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Overview
The Trenz Electronic TEB2000 carrier board provides functionality for development, evaluation and testing purposes of Trenz 4 x 5 cm SoMs (System on Module).
The carrier board is equipped with a broad range of various components and connectors for different configuration setups and needs. On-module functional components and multipurpose I/Os of the SoM's PL and PS logic are connected via board-to-board connectors to the carrier board components and connectors for easy user access.
See page "4 x 5 SoM Carriers" for more information about the SoM's supported by the TE0703 Carrier Board.
Refer to http://trenz.org/teb2000-info (Links is correct, url should be redirect to Resources Page, but is not) for the latest online version of this manual and other available documentation.
Key Features
- On Board:
- System Controller (SC) (LCMXO2-1200HC-4TG144I1))
- Mini USB for JTAG and UART connection (FTDI FT2232H), compatible with AMD and other vendor development tools
- Mini USB second UART connection (FTDI FT230XQ)
- SDIO port expander
- 4 x User LEDs
- D1 and D2 are connected to the SC, their function depends on the firmware
- D3 and D4 are connected to the SC and the 4 x 5 SoM and can be directly controlled by it
- 2 x User push button
- Connected to the SC, the fuction is firmware depend
- Currently used for Hard and Soft -Reset
- 4 User DIP switches
- Enable/disable update of the SC
- MIO0 (readable signal by SC and SoM)
- 2 "mode" bits
- System Controller (SC) (LCMXO2-1200HC-4TG144I1))
- Interface:
- Trenz 4 x 5 SoM socket
- 3 x Samtec LSHM series high-speed connectors
- Micro SD card connector
- 2 x VG96 backplane connectors (mounting holes and solder pads)
- Mini or Normal USB for SoM USB-OTG connection 1)
- RJ45 GbE connector
- Trenz 4 x 5 SoM socket
- Power:
- Overvoltage-, undervoltage- and reversed- supply-voltage-protection
- Barrel jack for 5V power supply input
- Dimension:
- 100 mm x 64.5 mm
- Notes
- 1) Depends on assembly variant
Block Diagram
Main Components
U1, USB Power Supply Switch
U2, SDIO Port Expander
U3, DCDC
U4, U12, USB-to-JTAG/UART-FTDI
U5, System Controller (SC) CPLD
U7, I²C Repeater
U8, UART LEVEL Shifter
U11, Power Input Protection
S1, Push button Reset
S2, 4x Dip Switches
S6, Push button Soft Reset
J1, J2, Footprint for VG96 Connector / VG96 Connector
J3, Socket microSD Card
J4, Mini USB Type B jack (FT2232H)
J5, J8, J9, J10, Jumper Bank IO Voltages
J6, or J12, USB Host Connector, either a USB A jack or a Micro USB
J13, +5V power jack
J14, Ethernet jack
J21, Mini USB Type B jack (FT230XQ)
Dx, U-LED red and green (D1, D2), F-LED red and green (D3, D4)
Initial Delivery State
Storage device name | Content | Notes |
---|---|---|
EEPROM | Preprogrammed with AMD programmer license | Do not overwrite! |
System Controller CPLD | Preprogrammed with SC CPLD Firmware | The Firmware sources are available for modification to your needs. Visit TE0703 Firmware for further information. |
The carrier is shipped in the following configuration:
- VCCIO -A/B/C/D voltage selection jumpers are all set to 1.8 V.
- SD IO Voltage jumper J11 is set to 1.8 V.
- VBat jumper J7 is set to gnd.
- Switch S1 configured as reset button in CPLD.
- The Base Board is shipped with two VG96 backplane connectors, which are not soldered.
- S2 DIP switches are configured as follows:
Switch Position Signal name Description S2-1 OFF CM1 PGOOD signal active state set to high.
S2-2 ON CM0 FPGA access to SoM.
See TE0703 Firmware section "JTAG" for access options.
S2-3
ON JTAGEN S2-4 ON MIO0 Boot source set to SD Card.
See TE0703 Firmware section "Boot Mode" for access options.
Signals, Interfaces and Pins
Connectors
Connector Type | Designator | ConnectionEndpoint | Interface | IO CNT | Notes |
---|---|---|---|---|---|
VG96 | J1 | JB1 | IO | 48 SE / 24 DIFF | To SoM via JB1 |
3x 2.54 mm Pin Header | J7 | JB1 | Battery Voltage | 1 | To SoM via JB1. 1.2 to 1.5 Volt |
RJ-45 Ethernet | J14 | JB1 | Ethernet | 8 | Gbit capable, Phy MDI to SoM, LEDs to SC |
VG96 | J2 | JB2 | IO | 48 SE / 24 DIFF | To SoM via JB2 |
VG96 | J2 | JB2 | IO | 18 SE / 9 DIFF | To SoM via JB2 |
VG96 | J1 | JB3 | IO | 36 SE / 18 DIFF | To SoM via JB3 |
Micro USB Type A/B or USB Type A | Exclusive J6 or J12 | JB3 | USB 2.0 OTG | 3 | To SoM, Data ± and ID. Only on USB jack possible |
VG96 | J2 | SC | IO | 18 | To SC X0 unto X17 |
B2B | JB2 | SC | JTAG | 4 | To SC |
B2B | JB2 | SC | Reset, RESIN | 1 | To SC |
Mini USB Type B | J4 | SC | USB 2.0 | 2 | To Carrier FTDI |
Mini USB Type B | J21 | SC | USB 2.0 | 2 | To Carrier FTDI |
B2B | JB1 | SC | UART | 2 | UART to SoM for application |
B2B | JB1 | SC | UART | 2 | UART to SoM for HSS/System Boot |
microSD Card socket | J3 | SC or SoM | SD | 6 | |
VG96 | J1 | SoM and SC | I²C | 2 | To SoM via JB1and SC |
Test Points
Test Point | Signal | Direction 1) | Notes |
---|---|---|---|
TP1 | 5VIN | IN | Carrier supply voltage |
TP2 | 5VIN | IN | Carrier supply voltage |
TP3 | VIN | IN | Carrier supply voltage after protection circuit |
TP4 | VIN | IN | Carrier supply voltage after protection circuit |
TP5 | 3.3V | OUT | Carrier generated |
TP6 | 3.3V | OUT | Carrier generated |
TP7 | VCCIOA | IN | IO Voltage, generted by SoM |
TP8 | VCCIOA | IN | IO Voltage, generted by SoM |
TP9 | VCCIOB | IN | IO Voltage, generted by SoM |
TP10 | VCCIOB | IN | IO Voltage, generted by SoM |
TP11 | VCCIOC | IN | IO Voltage, generted by SoM |
TP12 | VCCIOC | IN | IO Voltage, generted by SoM |
TP13 | VCCIOD | IN | IO Voltage, generted by SoM |
TP14 | VCCIOD | IN | IO Voltage, generted by SoM |
TP15 | M1.8VOUT | IN | IO Voltage, generted by SoM |
TP16 | M1.8VOUT | IN | IO Voltage, generted by SoM |
TP17 | M3.3VOUT | IN | IO Voltage, generted by SoM |
TP18 | M3.3VOUT | IN | IO Voltage, generted by SoM |
TP19 | UART_VBUS | IN | Carrier USB Bus Voltage |
TP20 | UART_VBUS | IN | Carrier USB Bus Voltage |
TP21 | VCCJTAG | IN | JTAG Reference Voltage generated, by the SoM |
TP22 | VCCJTAG | IN | JTAG Reference Voltage generated, by the SoM |
TP23 | 3.3V_SD | OUT | Carrier microSD card Voltage |
TP24 | 3.3V_SD | OUT | Carrier microSD card Voltage |
TP25 | USB-VBUS_R | OUT | Carrier USB Bus Voltage |
TP26 | USB-VBUS_R | OUT | Carrier USB Bus Voltage |
TP27 | ETH-VCC | IN | |
TP28 | ETH-VCC | IN | |
TP29 | Vbus | IN | External/FTDI USB Bus Voltage |
TP30 | Vbus | IN | External/FTDI USB Bus Voltage |
TP31 | CM1 | IN | DIP Switches |
TP32 | CM0 | IN | |
TP33 | MIO0 | IN | |
TP34 | JTAGEN | IN |
1) Direction:
- IN: Input from the point of view of this board.
- OUT: Output from the point of view of this board.
On-board Peripherals
Chip/Interface | Designator | Connected To | Notes |
---|---|---|---|
System Controller | U5 |
| The Firmware sources are available for modification to your needs. Visit TEB2000 CPLD Firmware for further information. |
FTDI FT2232H | U4 |
| UART for Application |
EEPROM | U10 |
| Preprogrammed with AMD programmer license. Do not overwrite! |
FTDI FT230XQ | U12 |
| UART for HSS/System Boot |
Oscillator | U6 |
| 12 MHz |
SD IO Port Expander | U2 |
|
Configuration and System Control Signals
Physical defined Signals | |||||
---|---|---|---|---|---|
Connector.Pin | Signal Name | Endpoint | Direction1) | Description | |
S1.2 / S1.4 | S1 | SC.BANK-0.114 | IN | Reset push button. | Functions are firmware dependant. |
S6.2 / S2.4 | SRST | JB3.56 | OUT | Soft reset push button for SoM. | |
S2.1 | CM1 | SC.BANK-1.75 | IN | ||
S2.2 | CM0 | SC.BANK-1.76 | IN | ||
S2.3 | JTAGEN | SC.BANK-0.120 | IN | ||
S2.4 | MIO0 | JB1.88 | IN | ||
J5.2 | VCCIOA | JB1.10 / JB1.12 / J1B.VCCIOA | INOUT | ||
J8.2 | VCCIOB | JB2.2 / JB2.4 / J1B.VCCIOB | INOUT | ||
J9.2 | VCCIOC | JB2.6 / J2B.VCCIOC | INOUT | ||
J10.2 | VCCIOD | JB2.8 / JB2.10 / J2B.VCCIOD | INOUT | ||
J3.9 | SD_CD | SC.Bank-1.93 | IN | SD Card socket Interrupt Signal |
Software defined Signals | ||||
---|---|---|---|---|
Connector.Pin | Signal Name | Endpoint | Direction1) | Description |
JB3.54 | VBUS_V_EN | U1.4 | IN | Enable from SoM |
JB3.56 | USB-VBUS | U1.8 → R5 (12K) → JB3.56 | OUT | Signal to SoM |
U1.5 | USB_OC | SC.BANK-1.73 | IN | Signal to SC |
JB2.17 | RESIN | SC.BANK-0.119 | INOUT | Between SoM and SC |
JB1.27 | EN1 | SC.BANK-1.81 | INOUT | Between SoM and SC |
JB1.29 | PGOOD | SC.BANK-1.82 | INOUT | Between SoM and SC |
JB1.31 | MODE | SC.BANK-1.83 | INOUT | Between SoM and SC |
JB1.8 | NOSEQ | SC.BANK-1.78 | INOUT | Between SoM and SC |
JB1.90 | PROGMODE | SC.BANK-1.104 | INOUT | Between SoM and SC |
JB1.91 / JB1.86 | MIO14 / MIO15 | To SC.Bank-1.105 / SC.Bank-1.95 | INOUT | UART to SoM |
JB1.100 / 98 | MIO12 / MIO13 | To SC.Bank-1.100 / SC.Bank-1.99 | INOUT | Second UART to SoM |
J1A.MIO10-SCL / J1A.MIO11-SDA | MIO10-SCL / MIO10 MIO10-SDA / MIO11 | JB1.96 / SC.Bank-1.MIO10 | INOUT | I2C with 5.1 kOhm pull-up resistors. To SoM and SC |
1) Direction:
- IN: Input from the point of view of this board.
- OUT: Output from the point of view of this board.
Power and Power-On Sequence
Power Rails
Power Rail Name/ Schematic Name | Connector + Pin | Direction1) | Notes |
---|---|---|---|
5VIN | J13.1 | IN | |
5VIN | J2A.5VIN | OUT | |
3.3V | J1C.3.3V / J2C.3.3V / JB1.2 / JB1.4/ JB1.6/ JB1.14/ JB1.16 / JB2.1 / JB2.3 / JB2.5 / JB2.7 | OUT | |
USB-VBUS | J6.1 / J12.1 / JB3.56 | OUT | |
M1.8VOUT | JB1.40 / J11.1 | IN | From SoM |
M1.8VOUT | J5.3 / J8.3 / J9.3 / J10.3 / J11.1 | OUT | |
M3.3VOUT | JB2.9 / JB2.11 | IN | From SoM |
M3.3VOUT | J5.1 / J8.1 / J9.1 / J10.1 / J1C.M3.3VOUT / J2C.M3.3VOUT; | OUT | |
VCCJTAG | JB2.92 | IN | From SoM |
ETH-VCC | JB1.13 | IN | From SoM |
VCCIOA | JB1.10 / JB1.12 | IN | AMD SoM abhängig |
VCCIOA | J5.2 / J1B.VCCIOA | OUT | Use jumper J5 to select between M1.8VOUT or M3.3VOUT. |
VCCIOB | JB2.2 / JB2.4 | IN | AMD SoM abhängig |
VCCIOB | J8.2 / J1B.VCCIOB | OUT | Use jumper J8 to select between M1.8VOUT or M3.3VOUT. |
VCCIOC | JB2.6 | IN | AMD SoM abhängig |
VCCIOC | J9.2 / J2.VCCIOC | OUT | Use jumper J9 to select between M1.8VOUT or M3.3VOUT. |
VCCIOD | JB2.8 / JB2.10 | IN | AMD SoM abhängig |
VCCIOD | J10.2 / J2.VCCIOD | OUT | Use jumper J10 to select between M1.8VOUT or M3.3VOUT. |
1) Direction:
- IN: Input from the point of view of this board.
- OUT: Output from the point of view of this board.
Recommended Power up Sequencing
Sequence | Net name | Recommended Voltage Range | Pull-up/down | Description | Notes |
---|---|---|---|---|---|
0 | - | - | - | Configuration signal setup. | See Configuration and System Control Signals. |
1 | 5VIN | 5V (± 5 %) | - | Main Power supply via J13 Barrel Plug 2.1 mm. | Carrier and SoM power supply. Power consumption depends mainly on design and cooling solution. |
2 | M3.3VOUT (JB2, 9, 11) | 3.3 V (± 3 %) Schematic | - | SoM generated voltage, | |
3 | - | - | - | Apply voltages to Carrier powered external IO when voltages under point 2 are present. |
Board to Board Connectors
These connectors are hermaphroditic. Odd pin numbers on the module are connected to even pin numbers on the baseboard and vice versa.
4 x 5 modules use two or three Samtec Razor Beam LSHM connectors on the bottom side.
- 2 x REF-189016-02 (compatible to LSHM-150-04.0-L-DV-A-S-K-TR), (100 pins, "50" per row)
- 1 x REF-189017-02 (compatible to LSHM-130-04.0-L-DV-A-S-K-TR), (60 pins, "30" per row) (depending on module)
Connector Mating height
When using the same type on baseboard, the mating height is 8mm. Other mating heights are possible by using connectors with a different height
Order number | Connector on baseboard | compatible to | Mating height |
---|---|---|---|
23836 | REF-189016-01 | LSHM-150-02.5-L-DV-A-S-K-TR | 6.5 mm |
LSHM-150-03.0-L-DV-A-S-K-TR | LSHM-150-03.0-L-DV-A-S-K-TR | 7.0 mm | |
23838 | REF-189016-02 | LSHM-150-04.0-L-DV-A-S-K-TR | 8.0 mm |
LSHM-150-06.0-L-DV-A-S-K-TR | LSHM-150-06.0-L-DV-A-S-K-TR | 10.0mm | |
26125 | REF-189017-01 | LSHM-130-02.5-L-DV-A-S-K-TR | 6.5 mm |
LSHM-130-03.0-L-DV-A-S-K-TR | LSHM-130-03.0-L-DV-A-S-K-TR | 7.0 mm | |
24903 | REF-189017-02 | LSHM-130-04.0-L-DV-A-S-K-TR | 8.0 mm |
LSHM-130-06.0-L-DV-A-S-K-TR | LSHM-130-06.0-L-DV-A-S-K-TR | 10.0mm |
The module can be manufactured using other connectors upon request.
Connector Speed Ratings
The LSHM connector speed rating depends on the stacking height; please see the following table:
Stacking height | Speed rating |
---|---|
12 mm, Single-Ended | 7.5 GHz / 15 Gbps |
12 mm, Differential | 6.5 GHz / 13 Gbps |
5 mm, Single-Ended | 11.5 GHz / 23 Gbps |
5 mm, Differential | 7.0 GHz / 14 Gbps |
Current Rating
Current rating of Samtec Razor Beam™ LSHM B2B connectors is 2.0A per pin (2 adjacent pins powered).
Connector Mechanical Ratings
- Shock: 100G, 6 ms Sine
- Vibration: 7.5G random, 2 hours per axis, 3 axes total
Manufacturer Documentation
File | Modified | |
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PDF File hsc-report_lshm-lshm-05mm_web.pdf High speed test report | 07 04, 2016 by Thorsten Trenz | |
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PDF File lshm_dv.pdf LSHM catalog page | 07 04, 2016 by Thorsten Trenz | |
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PDF File LSHM-1XX-XX.X-X-DV-A-X-X-TR-FOOTPRINT(1).pdf Recommended layout and stencil drawing | 07 04, 2016 by Thorsten Trenz | |
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PDF File LSHM-1XX-XX.X-XX-DV-A-X-X-TR-MKT.pdf Technical drawing | 07 04, 2016 by Thorsten Trenz | |
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PDF File REF-189016-01.pdf Technical Drawing | 07 04, 2016 by Thorsten Trenz | |
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PDF File REF-189016-02.pdf Technical Drawing | 07 04, 2016 by Thorsten Trenz | |
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PDF File REF-189017-01.pdf Technical Drawing | 07 04, 2016 by Thorsten Trenz | |
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PDF File REF-189017-02.pdf Technical Drawing | 07 04, 2016 by Thorsten Trenz | |
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PDF File TC0923--2523_report_Rev_2_qua.pdf Design qualification test report | 07 04, 2016 by Thorsten Trenz | |
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PDF File tc0929--2611_qua(1).pdf Shock and vibration report | 07 04, 2016 by Thorsten Trenz | |
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Technical Specifications
Absolute Maximum Ratings *)
Power Rail / Schematic Name | Description | Min | Max | Unit | Notes |
---|---|---|---|---|---|
5VIN | Carrier supply voltage rail before the input voltage protection activates. | 0 | 12 | V | Voltages in the range 4.06 to 5.58 V will trigger the input protection. |
VCCIOA | Intended as Supply Voltage for a SoM IO Bank. Connects the external VG96 IO to the SoM. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | - | - | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
VCCIOB | Intended as Supply Voltage for a SoM IO Bank. Connects the external VG96 IO to the SoM. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | - | - | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
VCCIOC | Supplies SC IO Bank 2. Connects the external VG96 IO to the SoM and the Carrier SC. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | -0.5 | 3.75 | V | Limited by Absolute Maximum Values of the Sc. |
VCCIOD | Intended as Supply Voltage for a SoM IO Bank. Connects the external VG96 IO to the SoM. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | - | - | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
M1.8VOUT | SoM supplied voltage. Range based on Carrier (± 3 %). Consult SoM requirements. | -0.3 | M3.3VOUT +0.3 V | V | Voltage limited by Q1/MP5077GG-Z Enabled Pin. –0.3V to Vcc +0.3 V Connected SD cards might be destroyed above 1.95 V. |
M3.3VOUT | SoM supplied voltage. Range based on Carrier (± 3 %). Consult SoM requirements. | -0.5 | 4.6 | V | Limited by U2/TXS02612RTWR. Connected SD cards might be destroyed above 3.6 V. |
VCCJTAG | Supplies SC IO Bank 3. JTAG Reference Voltage from SoM. Consult SoM documentation. | -0.5 | 3.75 | V | |
ETH-VCC | ETH Bias Voltage from SoM. Consult SoM documentation. | - | - | V |
*) Stresses beyond those listed under TEB2000 TRM - New Carrier-Board may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these
or any other conditions beyond those indicated under TEB2000 TRM - New Carrier-Board. Exposure to absolute-maximum rated conditions for extended periods may affect device reliability.
Recommended Operating Conditions
Temperature Range:
This carrier board is capable to be operated at industrial grade temperatures.
- Modules with industrial temperature grade are equipped with components that cover at least the range of -40°C to 85°C
Please check the operating temperature range of the mounted SoM and peripheral devices, which determines the operating temperature range of the overall system.
The Operating temperature range depends also on customer design and cooling solution. Please contact us for options.
Voltage Rails:
Power Rail / Schematic Name | Description | Min | Max | Unit | Notes |
---|---|---|---|---|---|
5VIN | Carrier supply voltage rail before the input voltage protection activates. | 4.75 | 5.25 | V | Tolerance is ±5 %. |
VCCIOA | Intended as Supply Voltage for a SoM IO Bank. Connects the external VG96 IO to the SoM. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | 1.75 | 3.4 | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
VCCIOB | Intended as Supply Voltage for a SoM IO Bank. Connects the external VG96 IO to the SoM. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | 1.75 | 3.4 | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
VCCIOC | Supplies SC IO Bank 2. Connects the external VG96 IO to the SoM and the Carrier SC. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | 1.2 | 3.4 | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
VCCIOD | Intended as Supply Voltage for a SoM IO Bank. Connects the external VG96 IO to the SoM. Dependent on Carrier and SoM combination, their settings and your external IO devices connected to VG96. | 1.75 | 3.4 | V | Voltage intended to be supplied by either M1.8VOUT or M3.3VOUT. |
M1.8VOUT | SoM supplied voltage. | 1.75 | 1.85 | V | Tolerance is ±3 %. |
M3.3VOUT | SoM supplied voltage. Range based on Carrier. Consult SoM requirements. | 3.2 | 3.4 | V | Tolerance is ±3 %. |
VCCJTAG | Supplies SC IO Bank 3. JTAG Reference Voltage from SoM. Consult SoM documentation. | 1.2 | 3.3 | V | Values from Schematic. |
ETH-VCC | ETH Bias Voltage from SoM. Consult SoM documentation. | - | - | V |
Physical Dimensions
Carrier size: 100 mm x 64.5 mm.
Note that few parts are slightly hanging over the PCB edge. Please download the assembly diagram for exact numbers.Mating height with standard connectors: 8 mm.
PCB thickness: 1.64 mm ± 10 %.
Currently Offered Variants
Trenz shop TEXXXX overview page | |
---|---|
English page | German page |
Revision History
Hardware Revision History
Hardware revision number can be found on the PCB board together with the module model number separated by the dash.
Create DrawIO object here: Attention if you copy from other page, objects are only linked.
Date | Revision | Changes | PCN Link | Documentation Link |
---|---|---|---|---|
2023-10-01 | Initial Revision |
Hardware revision number can be found on the PCB board together with the module model number separated by the dash.
Document Change History
Date | Revision | Contributor | Description |
---|---|---|---|
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Disclaimer
Data Privacy
Please also note our data protection declaration at https://www.trenz-electronic.de/en/Data-protection-Privacy
Document Warranty
The material contained in this document is provided “as is” and is subject to being changed at any time without notice. Trenz Electronic does not warrant the accuracy and completeness of the materials in this document. Further, to the maximum extent permitted by applicable law, Trenz Electronic disclaims all warranties, either express or implied, with regard to this document and any information contained herein, including but not limited to the implied warranties of merchantability, fitness for a particular purpose or non infringement of intellectual property. Trenz Electronic shall not be liable for errors or for incidental or consequential damages in connection with the furnishing, use, or performance of this document or of any information contained herein.
Limitation of Liability
In no event will Trenz Electronic, its suppliers, or other third parties mentioned in this document be liable for any damages whatsoever (including, without limitation, those resulting from lost profits, lost data or business interruption) arising out of the use, inability to use, or the results of use of this document, any documents linked to this document, or the materials or information contained at any or all such documents. If your use of the materials or information from this document results in the need for servicing, repair or correction of equipment or data, you assume all costs thereof.
Copyright Notice
No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Trenz Electronic.
Technology Licenses
The hardware / firmware / software described in this document are furnished under a license and may be used /modified / copied only in accordance with the terms of such license.
Environmental Protection
To confront directly with the responsibility toward the environment, the global community and eventually also oneself. Such a resolution should be integral part not only of everybody's life. Also enterprises shall be conscious of their social responsibility and contribute to the preservation of our common living space. That is why Trenz Electronic invests in the protection of our Environment.
REACH, RoHS and WEEE
REACH
Trenz Electronic is a manufacturer and a distributor of electronic products. It is therefore a so called downstream user in the sense of REACH. The products we supply to you are solely non-chemical products (goods). Moreover and under normal and reasonably foreseeable circumstances of application, the goods supplied to you shall not release any substance. For that, Trenz Electronic is obliged to neither register nor to provide safety data sheet. According to present knowledge and to best of our knowledge, no SVHC (Substances of Very High Concern) on the Candidate List are contained in our products. Furthermore, we will immediately and unsolicited inform our customers in compliance with REACH - Article 33 if any substance present in our goods (above a concentration of 0,1 % weight by weight) will be classified as SVHC by the European Chemicals Agency (ECHA).
RoHS
Trenz Electronic GmbH herewith declares that all its products are developed, manufactured and distributed RoHS compliant.
WEEE
Information for users within the European Union in accordance with Directive 2002/96/EC of the European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment (WEEE).
Users of electrical and electronic equipment in private households are required not to dispose of waste electrical and electronic equipment as unsorted municipal waste and to collect such waste electrical and electronic equipment separately. By the 13 August 2005, Member States shall have ensured that systems are set up allowing final holders and distributors to return waste electrical and electronic equipment at least free of charge. Member States shall ensure the availability and accessibility of the necessary collection facilities. Separate collection is the precondition to ensure specific treatment and recycling of waste electrical and electronic equipment and is necessary to achieve the chosen level of protection of human health and the environment in the European Union. Consumers have to actively contribute to the success of such collection and the return of waste electrical and electronic equipment. Presence of hazardous substances in electrical and electronic equipment results in potential effects on the environment and human health. The symbol consisting of the crossed-out wheeled bin indicates separate collection for waste electrical and electronic equipment.
Trenz Electronic is registered under WEEE-Reg.-Nr. DE97922676.
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