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"
|
<!-- tables have all same width (web max 1200px and pdf full page(640px), flexible width or fix width on menu for single column can be used as before) -->
<style>
.wrapped{
width: 100% !important;
max-width: 1200px !important;
}
</style> |
----------------------------------------------------------------------- |
Note for Download Link of the Scroll ignore macro: |
Table of Contents |
Overview
The Trenz Electronic TEMB0005 is an industrial-grade carrier for the module TEM00005. The carrier is equipped with a Gigabit LAN socket, a USB2.0 interface, two different Samtec B2B Connectors, three Tiger Claw Samtec Dual Sockets, a PMod Connector, a pin header and a FTDI. Find more information in the FTDI sections.
Refer to http://trenz.org/temb0005-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
|
- Modules
- RAM/Storage
- On Board
- FT2232H FTDI
- 4x User LED
- 2x Push Button
- Interface
- 1x Samtec Razor Beam (SS5) B2B Connector
- 1x Samtec Razor Beam (SS4) B2B Connector
- 3x Samtec Tiger Claw Dual Socket for CRUVI Extension Card
- 1x PMod SMD (2x6) Connector
- 1x SMD Header (1x6)
- RJ45 LAN Socket
- Micro USB2.0 Connector
- Power
- Dimension
- Notes
Block Diagram
Main Components
Notes : - Picture of the PCB (top and bottom side) with labels of important components
- Add List below
|
- SMD Header 6x1, J3
- RJ45 LAN Socket, J1
- B2B Razor Beam Connector, J11
- Barrel Jack, J4
- Green LEDs, D1...4
- User Push Button, S2
- PMod 2x6 SMD Host Socket, J9
- FT2232H FTDI, U1
- Reset Push Button, S1
- Micro USB2.0 Socket, J2
- Red LED (PG_DCDC), D8
- Green LED (5VIN), D5
- B2B Mezzanine Connector, J5
- Dual Wipe Socket, J8
- Dual Wipe Socket, J7
- Dual Wipe Socket, J6
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 |
---|
EEPROM | Programmed | FTDI Confirguration |
|
Configuration Signals
- Overview of Boot Mode, Reset, Enables.
|
Signal | B2B | Connected to | Note |
---|
RESET | J11- 54 | B2B, J5 | General Reset | M_RESET | J11- 11 | Push Button, S1 | Module Reset |
|
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
|
Board to Board (B2B) I/Os
The carrier TEMB0005 is equipped with a Samtec Micro Blade B2B Connector. More information in the following table.
Designators | Interface | I/O Signal Count | Connected to | Notes |
---|
J11
| JTAG | 4x Single Ended | FTDI, U1 |
| GPIO | 24x Single Ended, 12x Differential Pairs | CRUVI B2B, J5 | A0...5, B0...5 (N/P) | GPIO | 8x Single Ended | CRUVI B2B, J6 | A_X0...7 | GPIO | 8x Single Ended | CRUVI B2B, J7 | B_X0...7 | GPIO | 8x Single Ended | CRUVI B2B, J8 | C_X0...7 | LEDs | 4x Single Ended | D1...4 | LED1...4 | I/O | 8x Single Ended | Pmod Header, J9 |
| Push Buttons | 2x Single Ended | Push Button, S1-S2 | M_RESET, Button | I2C | 4x Single Ended | CRUVI B2B, J6-J5 | 2x I2C Channels | ETH | 4x Single Ended, 2x Differential Pairs 2x Single Ended | RJ45 Socket, J1A RJ45 LEDs, J1B-J1C | 2x LAne Transmit and Receive Yellow and Green LEDs | UART | 2x Single Ended | FTDI, U1 | UART RX/TX | FTDI I/O | 2x Single Ended | FTDI, U1 | BDBUS2-BDBUS3 | CLK | 1x Single Ended 1x Single Ended | Oscillator, U8 CRUVI B2B, J5 | 30 MHz Reference Clock | Reset | 1x Single Ended 1x Single Ended | CRUVI B2B, J5 Push Button, S1 | RESET M_RESET | MODE | 1x Single Ended | CRUVI B2B, J5 |
| GPIO | 7x Single Ended | CRUVI B2B, J5 |
| Power Signal | 1x Single Ended | RED LED, D8
|
|
|
CRUVI B2B Connectors
The TEMB0005 is equipped with three Low Speed Connectors J6...8 and a High Speed Connector J5. These connectors are provided for CRUVI extension cards.
Speed | Designators | Schematic | Connected to | Notes |
---|
Low | J6 | A_X0...1 | B2B, J11 | GPIO |
| A_X2...5 | B2B, J11 | SC SPI |
| A_X6...7 | B2B, J11 | I2C0 SDA/SCL | J7 | B_X0...7 | B2B, J11 | GPIO | J8 | C_X0...7 | B2B, J11 | GPIO | High | J5 | A0...A5 (N/P) | B2B, J11 |
| B0...B5 (N/P) | B2B, J11 |
| MODE | B2B, J11 |
| RESET | B2B, J11 |
| SMB_ALERT SMB_SDA SMB_SCL | B2B, J11 |
| DI,DO,SCK,SEL | B2B, J11 | SPI | HSIO, HI, HO | B2B, J11 |
|
|
USB2.0 Socket
There is a USB2.0 Socket, J2 provided in order to communicate with the FTDI, U1. Data signals from USB2.0 are passed through a Line Filter L1 and a Diode U2 in order to be protected against inverse polarity connection.
Pin | Schematic | Connected to | Notes |
---|
ID | N.C | N.C |
| D+ | DL_P | FTDI, U1 | Through Line Filter, L1 | D- | DL_N | FTDI, U1 | Through Line Filter, L1 | Vbus | VBUS | Diode, U2 |
|
|
RJ45 LAN Socket
There is a RJ45 Ethernet LAN Socket, J1 connected to B2B, J11 via 2x channels data receive and transmit.
Pin | Schematic | Connected to | Notes |
---|
TD+ | ETH1_TX_P | B2B, J11 |
| TD- | ETH1_TX_N | B2B, J11 |
| RD+ | ETH1_RX_P | B2B, J11 |
| RD- | ETH1_RX_N | B2B, J11 |
| Green LED | ETH1_LED0 | B2B, J11 | Link/Activity indicator | Yellow LED | ETH1_LED1 | B2B, J11 | Speed indicator |
|
PMod Header
There is a PMod Header, J9 connected to the B2B, J11 and all signals are protected from invers polarity by two diodes D6, D7.
Schematic | Connected to | Notes |
---|
PM0...3 (N/P) | B2B, J11 |
|
|
Pin Header
There is a Pin Header 6x1, J3 provided for SPI signals.
Pin | Schematic | Connected to | Notes |
---|
1 | 3.3V | B2B, J11 |
| 2 | GND | B2B, J11 |
| 3 | SC_SDO | B2B, J11 |
| 4 | SC_SDI | B2B, J11 |
| 5 | SC_SS | B2B, J11 |
| 6 | SC_CLK | B2B, J11 |
|
|
UART
There is an UART channel provided in order to communicate with the module and signals are accessible via B2B, J11 through the FTDI, U1.
U1 Pin | Schematic | Connected to | Notes |
---|
BDBUS1 | UART1_TXD | B2B, J11 | FTDI receiver input | BDBUS0 | UART1_RXD | B2B, J11 | FTDI transmitter output |
|
JTAG Interface
JTAG access is provided through B2B connector J11 connected to the FTDI. For more information please refer to the FTDI section.
JTAG Signal | B2B Connector |
---|
TMS | J11-14 | TDI | J11-8 | TDO | J11-10 | TCK | J11-12 | JTAGSEL | J11-9 |
|
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 |
---|
10 | PWR_PL_OK | J2-120 |
|
|
Test Point | Signal | Connected to | Notes |
---|
TP1 | GOLDEN | B2B, J11 |
| TP2 | JTAGSEL | B2B, J11 |
| TP3 | PG_DCDC | B2B, J11 | Red LED, D8 | TP4 | VADJ | Regulator, U6 |
| TP5 | PROBE_B | B2B, J11 |
| TP6 | PROBE_A | B2B, J11 |
|
|
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
|
Notes : In the on-board peripheral table "chip/Interface" must be linked to the corresponding chapter or subsection |
EEPROM
There is an EEPROM IC, U3 provided for storing the FTDI (U1) configuration.
Pin | Schematic | Notes |
---|
DI/DO | EEDATA |
| CLK | EECLK |
| CS | EECS |
|
|
The EEPROM address is as the following.
I2C Address | Designator | Notes |
---|
0x70 | U3 |
|
|
Push Buttons
Designator | Schematic | Connected to | Functionality | Note |
---|
S1 | M_RESET | B2B, J11 | Reset | User LEDS | S2 | Button | BUTTON | User Button | Power Status LED |
|
LEDs
Designator | Color | Connected to | Active Level | Note |
---|
D1...D4 | Green | B2B, J11 | Active High | User LEDS | D5 | Green | 5VIN | Active High | Power Status LED | D6 | Red | PG_DCDC | Active Low |
|
|
Clock Sources
Designator | Description | Frequency | Note |
---|
U4 | MEMS Oscillator | 12 MHz |
| U8 | MEMS Oscillator | 30 MHz |
|
|
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
|
Power Supply
Power supply with minimum current capability of 2 A for system startup is recommended.
Power Consumption
Power Input Pin | Typical Current |
---|
5VIN | TBD* |
|
* TBD - To Be Determined
Power Distribution Dependencies
Power-On Sequence
Power Rails
Power Rail Name | B2B Connector J11 Pin | CRUVI Connector J6 Pin | B2B Connector J7 Pin | B2B Connector J8 Pin | Direction | Notes |
---|
3.3V | 1, 2, 3, 4 | 10 | 10 | 10 |
|
| 5VIN | - | 12 | 12 | 12 |
|
|
|
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
|
CRUVI B2B Connectors
Technical Specifications
Absolute Maximum Ratings
Symbols | Description | Min | Max | Unit |
---|
VIN | Input Supply Voltage | -5 | +5 | V | T_STG | Storage Temperature | -55 | 125 | °C |
|
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 |
---|
VIN | 4.06 | 5.58 | V | See the carrier datasheets. | T_OPT | -45 | 85 | °C |
|
|
Physical Dimensions
PCB thickness: 1.7 mm.
Currently Offered Variants
Revision History
Hardware Revision History
Date | Revision | Changes | Documentation Link |
---|
2020-05-20 | REV01 | Initial Release | --- |
|
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
|
Date | Revision | Contributor | Description |
---|
| | | | -- | all | | |
|
Disclaimer