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Table of Contents
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Overview
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The Trenz Electronic TE0701 Carrier Board is a baseboard for 4 x 5 SoMs, which exposes the module's B2B connector pins to accessible connectors and provides a whole range of on-board components to test and evaluate TE 4 x 5 SoMs.
See page "4 x 5 cm carriers" to get information about the SoMs supported by the TE0701 carrier board.
Refer to http://trenz.org/te0701-info for the current online version of this manual and other available documentation.
Key Features
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- Barrel jack for 12V power supply
- Overvoltage-, undervoltage- and reversed- supply-voltage-protection
- System Controller CPLD Lattice MachXO2 1200HC
- ARM JTAG interface connector
- Mini Camera Link
- RJ45 Gigabit Ethernet MagJack
- Low pin count FPGA Mezzanine Card (FMC LPC) connector
- USB JTAG and UART interface (FTDI FT2232HQ) with Mini-USB connector
- ADV7511 HDMI transmitter with HDMI connector
- 8 x red user LEDs
- 2 x user push-button
- 2 x 4-bit DIP switch for baseboard configuration
- Pmod connectors
- Micro SD card socket
- Micro-USB interface (device, host or OTG modes)
Trenz Electronic 4 x 5 modules high-speed connector strips (3x Samtec LSHM series connectors)
Block Diagram
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Main Components
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- HDMI connector (1.4 HEAC support), J4
- Micro-USB2 connector, J12
Pmod connector, J5
- Pmod connector, J6
- User push-button ("RESTART" button by default), S2
- User push-button ("RESET" button by default), S1
- 8x red user LEDs, D1 ... D8
- Mini-USB2 connector, J7
- User 4-bit DIP switch, S3
- VITA 57.1 compliant LPC FMC connector, J10
- Barrel jack for 12V power supply, J13
- ARM JTAG connector (DS-5 D-Stream), J15, functionality depends on module
- User 4-bit DIP switch, S4
- Pmod connector, J1
- RJ45 Gigabit Ethernet connector, J14
- SD Card connector, J8
- Pmod connector, J2
- Jumper, J18
- Mini CameraLink connector, J3
- CR1220 Backup-Battery holder, B1
- Trenz Electronic 4 x 5 modules B2B connectors, JB1 ... JB3
- Jumper J16, J17, J21
- Jumper J9, J19, J20
- Analog Devices ADV7511 HDMI Transmitter, U1
- Lattice Semiconductor MachXO2 1200 HC System Controller CPLD, U14
- FTDI FT2232H USB2 to JTAG/UART Bridge, U3
Initial Delivery State
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Control Signals
To get started with TE0701 board, some basic control signals are essential and are described in the following table:
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Signals, Interfaces and Pins
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FMC LPC Connector
I/O signals and interfaces connected to the FPGA SoCs I/O bank and FMC connector J10:
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ARM JTAG Connector
The TE0701 baseboard offers the ARM JTAG 20-pin connector (2.54mm pitch). It can be used in standard JTAG or Serial Wire Debug (SWD) mode.
The following table contains the ARM JTAG connector pinout:
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Mini-USB2 B Connector
Mini-USB2 interface provides access to UART and JTAG functions via FTDI FT2232 chip. The signals are forwarded to the B2B connectors via SC CPLD U14. 4 additional I/O's connected to the SC CPLD are available to the user.
JTAG access to the System Controller CPLD and attached module is provided via mini-USB JTAG interface J7 (FTDI FT2232H) and controlled by DIP switch S3-3.
The JTAG port of the System Controller CPLD is enabled by setting switch S3-3 JTAGEN to the OFF position.
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Micro-USB2 Connector
The TE0701 carrier board can be configured as a USB host. Hence, it must provide from 5.25V to 4.75V to the board side of the downstream connection (micro-USB port on J12). To provide sufficient power, a TPS2051 power distribution switch is located on the carrier board in between the 5V power supply and the VBUS signal of the USB downstream port interface. If the output load exceeds the current-limit threshold, the TPS2051 limits the output current and pulls the over-current logic output (OC_n) low, which is routed to the on-board CPLD. The TPS2051 is put into operation by setting J19 CLOSED. J20 provides an extra 200µF decoupling capacitor (in addition to 10µF) to further stabilize the output signal. Moreover, a series terminating resistor of either 10K (J9: 1-2, 3) or 1K (J9: 1, 2-3) is selectable on the "USB-VBUS" signal. Both signals, USB-VBUS and VBUS_V_EN (that enables the TPS2051 on "high") are routed (as well as the corresponding D+/- data lines) via the on-board connector directly to the USB 2.0 high-speed transceiver PHY of the mounted SoM. In summary, the default jumper settings are the following: J9: 1-2, 3 (10K series terminating resistor); J19: CLOSED (TPS2051 in operation); J20: CLOSED (200 µF added).
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MMC/SD-Card Socket
MMC/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 different voltage levels of the Micro SD Card and MIO-bank of the Xilinx Zynq module. The Micro SD Card has 3.3V signal voltage level, but the MIO-bank on the Xilinx Zynq module has VCCIO of 1.8V.
With SD_SEL signal connected to the Texas Instruments TXS02612 SDIO Port Expander user can choose which port is accessible. Port B0 of SDIO Port Expander is connected to the Micro SD Card connector and B1 is connected to the Pmod J2 connector. SEL_SD signal can be controlled by the System Controller CPLD firmware.
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RJ45 - Ethernet
The TE0701 Carrier Board has a RJ45 Gigabit Ethernet MagJack (J14) with two LEDs. On-board Ethernet MagJack J14 pins are routed to B2B connector JB1 via MDI. The center tap of the magnetics is not connected to module's B2B connector. PHY LEDs are not connected directly to the module's B2B connectors as the 4 x 5 module have no dedicated PHY LED pins assigned. PHY LEDs are connected to the TE0701 System Controller CPLD and can be routed to some of the module's I/O pins with firmware.
See documentation of the TE0701 System Controller CPLD to get information of the function of the PHY LEDs.
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Mini CameraLink Connector
The TE0701 board provides the high speed CameraLink interface for visual input. The CameraLink is connected with 11 LVDS-pairs to the B2B connectors JB2 and JB3 which create data receive and control lanes.
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HDMI Connector
The TE0701 board provides a HDMI interface routed to the B2B connectors of the the Zynq module. The HDMI interface is created by the HDMI transmitter ADV7511 provided by Analog Devices. The HDMI transmitter is incorporated in conjunction with the HDMI protection circuit TI TPD12S016 for more signal robustness.
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Pmod Connectors
The TE0701 board offers 4 Pmod (2x6 pins, SMT, right angle) connectors which provides as a standard modular interface I/O pins and MGT lanes for use with extension modules.
The connectors support single ended and differential signaling as the I/O's are routed from the B2B connectors of the attached module as LVDS-pairs to the Pmod connectors.
Following table gives an overview of the Pmod connectors and the signals routed to the attached module and to the System Controller CPLD U14:
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J5 and J6 are incompatible with dual PMODs, because they have different PMOD connector offset and variable (different) VCCIO voltage. |
On-board Peripherals
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System Controller CPLD
The System Controller CPLD (U14) is provided by Lattice Semiconductor LCMXO2-1200HC (MachXO2 Product Family). The SC-CPLD is the central system management unit where essential control signals are logically linked by the implemented logic in CPLD firmware, which generates output signals to control the system, the on-board peripherals and the interfaces. Interfaces like JTAG / UART and I2C between the on-board peripherals and the attached module are by-passed, forwarded and controlled by the System Controller CPLD.
Other tasks of the System Controller CPLD are the monitoring of the power-on sequence and the programming state of the attached module.
For detailed information, refer to the firmware documentation of the SC CPLD. Table below lists the SC CPLD I/O signals and pins:
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FTDI FT2232H
The TE0701 board is equipped with the FTDI FT2232H USB2 to JTAG/UART adapter controller connected to the Mini-USB2 B connector J7 to provide JTAG and UART access to the attached module or to the SC CPLD U14 (switchable over DIP switch S3-3) .
There is also a 256-byte configuration EEPROM U9 (93AA56BT) wired to the FT2232H chip via Microwire bus which holds pre-programmed license code to support Xilinx programming tools. Refer to the FTDI datasheet to get information about the capacity of the FT2232H chip.
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Do not access the FT2232H EEPROM using FTDI programming tools, doing so will erase normally invisible user EEPROM content and invalidate stored Xilinx JTAG license. Without this license the on-board JTAG will not be accessible any more with any Xilinx tools. Software tools from FTDI website do not warn or ask for confirmation before erasing user EEPROM content. |
Channel A of the FTDI chip is configured as JTAG interface (MPSSE) connected to the SC CPLD U14, the JTAG signals are forwarded to the JTAG interface of the attached module if DIP switch S3-3 is in ON-position.
Channel B can be used as UART interface routed to the SC CPLD U14 and is available for other user-specific purposes.
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SDIO Port Expander
The TE0701 carrier board is equipped with the Texas Instruments TXS02612 SDIO Port Expander, which connected the SDIO port of the attached module either to the SD/MMC Card socket J8 or Pmod J1.
The SD IO port expander fullfills also a voltage translation between the ports A with bank voltage VCCO 'VIOB' and the ports B0 and B1 with VCCIO '3.3VOUT'.
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HDMI Transmitter and Protection Circuit
The TE0701 board is equipped with the HDMI transmitter chip ADV7511KSTZ U1 provided by Analog Devices. The HDMI transmitter chip is incorporated in conjunction with the HDMI protection circuit TPD12S016 by Texas Instruments.
Attached Zynq modules can output a HDMI video signal to the on-board HDMI connector J4 with CEC, S/PDIF, HPD and 2-wire serial bus functionalities.
Following pins and signals are assigned between the HDMI transmitter chip U1, the B2B connectors and the SC CPLD U14:
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Configuration DIP-switches
There are two 4-bit DIP-witches S3 and S4 present on the TE0701 board to configure options and set parameters. The following table describes the functionalities of the particular switches.
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Push Buttons
There are two push buttons available to the user connected to the SC CPLD U14:
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Note: Functionality depends also on CPLD Firmware: TE0701 CPLD
On-board LEDs
The TE0701 board is equipped with several LEDs to indicate states and activities.
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Oscillators
The TE0701 board is equipped with one oscillator which provide reference clock signal to the FTDI chip:
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Power and Power-On Sequence
Power Consumption
Power supply with minimum current capability of 3A at 12V for system startup is recommended.
Power Distribution Dependencies
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Power-On Sequence
The on-board voltages 3.3V and 5.0V of the carrier board will be powered up simultaneously when 12V power supply is connected to the barrel jack J10.
The on-board voltages 1.8V and 2.5V will be enabled when module's 3.3V voltage level has become stable and 3.3VOUT is available on the B2B connector JB2 pins 9 and 11.
The PL IO-bank supply voltage FMC_VADJ will be available after the output of the 5.0V DC-DC converter is active and the pin EN_FMC of the System Controller CPLD U14 is asserted.
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Configuring mounted SoM's PL bank VCCO FMC_VADJ
On the TE0701 carrier board different VCCIO configurations can be chosen by 7 jumpers and one dedicated 4-bit DIP-switch S4. Settings of the jumpers and the DIP-switch S4 are explained below.
The baseboard supply voltages for the PL IO-banks VCCO of the SoM are selectable by the jumpers J16, J17 and J21. The DIP-switch S4 sets the adjustable baseboard supply-voltage FMC_VADJ.
Following table below describes switch S4 settings for different FMC_VADJ voltages.
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There is also option to select fixed voltage of FMC_VADJ with the configuration of the 8-bit control register of the I2C-to-GPIO-module of the System Controller CPLD U14. Switch S4 is also routed to the System Controller CPLD, hence the VCCIO configuration can be registered by the SC CPLD. Switch S4-4 is not dedicated for FMC_VADJ setting, the function of this switch depends on the System Controller CPLD firmware. The supply-voltage FMC_VADJ is user programmable via I2C. Configuration of the adjustable voltage FMC_VADJ is done over dedicated I2C bus (lines HDMI_SCL and HDMI_SDA). A control byte has to be sent to the 8-bit control register of the I2C-to-GPIO module of the System Controller CPLD. This modules I2C address is 0x22. To enable FMC_VADJ on TE0701, bit 7 of the control register should be set to 1. Note that the I2C bus is shared with the I2C interface of the HDMI Controller. For detailed information how to set the voltage FMC_VADJ via I2C, please refer to the documentation of the TE0701 System Controller CPLD. |
Configuring 12V Power Supply Pin on the CameraLink Connector
12V power supply can be connected to pin 26 of the CameraLink by closing J18. However, this option is disabled by default (J18: OPEN).
Summary of VCCIO configuration via jumpers
There are two baseboard supply voltages VIOTA and VIOTB connected to the 4 x 5 SoM's PL IO-bank. The supply-voltages have following pin assignments on B2B-connectors:
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Note: The corresponding PL IO-voltage supply voltages of the 4 x 5 SoM to the selectable baseboard voltages VIOTA and VIOTB are depending on the mounted 4 x 5 SoM and varying in order of the used model. Refer to SoM's schematics for more information about the specific pin assignment on module's B2B-connectors regarding PL IO-bank supply voltages and to the 4 x 5 Module integration Guide for VCCIO voltage options. |
Following table shows baseboard supply voltages versus the available voltage levels, which can be configured via jumpers.
Notation: 'Jx: 1-2, 3' means pins 1 and 2 are closed, pin 3 is open. 'Jx: 1, 2-3' means pins 2 and 3 are closed, pin 1 is open.
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Take care of the VCCO voltage ranges of the particular PL IO-banks (HR, HP) of the mounted SoM, otherwise damages may occur to the FPGA. Therefore, refer to the TRM of the mounted SoM to get the specific information of the voltage ranges. It is recommended to set and measure the PL IO-bank supply-voltages before mounting of TE 4 x 5 module to avoid failures and damages to the functionality of the mounted SoM. |
Power Rails
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Technical Specifications
Absolute Maximum Ratings
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Recommended Operating Conditions
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1) Temperature range may vary depending on assembly options
2) The operating temperature range of the onboard peripherals are a junction and also ambient operating temperature ranges
3) The relevant operating temperature range of the overall system is also determined by the operating temperature range of the attached module.
Physical Dimensions
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Variants Currently In Production
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Revision History
Hardware Revision History
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Hardware revision number is printed on the PCB board next to the module model number separated by the dash.
Document Change History
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Table of Contents
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Overview
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Online version of this manual and other related documents can be found at https://wiki.trenz-electronic.de/display/PD/TE0701 |
The Trenz Electronic TE0701 Carrier Board is a base-board for 4x5 SoMs, which exposes the MIO- and the PS/PL-pins of the SoM to accessible connectors and provides a whole range of on-board-componentes to test and evaluate Trenz Electronic 4x5 SoMs.
See page "4 x 5 cm carriers" to get information about the SoMs supported by the TE0701 Carrier Board.
Main Components
Figure 1: 4x5 SoM carrier board TE0701-06
TE0701-06:
- HDMI Connector (1.4 HEAC Support)
- Micro USB Connector (Device, Host or OTG Modes)
Pmod Connector for Zynq-module PL (4 LVDS-pairs, max. VCCIO-voltage: VIOTA)
- Pmod Connector for Zynq-module PL (4 LVDS-pairs, max. VCCIO-voltage: FMC_VADJ)
- User Push Button S2 ("RESTART" button by default)
- User Push Button S1 ("RESET" button by default)
- User LEDs (function mapping depends on firmware of System-Controller-CPLD)
- Mini USB Connector (USB JTAG and UART Interface)
- User 4-bit DIP Switch
- VITA 57.1 compliant FMC LPC Connector with digitally programmable FMC VADJ Power Supply
- Barrel jack for 12V Power Supply
- ARM JTAG Connector (DS-5 D-Stream) - PJTAG to EMIO multiplexing needed
- User 4-bit DIP Switch (provides the functionality to set voltage FMC_VADJ)
- Pmod Connector (J1, max. VCCIO-voltage: 3.3V): mapped to 8 Zynq PS MIO0-bank-pins (MIO0, MIO9 to MIO15), 6 pins (MIO10 to MIO15) are additionally connected to TE0701 System-Controller-CPLD
- RJ45 GbE Connector
- SD Card Connector - Zynq SDIO0 Bootable SD port
- Pmod Connector (J2, max. VCCIO-voltage: 3.3V): 6 pins (PX0 to PX5) can be multiplexed by Texas Instruments TXS02612RTWR SDIO Port Expander to MIO-pins of Zynq-module, 2 pins are connected to TE0701 System-Controller-CPLD (PX6 and PX7)
- Jumper J18
- Mini CameraLink Connector
- Battery holder for CR1220 (RTC backup voltage)
- Trenz 4x5 module Socket (3x Samtec LSHM Series Connectors)
- Jumper J16, J17, J21
- Jumper J9, J19, J20
Key Features
- Overvoltage-, undervoltage- and reversed- supply-voltage-protection
- Barrel jack for 12V power supply
- Carrier Board System-Controller-CPLD Lattice MachXO2 1200HC, programable by Mini-USB JTAG-Interface J7
- Zynq-module programable by ARM-JTAG-Interface-Connector (J15) or by System-Controller-CPLD via Mini-USB JTAG-Interface J7 or JTAG-Interface on FMC-Connector J10
- Mini CameraLink
- RJ45 Gigabit Ethernet MagJack with 2 integrated LEDs.
- FPGA Mezzanine Card (FMC) Connector J10 for acces to Zynq-Module's LVDS-pairs, operable with adjustable IO-voltage FMC_VADJ
- USB JTAG- and UART-Interface (FTDI FT2232HQ) with Mini-USB-Connector J7
- ADV7511 HDMI Transmitter with HDMI-Connector J4
- 8 x user LEDs routed to System-Controller-CPLD, 8 x red
- 2 x user-push button routed to System-Controller-CPLD; by default configured as system "RESET" and "RESTART" button (depends on CPLD-Firmware)
- 2 x 4-bit DIP-Switch for base-board-configuration (3 switches routed to System-Controller-CPLD, 3 switches to set voltage FMC_VADJ, 1 switch routed to Zynq-module (MIO0), 1 switch enables Mini-USB JTAG-Interface J7)
- PMOD-Connectors to access Zynq-Module's LVDS-pairs and MIO-Pins
- Micro SD card socket, can be used to boot system
- Micro-USB-Interface (J12) connected to Zynq-module (Device, Host or OTG modes)
- Trenz 4x5 module Socket (3 x Samtec LSHM series connectors)
Interfaces and Pins
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 different voltage levels of the Micro SD Card and MIO-bank of the Xilinx Zynq-module. The Micro SD Card has 3.3V signal voltage level, but the MIO-bank on the Xilinx Zynq-module has VCCIO 1.8V.
The MIO-bank-pins, of the Zynq-module, which are dedicated to SDIO-interface, are also accessible by PMOD-Connector J2, which is configurable by the "SEL_SD"-signal of the System-Controller-CPLD. Connector J2 has max. VCCIO-voltage 3.3V.
Dual channel USB to UART/FIFO
The TE0701 has on-board USB 2.0 High Speed to UART/FIFO IC FT2232HQ from FTDI. Channel A can be used as JTAG-Interface (MPSSE) to program the System-Controller-CPLD, Channel B can be used as UART-Interface routed to CPLD. There also 4 additionally bus-lanes available for user-specific use. The FT2232HQ-Chip can also be used as FIFO in FT245 asynchronous mode.
There is also a standard 256 Byte EEPROM connected to the FT2232HQ-chip available to store custom configuration settings. EEPROM settings can be changed using FTDI provided tools that can be downloaded from FTDI website. See FTDI website for more information.
USB Interface
TE0701 board has two physical USB-connectors:
- J7 as mini-USB-connector wired to on-board FTDI FT2232HQ chip.
- J12 as micro-USB-connector wired to B2B connector JB3 (there is usually an USB-transceiver on the SoMs).
JTAG Interface
JTAG access to the CPLD and Xilinx Zynq-module is provided via Mini-USB JTAG Interface (FTDI FT2232H) and controlled by DIP switch S3.
The JTAG port of the CPLD is enabled by setting switch S3 labeled as "ENJTAG" to the OFF-position.
LEDs
There are eight LEDs (L1 to L8) available to the user. All LEDs are red colored and connected to the on-board System-Controller-CPLD. Their functions are programmable and depend on the firmware of the System-Controller-CPLD. For detailed information, please refer to the documentation of the TE0701 Sytem-Controller-CPLD.
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LED5 (L5) to LED8 (L8) are operating only when the corresponding power supply VIOTB (i.e., bank 1 of the on-board CPLD) is switched on. This can be accomplished on the one hand by connecting the FMC power supply FMC_VADJ to VIOTB (J21: 1,2-3), which is the default option, or on the other hand by connecting either 2.5V (J17: 1,2-3) or 3.3V (J17: 1-2,3) to VIOTB (J21: 1-2,3). Please note that for the first default option, the FMC power supply must be set by the user. For detailed information how to set the voltage FMC_VADJ via I2C, please refer to the documentation of the TE0701 Sytem-Controller-CPLD. |
One green LED D22 shows the availability of the 3.3V supply voltage of the TE0701 Carrier Board.
4-bit DIP-switch
Additionally, on the TE0701 Carrier Board there is a 4-bit DIP-switch (S3; see (9) in Figure 1) available. The default S3 switch mapping is as follows:
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User-Push-Buttons
On the TE0701 Carrier Board there are two push buttons (S1 and S2) and are routed to the System-Controller-CPLD and available to the user. The default mapping of the push buttons is as follows:
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If S2 is pushed, the active-high Power ON (PON) signal (that is internally pulled-up) will be deasserted, which can be considered as a "RESTART" button to switch off (push button) and on (release button) all on-module power supplies (except 3.3VIN). Note: The capability to be enabled the first time will become active shortly after Power on Reset (POR).
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The active-high PON signal is directly mapped to the active-high EN1 signal which is routed to the SC (e.g., on the TE0720) and directly used (after deglitching) as a mandatory active-high enable signal to the power FET switch (3.3VIN -> 3.3V) as well as the DC-DC converters (VIN -> 1.0V, 1.5V, 1.8V). |
The functionality of the push buttons depends on the CPLD-firmware. For detailed information of the function of the push buttons, please refer to the documentation of the TE0701 Sytem-Controller-CPLD.
Ethernet
TE0701 has a RJ45 Gigabit Ethernet MagJack (J14) with two LEDs.
On-board Ethernet MagJack J14 pins are routed to B2B connector JB1 via MDI. The center tap of the Magnetics is not connected to module's B2B connector.
PHY LEDs are not connected directly to the module's B2B connectors as the 4x5 module have no dedicated PHY LED pins assigned. PHY LED's are connected to the TE0701 System-Controller-CPLD, that can route those LED's to some module's I/O Pins. In that case the CPLD has to map the PHY LEDs to corresponding pins.
See documentation of the TE0701 Sytem-Controller-CPLD to get information of the function of the PHY LEDs.
Pmod Slots
J5 and J6 Pmod signal routing is done as differential pairs for pins 1-2, 3-4, 7-8, 9-10.
Please use Master Pinout Table table as primary reference for the pin mapping information.
Power
Power Supply
Power supply with minimum current capability of 3A at 12V for system startup is recommended.
TE0701 jumper and DIP switch overview
On the TE0701 carrier boards different VCCIO configurations can be chosen by 7 jumpers and one dedicated 4-bit DIP-switch S4.
The purpose of the jumpers and the DIP-switch S4 of the Carrier Board will be explained in the following sections.
Configuring VCCIO-Voltage as example with mounted 4x5 SoM TE0720
The Zynq-module power supply is fixed to 5V!
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Furthermore, the VCCIO13 supply voltage (bank 13) can be selected to be either identical to bank 33/34 (J21: 1-2, 3; jumper J16 removed) or to be FMC_VADJ (J21: 1, 2-3). Again, the latter is the default setting (i.e., VCCIO13=FMC_VADJ).
Note: The LVDS-pairs FMC_LA17 to FMC_LA33 (also PB0 to PB3 as well as Y0 to Y5) are routed to bank 13 of the Zynq-module, hence, the VCCIO13 supply voltage is chosen correspondingly by default!
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The FMC power supply on the TE0701 Carrier Board (i.e., FMC_VADJ) is user programmable via I2C. The setting of the adjustable voltage FMC_VADJ is done by the dedicated I2C-Bus with the lines "HDMI_SCL" and "HDMI_SDA". Therefore, a control-byte has to be send to the 8-bit control register of the I2C-to-GPIO-module of the System-Controller-CPLD. This module has the I2C-Address 0x22. To enable FMC_VADJ on TE0701, bit 7 of the control-register should be set. Note that the I2C-Bus is shared with the I2C-Interface of the HDMI-Controller. |
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There is also the possibility to select fixed FMC_VADJ voltages by the DIP-switch S4. Therefore, there is no need to configure any bits on the 8-bit control register of the I2C-to-GPIO-module of the System-Controller-CPLD. Note: Switch S4-4 is routed to the System-Controller-CPLD, the functionality depends on the CPLD-firmware. |
Table 3 shows the switch-configuration of the DIP-switch S4 to set the voltage FMC_VADJ.
Note: The configuration of FMC_VADJ depends on the used firmware of the System-Controller-CPLD. For detailed information, refer to the documentation of the TE0701 Sytem-Controller-CPLD.
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S4-1
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FMC_VADJ Value
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Table 3: Switch S4 positions for fixed values of the FMC_VADJ voltage
Configuring 12V Power Supply Pin on the CameraLink Connector
Finally, a 12V power supply can be connected to pin 26 of the CameraLink by closing J18. However, this option is disabled by default (J18: OPEN).
Configuring Power Supply of the Micro USB Connector (Device, Host or OTG Modes)
The TE0701 carrier board can be configured as a USB host. Hence, it must provide from 5.25V to 4.75V to the board side of the downstream connection (micro USB port on J12; 13). To provide sufficient power, a TPS2051 power distribution switch is located on the carrier board in between the 5V power supply and the Vbus signal of the USB downstream port interface. If the output load exceeds the current-limit threshold, the TPS2051 limits the output current and pulls the overcurrent logic output (OC_n) low, which is routed to the on-board CPLD. The TPS2051 is put into operation by setting J19 CLOSED. J20 provides an extra 100µF decoupling capacitor (in addition to 10µF) to further stabilize the output signal. Moreover, a series terminating resistor of either 1K (J9: 1-2, 3) or 10K (J9: 1, 2-3) is selectable on the "USB-VBUS" signal. Both signals, USB-VBUS and VBUS_V_EN (that enables the TPS2051 on "high") are routed (as well as the corresponding D+/- data lines) via the on-board connector directly to the USB 2.0 high-speed transceiver PHY from SMSC (USB3320) on the GigaZee module, which is, in turn, connected to the Zynq FPGA. In summary, the default jumper settings are the following: J9: 1-2, 3 (1K series terminating resistor); J19: CLOSED (TPS2051 in operation); J20: CLOSED (100 µF added).
Additionally, the TE0701 carrier board is equipped with a second mini USB port (J7; see (8) in Figure 1) that is connected to a "USB to multi-purpose UART/FIFO IC" from FTDI (FT2232HQ) and provides a USB-to-JTAG interface between a host PC and the TE0701 carrier board and the Zynq-module, respectively. Because it acts as a USB function device, no power switch is required (and only a ESD protection must be provided) in this case.
Summary of VCCIO- and supply-voltage-configuration via jumpers
There are two base board supply-voltages VIOTA, VIOTB and for the 4x5 SoM's PL IO-banks. The supply-voltages have following pin assignments on B2B-connectors:
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base-board
supply-voltages
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base-board voltages and signals connected with
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Table 4: base-board supply-voltages VIOTA and VIOTB
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Note: The corresponding PL IO-voltage supply voltages of the 4x5 SoM to the selectable base-board voltages VIOTA and VIOTB are depending on the mounted 4x5 SoM and varying in order of the used model. Refer to SoM's schematic to get information about the specific pin assignment on module's B2B-connectors regarding PL IO-bank supply voltages and to the 4x5 Module integration Guide for VCCIO voltage options. |
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supported 4x5 SoMs vs
base-board VCCIO
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B33 (VCCIOC)
B34 (VCCIOB)
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B15 (VCCIOC)
B16 (VCCIOB)
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B66 (HP bank, VCCIOB)
B68 (HP bank, VCCIOC)
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B15 (VCCIOA)
B34 (VCCIOD)
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B15 (VCCIOA)
B35 (VCCIOD)
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B16 (VCCIOA)
B15 (VCCIOD)
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B16 (VCCIOA)
B15 (VCCIOD)
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B13 (VCCIOA)
B35 (VCCIOD)
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B13 (VCCIOA)
B35 (HP bank, VCCIOD)
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B35 (VCCIOA)
B13 (VCCIOD)
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B13 (VCCIOA)
B12 (VCCIOD)
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B64 (VCCIOA)
B67 (HP bank, VCCIOD)
Table 5: base-board supply-voltages VIOTA and VIOTB in conjunction with PL IO-bank voltages
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base-board supply-voltages vs
voltage-levels
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(J20: 1-2: additional blocking-capacitors)
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Table 6: Configuration of base-board supply voltages via jumpers
Power On Reset (POR)
On the TE0701 the 5.0V and 3.3V power supply rails are generated by high performance DC-DC-converters from the external 12V supply. While the 3.3V plane supplies several on-board components (e.g., Lattice CPLD and FTDI Dual USB UART/FIFO IC), the 5V plane is mainly provided to power supply of the module to be carried (e.g., TE0720 Zynq SoC module). For the latter, however, special considerations must be taken (see TE0720 Power Supply). Therefore, the on-module system controller (SC) must be provided with information about the power-on-reset (POR) process, namely, the following control signals EN1, RESIN, and NOSEQ. And the SC provides, in turn, the status signal PGOOD down to the on-board System-Controller-CPLD.
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This signal is controlled by the user push button S1 on the TE0701 and is forwarded directly to the SC, where it is latched together with the EN1 signal as well as the “all power rails OK” signal (1.0V and 1.8V for core; 1.5V and VTT for RAM, and 3.3V).
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The 3.3V power supply rail can be switched on (EN_3V3=’1’) or off (EN_3V3=’0’) by a load switch (TPS27082L) and is continuously checked by a voltage detector (TPS3805H33). Note: The 3.3VIN power supply (from which the 3.3V power plane is sourced) is supplied by the TE0701 Carrier Board and is kept always on! |
When RESIN (alias user push button S1) is not pushed and simultaneously the EN1 signal is asserted (EN='1') and all power rails are ok, the active-high Zynq power-on-reset signal PS_POR_B is asserted.
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Table 7: Generation of PGOOD-Signal
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For more information on the preceding signals please consult the corresponding Wiki documentation of the TE0720 System Management Controller. |
Technical Specifications
Absolute Maximum Ratings
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Vin supply voltage
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11.4
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V
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Storage Temperature
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°C
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Recommended Operating Conditions
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Physical Dimensions
Board size: PCB 170.4 mm × 98 mm. Notice that some parts the are hanging slightly over the edge of the PCB like the mini USB-jacks (ca. 1.4 mm), the ethernet RJ-45 jack (ca 2.2 mm) and the mini CameraLink connector (ca. 7 mm), which determine the total phycial demensions of the carrier board. Please download the assembly diagram for exact numbers.
Mating height of the module with standard connectors: 8mm
PCB thickness: ca. 1.65mm
Highest part on the PCB is the ethernet RJ-45 jack, which has an approximately 17 mm overall hight. Please download the step model for exact numbers.
All dimensions are given in mm.
Figure 3: Physical Dimensions of the TE0701-06 carrier board
Operating Temperature Ranges
Commercial grade: 0°C to +70°C.
Board operating temperature range depends also on customer design and cooling solution. Please contact us for options.
Weight
ca. 188 g - Plain board
Document Change History
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added section for base-board supply-
voltage configuration
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TRM update due to new revision 06 of
the carrier board.
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Ali Naseri
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TRM adjustment to the newest
revision (05) of TE0701 Carrier Board.
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TE0701-03 (REV3) updated
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0.1
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Initial release
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All
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Hardware Revision History
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Notes
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additional Jumper J16 and switch S4
for setting VCCIO FMC_VADJ.
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01
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Prototype
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Figure 4: Hardware revision Number
Hardware revision number is printed on the PCB board next to the module model number separated by the dash.
Disclaimer
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