registers in the pes12t3g2, allowing every configuration register in the device to be read or written by an external agent. the master interface allows the default configuration register val ues of the pes12t3g2 to be over- ridden following a reset with values programmed in an external serial eeprom. the master interface is also used by an external hot-plug i/o expander. six pins make up each of the two smbus interfaces. these pins consist of an smbus clock pin, an smbus data pin, and 4 smbus address pins. in the slave interface, these address pins allow the smbus address to which the device responds to be configured. in the master interface, these address pins allow the smbus address of the serial configuration eeprom from which data is loaded to be config- ured. the smbus address is set up on negation of perstn by sampling the corresponding address pins. when the pins are sampled, the resulting address is assigned as shown in table 1. as shown in figure 2, the master and slave smbuses may be used in a unified or split configuration. in the unified configuration, shown in figure 2(a), the master and slave smbuses are tied together and the pes12t3g2 acts both as a smbus master as well as a smbus slave on this bus. this requires that the smbus master or processor that has access to pes12t3g2 registers supports smbus arbitration. in some systems, this smbus master interface may be implemented using general purpose i/o pins on a processor or micro controller, and may not support smbus arbitration. to support these systems, the pes12t3g2 may be configured to operate in a split configuration as shown in figure 2(b). in the split configuration, the master and slave smbuses operate as two independent buses and thus multi-master arbitration is never required. the pes12t3g2 supports reading and writing of the serial eeprom on the master smbus via the slave smbus, allowing in system programming of the serial eeprom. bit slave smbus address master smbus address 1 ssmbaddr[1] msmbaddr[1] 2 ssmbaddr[2] msmbaddr[2] 3 ssmbaddr[3] msmbaddr[3] 4 0 msmbaddr[4] 5 ssmbaddr[5] 1 61 0 71 1 table 1 master and slave smbus address assignment
3 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information figure 2 smbus interface configuration examples hot-plug interface the pes12t3g2 supports pci express hot-plug on each downstream por t. to reduce the number of pins required on the device, the p es12t3g2 utilizes an external i/o expander, such as that used on pc mother boards, connected to the smbus master interface. following res et and configura- tion, whenever the state of a hot-plug output needs to be modifi ed, the pes12t3g2 generates an smbus transaction to the i/o exp ander with the new value of all of the outputs. whenever a hot-plug input changes, the i/o expander generates an interrupt which is received o n the ioexpintn input pin (alternate function of gpio) of the pes12t3g2. in response to an i/o expander interrupt, the pes12t3g2 generates an s mbus transaction to read the state of all of the hot-plug inputs from the i/o expander. general purpose input/output the pes12t3g2 provides 9 general purpose input/output (gpio) pi ns that may be used by the system designer as bit i/o ports. eac h gpio pin may be configured independently as an input or output through softwar e control. some gpio pins are shared with other on-chip fu nctions. these alternate functions may be enabled via software, smbus sl ave interface, or serial configuration eeprom. processor pes12t3g2 ssmbclk ssmbdat msmbclk msmbdat smbus master other smbus devices serial eeprom processor pes12t3g2 ssmbclk ssmbdat msmbclk msmbdat smbus master other smbus devices serial eeprom ... ... (a) unified configuration and management bus (b) split configuration and management buses
4 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pin description the following tables list the functions of the pins provided on the pes12t3g2. some of the functions listed may be multiplexed onto the same pin. the active polarity of a signal is defined using a suffix. signals ending with an ?n? are defined as being active, or asserted, when at a logic zero (low) level. all other signals (including clocks, buses, and select li nes) will be interpreted as being active, or asserted, when at a logic one (high) level. note: in the pes12t3g2, the two downstream ports are labeled port 2 and port 4. signal type name/description pe0rp[3:0] pe0rn[3:0] i pci express port 0 serial data receive. differential pci express receive pairs for port 0. port 0 is the upstream port. pe0tp[3:0] pe0tn[3:0] o pci express port 0 serial data transmit. differential pci express trans- mit pairs for port 0. port 0 is the upstream port. pe2rp[3:0] pe2rn[3:0] i pci express port 2 serial data receive. differential pci express receive pairs for port 2. pe2tp[3:0] pe2tn[3:0] o pci express port 2 serial data transmit. differential pci express trans- mit pairs for port 2. pe4rp[3:0] pe4rn[3:0] i pci express port 4 serial data receive. differential pci express receive pairs for port 4. pe4tp[3:0] pe4tn[3:0] o pci express port 4 serial data transmit. differential pci express trans- mit pairs for port 4. perefclkp[0] perefclkn[0] i pci express reference clock. differential reference clock pair input. this clock is used as the reference clock by on-chip plls to generate the clocks required for the system logic and on-chip serdes. the frequency of the dif- ferential reference clock is determined by the refclkm signal. refclkm i pci express reference clock mode select. this signal selects the fre- quency of the reference clock input. 0x0 - 100 mhz 0x1 - 125 mhz this pin should be static and not change following the negation of perstn. table 2 pci express interface pins signal type name/description msmbaddr[4:1] i master smbus address. these pins determine the smbus address of the serial eeprom from which configuration information is loaded. msmbclk i/o master smbus clock. this bidirectional signal is used to synchronize transfers on the master smbus. msmbdat i/o master smbus data. this bidirectional signal is used for data on the mas- ter smbus. ssmbaddr[5,3:1] i slave smbus address. these pins determine the smbus address to which the slave smbus interface responds. ssmbclk i/o slave smbus clock. this bidirectional signal is used to synchronize trans- fers on the slave smbus. ssmbdat i/o slave smbus data. this bidirectional signal is used for data on the slave smbus. table 3 smbus interface pins
5 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information signal type name/description gpio[0] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. alternate function pin name: p2rstn alternate function pin type: output alternate function: reset output for downstream port 2. gpio[1] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. alternate function pin name: p4rstn alternate function pin type: output alternate function: reset output for downstream port 4. gpio[2] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. alternate function pin name: ioexpintn0 alternate function pin type: input alternate function: i/o expander interrupt 0 input. gpio[3] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. gpio[4] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. alternate function pin name: ioexpintn2 alternate function pin type: input alternate function: i/o expander interrupt 2 input gpio[5] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. gpio[6] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. gpio[7] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. alternate function pin name: gpen alternate function pin type: output alternate function: general purpose event (gpe) output gpio[11] i/o general purpose i/o. this pin can be configured as a general purpose i/o pin. table 4 general purpose i/o pins
6 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information signal type name/description cclkds i common clock downstream. the assertion of this pin indicates that all downstream ports are using the same clock source as that provided to downstream devices.this bit is used as the initial value of the slot clock configuration bit in all of the link status registers for downstream ports. the value may be overridden by modifying the sclk bit in each down- stream port?s pcielsts register. cclkus i common clock upstream. the assertion of this pin indicates that the upstream port is using the same clock source as the upstream device. this bit is used as the initial value of the slot clock configuration bit in the link status register for the upstream port. the value may be overridden by modifying the sclk bit in the p0_pcielsts register. msmbsmode i master smbus slow mode. the assertion of this pin indicates that the master smbus should operate at 100 khz instead of 400 khz. this value may not be overridden. perstn i fundamental reset. assertion of this signal resets all logic inside pes12t3g2 and initiates a pci express fundamental reset. rsthalt i reset halt. when this signal is asserted during a pci express fundamental reset, pes12t3g2 executes the reset procedure and remains in a reset state with the master and slave smbuses active. this allows software to read and write registers internal to the device before normal device opera- tion begins. the device exits the reset state when the rsthalt bit is cleared in the swctl register by an smbus master. swmode[2:0] i switch mode. these configuration pins determine the pes12t3g2 switch operating mode. 0x0 - normal switch mode 0x1 - normal switch mode with serial eeprom initialization 0x2 - through 0x7 reserved these pins should be static and not change following the negation of perstn. table 5 system pins signal type name/description jtag_tck i jtag clock . this is an input test clock used to clock the shifting of data into or out of the boundary scan logic or jtag controller. jtag_tck is independent of the system clock with a nominal 50% duty cycle. jtag_tdi i jtag data input . this is the serial data input to the boundary scan logic or jtag controller. table 6 test pins (part 1 of 2)
7 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information jtag_tdo o jtag data output . this is the serial data shifted out from the boundary scan logic or jtag controller. when no data is being shifted out, this signal is tri-stated. jtag_tms i jtag mode . the value on this signal controls the test mode select of the boundary scan logic or jtag controller. jtag_trst_n i jtag reset . this active low signal asynchronously resets the boundary scan logic and jtag tap controller. an external pull-up on the board is recommended to meet the jtag specification in cases where the tester can access this signal. however, for systems running in functional mode, one of the following should occur: 1) actively drive this signal low with control logic 2) statically drive this signal low with an external pull-down on the board signal type name/description refres0 i/o port 0 external reference resistor. provides a reference for the port 0 serdes bias currents and pll calibration circuitry. a 3 kohm +/- 1% resis- tor should be connected from this pin to ground. refres2 i/o port 2 external reference resistor. provides a reference for the port 2 serdes bias currents and pll calibration circuitry. a 3 kohm +/- 1% resis- tor should be connected from this pin to ground. refres4 i/o port 4 external reference resistor. provides a reference for the port 4 serdes bias currents and pll calibration circuitry. a 3 kohm +/- 1% resis- tor should be connected from this pin to ground. v dd core i core v dd. power supply for core logic. v dd i/o i i/o v dd. lvttl i/o buffer power supply. v dd pea i pci express analog power. serdes analog power supply (1.0v). v dd peha i pci express analog high power. serdes analog power supply (2.5v). v dd peta i pci express transmitter analog voltage. serdes transmitter analog power supply (1.0v). v ss i ground. table 7 power, ground, and serdes resistor pins signal type name/description table 6 test pins (part 2 of 2)
8 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pin characteristics note: some input pads of the pes12t3g2 do not contain internal pull- ups or pull-downs. unused inputs should be tied off to appropriat e levels. this is especially critical for unused control signal i nputs which, if left floating, could adversely affect operation. also, any input pin left floating can cause a slight in crease in power consumption. function pin name type buffer i/o type internal resistor 1 notes pci express inter- face pe0rn[3:0] i cml serial link pe0rp[3:0] i pe0tn[3:0] o pe0tp[3:0] o pe2rn[3:0] i pe2rp[3:0] i pe2tn[3:0] o pe2tp[3:0] o pe4rn[3:0] i pe4rp[3:0] i pe4tn[3:0] o pe4tp[3:0] o perefclkn[0] i diff. clock input refer to table 9 perefclkp[0] i refclkm i lvttl input pull-down smbus msmbaddr[4:1] i lvttl input pull-up msmbclk i/o sti 2 pull-up on board msmbdat i/o sti pull-up on board ssmbaddr[5,3:1] i input pull-up ssmbclk i/o sti pull-up on board ssmbdat i/o sti pull-up on board general purpose i/o gpio[15:0] i/o lvttl sti, high drive pull-up system pins cclkds i lvttl input pull-up cclkus i input pull-up msmbsmode i input pull-down perstn i sti rsthalt i input pull-down swmode[2:0] i input pull-down ejtag / jtag jtag_tck i lvttl sti pull-up jtag_tdi i sti pull-up jtag_tdo o jtag_tms i sti pull-up jtag_trst_n i sti pull-up table 8 pin characteristics (part 1 of 2)
9 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information serdes reference resistors refres0 i/o analog refres2 i/o refres4 i/o 1. internal resistor values under typical operating conditions are 92k for pull-up and 90k for pull-down. 2. schmitt trigger input (sti). function pin name type buffer i/o type internal resistor 1 notes table 8 pin characteristics (part 2 of 2)
10 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information logic diagram ? pes12t3g2 figure 3 pes12t3g2 logic diagram pe0tp[0] reference clocks perefclkp[0] perefclkn[0] jtag_tck gpio[11,7:0] 9 general purpose i/o v dd core v dd i/o v dd pea power/ground msmbaddr[4:1] msmbclk msmbdat 4 ssmbaddr[5,3:1] ssmbclk ssmbdat 4 master smbus interface slave smbus interface cclkus rsthalt system pins jtag_tdi jtag_tdo jtag_tms jtag_trst_n jtag pins v ss swmode[2:0] 3 cclkds perstn refclkm msmbsmode pe0rp[0] pe0rn[0] pe0rp[3] pe0rn[3] pci express switch serdes input pe0tn[0] pe0tp[3] pe0tn[3] pci express switch serdes output ... port 0 port 0 ... pe2rp[0] pe2rn[0] pe2rp[3] pe2rn[3] pci express switch serdes input pe2tp[0] pe2tn[0] pe2tp[3] pe2tn[3] pci express switch serdes output ... port 2 port 2 ... pe4rp[0] pe4rn[0] pe4rp[3] pe4rn[3] pci express switch serdes input pe4tp[0] pe4tn[0] pe4tp[3] pe4tn[3] pci express switch serdes output ... port 4 port 4 ... pes12t3g2 refres0 serdes reference resistors refres2 refres4 v dd peha reference clock frequency selection v dd peta
11 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information system clock parameters values based on systems running at recommended supply voltages and operating temperatures, as shown in tables 13 and 14. ac timing characteristics parameter description condition min typical max unit refclk freq input reference clock frequency range 100 125 1 1. the input clock frequency will be either 100 or 125 mhz depending on signal refclkm. mhz t c-rise rising edge rate differential 0.6 4 v/ns t c-fall falling edge rate differential 0.6 4 v/ns v ih differential input high voltage differential +150 mv v il differential input low voltage differential -150 mv v cross absolute single-ended crossing point voltage single-ended +250 +550 mv v cross-delta variation of v cross over all rising clock edges single-ended +140 mv v rb ring back voltage margin differential -100 +100 mv t stable time before v rb is allowed differential 500 ps t period-avg average clock period accuracy -300 2800 ppm t period-abs absolute period, including spread-spec- trum and jitter 9.847 10.203 ns t cc-jitter cycle to cycle jitter 150 ps v max absolute maximum input voltage +1.15 v v min absolute minimum input voltage -0.3 v duty cycle duty cycle 40 60 % rise/fall matching single ended rising refclk edge rate ver- sus falling refclk edge rate 20 % z c-dc clock source output dc impedance 40 60 table 9 input clock requirements parameter description gen 1 gen 2 units min 1 typ 1 max 1 min 1 typ 1 max 1 pcie transmit ui unit interval 399.88 400 400.12 199.94 200 200.06 ps t tx-eye minimum tx eye width 0.75 0.75 ui t tx-eye-median-to- max-jitter maximum time between the jitter median and maxi- mum deviation from the median 0.125 ui t tx-rise , t tx-fall tx rise/fall time: 20% - 80% 0.125 0.15 ui t tx- idle-min minimum time in idle 20 20 ui table 10 pcie ac timing characteristics (part 1 of 2)
12 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information t tx-idle-set-to- idle maximum time to transition to a valid idle after sending an idle ordered set 88 ns t tx-idle-to-diff- data maximum time to transition from valid idle to diff data 8 8 ns t tx-skew transmitter data skew between any 2 lanes 1.3 1.3 ns t min-pulsed minimum instantaneous lone pulse width na 0.9 ui t meas-hpf transmit jitter measurement filter hpf: 1.5mhz hpf: 1.0mhz mhz t tx-hf-dj-dd transmitter deterministic jitter > 1.5mhz bandwidth na 0.15 ui t rf-mismatch rise/fall time differential mismatch na 0.1 ui pcie receive ui unit interval 399.88 400 400.12 199.94 200.06 ps t rx-eye (with jitter) minimum receiver eye width (jitter tolerance) 0.4 0.4 ui t rx-eye-medium to max jitter max time between jitter median & max deviation 0.3 ui t rx-skew lane to lane input skew 20 8 ns t rx-hf-rms 1.5 ? 100 mhz rms jitter na 4.2 ps t rx-hf-dj-dd maximum tolerable dj by the receiver na 8.8 ps t rx-lf-rms 10 khz to 1.5 mhz rms jitter na 4.2 ps t rx-min-pulse minimum receiver instantaneous eye width na 0.6 ui 1. minimum, typical, and maximum values meet the requirements under pci specification 2.0 signal symbol reference edge min max unit timing diagram reference gpio gpio[15:0] 1 1. gpio signals must meet the setup and hold times if they are synchronous or the minimum pulse width if they are asynchronous. tpw 2 2. the values for this symbol were determined by calculation, not by testing. none 50 ? ns table 11 gpio ac timing characteristics parameter description gen 1 gen 2 units min 1 typ 1 max 1 min 1 typ 1 max 1 table 10 pcie ac timing characteristics (part 2 of 2)
13 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information figure 4 jtag ac timing waveform signal symbol reference edge min max unit timing diagram reference jtag jtag_tck tper_16a none 50.0 ? ns see figure 4. thigh_16a, tlow_16a 10.0 25.0 ns jtag_tms 1 , jtag_tdi 1. the jtag specification, ieee 1149.1, recommends that jtag_tms should be held at 1 while the signal applied at jtag_trst_n changes from 0 to 1. otherwise, a race may occur if jtag_trst_n is deasserted (going from low to high) on a rising edge of jtag _tck when jtag_tms is low, because the tap controller might go to either the run-test/idle state or stay in the test-logic-reset sta te. tsu_16b jtag_tck rising 2.4 ? ns thld_16b 1.0 ? ns jtag_tdo tdo_16c jtag_tck falling ? 20 ns tdz_16c 2 2. the values for this symbol were determined by calculation, not by testing. ?20ns jtag_trst_n tpw_16d 2 none 25.0 ? ns table 12 jtag ac timing characteristics tpw_16d tdz_16c tdo_16c thld_16b tsu_16b thld_16b tsu_16b tlow_16a tlow_16a tper_16a thigh_16a jtag_tck jtag_tdi jtag_tms jtag_tdo jtag_trst_n
14 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information recommended operating supply voltages power-up/power-down sequence during power supply ramp-up, v dd core must remain at least 1.0v below v dd i/o at all times. there are no other power-up sequence require- ments for the various operating supply voltages. the power-down sequence can occur in any order. recommended operating temperature symbol parameter minimum typical maximum unit v dd core internal logic supply 0.9 1.0 1.1 v v dd i/o i/o supply except for serdes lvpecl/cml 3.135 3.3 3.465 v v dd pea 1 1. v dd pea should have no more than 25mv peak-peak ac power supply noise superimposed on the 1.0v nominal dc value. pci express analog power 0.95 1.0 1.1 v v dd peha 2 2. v dd peha should have no more than 50mv peak-peak ac power supply noise superimposed on the 2.5v nominal dc value. pci express analog high power 2.25 2.5 2.75 v v dd peta pci express transmitter analog voltage 0.95 1.0 1.1 v v ss common ground 0 0 0 v table 13 pes12t3g2 operating voltages grade temperature commercial 0 c to +70 c ambient table 14 pes12t3g2 operating temperatures
15 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information power consumption typical power is measured under the following conditions: 25c ambient, 35% total link usage on all ports, typical voltages def ined in table 13 (and also listed below). maximum power is measured under the following conditions: 70c ambient, 85% total link usage on all ports, maximum voltages def ined in table 13 (and also listed below). thermal considerations this section describes thermal cons iderations for the pes12t3g2 (19mm 2 cabga324 package). the data in table 16 below contains information that is relevant to the thermal performance of the pes12t3g2 switch. note: it is important for the reliability of this device in any us er environment that the junction temperature not exceed the t j(max) value specified in table 16. consequently, the effectiv e junction to ambient thermal resistance ( ja ) for the worst case scenario must be maintained below the value determined by the formula: ja = (t j(max) - t a(max) )/p given that the values of t j(max) , t a(max) , and p are known, the value of desired ja becomes a known entity to the system designer. how to achieve the desired ja is left up to the board or system designer, but in general, it can be achieved by adding the effects of jc (value provided in table 16), thermal resistance of the chosen adhesive ( cs ), that of the heat sink ( sa ), amount of airflow, and properties of the circuit board (number of layers and size of the board). as a general guideline, this device will not need a heat sink if the bo ard has 8 or more layers and the board size is larger than 4"x12" and airflow in excess of 0.5 m/s is available. it is strongly recommended that users perform their own thermal analysis for thei r own board and system design scenarios. number of active lanes per port core supply pcie analog supply pcie analog high supply pcie termin- ation supply i/o supply total typ 1.0v max 1.1v typ 1.0v max 1.1v typ 2.5v max 2.75v typ 1.0v max 1.1v typ 3.3v max 3.465v typ power max power 4/4/4 ma 750 1000 386 516 202 270 271 362 10 10 1.95w 2.81w watts 0.75 1.1 0.38 0.56 0.5 0.74 0.27 0.39 .03 .034 4/2/2 ma tbd tbd tbd tbd tbd tbd tbd tbd tbd tbd watts tbd tbd tbd tbd tbd tbd tbd tbd tbd tbd table 15 pes12t3g2 power consumption symbol parameter value units conditions t j(max) junction temperature 125 o c maximum t a(max) ambient temperature 70 o c maximum jc thermal resistance, junction-to-case 7.6 o c/w p power dissipation of the device 2.81 watts maximum table 16 thermal specifications for pes12t3g2, 19x19 mm cabga324 package
16 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information dc electrical characteristics values based on systems running at recommended supply voltages, as shown in table 13. note: see table 8, pin characteristics, for a complete i/o listing. i/o type parameter description gen 1 gen 2 unit condi- tions min 1 typ 1 max 1 min 1 typ 1 max 1 serial link pcie transmit v tx-diffp-p differential peak-to-peak output voltage 800 1200 800 1200 mv v tx-diffp-p-low low-drive differential peak to peak output voltage 400 1200 400 1200 mv v tx-de-ratio- 3.5db de-emphasized differential out- put voltage -3 -4 -3.0 -3.5 -4.0 db v tx-de-ratio- 6.0db de-emphasized differential out- put voltage na -5.5 -6.0 -6.5 db v tx-dc-cm dc common mode voltage 0 3.6 0 3.6 v v tx-cm-acp rms ac peak common mode output voltage 20 mv v tx-cm-dc- active-idle-delta abs delta of dc common mode voltage between l0 and idle 100 100 mv v tx-cm-dc-line- delta abs delta of dc common mode voltage between d+ and d- 25 25 mv v tx-idle-diffp electrical idle diff peak output 20 20 mv v tx-rcv-detect voltage change during receiver detection 600 600 mv rl tx-diff transmitter differential return loss 10 10db: 0.05 - 1.25ghz 8db: 1.25 - 2.5ghz db rl tx-cm transmitter common mode return loss 66db z tx-diff-dc dc differential tx impedance 80 100 120 120 vtx-cm-acpp peak-peak ac common na 100 mv v tx-dc-cm transmit driver dc common mode voltage 0 3.6 0 3.6 v v tx-rcv-detect the amount of voltage change allowed during receiver detec- tion 600 600 mv i tx-short transmitter short circuit current limit 090 90ma table 17 dc electrical characteristics (part 1 of 3)
17 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information serial link (cont.) pcie receive v rx-diffp-p differential input voltage (peak- to-peak) 175 1200 120 1200 mv rl rx-diff receiver differential return loss 10 10db: 0.05 - 1.25ghz 8db: 1.25 - 2.5ghz db rl rx-cm receiver common mode return loss 66db z rx-diff-dc differential input impedance (dc) 80 100 120 refer to return loss spec z rx--dc dc common mode impedance 40 50 60 40 60 z rx-comm-dc powered down input common mode impedance (dc) 200k 350k 50k z rx-high-imp- dc-pos dc input cm input impedance for v>0 during reset or power down 50k 50k z rx-high-imp- dc-neg dc input cm input impedance for v<0 during reset or power down 1.0k 1.0k v rx-idle-det- diffp-p electrical idle detect threshold 65 175 65 175 mv v rx-cm-acp receiver ac common-mode peak voltage 150 150 mv v rx-cm-acp pcie refclk c in input capacitance 1.5 ? 1.5 ? pf other i/os low drive output i ol ?2.5? ?2.5 ? mav ol = 0.4v i oh ?-5.5? ?-5.5 ? mav oh = 1.5v high drive output i ol ? 12.0 ? ? 12.0 ? ma v ol = 0.4v i oh ? -20.0 ? ? -20.0 ? ma v oh = 1.5v schmitt trigger input (sti) v il -0.3 ? 0.8 -0.3 ? 0.8 v ? v ih 2.0 ? v dd i/o + 0.5 2.0 ? v dd i/o + 0.5 v? input v il -0.3 ? 0.8 -0.3 ? 0.8 v ? v ih 2.0 ? v dd i/o + 0.5 2.0 ? v dd i/o + 0.5 v? i/o type parameter description gen 1 gen 2 unit condi- tions min 1 typ 1 max 1 min 1 typ 1 max 1 table 17 dc electrical characteristics (part 2 of 3)
18 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information capacitance c in ? ? 8.5 ? ? 8.5 pf ? leakage inputs ? ? + 10 ? ? + 10 av dd i/o (max) i/o leak w / o pull-ups/downs ??+ 10 ? ? + 10 av dd i/o (max) i/o leak with pull-ups/downs ??+ 80 ? ? + 80 av dd i/o (max) 1. minimum, typical, and maximum values meet the requirements under pci specification 2.0. i/o type parameter description gen 1 gen 2 unit condi- tions min 1 typ 1 max 1 min 1 typ 1 max 1 table 17 dc electrical characteristics (part 3 of 3)
19 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information package pinout ? 324-bga signal pinout for pes12t3g2 the following table lists the pin numbers and signal names for the pes12t3g2 device. pin function alt pin function alt pin function alt pin function alt a1 v ss b17 swmode_1 d15 gpio_01 1 f13 v ss a2 v ss b18 swmode_2 1 d16 pe4tp00 f14 v dd core a3 pe0rn00 c1 jtag_tck d17 v dd peta f15 v dd i/o a4 pe0rp00 c2 pe0tp00 d18 gpio_03 f16 v ss a5 v ss c3 pe0tn00 e1 v ss f17 v dd pea a6 pe0rn01 c4 v ss e2 v dd pea f18 pe4rp00 a7 pe0rp01 c5 pe0tp01 e3 pe2tn03 g1 pe2rn03 a8 v ss c6 pe0tn01 e4 jtag_tms g2 v dd pea a9 perefclkp0 c7 v dd pea e5 v dd core g3 v dd peta a10 perefclkn0 c8 v dd peta e6 v dd i/o g4 v ss a11 v ss c9 v ss e7 v dd peha g5 v dd core a12 pe0rn02 c10 pe0tp02 e8 v dd peha g6 v dd i/o a13 pe0rp02 c11 pe0tn02 e9 v dd peha g7 v ss a14 v ss c12 v dd peta e10 v dd core g8 v ss a15 pe0rn03 c13 pe0tp03 e11 v dd peha g9 v dd core a16 pe0rp03 c14 pe0tn03 e12 v dd i/o g10 v ss a17 cclkds c15 v ss e13 v dd core g11 v ss a18 swmode_0 c16 cclkus e14 v dd i/o g12 v ss b1 jtag_tdi c17 perstn e15 gpio_00 1 g13 v dd i/o b2 v ss c18 gpio_02 1 e16 pe4tn00 g14 v dd peha b3 v ss d1 v ss e17 v ss g15 v ss b4 v ss d2 jtag_tdo e18 pe4rn00 g16 pe4tp01 b5 v ss d3 v dd peta f1 pe2rp03 g17 v dd peta b6 v ss d4 jtag_trst_n f2 v dd peha g18 v ss b7 v ss d5 v dd i/o f3 pe2tp03 h1 v ss b8 v ss d6 v dd peha f4 v dd core h2 v ss b9 v dd pea d7 v ss f5 v dd i/o h3 pe2tn02 b10 v dd pea d8 v dd core f6 v ss h4 v ss b11 v dd peta d9 v dd core f7 v dd core h5 v dd peha b12 v ss d10 refres0 f8 v ss h6 v ss b13 v ss d11 v dd pea f9 v ss h7 v dd core b14 v dd core d12 v dd core f10 v ss h8 v ss b15 v ss d13 v ss f11 v ss h9 v ss b16 v dd pea d14 rsthalt f12 v dd core h10 v ss table 18 pes12t3g2 324-pin signal pin-out (part 1 of 3)
20 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information h11 v dd core k13 v ss m15 v ss p17 v ss h12 v ss k14 v dd core m16 v dd peta p18 pe4rn03 h13 v ss k15 v ss m17 v dd pea r1 pe2rp00 h14 v dd peha k16 pe4tp02 m18 pe4rp02 r2 v ss h15 v dd core k17 refres4 n1 pe2rn01 r3 pe2tp00 h16 pe4tn01 k18 v ss n2 v dd pea r4 ssmbaddr_2 h17 v ss l1 v ss n3 v ss r5 v dd i/o h18 pe4rn01 l2 v dd pea n4 v ss r6 msmbsmode j1 pe2rp02 l3 pe2tn01 n5 v dd core r7 v dd core j2 v dd peta l4 v dd core n6 v ss r8 v ss j3 pe2tp02 l5 v dd peha n7 v dd i/o r9 v ss j4 refres2 l6 v ss n8 v ss r10 v ss j5 v dd core l7 v ss n9 v ss r11 v dd core j6 v ss l8 v ss n10 v ss r12 v ss j7 v ss l9 v ss n11 v ss r13 v dd i/o j8 v ss l10 v ss n12 v dd i/o r14 v ss j9 v dd core l11 v ss n13 v ss r15 v ss j10 v ss l12 v dd core n14 v dd core r16 gpio_04 1 j11 v ss l13 v ss n15 v dd core r17 v dd pea j12 v dd core l14 v dd peha n16 pe4tp03 r18 pe4rp03 j13 v ss l15 v ss n17 v dd peha t1 pe2rn00 j14 v dd peha l16 pe4tn02 n18 v ss t2 v dd peta j15 v ss l17 v dd peta p1 v ss t3 v ss j16 v dd pea l18 pe4rn02 p2 v ss t4 ssmbaddr_5 j17 v dd pea m1 pe2rp01 p3 pe2tn00 t5 v ss j18 pe4rp01 m2 v dd peta p4 ssmbaddr_1 t6 msmbdat k1 pe2rn02 m3 pe2tp01 p5 v dd core t7 msmbaddr_3 k2 v dd pea m4 v ss p6 v dd i/o t8 v dd pea k3 v ss m5 v dd peha p7 v dd core t9 nc k4 v ss m6 v dd i/o p8 v dd peha t10 nc k5 v dd peha m7 v dd core p9 v dd peha t11 v dd pea k6 v ss m8 v ss p10 v dd core t12 nc k7 v dd core m9 v dd core p11 v dd peha t13 nc k8 v ss m10 v ss p12 v dd core t14 v dd peta k9 v ss m11 v dd core p13 v dd core t15 v ss k10 v dd core m12 v ss p14 v dd i/o t16 gpio_06 k11 v ss m13 v dd i/o p15 v ss t17 gpio_05 k12 v ss m14 v dd core p16 pe4tn03 t18 v ss pin function alt pin function alt pin function alt pin function alt table 18 pes12t3g2 324-pin signal pin-out (part 2 of 3)
21 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information alternate signal functions no connection pins u1 v ss u10 v dd peta v1 v ss v10 v ss u2 v ss u11 v ss v2 v ss v11 v ss u3 ssmbclk u12 v ss v3 ssmbdat v12 v ss u4 ssmbaddr_3 u13 v ss v4 v ss v13 v ss u5 v ss u14 v ss v5 msmbaddr_4 v14 v ss u6 msmbclk u15 refclkm v6 msmbaddr_2 v15 v ss u7 msmbaddr_1 u16 gpio_07 1 v7 v ss v16 gpio_11 u8 v dd pea u17 v ss v8 v ss v17 v ss u9 v ss u18 v ss v9 v ss v18 v ss pin gpio alternate e15 gpio_00 p2rstn d15 gpio_01 p4rstn c18 gpio_02 ioexpintn0 r16 gpio_04 ioexpintn2 u16 gpio_07 gpen table 19 pes12t3g2 alternate signal functions nc pins t9 t10 t12 t13 table 20 pes12t3g2 no connection pins pin function alt pin function alt pin function alt pin function alt table 18 pes12t3g2 324-pin signal pin-out (part 3 of 3)
22 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information power pins v dd core v dd core v dd i/o v dd pea v dd peha v dd peta b14k7d5b9d6b11 d8k10e6b10e7 c8 d9 k14 e12 b16 e8 c12 d12 l4 e14 c7 e9 d3 e5 l12 f5 d11 e11 d17 e10 m7 f15 e2 f2 g3 e13 m9 g6 f17 g14 g17 f4 m11 g13 g2 h5 j2 f7 m14 m6 j16 h14 l17 f12 n5 m13 j17 j14 m2 f14 n14 n7 k2 k5 m16 g5 n15 n12 l2 l5 t2 g9 p5 p6 m17 l14 t14 h7 p7 p14 n2 m5 u10 h11 p10 r5 r17 n17 h15 p12 r13 t8 p8 j5 p13 t11 p9 j9 r7 u8 p11 j12 r11 table 21 pes12t3g2 power pins
23 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information ground pins v ss v ss v ss v ss v ss v ss a1 e1 h9 l1 n18 u13 a2 e17 h10 l6 p1 u14 a5 f6 h12 l7 p2 u17 a8 f8 h13 l8 p15 u18 a11 f9 h17 l9 p17 v1 a14 f10 j6 l10 r2 v2 b2 f11 j7 l11 r8 v4 b3 f13 j8 l13 r9 v7 b4 f16 j10 l15 r10 v8 b5 g4 j11 m4 r12 v9 b6 g7 j13 m8 r14 v10 b7 g8 j15 m10 r15 v11 b8 g10 k3 m12 t3 v12 b12 g11 k4 m15 t5 v13 b13 g12 k6 n3 t15 v14 b15 g15 k8 n4 t18 v15 c4 g18 k9 n6 u1 v17 c9 h1 k11 n8 u2 v18 c15 h2 k12 n9 u5 d1 h4 k13 n10 u9 d7 h6 k15 n11 u11 d13 h8 k18 n13 u12 table 22 pes12t3g2 ground pins
24 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information signals listed alphabetically signal name i/o type location signal category cclkds i a17 system cclkus i c16 gpio_00 i/o e15 general purpose input/output gpio_01 i/o d15 gpio_02 i/o c18 gpio_03 i/o d18 gpio_04 i/o r16 gpio_05 i/o t17 gpio_06 i/o t16 gpio_07 i/o u16 gpio_11 i/o v16 jtag_tck i c1 jtag jtag_tdi i b1 jtag_tdo o d2 jtag_tms i e4 jtag_trst_n i d4 msmbaddr_1 i u7 smbus msmbaddr_2 i v6 msmbaddr_3 i t7 msmbaddr_4 i v5 msmbclk i/o u6 msmbdat i/o t6 msmbsmode i r6 system no connection see table 20 for a list of nc pins pe0rn00 i a3 pci express pe0rn01 i a6 pe0rn02 i a12 table 23 89pes12t3g2 alphabetical signal list (part 1 of 3)
25 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pe0rn03 i a15 pci express (cont.) pe0rp00 i a4 pe0rp01 i a7 pe0rp02 i a13 pe0rp03 i a16 pe0tn00 o c3 pe0tn01 o c6 pe0tn02 o c11 pe0tn03 o c14 pe0tp00 o c2 pe0tp01 o c5 pe0tp02 o c10 pe0tp03 o c13 pe2rn00 i t1 pe2rn01 i n1 pe2rn02 i k1 pe2rn03 i g1 pe2rp00 i r1 pe2rp01 i m1 pe2rp02 i j1 pe2rp03 i f1 pe2tn00 o p3 pe2tn01 o l3 pe2tn02 o h3 pe2tn03 o e3 pe2tp00 o r3 pe2tp01 o m3 pe2tp02 o j3 pe2tp03 o f3 pe4rn00 i e18 pe4rn01 i h18 pe4rn02 i l18 pe4rn03 i p18 pe4rp00 i f18 pe4rp01 i j18 pe4rp02 i m18 signal name i/o type location signal category table 23 89pes12t3g2 alphabetical signal list (part 2 of 3)
26 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pe4rp03 i r18 pci express (cont.) pe4tn00 o e16 pe4tn01 o h16 pe4tn02 o l16 pe4tn03 o p16 pe4tp00 o d16 pe4tp01 o g16 pe4tp02 o k16 pe4tp03 o n16 perefclkn0 i a10 perefclkp0 i a9 perstn i c17 system refclkm i u15 pci express refres0 i/o d10 serdes reference resistors refres2 i/o j4 refres4 i/o k17 rsthalt i d14 system ssmbaddr_1 i p4 smbus ssmbaddr_2 i r4 ssmbaddr_3 i u4 ssmbaddr_5 i t4 ssmbclk i/o u3 smbus ssmbdat i/o v3 swmode_0 i a18 system swmode_1 i b17 swmode_2 i b18 v dd core, v dd i/o, v dd pea, v dd peha, v dd peta see table 21 for a listing of power pins. v ss see table 22 for a listing of ground pins. signal name i/o type location signal category table 23 89pes12t3g2 alphabetical signal list (part 3 of 3)
27 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pes12t3g2 pinout ? top view 1 2 3 4 5 6 7 8 9 10111213141516 a b 17 18 c d e f g h j k l m n p r t u v 1 2 3 4 5 6 7 8 9 10111213141516 17 18 a b c d e f g h j k l m n p r t u v vss (ground) v dd core (power) v dd i/o (power) v dd peta (transmitter power) v dd pea (analog power) v dd peha (high analog power) signals x no connect x x x x x x x x x x x x x x
28 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pes12t3g2 package drawing ? 324-pin bc324/bcg324
29 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information pes12t3g2 package drawing ? page two
30 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet advance information revision history may 4, 2007 : initial publication of advanced data sheet. september 4, 2007 : added values to table 16, thermal specifications.
31 of 31 september 4, 2007 idt 89hpes12t3g2 data sheet corporate headquarters 6024 silver creek valley road san jose, ca 95138 for sales: 800-345-7015 or 408-284-8200 fax: 408-284-2775 www.idt.com advance information for tech support: email: ssdhelp@idt.com phone: 408-284-8208 ? ordering information valid combinations 89HPES12T3G2ZABC 324-ball bga package, commercial temperature 89HPES12T3G2ZABCg 324-ball green bga package, commercial temperature nn a aaa nnan aaa a operating voltage device family product package temp range h blank commercial temperature (0c to +70c ambient) product family 89 serial switching product bc324 324-ball cabga bc 12t3 12-lane, 3-port 1.0v +/- 0.1v core voltage detail pci express switch pes legend a = alpha character n = numeric character bcg324 324-ball cabga, green bcg aa device revision za za revision an generation series g2 generation 2

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