Table of Contents
Overview
The Trenz Electronic TE0782 is a high-performance, industrial-grade SoM (System on Module) with industrial temperature range based on Xilinx Zynq-7000 SoC. It is equipped with a Xilinx Zynq-7 (XC7Z035, XC7Z045 or XC7Z100).
These highly integrated modules with an economical price-performance-ratio have a form-factor of 8,5 x 8,5 cm and are available in several versions.
All parts cover at least industrial temperature range of -40°C to +85°C. The module operating temperature range depends on customer design and cooling solution. Please contact us for options and for modified PCB-equipping due increasing cost-performance-ratio and prices for large-scale order.
This SoM has following peripherals on board:
- 2 x Gbps Ethernet PHY transceiver
- 32-Bit DDR3 SDRAM 1Gbyte
- 32 MByte QSPI Flash Memory for configuration, operation and to store data
- eMMC (4 GByte in standard configuration)
- 2 x USB PHY transceiver
- 16 GTX high-performance transceiver lanes
- powerful switch-mode power supplies for all on-board voltages
- large number of configurable I/Os is provided via rugged high-speed stacking strips
Block Diagramm
Key Features
- Xilinx Zynq-7 XC7Z035, XC7Z045 or XC7Z100 SoM
- Rugged for shock and high vibration
- Dual ARM Cortex-A9 MPCore
- 1 GByte DDR3 SDRAM (2 x 16-Bit wide 512 MByte DDR3 SDRAM)
- 32 MByte QSPI Flash memory
- 2 x Hi-Speed USB2.0 ULPI transceiver PHY
- 2 x Gigabit (10/100/1000 Mbps) Ethernet transceiver PHY
- 4 GByte eMMC (optional up to 64GByte)
- 2 x MAC-Address EEPROMs
- optional 2 x 8 MByte HyperRAM (max 2 x 32 MByte HyperRAM) or optional 2 x 64 MByte HyperFLASH
- Temperature compensated RTC (real-time clock)
- Si5338 PLL for GTX Transceiver clocks
- Plug-on module with 3 x 160-pin high-speed strips
- 16 GTX high-performance transceiver lanes
- GT transceiver clock inputs
- 254 FPGA I/O's (125 LVDS pairs)
- On-board high-efficiency DC-DC converters
- System management
- eFUSE bit-stream encryption
- AES bit-stream encryption
- Evenly-spread supply pins for good signal integrity
- User LED
Assembly options for cost or performance optimization available upon request.
Signals, Interfaces and Pins
System Controller CPLD I/O Pins
Special purpose pins to configure and operate the System Controller CPLD (IC U14) used by TE0782
Name | Note |
---|---|
BOOTMODE | user configurable (CPLD) |
CONFIGX | user configurable (CPLD) |
JTAGENB | JTAG operation |
RESIN | System-reset |
CLPD_GPIO0 | user GPIO |
CLPD_GPIO1 | user GPIO |
CLPD_GPIO2 | user GPIO |
CLPD_GPIO3 | user GPIO |
CLPD_GPIO4 | user GPIO |
CLPD_GPIO5 | user GPIO |
Small CPLD controls some functions of the SoM, this CPLD can be updated by the end user if support is designed on customer base.
Boot Modes
TE0782 supports primary boot from
- SPI Flash
Boot from on-board eMMC is also supported as secondary boot (FSBL must be loaded from SPI Flash).
JTAG
JTAG access to the Xilinx Zynq-7000 device is provided by connector J3.
Signal | B2B Pin |
---|---|
TCK | J3: 141 |
TDI | J3: 147 |
TDO | J3: 148 |
TMS | J3: 1142 |
CPLD-JTAG access to the Xilinx Zynq-7000 device is provided by connector J3.
Signal | B2B Pin |
---|---|
M_TCK | J3: 81 |
M_TDI | J3: 87 |
M_TDO | J3: 82 |
M_TMS | J3: 88 |
JTAGENB pin in J3 should be kept low or grounded for normal operation.
Clocking
Silabs Multisynth PLL Si5338 can deliver GT reference clocks to all 4 GT Banks. Additionally a GT Reference clock can be generated on the base board for any of the 4 GT Banks. There is reference clock available on the TE0782 for Si5338, there is no need to supply a master reference clock from the base.
Clock | Frequency | IC | ZYNQ PS / PL | Notes |
---|---|---|---|---|
PS CLK | 33.3333 MHz | U61 | BANK500, PS_CLK | PS Subsystem main clock |
10/100/1000 Mbps ETH PHYs reference | 25 MHz | U11 | - | |
USB PHY reference | 52 MHz | U7 | - | |
PLL reference | 25 MHz | U3 | - | |
GT REFCLK1 | - | B2B connector | BANK110, Pin AC7/AC8 | Externally supplied from base |
GT REFCLK4 | - | B2B connector | BANK111, Pin U7/U8 | Externally supplied from base |
quad programmable clock (I2C) SI5338A | user | U2 | BANK110, Pin AA8/AA7 BANK109, Pin AF10/AF9 BANK111, Pin W8/W7 BANK112, Pin N8/N7 | GT REFCLK0 GT REFCLK3 GT REFCLK5 GT REFCLK6 |
Processing System (PS) Peripherals
Peripheral | IC | Designator | ZYNQ PS / PL | MIO | Notes |
---|---|---|---|---|---|
QSPI Flash | S25FL256SAGBHI20 | U38 | QSPI0 | MIO1...MIO6 | - |
ETH0 10/100/1000 Mbps PHY | 88E1512-A0-NNP2I000 | U18 | ETH0; GPIO BANK35 | MIO16...MIO27, MIO52, MIO53 | - |
ETH0 10/100/1000 Mbps PHY Reset | GPIO | MIO7 | ETH1_RESET33 (MIO7) -> CPLD -> ETH1_RESET | ||
ETH1 10/100/1000 Mbps PHY | 88E1512-A0-NNP2I000 | U20 | GPIO BANK9, BANK35 | - | PHY can be used with soft Ethernet MAC IP also |
ETH1 10/100/1000 Mbps PHY Reset | GPIO BANK35, Pin B15 | - | - | ||
USB0 | USB3320C-EZK | U4 | USB0 | MIO28...MIO39 | - |
USB0 Reset | GPIO | MIO0 | OTG_RESET33 (MIO0) -> CPLD -> OTG_RESET | ||
USB1 | USB3320C-EZK | U8 | USB1 | MIO40...MIO51 | - |
USB1 Reset | GPIO | MIO0 | OTG_RESET33 (MIO0) -> CPLD -> OTG_RESET | ||
Clock PLL | Si5338 | U2 | I2C | BANK35, Pin L14/L15 | Low jitter phase locked loop |
e-MMC (embedded e-MMC) | MTFC4GMVEA-4M IT | U15 | SDIO0 | MIO10...MIO15 | - |
HyperFlash RAM | S26KS512SDPBHI00x | U9 | GPIO BANK35 | - | optional 2 x 8 MByte HyperRAM (max 2 x 32 MByte HyperRAM) or optional 2 x 64 MByte HyperFLASH |
HyperFlash RAM | S26KS512SDPBHI00x | U12 | GPIO BANK35 | - | as above |
EEPROM I2C | 24LC128-I/ST | U26 | GPIO BANK35, Pin L14/L15 | - | - |
EEPROM I2C | 24AA025E48T-I/OT | U22 | GPIO BANK35, Pin L14/L15 | - | MAC Address |
EEPROM I2C | 24AA025E48T-I/OT | U24 | GPIO BANK35, Pin L14/L15 | - | MAC Address |
RTC | ISL12020MIRZ | U17 | GPIO BANK35, Pin L14/L15 | - | Temperature compensated real time clock |
RTC Interrupt | ISL12020MIRZ | U17 | - | - | RTC_INT -> CPLD |
Default MIO mapping
MIO | Configured as | B2B | Notes |
---|---|---|---|
0 | OTG-RST33 | - | connected to CPLD |
1 | QSPI0 | - | SPI Flash-CS |
2 | QSPI0 | - | SPI Flash-DQ0 |
3 | QSPI0 | - | SPI Flash-DQ1 |
4 | QSPI0 | - | SPI Flash-DQ2 |
5 | QSPI0 | - | SPI Flash-DQ3 |
6 | QSPI0 | - | SPI Flash-SCK |
7 | ETH1_RESET33 | - | connected to CPLD |
8 | GPIO | - | connected to CPLD and Pull-Up 3.3V |
9 | GPIO | - | connected to CPLD |
10 | MMC-D0 | - | - |
11 | MMC-CMD | - | - |
12 | MMC-CCLK | - | - |
13 | MMC-D1 | - | - |
14 | MMC-D2 | - | - |
15 | MMC-D3 | - | - |
16..27 | ETH0 | - | Ethernet RGMII PHY |
28..39 | USB0 | - | USB0 ULPI PHY |
40...51 | USB1 | - | USB1 ULPI PHY |
52 | ETH0 MDC | - | - |
53 | ETH0 MDIO | - | - |
Pin Definitions
Pins named _vrn and _vrp are connected to ZYNQ PL HP Bank special purpose pins VRN/VRP. If needed they can be connected to DCI calibration resistors on the base. If not, then those pins can be used as general purpose I/O.
Bank B35 has 100 ohm DCI calibration resistors installed on TE0782, it is also possible to "borrow" the DCI calibration from B35 for banks B34, and B33. For detailed usage of the DCI check Xilinx documentation.
I2C Interface
The on-board I2C components are connected to BANK35, Pin L15 (I2C_SDA) and to BANK35, Pin L14 (I2C_SCL).
I2C addresses for on-board components
Device | IC | Designator | I2C-Address | Notes |
---|---|---|---|---|
EEPROM | 24LC128-I/ST | U26 | 0x53 | user data, parameter |
EEPROM | 24AA025E48T-I/OT | U22 | 0x50 | MAC Address |
EEPROM | 24AA025E48T-I/OT | U24 | 0x51 | MAC Address |
RTC | ISL12020MIRZ | U17 | 0x6F | Temperature compensated real time clock |
Battery backed RAM | ISL12020MIRZ | U17 | 0x57 | integrated in RTC |
PLL | SI5338A-B-GMR | U2 | 0x70 | Quad reference clock for GTX transceiver lanes |
CPLD | LCMXO2-1200HC-4TG100I | U14 | user | - |
B2B I/O
Number of I/O's connected to the SoC's I/O bank and B2B connector
Bank | Type | B2B | IO count | IO Voltage | Notes |
---|---|---|---|---|---|
10 | HR | J3 | 44 | user | 22 LVDS-pairs possible |
11 | HR | J3 | 40 | user | 20 LVDS-pairs possible |
12 | HR | J2 | 40 | user | 20 LVDS-pairs possible |
13 | HR | J2 | 40 | user | 20 LVDS-pairs possible |
33 | HR | J1 | 48 | user | 23 LVDS-pairs possible |
34 | HR | J1 | 42 | user | 20 LVDS-pairs possible |
For detailed information about the pin out, please refer to the Master Pinout Table.
Peripherals
LED's
D1 - Onboard RED LED
Frequency of LED-Toggling [1/2.6sec] | Status |
---|---|
1 | Power problem |
2 | MGT Power problem |
3 | Reset from mainboard |
4 | FPGA not programmed |
This function depend on the CPLD revision.
D2 - Onboard GREEN LED
Green LED connected to MIO8
Ethernet
The TE0782 is equipped with two Marvell Alaska 88E1512 Gigabit Ethernet PHYs (U18 (ETH1) and U20 (ETH2)). The transceiver PHY of ETH1 is connected to the Zynq PS Ethernet GEM0. The I/O Voltage is fixed at 1.8V. The reference clock input for both PHYs is supplied from an on board 25MHz oscillator (U11).
ETH1 PHY connection:
PHY PIN | ZYNQ PS / PL | System Controller CPLD | Notes |
---|---|---|---|
MDC/MDIO | MIO52, MIO53 | - | - |
LED0 | BANK35, Pin B12 | - | - |
LED1 | BANK35, Pin C12 | - | - |
Interrupt | BANK35, Pin A15 | - | - |
CONFIG | BANK35, Pin F14 | - | - |
RESETn | - | Pin 53 | ETH1_RESET33 (MIO7) -> CPLD -> ETH1_RESET |
RGMII | MIO16..MIO27 | - | |
MDI | - | - | on B2B J2 connector |
ETH2 PHY connection:
PHY PIN | ZYNQ PS / PL | System Controller CPLD | Notes |
---|---|---|---|
MDC/MDIO | BANK35, Pin C17/B17 | - | - |
LED0 | BANK35, Pin K15 | - | - |
LED1 | BANK35, Pin B16 | - | - |
Interrupt | BANK35, Pin A17 | - | - |
CONFIG | BANK35, Pin E15 | - | Pin connected to GND, PHY Address is strapped to 0x00 by default |
RESETn | BANK35, Pin B15 | - | - |
RGMII | BANK9 | - | - |
MDI | - | - | on B2B J2 connector |
USB
The TE0782 is equipped with two USB PHYs USB3320 from Microchip (U4 (USB0) and U8 (USB1)). The ULPI interface of USB0 is connected to the Zynq PS USB0, ULPI interface of USB1 to Zynq PS USB1. The I/O Voltage is fixed at 1.8V.
The reference clock input of both PHYs is supplied from an on board 52MHz oscillator (U7).
USB0 PHY connection:
PHY Pin | ZYNQ PS / PL | CPLD | B2B Name (J2) | Notes |
---|---|---|---|---|
ULPI | MIO28..39 | - | - | Zynq USB0 MIO pins are connected to the PHY |
REFCLK | - | - | - | 52MHz from on board oscillator (U7) |
REFSEL[0..2] | - | - | - | 000 GND, select 52MHz reference Clock |
RESETB | MIO0 | OTG_RESET33 | - | OTG_RESET33 -> CPLD -> OTG_RESET |
CLKOUT | MIO36 | - | - | Connected to 1.8V selects reference clock operation mode |
DP,DM | - | - | USB1_D_P, USB1_D_N | USB Data lines |
CPEN | - | - | VBUS1_V_EN | External USB power switch active high enable signal |
VBUS | - | - | USB1_VBUS | Connect to USB VBUS via a series resistor. Check reference schematic |
ID | - | - | OTG1_ID | For an A-Device connect to ground, for a B-Device left floating |
USB1 PHY connection:
PHY Pin | ZYNQ PS / PL | CPLD | B2B Name (J2) | Notes |
---|---|---|---|---|
ULPI | MIO40..51 | - | - | Zynq USB1 MIO pins are connected to the PHY |
REFCLK | - | - | - | 52MHz from on board oscillator (U7) |
REFSEL[0..2] | - | - | - | 000 GND, select 52MHz reference Clock |
RESETB | MIO0 | OTG_RESET33 | - | OTG_RESET33 -> CPLD -> OTG_RESET |
CLKOUT | MIO48 | - | - | Connected to 1.8V selects reference clock operation mode |
DP,DM | - | - | USB2_D_P, USB2_D_N | USB Data lines |
CPEN | - | - | VBUS2_V_EN | External USB power switch active high enable signal |
VBUS | - | - | USB2_VBUS | Connect to USB VBUS via a series resistor. Check reference schematic |
ID | - | - | OTG2_ID | For an A-Device connect to ground, for a B-Device left floating |
The schematic for the USB connector and required components is different depending on the USB usage. USB standard A or B connectors can be used for Host or Device modes. A Mini USB connector can be used for USB Device mode. A USB Micro connector can be used for Device mode, OTG Mode or Host Mode.
RTC
An Intersil temperature compensated real time clock IC ISL12020MIRZ is used for timekeeping (U17). Battery voltage must be supplied to the module from the main board.
Battery backed registers are accessed at I2C slave address 0x57.
General purpose RAM is accessed at I2C slave address 0x6F.
This RTC IC is supported in Linux so it can be used as hwclock device.
PLL
The TE0782 is also equipped with a Silicon Labs I2C-programmable clock generator Si5338A (U2). The Si5338 can be programmed using the I2C-bus, to change the frequency on its outputs. It is accessible on the I2C slave address 0x70.
PLL connection:
Input/Output | Default Frequency | Notes |
---|---|---|
IN1/IN2 | Externally supplied | need decoupling on base board |
IN3 | 25MHz | Fixed input clock |
IN5 | - | not available and not used |
IN4/IN6 | - | connected to Ground |
CLK0 A/B | - | GT REFCLK0 |
CLK1 A/B | - | GT REFCLK3 |
CLK2 A/B | - | GT REFCLK6 |
CLK3 A/B | - | GT REFCLK5 |
MAC-Address EEPROMs
Two Microchip 24AA025E48 EEPROMs (U22 and U24) are used on the TE0782. They contain globally unique 48-bit node addresses, that are compatible with EUI-48(TM) and EUI-64(TM). The devices are organized as two blocks of 128 x 8-bit memory. One of those blocks stores the 48-bit node address and is write protected, the other block is available for application use. Those are accessible by the I2C slave address 0x50 for MAC-Address1 (U22), 0x51 for MAC-Address2 (U24) .
Power
Input Power Supply
Power Rail | Net name | Voltage | I max | Notes |
---|---|---|---|---|
Standby power | C3.3V | 3.3V | 100mA | System Control CPLD Power |
Main power | VIN | 12V | TBD | Main power for all on-board DCDC Regulators |
Bank Voltages
Bank | Voltage | max. Value | note |
---|---|---|---|
0 | 3,3 V | - | FPGA Configuration |
502 | 1,5 V | - | DDR3-RAM Port |
109 / 110 / 111 / 112 | 1,2 V | - | FPGA MGT |
500 / 501 | 3,3 V | - | MIO Banks |
9 | 1,8 V | - | ETH2 RGMII |
10 | user | 3,3 V | B2B name: VCCIO_10 |
11 | user | 3,3 V | B2B name: VCCIO_11 |
12 | user | 3,3 V | B2B name: VCCIO_12 |
13 | user | 3,3 V | B2B name: VCCIO_13 |
33 | user | 3,3 V | B2B name: VCCIO_33 |
34 | user | 3,3 V | B2B name: VCCIO_34 |
35 | 1,8 V | - | Hyper-RAM, Ethernet, I2C |
Initial Delivery state
Storage device name | Content | Notes |
---|---|---|
24LC128-I/ST | not programmed | User content |
24AA025E48 EEPROMs | User content not programmed | Valid MAC Address from manufacturer |
e-MMC Flash-Memory | Empty, not programmed | Except serial number programmed by flash vendor |
SPI Flash OTP Area | Empty, not programmed | Except serial number programmed by flash vendor |
SPI Flash Quad Enable bit | Programmed | |
SPI Flash main array | demo design | |
HyperFlash RAM | not programmed | |
EFUSE USER | Not programmed | |
EFUSE Security | Not programmed |
Hardware Revision History
Revision | Changes |
---|---|
01 | Prototypes |
02 | First production release |
Technical Specification
Absolute Maximum Ratings
Parameter | Min | Max | Units | Notes |
---|---|---|---|---|
Vin supply voltage | -0.3 | 6.0 | V | |
Vin33 supply voltage | -0.4 | 3.6 | V | |
VBat supply voltage | -1 | 6.0 | V | |
PL IO Bank supply voltage for HR I/O banks (VCCO) | -0.5 | 3.6 | V | |
I/O input voltage for HP I/O banks | -0.55 | VCCO_X+0.55 | V | TE0782 does not have HP banks |
Voltage on Module JTAG pins | -0.4 | VCCO_0+0.55 | V | VCCO_0 is 3.3V nominal |
Storage Temperature | -40 | +85 | C | |
Storage Temperature without the ISL12020MIRZ | -55 | +100 | C |
Recommended Operating Conditions
Parameter | Min | Max | Units | Notes | Reference document |
---|---|---|---|---|---|
Vin supply voltage | 2.5 | 5.5 | V | ||
Vin33 supply voltage | 3.135 | 3.465 | V | ||
VBat supply voltage | 2.7 | 5.5 | V | ||
PL IO Bank supply voltage for HR I/O banks (VCCO) | 1.14 | 3.465 | V | Xilinx document DS191 | |
I/O input voltage for HR I/O banks | (*) | (*) | V | (*) Check datasheet | Xilinx document DS191 and DS187 |
Voltage on Module JTAG pins | 3.135 | 3.465 | V | VCCO_0 is 3.3 V nominal |
Physical Dimensions
Please download the assembly diagram for exact values.
Module size: 85 mm × 85 mm.
Mating height with standard connectors: 5 mm
PCB thickness: 1,7 mm
All dimensions are shown in mm.
Weigt | Part |
---|---|
60 g | Plain module |
Temperature Ranges
Commercial grade modules
All parts are at least commercial temperature range of 0°C to +70°C. The module operating temperature range depends on customer design and cooling solution. Please contact us for options.
Industrial grade modules
All parts are at least industrial temperature range of -40°C to +85°C. The module operating temperature range depends on customer design and cooling solution. Please contact us for options.
Document Change History
date | revision | authors | description |
---|---|---|---|
2016-06-27 | v10 | initial release |
Disclaimer
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