PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Features Description * 6 Differential Channel, 1 to 2 demux that will support 5.0Gbps PCIexpress Gen2 signals on one path, and DP 1.1 signals on the second path * Insertion Loss for high speed channels @ 5.0 Gbps: -5.0dB * Low Bit-to-Bit Skew , 7ps max (between '+' and '-' bits) * Latched Mux Select * Matched paths for all PCIe signals * Low Crosstalk for high speed channels: -35dB@2.5 GHz * Low Off Isolation for high speed channels: -35dB@2.5 GHz * VDD Operating Range: 3.3V 10% * ESD Tolerance: 8kV HBM on Display Port Path output 4kV HBM on PCI-Express path output * Low channel-to-channel skew, 35ps max * Packaging (Pb-free & Green): - 56 TQFN (ZFE) Pericom Semiconductor's PI3PCIE2612-A one to two Mux/ Demux is targeted for next generation systems that combine PCIExpress gen-II signals with Display Port Signals. Application Routing DP and PCIExpress Gen1 or Gen2 signals with low signal attenuation. GND 49 Tx1+ 52 Tx1- Tx053 VDD Tx0+ 54 50 VDD 55 51 GND 56 Pin Diagram (top-side view) Block Diagram 43 D0+ IN_2+ 7 42 D0- IN_2- 8 41 D1+ IN_3+ 9 40 D1- IN_3- 10 39 D2+ GND 11 38 D2- OUT+ 12 37 D3+ OUT- 13 36 D3- X+ 14 35 GND X- 15 34 VDD GND 16 33 Rx0+ VDD 17 32 Rx0- SEL 18 31 Rx1+ LE# 19 30 Rx1- GND 20 29 GND Tx0+ Tx0 Tx1+ Tx1 Tx2+ Tx2Tx3+ Tx3OUT+ OUTX+ X- AUX+ AUXHPD NC Rx0+ Rx0Rx1+ Rx1- SEL LE# Logic Control Truth Table (SEL control) 28 6 GND Tx3- VDD 27 44 VDD D2+ D2D3+ D3- 5 26 Tx3+ IN_1- AUX+ 45 25 4 AUX- Tx2- IN_1+ 24 46 23 3 NC Tx2+ IN_0- HPD D0+ D0D1+ D1- 22 GND 47 VDD 48 2 21 IN_2+ IN_2IN_3+ IN_3- 1 GND IN_0+ IN_0IN_1+ IN_1- GND IN_0+ Truth Table (Latch control) Function SEL LE# Internal mux select PCI-Express Gen2 path is active (Tx) L 0 Respond to changes on SEL Digital Video Port is active (Dx) H 1 Latched 08-0145 1 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Application Example PI3PCIE2612-A DP/PCIe2.0 (1:2) Mux GMCH DP/TMDS/ PCIe genII IN x4 PEG Dx HPD HPD / PEG RX Aux / PEG RX x12 Tx x2 PEG RX AUX x2 PEG RX Rx DP Path will support 2.7 Gbps Rx Tx PCIe Path will support 5 Gbps x14 Rx x16 PEG Connector Pin Description Pin Number Pin Name 26 AUX+ Type O 25 AUX- O 43, 42 D0+, D0- O 41, 40 D1+, D1- O 39, 38 D2+, D2- O 37, 36 D3+, D3- O 08-0145 Description Differential input from HDMI/DP connector. AUX+ makes a differential pair with AUX-. AUX+ is passed through to the OUT+ pin when SEL = 1. Differential input from HDMI/DP connector. AUX- makes a differential pair with AUX+. AUX- is passed through to the OUTpin when SEL = 1. Analog "pass through" output#1 corresponding to IN_0+ and IN_0-, when SEL = 1. Analog "pass through" output#1 corresponding to IN_1+ and IN_1-, when SEL = 1. Analog "pass through" output#1 corresponding to IN_2+ and IN_2-, when SEL = 1. Analog "pass through" output#1 corresponding to IN_3+ and IN_3-, when SEL = 1. 2 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Pin Number Pin Name 1, 11, 20, 21, GND 28, 29, 35, 48, 49, 56 24 HPD Type Description Power Ground. I 2 IN_0+ I 3 IN_0- I 4 IN_1+ I 5 IN_1- I 7 IN_2+ I 8 IN_2- I 9 IN_3+ I 10 IN_3- I 19 LE# I 23 NC 12 OUT+ 13 OUT- 33 Rx0+ 32 Rx0- 31 Rx1+ 08-0145 The HPD signal comes from the HDMI or DP connector. This is a low frequency, 0V to 5V (HDMI) or 3.6V (DP) input signal at the connector. The HPD input at the mux is 3.6V max, so HDMI HPD must be shifted down from 5V before it is passed to the mux. Differential input from GMCH PCIE outputs. IN_0+ makes a differential pair with IN_0-. Differential input from GMCH PCIE outputs. IN_0- makes a differential pair with IN_0+. Differential input from GMCH PCIE outputs. IN_1+ makes a differential pair with IN_1-. Differential input from GMCH PCIE outputs. IN_1- makes a differential pair with IN_1+. Differential input from GMCH PCIE outputs. IN_2+ makes a differential pair with IN_2-. Differential input from GMCH PCIE outputs. IN_2- makes a differential pair with IN_2+. Differential input from GMCH PCIE outputs. IN_3+ makes a differential pair with IN_3-. Differential input from GMCH PCIE outputs. IN_3- makes a differential pair with IN_3+. The latch gate is controlled by LE. 3.6V tolerant, low-voltage, single-ended input. Do Not Connect O Pass-through output from AUX+ input when SEL = 1. Passthrough output from Rx0+ input when SEL = 0. O Pass-through output from AUX- input when SEL = 1. Passthrough output from Rx0- input when SEL = 0. I/O Differential input from PCIE connector or device. Rx0+ makes a differential pair with Rx0-. Rx0+ is passed through to the OUT+ pin when SEL = 0. I/O Differential input from PCIE connector or device. Rx0- makes a differential pair with Rx0+. Rx0- is passed through to the OUTpin when SEL = 0. I Differential input from PCIE connector or device. Rx1+ makes a differential pair with Rx1-. Rx1+ is passed through to the X+ pin when SEL = 0. (Continued) 3 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Pin Number 30 Pin Name Rx1- 18 SEL I 54, 53 Tx0+,Tx0- O 52, 51 Tx1+, Tx1- O 47, 46 Tx2+, Tx2- O 45, 44 Tx3+, Tx3- O 6, 17, 22, 27, 34, 50, 55 14 VDD X+ I/O 15 X- I 08-0145 Type I Power Description Differential input from PCIE connector or device. Rx1- makes a differential pair with Rx1+. Rx1- is passed through to the X- pin on a path that matches the Rx1+ to X+ path. SEL controls the mux through a flow-through latch. 3.6V tollerant low-voltage single-ended output SEL = 0 for PCIE Mode SEL = 1 for DP Mode Analog "pass through" output#2 corresponding to IN_0+ and IN_0-, when SEL = 0. Analog "pass through" output#2 corresponding to IN_1+ and IN_1-, when SEL = 0. Analog "pass through" output#2 corresponding to IN_2+ and IN_2-, when SEL = 0. Analog "pass through" output#2 corresponding to IN_3+ and IN_3-, when SEL = 0. 3.3V DC Supply, 3.3V +/- 10% HPD: Low frequency, 0V to 5V/3.3V (nominal) input signal at the connector. This signal comes from the HDMI/DP connector. X+: Analog "pass through" output corresponding to Rx1+. X- is an analog "pass-through" output corresponding to the Rx1input. The path from Rx1- to X- must be matched with the path from Rx1+ to X+. X+ and X- form a differential pair when the pass-through mux mode is selected. 4 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Maximum Ratings (Above which useful life may be impaired. For user guidelines, not tested.) Storage Temperature ....................................................-65C to +150C Supply Voltage to Ground Potential ................................-0.5V to +4.6V DC Input Voltage .............................................................. -0.5V to VDD DC Output Current ....................................................................... 120mA Power Dissipation ........................................................................... 0.5W Note: Stresses greater than those listed under MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. Electrical Characteristics Recommended Operating Conditions Symbol Parameter Conditions Min Typ Max Units 3.3 3.6 V VDD 3.3V Power Supply 3.0 IDD Total current from VDD 3.3V supply Case temperature range for operation within spec. 0 2.5 mA -40 85 Celcius Max Units TCASE DC Electrical Characteristics (TA = -40C to +85C, VDD = 3.3V 10%) Parameter Description Test Conditions Min Typ(1) VIH-EN(2) Input high level 2.0 3.6 V VIL-EN(2) Input Low Level 0 0.8 V IIN_EN(2) Input Leakage Current Measured with input at VIH-EN max and VIL-EN min -10 10 uA RON On Resistance VDD = Min., VIN = 1.3V, IIN = 40mA 10 Ohm CON On Channel Capacitance VIN = 0, VDD = 3.3V 3.0 pF Note: 1. Typical values are at VDD = 3.3V, TA = 25C ambient and maximum loading. 2. For SEL and LE# inputs 08-0145 5 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Dynamic Electrical Characteristics for IN_x+/-, Rxy+/-, and Txy+/Parameter Description Test Conditions Min. Typ.(1) DDIL Differential Insertion Loss f=1.2GHz f=2.5GHz f=5.0GHz f=7.5GHz -1.5 -2.0 -5.0 -9.0 DDILOFF Differential Off Isolation f= 0 to 3.0GHz f= 5.0GHz -23.0 -20.0 DDRL Differential Return Loss f= 0 to 2.8GHz f= 2.8 to 5.0GHz f= 5.0 to 7.5GHz -14.0 -8.0 -4.0 DDNEXT Near End Crosstalk f= 0 to 2.5GHz f= 2.5 to 5.0GHz f= 5.0 to 7.5GHz -32.0 -26.0 -20.0 Max. Units dB Dynamic Electrical Characteristics for Dx+/Parameter Description Test Conditions Min. Typ.(1) DDILDP Display Port Differential Insertion Loss f= 0 to 1.35GHz f= 1.35 to 2.7GHz -1.5 -4.5 DDRLDP Display Port Differential Return Loss f= 0 to 2.7GHz -14 Display Port Near End Crosstalk f= 0 to 2.7GHz -32.0 DDNEXTDP Max. Units dB Switching Characteristics (TA= -40 to +85C, VDD = 3.3V10%) Parameter Description Test Conditions Min. Typ. Max. Units tPZH, tPZL Line Enable Time - SEL to DX, TXY, RXY, AUX, HPD See "Test Circuit for Electrical Chatacteristics" 0.5 12.0 ns tPHZ, tPLZ Line Disable Time - SEL to DX, TXY, RXY, AUX, HPD See "Test Circuit for Electrical Chatacteristics" 0.5 12.0 ns tb-b Bit-to-bit skew within the same differential See "Test Circuit for pair Electrical Chatacteristics" 7 ps tch-ch Channel-to-channel skew See "Test Circuit for Electrical Chatacteristics" 35 ps 08-0145 6 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Differential Insertion Loss Differential Return Loss 08-0145 7 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Off Isolation Crosstalk 08-0145 8 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Tx Eye Diagram, 5.0 Gbps Dx Eye Diagram, 2.7 Gbps 08-0145 9 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Test Circuit Test Circuit Test Circuit 08-0145 10 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Test Circuit for Electrical Characteristics(1-5) Switch Positions 2 x VDD VDD 200-ohm Pulse Generator VIN D.U.T VOUT 4pF CL RT Test Switch tPLZ, tPZL 2 x VDD tPHZ, tPZH GND Prop Delay Open 200-ohm Notes: 1. CL = Load capacitance: includes jig and probe capacitance. 2. RT = Termination resistance: should be equal to ZOUT of the Pulse Generator 3. Output 1 is for an output with internal conditions such that the output is low except when disabled by the output control. output 2 is for an output with internal conditions such that the output is high except when disabled by the output control. 4. All input impulses are supplied by generators having the following characteristics: PRR MHz, ZO = 50, tR 2.5ns, tF 2.5ns. 5. The outputs are measured one at a time with one transition per measurement. Switching Waveforms VDD SEL VDD/2 VDD/2 0V Output 1 tPZL tPLZ VDD/2 VOH VOL + 0.15V tPHZ tPZH VOH - 0.15V VDD/2 VOL VOH VOL Output 2 Voltage Waveforms Enable and Disable Times 08-0145 11 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Applications Information Differential Input Characteristics for IN_x+/- and Rxx+/- signals. Symbol Parameter Min Nom Max Tbit Unit Interval 199.94 200.00 200.06 VRX-Diffp-p Differential Input Peak 0.175 1.200 to Peak Voltage TRX-EYE VCM-AC-pp Minimum Eye Width at TBD IN_D input pair. AC Peak CommonMode Input Voltage Units Ps V Tbit 100 mV ZRX-DIFF-DC DC Differential Input Impedance ZRX-DC DC Input Impedance 80 100 120 40 50 60 VRX-Bias Rx input termination voltage 0 2.0 V DDIL Differential Insertion Loss DDRL Differential Return Loss DDNEXT Near End Crosstalk -[0.6*(f)+0.5] dB up to 2.5 GHz (for example, -2 dB at f = 2.5 GHz); -[1.2*(f-2.5)+2] dB for 2.5 GHz < f 5 GHz (for example, -5 dB at f = 5 GHz); -[1.6*(f-5)+5] dB for 5 GHz < f 7.5 GHz (for example, -9 dB at f = 7.5 GHz); -14 dB up to 2.8 GHz; -8 dB up to 5 GHz; -4 dB up to 7.5 GHz. -32 dB max up to 2.5 GHz; 26 dB max up to 5.0 GHz; -20 dB max up to 7.5 GHz; -20 dB up to 3 GHz; DDIL when Differential Insertion switch is off Loss when switch is off 08-0145 Comments Defined by Gen2 spec. VRX-DIFFp-p = 2*|VRXD+ - VRX-D-|. Applies to IN_D and RX_IN signals. 12 VCM-AC-pp = |VRX-D+ + VRX-D-| / 2 - VRX-CM-DC. VRX-CM-DC = DC(avg) of |VRX-D++ VRX-D-| / 2 VCM-AC-pp includes all frequencies above 30kHz. Rx DC Differential Mode impedance. Required IN_D+ as well as IN_D- DC impedance (50 +/- 20% tolerance). Includes mux resistance. Intended to limit powerup stress on PCIE output buffers. dB dB dB dB PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout PCIe Gen2 Output Characteristics Symbol Parameter ZRX-DIFF-DC DC Differential Input Impedance ZRX-DC DC Input Impedance Min 80 Nom 100 Max 120 Units 40 50 60 2.0 V VRX-Bias Rx input termination volt- 0 age DDIL Differential Insertion Loss DDRL Differential Return Loss DDNEXT Near End Crosstalk DDIL when switch is off Differential Insertion Loss when switch is off 08-0145 -[0.6*(f)+0.5] dB up to 2.5 GHz (for example, -2 dB at f = 2.5 GHz); -[1.2*(f-2.5)+2] dB for 2.5 GHz < f 5 GHz (for example, -5 dB at f = 5 GHz); -[1.6*(f-5)+5] dB for 5 GHz < f 7.5 GHz (for example, -9 dB at f = 7.5 GHz); -14 dB up to 2.8 GHz; -8 dB up to 5 GHz; -4 dB up to 7.5 GHz. -32 dB max up to 2.5 GHz; -26 dB max up to 5.0 GHz; -20 dB max up to 7.5 GHz; -20 dB up to 3 GHz; 13 Comments Rx DC Differential Mode impedance. Required IN_D+ as well as IN_D- DC impedance (50 +/- 20% tolerance). Includes mux resistance. Intended to limit power-up stress on PCIE output buffers. dB dB dB dB PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Display Port Output Characteristics Symbol Parameter Tbit Unit Interval Min 333 Nom Max Units ps VRX-Diffp-p Differential Input Peak to 0.340 Peak Voltage 1.38 V TJIT Jitter added to high-speed signals 7.4 ps DDIL Differential Insertion Loss DDRL DDNEXT Differential Return Loss Near End Crosstalk HPD Input Characteristics Symbol Parameter VIH-HPD Input high level VIL-HPD IIN_HPD HPD Input Low Level HPD input leakage current THPD HPD_IN to HPD propagation delay. TRF-HPD HPD rise/fall time. Termination Resistors Symbol Parameter RDDC DDC Termination Resistors 08-0145 -[0.75*(f)+0.5] dB up to 1.35 GHz; -[2.2*(f-1.35)+1.5] dB for 1.35 GHz < f 2.7 GHz -14 dB up to 2.7 GHz -32 dB max up to 2.7 GHz Min Nom dB dB dB Max 3.6 Units V |10| uA 200 ns 20 ns Max 2.2k Units W 0 1 Min 1.3K Nom 1.5k 14 Comments Normal Tbit at 2.7Gb/ s=370ps. 333ps=370ps10% VRX-DIFFp-p = 2*|VRX-D+ - VRX-D|. Applies to IN_D and RX_IN signals. Jitter budget for highspeed signals as they pass through the display mux. 7.4ps = 0.02 Tbit at 2.7Gb/s For example, -1.5 dB at f = 1.35 GHz For example, -4.5 dB at f = 2.7 GHz Comments Low-speed input changes state on cable plug/ unplug. V Measured with HPD at VIH-HPD max and VIL-HPD min Time from HPD_IN changing state to HPD changing state. Includes HPD rise/fall time. Time required to transition from VOH-HPD to VOL-HPD or from VOL-HPD to VOHHPD. Comments Applies to both 3.3V and 5V pull up resistors. PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Switch Signal Integrity Requirements and Test Procedures for 5.0 Gb/s Signal integrity requirements for 5.0 Gb/s applications of the switch are specified. Also included are the requirements of the test fixture for switch S-parameter measurements. Signal Integrity Requirements The procedures outlined in ANSI Electronics Industry Alliance (EIA) standards documents shall be followed: * EIA 364-101 - Attenuation Test Procedure for Electrical Connectors, Sockets, Cable Assemblies or Interconnection Systems * EIA 364-90 - Crosstalk Ratio Test Procedure for Electrical Connectors, Sockets, Cable Assemblies or Interconnection Systems * EIA 364-108- Impedance, Reflection Coefficient, Return Loss, and VSWR Measured in the Time and Frequency Domain Test Procedure for Electrical Connectors, Sockets, Cable Assemblies or Interconnection Systems Signal Integrity Requirements and Test Procedures for 5.0 Gb/s Parameter Differential Insertion Loss (DDIL) Procedure EIA 364-101 The EIA standard shall be used with the following considerations: 1. The measured differential S parameter shall be referenced to a 100 ohms differential impedance. 2. The test fixture shall meet the test fixture requirement defined in Section 1.12. 3. The test fixture effect shall be removed from the measured S parameters. Refer to Note 1. EIA 364-108 Differential The EIA standard shall be used with the following considerations: Return Loss 1. The measured differential S parameter shall be referenced to a (DDRL) 100 ohms differential impedance. 2. The test fixture shall meet the test fixture requirement in Section 1.12. 3. The test fixture effect shall be removed. Refer to Note 1. Intra-pair Skew Intra-pair skew must be achieved by design; measurement not required. Differential Near EIA 364-90 End Crosstalk The EIA standard must be used with the following considerations: (DDNEXT) 1. The crosstalk requirement is with respect to all the adjacent differential pairs Differential EIA 364-101 Insertion Loss (DDIL) when switch is turned off Requirements -[0.6*(f)+0.5] dB up to 2.5 GHz (for example, -2 dB at f = 2.5 GHz); -[1.2*(f-2.5)+2] dB for 2.5 GHz < f 5 GHz (for example, -5 dB at f = 5 GHz); -[1.6*(f-5)+5] dB for 5 GHz < f 7.5 GHz (for example, -9 dB at f = 7.5 GHz); Refer to Figure 1. -14 dB up to 2.8 GHz; -8 dB up to 5 GHz; -4 dB up to 7.5 GHz. Refer to Figure 2. 5 ps max -32 dB max up to 2.5 GHz; -26 dB max up to 5.0 GHz; -20 dB max up to 7.5 GHz; See Figure 3. -20 dB up to 3 GHz; Notes: 1. The specified S parameters requirements are for switch component only, not including the test fixture effect. While the TRL calibration method is recommended, other calibration methods are allowed. 08-0145 15 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout 0 SDD21 Zref=100 Ohms -1 Differential Insertion Loss [dB] -2 -3 -4 -5 -6 -7 -8 -9 -10 0 1 2 3 4 5 6 7 8 9 10 Frequency, GHz Figure 1: Illustration of differential insertion loss requirement. 0 SDD11 Zref=100 Ohms Differential Return Loss [dB] -5 -10 -15 -20 -25 -30 0 1 2 3 4 5 6 7 8 9 10 Frequency, GHz Figure 2: Illustration of differential return loss requirement. 08-0145 16 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout -10 SDD21 Zref=85 Ohms Differential Near End Crosstalk, dB -15 -20 -25 -30 -35 -40 -45 0 1 2 3 4 5 Frequency, GHz 6 7 8 Figure 3: Illustration of different ial near end crosstalk requirement. Switch Test Fixture Requirements The test fixture for switch S-parameter measurement shall be designed and built to specific requirements, as described below, to ensure good measurement quality and consistency: * The test fixture shall be a FR4-based PCB of the microstrip structure; the dielectric thickness or stackup shall be about 4 mils. * The total thickness of the test fixture PCB shall be 1.57 mm (0.62"). * The measurement signals shall be launched into the switch from the top of the test fixture, capturing the through-hole stub effect. * Traces between the DUT and measurement ports (SMA or microprobe) should be uncoupled from each other, as much as possible. Therefore, the traces should be routed in such a way that traces will diverge from each other exiting from the switch pin field. * The trace lengths between the DUT and measurement port shall be minimized. The maximum trace length shall not exceed 1000 mils. The trace lengths between the DUT and measurement port shall be equal. * All of the traces on the test board and add-in card must be held to a characteristic impedance of 50 Ohms with a tolerance of +/- 7%. * SMA connector is recommended for ease of use. The SMA launch structure shall be designed to minimize the connection discontinuity from SMA to the trace. The impedance range of the SMA seen from a TDR with a 60 ps rise time should be within 50+/-7 ohms. 08-0145 17 PS8925D 07/31/08 PI3PCIE2612-A High Bandwidth, 6-Differential Channel 1:2 DP/PCIe Gen2 Display Mux, ATX Pinout Packaging Mechanical: 56-Contact TQFN (ZFE) DATE: 05/15/08 DESCRIPTION: 56-contact, Thin Fine Pitch Quad Flat No-lead (TQFN) PACKAGE CODE: ZF56 DOCUMENT CONTROL #: PD-2024 REVISION: C Ordering Information Ordering Code PI3PCIE2612-AZFE Package Code Package Description ZF Pb-free & Green, 56-contact TQFN Notes: * Thermal characteristics can be found on the company web site at www.pericom.com/packaging/ * "E" denotes Pb-free and Green * Adding an "X" at the end of the ordering code denotes tape and reel packaging Pericom Semiconductor Corporation * 1-800-435-2336 * www.pericom.com 08-0145 18 PS8925D 07/31/08