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Additional Master Pinout Viewer/XDC-Generator is available on Trenz Electronic Download - Pinout
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How to Use
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This Guide
- This guide The Integration Guide is split into two tables:
- Module Power Connection Table show shows the Power Supply power source of the different FPGA -Bank banks and Components components of the different Module Boards, which are connected to the B2B Connector.
Carrier Board Power Connection Table show shows the Power Supply power source of the B2B Connector with Connector Pins and Schematic Names and Option connectors with pins, schematic names and available options of the different Carrier Boards.
- The PCBs have fixed and variable user supplied I/O voltagesvoltage pins. Variable power supply pins are colored in four groups (VCCIOA, VCCIOB, VCCIOC , and VCCIOD).
- Find your Module module model on the Module Power Connection Table and check the power supply of the different FPGA -Banksbanks.
- If the Power power supply is variable, go to the Carrier Board Power Connection Table and see how it's connected on your carrier board. Often the power supply source can be switch via selected by jumper, resistor or variable used from other connector pin of the carrier board. So use the schematic name or the component designator from this the table to search for the option on available options in the PCB schematics or TRM.
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| Group | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | |||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Module | Bank | IOs | TYPType | IO-Voltage | Bank | IOs | TYPType | IO-Voltage | Bank | IOs | TYPType | IO-Voltage | Bank | IOs | TYPType | IO-Voltage | Bank | IOs | TYPType | IO-Voltage | Bank | IOs | TYPType | IO-Voltage | Bank | IOs | TYPType | IO-Voltage | |
| TE0710 | B15 | 48 | HR | VCCIOA | - | - | - | - | - | - | - | - | B34 | 50 | HR | VCCIOD | B16 | 6 | HR | 3.3V | B14 | 8 | HR | 3.3V | 2x 100Mbit ETH | ||||
| TE0711 | B15 | 48 | HR | VCCIOA | B34 | 36 | HR | VCCIOB | B14 | 18 | HR | 3.3V | B35 | 50 | HR | VCCIOD | B16 | 6 | HR | 1.8V | B14 | 8 | HR | 3.3V | B34 | 8 | HR | VCCIOB | |
| TE0712 | B16 | 48 | HR | VCCIOA | B13 | 20 | HR | VCCIOB | B14 | 18 | HR | 3.3V | B15 | 50 | HR | VCCIOD | B13 | 6 | HR | VCCIOB | B14 | 8 | HR | 3.3V | 1x 100Mbit ETH / B13 | 4 | HR | VCCIOB | |
| TE0715-xx-15 | B13 | 48 | HR | VCCIOA | B34 | 16 | HR | VCCIOC | B34 | 18 | HR | VCCIOC | B35 | 40 | HR | VCCIOD | B501 | 6 | MIO | 1.8V | B500 | 8 | MIO | 3.3V | 1x Gbit ETH | SGMII | |||
| TE0715-xx-30 | B13 | 48 | HR | VCCIOA | B34 | 16 | HP | VCCIOC | B34 | 18 | HP | VCCIOC | B35 | 40 | HP | VCCIOD | B501 | 6 | MIO | 1.8V | B500 | 8 | MIO | 3.3V | 1x Gbit ETH | SGMII | |||
| TE0720 | B35 | 48 | HR | VCCIOA | B34 | 36 | HR | VCCIOB | B33 | 18 | HR | VCCIOC | B13 | 50 | HR | VCCIOD | B501 | 6 | MIO | 1.8V | B500 | 8 | MIO | 3.3V | 1x Gbit ETH | SGMII | |||
| TE0820* | B25 /B26 | 48 | HD | VCCIOA | B64 | 50 | HR | VCCIOD | 6 | MIO | 1.8V | 8 | MIO | 3.3V | 1x Gbit ETH | ||||||||||||||
| TE0741 | B13 | 48 | HR | VCCIOA | B16 | 16 | HR | VCCIOB | B15 | 18 | HR | VCCIOC | B12 | 50 | HR | VCCIOD | GTX | 1 Lane | B14 | 8 | HR | 3.3V | GTX | 2 Lanes | GTX | ||||
| TE0742* | |||||||||||||||||||||||||||||
| TE0841 | B64 | 48 | HR | VCCIOA | B66 | 18 | HP | VCCIOB | B68 | 18 | HP | VCCIOC | B67 | 50 | HP | VCCIOD | GTH | 1 Lane | B65 | 8 | HR | 3.3V | GTH | 2 Lanes | GTH | ||||
| TE0842* | |||||||||||||||||||||||||||||
I/O resource comparison for all 4x5 modules. There are maximum 4 user supplied I/O voltages (VCCIOA, VCCIOB, VCCIOC , and VCCIOD).
Attention: Maximum power supply voltage for HP-Banks banks is 1.8V.
Carrier Board Power Connection Table
| IO Voltage | B2B Connector | Carrier Boards | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Name | Direction | JB1 | JB2 | TE0701 | TE0703 Rev1-Rev4 | TE0703 Rev5 | TE0705 | TE0706 | |||||
| Pin | Pin | Schematic Name | Value,Option,Comp. | Schematic Name | Value,Option,Comp. | Schematic Name | Value,Option,Comp. | Schematic Name | Value,Option,Comp. | Schematic Name | Value,Option,Comp. | ||
| PWR_1 | out | 2,4,6 | 1,3,5,7 | 5V0 | 5V | 3.3V | 3.3V | 3.3V | 3.3V | 5V0 | 5V | 3.3V | 3.3V |
| VCCIOA | out | 10,12 | VIOTB | FMC_VADJ/2V5/3.3VOUT | VCCIO35 | R23→M3.3VOUT / J1B-B1 | VCCIOA | J5→M3.3VOUT,M1.8VOUT / R23→M3.3VOUT / J1-B1 | VIOTB | FMC_VADJ/2V5/3.3VOUT | VCCIO35 | R20->M3.3VOUT/J6B-B32 | |
| VCCIOD | out | 8,10 | VIOTB | FMC_VADJ/2V5/3.3VOUT | VCCIO13 | R26→M3.3VOUT / J2B-B1 | VCCIOD | J10→M3.3VOUT,M1.8VOUT / R26→M3.3VOUT / J2B-B1 | VIOTB | FMC_VADJ/2V5/3.3VOUT | VCCIO13 | R22->M3.3VOUT/J6B-B1 | |
| PWR_2 | out | 14,16 | 3V3IN | 3.3V | 3.3V | 3.3V | 3.3V | 3.3V | 3V3IN | 3.3V | 3.3V | 3.3V | |
| VCCIOB | out | 2,4 | no name | FMC_VADJ/2V5/3.3VOUT | VCCIO34 | J5→M3.3VOUT / J1B-B32 | VCCIOB | J8→M3.3VOUT,M1.8VOUT / J2B-B32 | VIOTB | FMC_VADJ/2V5/3.3VOUT | 1.8V | 1.8V | |
| VCCIOC | out | 6 | no name | FMC_VADJ/2V5/3.3VOUT | VCCIO33 | R25→M3.3VOUT / J2B-B32 | VCCIOC | J9→M3.3VOUT,M1.8VOUT / R25→M3.3VOUT / J2B-B32 | VIOTB | FMC_VADJ/2V5/3.3VOUT | VCCIO33 | R21->M3.3VOUT | |
| PWR_M1 | in | 9,11 | 3.3VOUT | 3.3V | 3.3VOUT | 3.3V | M3.3VOUT | 3.3V | 3.3VOUT | 3.3V | M3.3VOUT | 3.3V | |
| PWR_M2 | in | 40 | VIOB | 1.8V | M1.8VOUT | 1.8V | M1.8VOUT | 1.8V | VIOB | 1.8V | M1.8VOUT | 1.8V | |
| PWR_VBAT | out | 80 | VBAT | B1 | VBAT | J7 | VBAT | J7 | NC | VBAT | J9 | ||
| PWR_JTAG | in | 92 | VCCJTAG | VCCJTAG | VCCJTAG | VCCJTAG | VCCJTAG | ||||||
Power comparison for of all 4x5 carrier boards. Power direction based on carrier boards view.There are 4 variable user supplied I/O voltages (VCCIOA, VCCIOB, VCCIOC , and VCCIOD). PWR_1 , and PWR_2 are fixed from carrier boards. PWR_M1 , and PWR_M2 used normally use default value from module.
Attention: On some Carrier-Boards user supplied I/O voltages are connected together (Red red colored schematic names).
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