Table of Contents
Overview
The Trenz Electronic TE0703 Carrier Board is a base-board for 4x5 SoM's, which exposes the MIO- and the PS/PL-pins of the SoM to accessible connectors and provides a whole range of on-board-components to test and evaluate Trenz Electronic 4x5 SoM's.
See page "4 x 5 cm carriers" to get information about the SoM's supported by the TE0703 Carrier Board.
Block Diagram
Main Components
- Samtec Razor Beam™ high-speed hermaphroditic 50 positions terminal strip, board to board connector, JB1
- Samtec Razor Beam™ high-speed hermaphroditic 50 positions terminal strip, board to board connector, JB2
- Samtec Razor Beam™ high-speed hermaphroditic 30 positions terminal strip, board to board connector, JB3
- Micro SD card socket with detect switch, J3
- LED indicators D1 and D2
- Mini-USB B connector, J4
- LED indicators D3 and D4
- Configuration DIP switches, S2 (see table under "DIP switches" section)
- User push button (Reset), S1
- External connector (VG96) placeholder, J1
- External connector (VG96) placeholder, J2
- VCCIO voltage selection jumper block, J5, J8, J9 and J10 (see "Power and Power-On Sequence" section)
- Trxcom 1000Base-T Gigabit RJ45 Magjack, J14
- USB type A receptacle, J6 (optional micro USB 2.0 type B receptacle available, J12)
- 5V power connector jack, J13
Key Features
- 2 x VG96 backplane connectors (mounting holes and solder pads)
- SDIO port expander with voltage-level translation
- Micro SD card socket, can be used to boot system
- 4 x user LED's, 2 x red and 2 x green
- Mini USB connector (USB JTAG and UART interface)
- 1 x user-push button routed to CPLD. By default it is configured as system reset button.
- RJ45 Gigabit Ethernet socket with 4 integrated LED's.
- USB Host Connector
- Barrel jack for 5 V Power Supply input
- 4 A High-Efficiency Power SoC DC-DC Step-Down Converter(Enpirion EN6347) for 3.3 V Power Supply
- Trenz 4x5 Module Socket (3 x Samtec LSHM series connectors)
- USB JTAG and UART Interface (FTDI FT2232H), compatible with Xilinx Tools (also with many other tools)
- 2 x User configurable DIP switches
Initial Delivery State
Board is shipped in following configuration:
- VCCIO voltage selection jumpers are all set to 1.8 V.
- S1 switch configured as reset button in CPLD.
- Two VG96 backplane connectors are not soldered to the board, but they are included in the package as separate components.
- S2 DIP switches are configured as follows:
Switch | Position | Description |
---|---|---|
S2-1 | ON | Mode control MC1. |
S2-2 | ON | Mode control MC0. |
S2-3 | ON | JTAG enabled for B2B JB1 connector. |
S2-4 | OFF | Boot mode set to QSPI. |
Different delivery configurations are available upon request.
Signals, Interfaces and Pins
Board to Board (B2B) I/O's
For detailed information about the B2B pin out, please refer to the Master Pin-out Table.
Micro SD Card Socket
Micro SD Card socket is not directly wired to the B2B connector pins, but through a Texas Instruments TXS02612 SDIO port expander, which is needed for voltage translation due to the different voltage levels of the Micro SD Card and MIO bank 501 of the Xilinx Zynq 7000 chip. The Micro SD Card has 3.3 V signalling, but the MIO Bank 501 on the Xilinx Zynq 7000 chip is set to 1.8 V.
Dual channel USB UART/FIFO
TE0703 has on-board USB 2.0 High Speed UART/FIFO FT2232HQ from FTDI. Channel A can only be used in simple UART mode, Channel B can be used as UART, FIFO, JTAG (MPSSE) or High Speed Serial modes. An standard 256 Byte EEPROM to store custom Configuration settings for FT2232H is available. EEPROM settings can be changed using FTDI provided tools that can be downloaded from FTDI website. See FTDI website for more information.
Ethernet
On-board ethernet jack J14 pins are routed to B2B connector JB1. Ethernet jack J14 LED's are all routed to CPLD Bank 1.
USB Interface
TE0703 board has two physical USB sockets:
- J4 as mini USB type B socket wired to the on-board FTDI FT2232H chip.
- J6 as USB type A wired to B2B connector JB3 (actual USB transceiver present on the SoM depends on the SoM model).
JTAG Interface
JTAG access to the CPLD and Xilinx Zynq chip on the SoM is provided via Mini-USB JTAG Interface (FTDI FT2232H) and controlled by DIP switch S2-3. JTAG pins are routed from CPLD to the JB2 connector as follows:
JTAG Signal | B2B JB2 Connector Pin |
---|---|
TCK | JB2-100 |
TDO | JB2-98 |
TDI | JB2-96 |
TMS | JB2-94 |
LED's
There are four LED's on-board:
LED | Color | Description |
---|---|---|
D1 | Red | FTDI UART receive activity |
D2 | Green | FTDI UART transmit activity |
D3 | Red | CPLD signal FL_0 |
D4 | Green | CPLD signal FL_1 |
LED's D3 and D4 are also connected to the B2B connector JB2 pins FLED1 and FLED2 respectively and can be controlled by 4x5 SoM FPGA module.
DIP switches
Switch | ON | OFF | Notes |
---|---|---|---|
S2-1 | User configurable, routed to CPLD | User configurable, routed to CPLD | |
S2-2 | User configurable, routed to CPLD | User configurable, routed to CPLD | |
S2-3 | JTAG enabled for B2B connector JB2 | JTAG enabled for CPLD | |
S2-4 | Boot from SD Card | Boot from QSPI flash on module | Used as CARD Detect - as the SD card connector has no CD pin |
Power and Power-On Sequence
Power supply with minimum current capability of 3A for system startup is recommended.
Power Supply
TE0703 needs one single power supply with nominal of 5V.
Power Consumption
Power Input Pin | Max Current |
---|---|
VIN | 4A |
Typical power consumption for TE0703-05 + TE0715-01 module with SD micro card inserted, ethernet connected, link up, system booted into Linux prompt and idling is 5V / 0.55A.
Power-On Sequence
It is not allowed to feed any voltage to any external I/O pin before there is no power indication on M3.3VOUT pins. Presence of 3.3V on B2B JB2 connector pins 9 and 11 indicates that module is properly powered up and ready.
If any of the VCCIOA, VCCIOB, VCCIOC or VCCIOD will be powered through external connectors J1 or J2, then corresponding VCCIO jumper should also be removed altogether, see next chapter.
VCCIO voltage selection jumpers J5, J8, J9 and J10
Refer to the 4x5 Module Integration Guide for VCCIO voltages options.
Jumper J5 | 1-2 | 2-3 | Voltage |
---|---|---|---|
VCCIOA | ON | OFF | 1.8 V |
VCCIOA | OFF | ON | 3.3 V |
Jumper J8 | 1-2 | 2-3 | Voltage |
---|---|---|---|
VCCIOB | ON | OFF | 1.8 V |
VCCIOB | OFF | ON | 3.3 V |
Jumper J9 | 1-2 | 2-3 | Voltage |
---|---|---|---|
VCCIOC | ON | OFF | 1.8 V |
VCCIOC | OFF | ON | 3.3 V |
Jumper J10 | 1-2 | 2-3 | Voltage |
---|---|---|---|
VCCIOD | ON | OFF | 1.8 V |
VCCIOD | OFF | ON | 3.3 V |
Technical Specifications
Absolute Maximum Ratings
Parameter | Min | Max | Units | Reference document |
---|---|---|---|---|
Supply Voltage VCC | -0.33 | 5.5 | V | |
Operating temperature | -40 | +125 | °C | MachXO2 Family Datasheet |
Storage temperature | -55 | +125 | °C |
Recommended Operating Conditions
Parameter | Min | Max | Units | Reference document |
---|---|---|---|---|
Supply Voltage VCC | 4.75 | 5.25 | V | |
Operating temperature | 0 | +70 | °C |
Physical Dimensions
Board size: PCB 100mm × 64.5mm. Notice that the mini USB-B jack on the left and ethernet RJ-45 jack on the right are hanging slightly over the edge of the PCB making the total width of the longer side approximately 106mm. Please download the assembly diagram for exact numbers.
Mating height of the module with standard connectors: 8mm
PCB thickness: 1.65mm
Highest parts on the PCB are USB type A jack and ethernet RJ-45 jack, approximately 15mm. Please download the step model for exact numbers.
All dimensions are given in millimeters.
Operating Temperature Ranges
Commercial grade: 0°C to +70°C.
Industrial grade: -40°C to +85°C.
Board operating temperature range depends also on customer design and cooling solution. Please contact us for options.
Weight
42g - Plain board
13g - VG96 connector x 2
Revision History
Hardware Revision History
Date | Revision | Notes | PCN |
---|---|---|---|
- | 01 | Prototypes | - |
- | 02 | First series boards | - |
- | 03 | Added VCCIO strapping resistors | - |
- | 04 | Corrected FTDI EEPROM connection | - |
07.09.2016 | 05 | Added VCCIO Jumpers |
Hardware revision number is printed on the PCB board next to the module model number separated by the dash.
Document Change History
Date | Rrevision | Contributors | Description |
---|---|---|---|
08.12.2016 | Document structure revised. | ||
05.12.2016 |
| John Hartfiel | Corrected Boot Mode Table |
06.09.2016 | V.01 |
| Recreation |
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