Template Revision 2.12
- Module: TRM Name always "TE Series Name" +TRM
Example: "TE0728 TRM" - Carrier: TRM Name usually "TEB Series Name" +TRM
Example: "TEB0728 TRM"
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Note for Download Link of the Scroll ignore macro: |
Table of Contents |
Overview
The Trenz Electronic TE0821 is a powerful 4 x 5 cm MPSoC module integrated with a Xilinx Zynq UltraScale+ . In addition, the module is equipped with a 2 GB DDR4 SDRAM chip, 128 MB flash memory for configuration and data storage, as well as powerful switching power supplies for all required voltages. Robust high-speed connectors provide a large number of inputs and outputs.
This module is pin compatible with Trenz Electronic TE0820 MPSoC modules (JM2 pin 100 is not connected).
The highly integrated modules are smaller than a credit card and are offered in several variants at an affordable price-performance ratio. Modules with a 4 x 5 cm form factor are completely mechanically and largely electrically compatible with each other.
All components cover at least the industrial temperature range from -40 ° C to + 85 ° C. The temperature range in which the module can be used depends on the customer design and the selected cooling. Please contact us for special solutions.
Refer to http://trenz.org/te0821-info for the current online version of this manual and other available documentation.
Key Features
Note: 'description: Important components and connector or other Features of the module → please sort and indicate assembly options Key Features' must be split into 6 main groups for modules and mainboards: - SoC/FPGA
- Package: SFVC784
- Device: ZU2...ZU5*
- Engine: CG, EG, EV*
- Speed: -1LI, -2LE,*, **
- Temperature: I, E,*, **
- RAM/Storage
- Low Power DDR4 on PS
- Data width: 32bit
- Size: def. 2GB*
- Speed:***
- eMMC
- Data width: 8Bit
- size: def. 8GB *
- QSPI boot Flash in dual parallel mode (size depends on assembly version)
- Data width: 8bit
- size: def. 128MB *
- HyperRAM/Flash (optional, default not assembled)
- MAC address serial EEPROM with EUI-48™ node identity (Microchip 24AA025E48)
- On Board
- Lattice LCMXO2
- PLL SI5338
- Gigabit Ethernet transceiver PHY (Marvell Alaska 88E1512)
- Hi-speed USB2 ULPI transceiver with full OTG support (Microchip USB3320C)
- Interface
- 132 x HP PL I/Os (3 banks)
- ETH
- USB
- 4 GTR (for USB3, Sata, PCIe, DP)
- MIO for UART
- MIO for SD
- MIO for PJTAG
- JTAG
- Ctrl
- Power
- 3.3V-5V Main Input
- 3.3V Controller Input
- Variable Bank IO Power Input
- Dimension
- Notes
- * depends on assembly version
- ** also non low power assembly options possible
- *** depends on used U+ Zynq and DDR4 combination
Key Features' must be split into 6 main groups for carrier: - Modules
- TE0808, TE807, TE0803,...
- RAM/Storage
- On Board
- Interface
- E.g. ETH, USB, B2B, Display port
- Power
- E.g. Input supply voltage
- Dimension
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- SoC/FPGA
- Package: SFVC784
- Device: ZU2EG, ZU3EG, ZU4EG, ZU5EG
- Engine: G (General Purpose)
- Speed: -1 (slowest)
- Temperature: Industrial (-40 ~ 85 °C)
- RAM/Storage
- 2 GByte DDR4 SDRAM, 32-Bit databus-width
- 128 MByte QSPI boot Flash in dual parallel mode
- 8 GByte e.MMC Memory (up to 64 GByte)
- MAC address serial EEPROM with EUI-48 node identity
- On Board
- Graphic Processing Unit (GPU) :Mali-400 MP2
- Interface
- Power
- All power supplies on board
- Dimension
Block Diagram
Main Components
Notes : - Picture of the PCB (top and bottom side) with labels of important components
- Add List below
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- Xilinx Zynq UltraScale+ XCZU3EG, U1
- Red LED (ERR_OUT), D3
- Green LED (ERR_STATUS), D4
- Red LED (DONE), D1
- 10/100/1000 Mbps energy efficient ethernet transceiver, U8
- 8Gb DDR4, U2-U3
- 512 Mbit QSPI flash memory, U7-U17
- Green User LED, D2
- B2B connector Samtec Razor Beam, JM1
- Programmable clock generator, U10
- USB2.0 Transceiver, U18
- B2B connector Samtec Razor Beam, JM3
- B2B connector Samtec Razor Beam, JM2
- 8 GByte eMMC memory, U6
- Lattice Semiconductor MachXO2 System Controller CPLD, U21
Additional assembly options are available for cost or performance optimization upon request.
Initial Delivery State
Notes : Only components like EEPROM, QSPI flash can be initialized by default at manufacture. If there is no components which might have initial data ( possible on carrier) you must keep the table empty |
Storage device name | Content | Notes |
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Dual QSPI Flash Memory | Not programmed |
| eMMC Memory | Not programmed |
| Programmable Clock Generator | Not programmed |
| CPLD (LCMXO2-256HC) | ???? Firmware | TE0821 CPLD |
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Configuration Signals
- Overview of Boot Mode, Reset, Enables.
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Two different firmware versions are available, one with the QSPI boot option and other with the SD Card boot option.
MODE Pin | Boot Mode |
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Low | QSPI | High | SD Card |
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Signal | B2B | I/O | Note |
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EN | JM1-28 | Input | CPLD Enable Pin |
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Please refer to the TE0821 CPLD-Bootmode.
Signals, Interfaces and Pins
Notes : - For carrier or stand-alone boards use subsection for every connector type (add designator on description, not on the subsection title), for example:
- For modules which needs carrier use only classes and refer to B2B connector if more than one is used, for example
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Board to Board (B2B) I/Os
FPGA bank number and number of I/O signals connected to the B2B connector:
FPGA Bank | Type | B2B Connector | I/O Signal Count | Voltage Level | Notes |
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24 | HD | JM2 | 24x I/O, 12x LVDS Pairs | Variable | Max voltage 3.3V | 25 | HD | JM1 | 24x I/O, 12x LVDS Pairs | Variable | Max voltage 3.3V | 26 | HD | JM1 | 24x I/O, 12x LVDS Pairs | Variable | Max voltage 3.3V | 44 | HD | JM2 | 24x I/O, 12x LVDS Pairs | Variable | Max voltage 3.3V | 65 | HP | JM2 | 18x I/O, 9x LVDS Pairs | Variable | Max voltage 1.8V | 65 | HP | JM3 | 16x I/O, 8x LVDS Pairs | Variable | Max voltage 1.8V | 505 | GTR | JM3 | 16x I/O, 8x LVDS Pairs | - | 4x lanes | 505 | GTR CLK | JM3 | 1x Diff Clock | - |
| 501 | MIO | JM1 | 15 I/O | 3.3V |
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For detailed information about the pin-out, please refer to the Pin-out table.
JTAG Interface
JTAG access to the Xilinx Zynq UltraScale+ is applicable by using Lattice MachXO CPLD through B2B connector JM2.
JTAG Signal | B2B Connector | Note |
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TMS | JM2-93 |
| TDI | JM2-95 |
| TDO | JM2-97 |
| TCK | JM2-99 |
| JTAGEN | JM1-89 | Pulled Low: Xilinx Zynq UltraScale+ MPSoC Pulled High: Lattice MachXO CPLD |
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MGT Lanes
There are 4x MGT Lanes connected to FPGA Bank 505-GTR. The Xilinx Zynq UltraScale+ device used on the TE0821 module has 4 GTR transceivers. All 4 are wired directly to B2B connector JM3. MGT (Multi Gigabit Transceiver) lane consists of one transmit and one receive (TX/RX) differential pairs, four signals total per one MGT lane. Following table lists lane number, FPGA bank number, transceiver type, signal schematic name, board-to-board pin connection and FPGA pins connection:
Lane | Schematic | B2B | Note |
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0 | - B505_RX0_P
- B505_RX0_N
- B505_TX0_P
- B505_TX0_N
| |
| 1 | - B505_RX1_P
- B505_RX1_N
- B505_TX1_P
- B505_TX1_N
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| 2 | - B505_RX2_P
- B505_RX2_N
- B505_TX2_P
- B505_TX2_N
| |
| 3 | - B505_RX2_P
- B505_RX2_N
- B505_TX2_P
- B505_TX2_N
| |
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Gigabit Ethernet
On-board Gigabit Ethernet PHY is provided with Marvell Alaska 88E1512 chip. The Ethernet PHY RGMII interface is connected to the Zynq Ethernet0 PS GEM0. I/O voltage is fixed at 1.8V for HSTL signaling. SGMII (SFP copper or fiber) can be used directly with the Ethernet PHY, as the SGMII pins are available on the B2B connector JM3. The reference clock input of the PHY is supplied from an on-board 25MHz oscillator (U11), the 125MHz output clock is left unconnected.
Pin | Schematic | Connected to | Note |
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MDIP0...3 | PHY_MDI0...3 | B2B, JM1 |
| MDC | ETH_MDC | MIO76 |
| MDIO | ETH_MDIO | MIO77 |
| S_IN | S_IN | B2B, JM3 |
| S_OUT | S_OUT | B2B, JM3 |
| TXD0..3 | ETH_TXD0...3 | MIO65...68 |
| TX_CTRL | ETH_TXCTL | MIO69 |
| TX_CLK | ETH_TXCK | MIO64 |
| RXD0...3 | ETH_RXD0...3 | MIO71...74 |
| RX_CTRL | ETH_RXCTL | MIO75 |
| RX_CLK | ETH_RXCK | MIO70 |
| LED0...2 | PHY_LED0...2 | FPGA Bank 66 |
| RESETn | ETH_RST | MIO24 |
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System Controller CPLD
Special purpose pins are connected to System Controller CPLD and have following default configuration:
Pin Name | Mode | Function | Default Configuration |
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EN1 | Input | Power Enable | No hard wired function on PCB. When forced low, PGOOD goes low without effect on power management | PGOOD | Output | Power Good | Only indirect used for power status, see CPLD description | NOSEQ | - | - | No used for Power sequencing, see CPLD description | RESIN | Input | Reset | Active low reset, gated to POR_B | JTAGEN | Input | JTAG Select | Low for normal operation, high for CPLD JTAG access |
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Please check the entire information at TE0821 CPLD.
USB Interface
USB PHY is provided by Microchip USB3320. The ULPI interface is connected to the Zynq PS USB0. I/O voltage is fixed at 1.8V. Reference clock input for the USB PHY is supplied by the on-board 52.00 MHz oscillator (U14).
PHY Pin | ZYNQ Pin | B2B Name | Notes |
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ULPI | MIO52..63 | - | Zynq USB0 MIO pins are connected to the USB PHY. | REFCLK | - | - | 52.00 MHz from on-board oscillator (U14). | REFSEL[0..2] | - | - | Reference clock frequency select, all set to GND selects 52.00 MHz. | RESETB | MIO25 | - | Active low reset. | CLKOUT | MIO52 | - | Connected to 1.8V, selects reference clock operation mode. | DP, DM | - | OTG_D_P, OTG_D_N | USB data lines routed to B2B connector JM3 pins 47 and 49. | CPEN | - | VBUS_V_EN | External USB power switch active high enable signal, routed to JM3 pin 17. | VBUS | - | USB_VBUS | Connect to USB VBUS via a series of resistors, see reference schematics, routed to JM3 pin 55. | ID | - | OTG_ID | For an A-device connect to ground, for a B-device left floating. routed from JM3 pin 23. |
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I2C Interface
On-board I2C devices are connected to MIO38 (SCL) and MIO39 (SDA) which are configured as I2C0 by default. Addresses for on-board I2C slave devices are listed in the table below:
I2C Device | I2C Address | Notes |
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Si5338A PLL | 0x70 | - | EEPROM | 0x50 | - |
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MIO Pins
you must fill the table below with group of MIOs which are connected to a specific components or peripherals, you do not have to specify pins in B2B, Just mention which B2B is connected to MIOs. The rest is clear in the Schematic. Example: MIO Pin | Connected to | B2B | Notes |
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MIO12...14 | SPI_CS , SPI_DQ0... SPI_DQ3, SPI_SCK | J2 | QSPI |
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MIO Pin | Connected to | B2B | Notes |
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0...5 | QSPI Flash, U7 | - | SPI Flash | 7...12 | QSPI Flash, U17 | - | SPI Flash | 13...23 | eMMC, U6 |
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| 24 | ETH Transceiver, U8 | - | ETH_RST | 25 | USB2.0 Transceiver, U18 | - | OTG_RST | 26...33 | User MIO | JM1 |
| 34...37 | N.C | - | N.C | 38...39 | EEPROM, U25 | - | I2C_SDA/SCL | 40...45 | N.C |
| N.C | 46...51 | SD Card | JM1 |
| 52...63 | USB2.0 Transceiver, U18 | - |
| 63...77 | Ethernet Transceiver, U8 | - |
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Test Points
you must fill the table below with group of Test Point which are indicated as TP in a schematic. If there is no Test Point remarked in the schematic, delet the Test Point section. Example: Test Point | Signal | B2B | Notes |
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10 | PWR_PL_OK | J2-120 |
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Test Point | Signal | Connected to | Notes |
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1 | I2C_SCL | EEPROM, U25 |
| 2 | I2C_SDA | EEPROM, U25 |
| 3 | SRST_B | FPGA Bank 503 | PSCONFIG | 4 | PS_CLK | FPGA Bank 503 | PSCONFIG | 5 | PROG_B | FPGA Bank 503 | PSCONFIG | 6 | INIT_B | FPGA Bank 503 | PSCONFIG | 7 | DONE | Red LED, D1 |
| 8 | PS_LP0V85 | Voltage Regulator, U12 |
| 9 | DDR_2V5 | Voltage Regulator, U4 |
| 10 | PS_AVCC | Voltage Regulator, U9 |
| 11 | DDR_1V2 | Voltage Regulator, U15 |
| 12 | PS_AVTT | Voltage Regulator, U3 |
| 13 | PS_FP0V85 | Voltage Regulator, U26 |
| 14 | POR_B | Voltage Translator, U19 |
| 15 | PS_PLL | Voltage Regulator, U23 |
| 16 | PL_VCCINT | Voltage Regulator, U5 |
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On-board Peripherals
Notes : - add subsection for every component which is important for design, for example:
- Two 100 Mbit Ethernet Transciever PHY
- USB PHY
- Programmable Clock Generator
- Oscillators
- eMMCs
- RTC
- FTDI
- ...
- DIP-Switches
- Buttons
- LEDs
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Notes : In the on-board peripheral table "chip/Interface" must be linked to the corresponding chapter or subsection |
Quad SPI Flash Memory
Notes : Minimum and Maximum density of quad SPI flash must be mentioned for other assembly options. |
The TE0821 is equipped with dual Flash Memory, U7, U17. Two quad SPI compatible serial bus flash MT25QU512ABB8E12-0SIT memory chips are provided for FPGA configuration file storage. After configuration completes the remaining free memory can be used for application data storage. All four SPI data lines are connected to the FPGA allowing x1, x2 or x4 data bus widths to be used. The maximum data transfer rate depends on the bus width and clock frequency.
Pin | Schematic | Notes |
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U7 Pin | U17 Pin |
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nCS | MIO5 | MIO7 |
| CLK | MIO0 | MIO12 |
| DI/IO0 | MIO4 | MIO8 |
| DO/IO1 | MIO1 | MIO9 |
| nHOLD/IO3 | MIO3 | MIO11 |
| WP/IO2 | MIO2 | MIO10 |
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EEPROM
There is a 2Kb EEPROM provided on the module TE0821.
MIO Pin | Schematic | U25 Pin | Notes |
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MIO39 | I2C_SDA | SDA |
| MIO38 | I2C_SCL | SCL |
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MIO Pin | I2C Address | Designator | Notes |
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MIO38...39 | 0x50 | U25 |
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LEDs
Designator | Color | Connected to | Active Level | Note |
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D1 | Red | DONE | Low |
| D2 | Green | USR_LED | High |
| D3 | Red | ERR_OUT | High |
| D4 | Green | ERR_STATUS | High |
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DDR4 SDRAM
Notes : Minimum and Maximum density of DDR3 SDRAM must be mentioned for other assembly options. (pay attention to supported address length for DDR3) |
The TE0821 SoM has dual 8 Gb volatile DDR4 SDRAM IC for storing user application code and data.
- Part number: K4A8G165WB-BIRC
- Supply voltage: 1.2V
- Speed: 2400 Mbps
- Temperature: -40 ~ 95 °C
System Controller CPLD
The System Controller CPLD (U21) is provided by Lattice Semiconductor LCMXO2-256HC (MachXO2 product family). It is the central system management unit with module specific firmware installed to monitor and control various signals of the FPGA, on-board peripherals, I/O interfaces and module as a whole.
See also TE0821 System Controller CPLD page.
GigaBit Ethernet
On-board Gigabit Ethernet PHY (U8) is provided with Marvell Alaska 88E1512 IC (U8). The Ethernet PHY RGMII interface is connected to the ZynqMP Ethernet3 PS GEM3. I/O voltage is fixed at 1.8V for HSTL signaling. The reference clock input of the PHY is supplied from an on-board 25.00 MHz oscillator (U11).
Pin | Schematic | Connected to | Note |
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MDIP0...3 | PHY_MDI0...3 | B2B, JM1 |
| MDC | ETH_MDC | MIO76 |
| MDIO | ETH_MDIO | MIO77 |
| S_IN | S_IN | B2B, JM3 |
| S_OUT | S_OUT | B2B, JM3 |
| TXD0..3 | ETH_TXD0...3 | MIO65...68 |
| TX_CTRL | ETH_TXCTL | MIO69 |
| TX_CLK | ETH_TXCK | MIO64 |
| RXD0...3 | ETH_RXD0...3 | MIO71...74 |
| RX_CTRL | ETH_RXCTL | MIO75 |
| RX_CLK | ETH_RXCK | MIO70 |
| LED0...2 | PHY_LED0...2 | FPGA Bank 66 |
| RESETn | ETH_RST | MIO24 |
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USB2.0 Transceiver
Hi-speed USB ULPI PHY (U18) is provided with USB3320 from Microchip. The ULPI interface is connected to the Zynq PS USB0 via MIO52..63, bank 502. The I/O voltage is fixed at 1.8V and PHY reference clock input is supplied from the on-board 52.00 MHz oscillator (U14).
eMMC Flash Memory
eMMC Flash memory device(U6) is connected to the ZynqMP PS MIO bank 500 pins MIO13..MIO23. eMMC chips IS21ES08G-JCLI (FLASH - NAND Speicher-IC (64 Gb x 1) MMC ) is used.
Clock Sources
Designator | Description | Frequency | Note |
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U11 | MEMS Oscillator | 25 MHz |
| U14 | MEMS Oscillator | 52 MHz |
| U32 | MEMS Oscillator | 80 MHz |
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Programmable Clock Generator
There is a Silicon Labs I2C programmable clock generator Si5338A (U10) chip on the module. It's output frequencies can be programmed using the I2C bus address 0x70 or 0x71. Default address is 0x70, IN4/I2C_LSB pin must be set to high for address 0x71.
A 25.00 MHz oscillator is connected to the pin IN3 and is used to generate the output clocks. The oscillator has its output enable pin permanently connected to 1.8V power rail, thus making output frequency available as soon as 1.8V is present. Three of the Si5338 clock outputs are connected to the FPGA. One is connected to a logic bank and the other two are connected to the GTR banks.
Once running, the frequency and other parameters can be changed by programming the device using the I2C bus connected between the FPGA (master) and clock generator (slave). For this, proper I2C bus logic has to be implemented in FPGA.
U25 Pin | Signal | Connected to | Direction | Note |
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IN0..1 | CLK_IN | JM3 | IN |
| IN2 | CLK_25M | Oscillator, U11 | IN |
| SCL | I2C_SCL | EEPROM,U25 | INOUT |
| SDA | I2C_SDA | EEPROM,U25 | INOUT |
| CLK0 | CLK0 | JM3 | OUT |
| CLK1 | B505_CLK3 | FPGA Bank 505 | IN |
| CLK2 | B505_CLK1 | FPGA Bank 505 | IN |
| CLK3 | CLK3_N |
| IN |
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Power and Power-On Sequence
In 'Power and Power-on Sequence' section there are three important digrams which must be drawn: - Power on-sequence
- Power distribution
- Voltage monitoring circuit
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Power Supply
Power supply with minimum current capability of 3 A for system startup is recommended.
Power Consumption
Power Input Pin | Typical Current |
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VIN | TBD* | 3.3VIN | TBD* |
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* TBD - To Be Determined
Power Distribution Dependencies
Power-On Sequence
Power Rails
Power Rail Name | B2B JM1 Pin | B2B JM2 Pin | Direction | Notes |
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VIN | 1, 3, 5 | 2, 4, 6, 8 | Input | Supply voltage from the carrier board | 3.3V | - | 10, 12 | Output | Internal 3.3V voltage level | 3.3VIN | 13, 15 | - | Input | Supply voltage from the carrier board | 1.8V | 39 | - | Output | Internal 1.8V voltage level | JTAG VREF | - | 91 | Output | JTAG reference voltage. Attention: Net name on schematic is "3.3VIN" | VCCO_64 | - | 7, 9 | Input | High performance I/O bank voltage | VCCO_65 | - | 5 | Input | High performance I/O bank voltage | VCCO_66 | 9, 11 | - | Input | High performance I/O bank voltage |
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Bank Voltages
FPGA Bank | Schematic | Voltage | Note |
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Bank 24 HD | VCCO_HD24_24 | Variable | Max voltage 3.3V | Bank 25 HD |
| Variable | Max voltage 3.3V | Bank 26 HD | VCCO_HD25_26 | Variable | Max voltage 3.3V | Bank 44 HD | VCCO_HD24_44 | Variable | Max voltage 3.3V | Bank 65 HP | VCCO_65 | Variable | Max voltage 1.8V | Bank 66 HP | VCCO_66 | 1.8V |
| Bank 500 PSMIO | VCCO_PSIO0_500 | 1.8V |
| Bank 501 PSMIO | VCCO_PSIO1_501 | 3.3V |
| Bank 502 PSMIO | VCCO_PSIO2_502 | 1.8V |
| Bank 503 PSCONFIG | VCCO_PSIO3_503 | 1.8V |
| Bank 504 PSDDR | DDR_1V2 | 1.2V |
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Board to Board Connectors
- This section is optional and only for modules.
use "include page" macro and link to the general B2B connector page of the module series, For example: 6 x 6 SoM LSHM B2B Connectors
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Technical Specifications
Absolute Maximum Ratings
Description | Min | Max | Unit | Notes |
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VIN supply voltage | -0.3 | 7 | V | See EN6347QI and TPS82085SIL datasheets | 3.3VIN supply voltage | -0.1 | 3.630 | V | Xilinx DS925 and TPS27082L datasheet | PS I/O supply voltage, VCCO_PSIO | -0.5 | 3.630 | V | Xilinx document DS925 | PS I/O input voltage | -0.5 | VCCO_PSIO + 0.55 | V | Xilinx document DS925 | HP I/O bank supply voltage, VCCO | -0.5 | 2.0 | V | Xilinx document DS925 | HP I/O bank input voltage | -0.55 | VCCO + 0.55 | V | Xilinx document DS925 | PS GTR reference clocks absolute input voltage | -0.5 | 1.1 | V | Xilinx document DS925 | PS GTR absolute input voltage | -0.5 | 1.1 | V | Xilinx document DS925 | Voltage on SC CPLD pins | -0.5 | 3.75 | V | Lattice Semiconductor MachXO2 datasheet | Storage temperature | -40 | +85 | °C | See eMMC datasheet |
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Recommended Operating Conditions
Operating temperature range depends also on customer design and cooling solution. Please contact us for options.
Parameter | Min | Max | Units | Reference Document |
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VIN supply voltage | 3.3 | 6 | V | See TPS82085S datasheet | 3.3VIN supply voltage | 3.3 | 3.465 | V | See LCMXO2-256HC, Xilinx DS925 datasheet | PS I/O supply voltage, VCCO_PSIO | 1.710 | 3.465 | V | Xilinx document DS925 | PS I/O input voltage | –0.20 | VCCO_PSIO + 0.20 | V | Xilinx document DS925 | HP I/O banks supply voltage, VCCO | 0.950 | 1.9 | V | Xilinx document DS925 | HP I/O banks input voltage | -0.20 | VCCO + 0.20 | V | Xilinx document DS925 | Voltage on SC CPLD pins | -0.3 | 3.6 | V | Lattice Semiconductor MachXO2 datasheet | Operating Temperature Range | 0 | 85 | °C | Xilinx document DS925, extended grade Zynq temperarure range |
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Physical Dimensions
PCB thickness: 1.74 mm.
Currently Offered Variants
Revision History
Hardware Revision History
Date | Revision | Changes | Documentation Link |
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2019-04-26 | REV01 | | REV01 |
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Hardware revision number can be found on the PCB board together with the module model number separated by the dash.
Document Change History
- Note this list must be only updated, if the document is online on public doc!
- It's semi automatically, so do following
Add new row below first Copy "Page Information Macro(date)" Macro-Preview, Metadata Version number, Author Name and description to the empty row. Important Revision number must be the same as the Wiki document revision number Update Metadata = "Page Information Macro (current-version)" Preview+1 and add Author and change description. --> this point is will be deleted on newer pdf export template - Metadata is only used of compatibility of older exports
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Date | Revision | Contributor | Description |
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| | | | -- | all | | |
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Disclaimer