Page History

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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

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anchor	Table_OBP
title	On board peripherals

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Quad SPI Flash Memory

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Notes : Minimum and Maximum density of quad SPI flash must be mentioned for other assembly options.

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anchor	Table_OBP_SPI
title	Quad SPI interface MIOs and pins

I/O Signal Count Voltage Level Notes Intel Cyclone 10 GX Bank 1C J3 12 Diff pair 0.95V GXBL1C_RX0...5 N/P, GXBL1C_TX0...5 N/P Bank 1D J3 12 Diff pair 0.95V GXBL1D_RX0...5 N/P, GXBL1D_TX0...5 N/P Bank 2A J2 2 Single ended 1.8V PERST, CLKUSR Bank 2J J2 46 Single ended (23 Diff pair) VCCIO2J Bank 2K J1 46 Single ended (23 Diff pair) VCCIO2K Bank 2L J1 48 Single ended (24 Diff pair) VADJ up to 3 V Bank 3A - - 1.35V VDD_DDR Bank 3B - - 1.35V VDD_DDR Intel Max 10 Bank 1A J2 8 Single ended 3.3V Bank 1B J2 5 Single ended 3.3V Bank 2 J3 1 Single ended 1.8VIO Bank 3 - - 1.8VIO Bank 5 J2 3 Single ended 3.3V Bank 6 J2 2 Single ended 3.3V Bank 8 J2 23 Single ended 3.3V

JTAG Interface

JTAG access to the TEI0006 SoM is through B2B connector J2. JTAGEN is pulled up to 3.3V and after power on, JTAG for MAX 10 CPLD is enabled. JTAG port of Cyclon 10 GX device is routed to MAX10 CPLD IOs. The default Firmware connects the JTAG port of the Cyclon 10 GX to the IO pins of the JTAG port in user IO mode. Setting JTAGEN to GND enables JTAG for the Cyclon 10 GX device.

Scroll Title
anchor Table_SIP_JTG title JTAG pins connection
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true JTAG Signal B2B Connector Note TMS J2-160 TDI J2-159 TDO J2-158 TCK J2-157 JTAGEN J2-105 Pulled up to 3.3V.

MIO Pins

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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 MIO12...14 SPI_CS , SPI_DQ0... SPI_DQ3 SPI_SCK J2 QSPI

Scroll Title
anchor Table_OBP_MIOs title MIOs pins
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true MIO Pin Connected to B2B Notes MAX_IO1...20, 22 U18 (Intel MAX 10) - Bank 8 J2 MAX_IO23, 25, 26 U18 (Intel MAX 10) - Bank 5 J2

On-board Peripherals

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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

Scroll Title
anchor Table_OBP title On board peripherals
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Chip/Interface Designator Notes QSPI Flash Memory U1 - U3 U1- AS configuration EEPROM U64 DDR3 SDRAM Memory U12 - U13 Ethernet PHY U2 Intel Max 10 U18 System controller User LEDs D1...4 D1 (Red), D2...4 (Green) Oscillators U14, U15, U17, U21, Y1 CryptoAuthentication Device U19 optional

QSPI Flash Memory

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Notes : Minimum and Maximum density of quad SPI flash must be mentioned for other assembly options.

The TEI0006 is equipped with two Micron SPI flash memory. On-board SPI flash memory is used to store initial FPGA configuration. Besides FPGA configuration, remaining free flash memory can be used for user application and data storage. All four SPI data lines are connected to the FPGA allowing x1 or x4 data bus widths. Maximum data rate depends on the selected bus width and clock frequency.

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anchor Table_OBP_SPI title Quad SPI interface MIOs and pins
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Designator Schematic Connected to Notes U1 NCSO CSS Bank (Configuration Bank) Used when you are not configuring using AS DCK DCLK AS Configuration Clock AS_DATA0 CSS Bank (Configuration Bank) AS_DATA1 CSS Bank (Configuration Bank) AS_DATA2 CSS Bank (Configuration Bank) AS_DATA3 CSS Bank (Configuration Bank) U3 QSPI_CS Bank 2A QSPI_CK Bank 2A QSPI_DATA0 Bank 2A QSPI_DATA1 Bank 2A QSPI_DATA2 Bank 2A QSPI_DATA3 Bank 2A

EEPROM

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anchor Table_OBP_EEP title I2C EEPROM interface MIOs and pins
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Schematic U64 EEPROM Pin B2B U18 Intel Max 10 Pin Notes I2C_SCL SCL J3-135 Bank 2 - K2 I2C_SDA SDA J3-137 Bank 2 - L2

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anchor Table_OBP_I2C_EEPROM title I2C address for EEPROM
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Pins I2C Address Designator Notes I2C_SCL, I2C_SDA 0x53 U64

DDR3 SDRAM

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Notes : Minimum and Maximum density of DDR3 SDRAM must be mentioned for other assembly options. (pay attention to supported address length for DDR3)

The TEI0006 SoM has two 1 GByte volatile DDR3 SDRAM IC provided by Integrated Silicon Solution Inc for storing user application code and data.

• Part number: IS43TR16512BL
• Supply voltage: 1.35 V
• Speed: Half rate: 533 MHz; Quarter rate: max. 800 MHz
  
• Temperature: -40 °C to 95 °C

Ethernet PHY

Scroll Title
anchor Table_OBP_ETH title Ethernet PHY to Intel Cyclone 10 GX SoC connections
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Signal Name Connected to B2B Signal Description PHY1_MDI0_P PHY1_MDI0_N - - J2-93 J2-91 PHY1_MDI1_P PHY1_MDI1_N - - J2-87 J2-85 PHY1_MDI2_P PHY1_MDI2_N - - J2-81 J2-79 PHY1_MDI3_P PHY1_MDI3_N - - J2-75 J2-73 ETH1_RST U23, Bank 2A - Pulled-up to DVDDH Voltage. ETH1_MDC U23, Bank 2A - Pulled-up to DVDDH Voltage. ETH1_MDIO U23, Bank 2A - Pulled-up to DVDDH Voltage. ETH1_TXD0...7 U23, Bank 2A - 8 bit Transfer ETH1_RXD0...7 U23, Bank 2A - 8 bit Receive ETH1_GTXCK U23, Bank 2A - ETH1_TXCLK U23, Bank 2A - ETH1_TXEN U23, Bank 2A - ETH1_TXER U23, Bank 2A - ETH1_RXCK U23, Bank 2A - Pulled-down to GND. ETH1_RXDV U23, Bank 2A - Pulled-down to GND. PHY1_INT - - Pulled-up to DVDDH Voltage. PHY1_LED1 U18, Bank 2 - Pulled-up to DVDDH Voltage. PHY1_LED2 U18, Bank 2 - Pulled-down to GND. ETH1_CRS U23, Bank 2A - ETH1_XTAL_IN ETH_CLKIN - From U21 (25 MHz Oscillator)

Intel MAX 10

The TEI0006 is equipped with an Intel MAX 10 device which is a single-chip, non-volatile low-cost programmable logic device (PLD) to integrate the optimal set of system components. Intel MAX 10 (U18) is power and configuration controller on TEI0006 SoM. 

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anchor Table_SIP_MAX10 title Intel MAX 10 banks information
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Intel Max 10 Bank Signals Connected to  Description Notes Bank 1A AIN0...7 B2B- J2 Bank 1B TCK, TDO, TMS, TDI, JTAGEN B2B- J2 Bank 2 PHY1_LED1 PHY1_LED2 Ethernet PHY, U2 Ethernet PHY, U2 Ethernet LED Ethernet LED Pulled-up to DVDDH. Pulled-down to GND. F_TCK, F_TDO, F_TDI, F_TMS Intel Cyclone 10 GX (U23) - Bank CSS Intel Cyclone 10 JTAG signals I2C_SDA, I2C_SCL EEPROM, U64 B2B, J3  Programmable Oscillator, U14 I2C EEPROM signals PLL_RST Programmable Oscillator, U14 Oscillator reset signal Bank 3 NSTATUS, NCONFIG, CONF_DONE Intel Cyclone 10 GX (U23) - Bank CSS Intel Cyclone 10 Configuration signals DCLK Intel Cyclone 10 GX (U23) - Bank CSS SPI Flash, U1 Intel Cyclone 10 Configuration clock from Flash memory MSEL0...1 Intel Cyclone 10 GX (U23) - Bank CSS Intel Cyclone 10 Configuration mode signals DEV_CLRN, INIT_DONE Intel Cyclone 10 GX (U23) - Bank 2A M10_IO0...4 Intel Cyclone 10 GX (U23) - Bank 2A Bank 5 DIS_GROUP1...4 N-Channel MOSFET, T1...4 Fast Discharching MAX_IO23...26 B2B, J2 Intel MAX 10 GPIO PG_0.95V, EN_0.95V PG_1.8VIO, EN_1.8VIO Voltage Regulator, U7 Voltage Regulator, U6 Power control signals Bank 6 M10_CLK 25 MHz Oscillator, U21 Intel MAX 10 Clock VADJ_VS0...2, VADJ_EN PG_1.35V, EN_1.35V PG_1.8V, EN_1.8V PG_VTT, EN_VTT PG_0V9, EN_0V9 Voltage Regulator, U11 Voltage Regulator, U8 Voltage Regulator, U5 Voltage Regulator, U9 Voltage Regulator, U4 Power control signals PHY1_33LED1...2 B2B, J2 Ethernet LED LED_FP_1 LED_FP_2...4 D1 D2...4 User LEDs Red LED Green LED Bank 8 M10_nSTATUS, M10_nCONFIG B2B, J2 Intel MAX 10 configuration signals MAX_IO1...20, 22 B2B, J2 Intel MAX 10 GPIO

LEDs

Scroll Title
anchor Table_OBP_LED title On-board LEDs
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Designator Color Connected to Active Level Note D1 Red LED_FP_1 Active high D2 Green LED_FP_2 Active high D3 Green LED_FP_3 Active high D4 Green LED_FP_4 Active high

Clock Sources

The TEI0006 has one crystal, three MEMS oscillators and a programmable clock generator. 

Scroll Title
anchor Table_OBP_CLK title Osillators
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Designator Description Frequency Connected to U21 MEMS Oscillator 25MHz U2 Ethernet U15 MEMS Oscillator 25MHz IN0 of U14 U17 MEMS Oscillator 100 MHz U23, BANK2A USRCLK Y1 Crystal Oscillator 50MHz crystal input of U14 U14 Programmable Oscillator Variable -

Scroll Title
anchor Table_OBP_CLK_PO title Programmable Oscillator connections
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Signals Clock Type In/ Out Connected to Frequency Note IN0_P IN0_N Differential In In Oscillator, U15 GND 25 MHz IN3  Differential In B2B, J3 Variable XA, XB Differential Oscillator, Y1 50 MHz CLK0 Differential Out Intel Cyclone 10 GX (U23)- Bank 2A User Default off CLK1...4 Differential Out B2B, J3 User Default off REFCLK_EMIFP Differential Out Intel Cyclon 10 GX (U23)- Bank 3B User Default off CLK6...7 Differential Out Intel Cyclon 10 GX (U23)- Bank 1D User Default off CLK8...9 Differential Out Intel Cyclon 10 GX (U23)- Bank 1C User Default off

CryptoAuthentication

ATECC608A (U19) is a CryptoAuthentication device connected to the I²C bus. This chip is optional, for further description see datasheet of manufacturer.

Scroll Title
anchor Table_OBP_EEP title I2C Interface of CryptoAuthentication
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Schematic U19 Pin B2B U18 Intel Max 10 Pin Notes I2C_SCL SCL J3-135 Bank 2 - K2 - I2C_SDA SDA J3-137 Bank 2 - L2 -

Power and Power-On Sequence

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In 'Power and Power-on Sequence' section there are three important digrams which must be drawn: Power on-sequence Power distribution Voltage monitoring circuit Note For more information regarding how to draw diagram, Please refer to "Diagram Drawing Guidline" .

Power Supply

Power supply with minimum current capability of 1 A for system startup is recommended.

Power Consumption

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anchor	Table_OBP_RTC
title	I2C interface MIOs and pins

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anchor Table_OBPPWR_I2C_RTCPC title I2C Address for RTCPower Consumption
Scroll Table Layout widths orientation portrait sortDirection ASC repeatTableHeaders default style sortByColumn 1 sortEnabled false cellHighlighting true
MIO Pin	I2C Address	Designator	Notes

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anchor	Table_OBP_EEP
title	I2C EEPROM interface MIOs and pins

FPGA Typical Current Intel Cyclone 10 GX TBD* Intel MAX 10 TBD*

* TBD - To Be Determined

Power Distribution Dependencies

Scroll Title
anchor Figure_PWR_PD title Power Distribution
Scroll Ignore draw.io Diagram border false viewerToolbar true fitWindow false diagramDisplayName lbox false revision 11 diagramName TEI0006_PWR_PD simpleViewer false width links auto tbstyle hidden diagramWidth 639 Scroll Only Image Added

Power-On Sequence

Voltage regulators can be enabled through U18 (Intel MAX 10) - Bank 5 and 6.

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Scroll Title
anchor TableFigure_OBPPWR_I2C_EEPROMPS title I2C address for EEPROMPower Sequence
scroll- tablelayout
orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style	widths
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MIO Pin	I2C Address	Designator	Notes

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ignore draw.io Diagram border false viewerToolbar true fitWindow false diagramDisplayName lbox false revision 9 diagramName TEI0006_PWR_PS simpleViewer false width links auto tbstyle hidden diagramWidth 639 Scroll Only Image Added

Power Rails

Scroll Title
anchor Table_OBPPWR_LEDPR title On-board LEDsModule power rails.
Scroll Table Layout style orientation portrait sortDirection ASC repeatTableHeaders default widths sortByColumn 1 sortEnabled false cellHighlighting true
Schematic	Color	Connected to	Active Level	Note

DDR3 SDRAM

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Notes : Minimum and Maximum density of DDR3 SDRAM must be mentioned for other assembly options. (pay attention to supported address length for DDR3)

The TE???? SoM has ??? GByte volatile DDR3 SDRAM IC for storing user application code and data.

• Part number: 
• Supply voltage:
• Speed: 
• NOR Flash
• Temperature: 

Ethernet

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anchor	Table_OBP_ETH
title	Ethernet PHY to Zynq SoC connections

Power Rail Name B2B Connector J1 Pin B2B Connector J2 Pin B2B Connector J3 Pin Voltage Level Direction Notes VIN 145, 147,149, 151, 153, 155, 157, 159 - - 5 V Input VCCIO2K 53, 54 - - 1.2 V, 1.25 V, 1.35 V, 1.5 V or 1.8 V Input VADJ 140,142 - - adjustable between 1.8 V - 3.0 V Output Voltages according to EP53A8HQI datasheet but restricted to allowed bank voltage VCCIO2J - 29,30 - 1.2 V, 1.25 V, 1.35 V, 1.5 V or 1.8 V Input 3.3V - 149,150 - 3.3 V Output 1.8_VIO - - 139 1.8 V Output

Bank Voltages

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Scroll Title
anchor Table_OBPPWR_CANBV title CAN Tranciever interface MIOsSoC bank voltages.
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default style widths sortByColumn 1 sortEnabled false cellHighlighting true
Bank	Schematic	U?? Pin	Notes
D-Tx	Driver Input	R-Rx	Reciever Output

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anchor	Table_OBP_CLK
title	Osillators

sortByColumn 1 sortEnabled false cellHighlighting true FPGA FPGA Bank Voltage Level Notes Intel Cyclone 10 GX Bank 1C 0.95 V Bank 1D 0.95 V Bank 2A 1.8 V 1.8VIO Bank 2J 1.2 V, 1.25 V, 1.35 V, 1.5 V or 1.8 V VCCIO2J Bank 2K 1.2 V, 1.25 V, 1.35 V, 1.5 V or 1.8 V VCCIO2K Bank 2L adjustable between 1.8 V - 3.0 V Voltages according to EP53A8HQI datasheet Bank 3A 1.35 V VDD_DDR Bank 3B 1.35 V VDD_DDR Intel Max 10 Bank 1A 3.3 V Bank 1B 3.3 V Bank 2 1.8 V 1.8VIO Bank 3 1.8 V 1.8VIO Bank 5 3.3V Bank 6 3.3V Bank 8 3.3V

Board to Board Connectors

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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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Note
For more information regarding how to draw diagram, Please refer to "Diagram Drawing Guidline" .

Power Supply

Power supply with minimum current capability of xx A for system startup is recommended.

...

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 Include Page 6 x 6 SoM LSHM B2B Connectors 6 x 6 SoM LSHM B2B Connectors

Include Page
6 x 8 SoM SS5/ST5 B2B Connectors 6 x 8 SoM SS5/ST5 B2B Connectors

Technical Specifications

Absolute Maximum Ratings

Scroll Title
anchor Table_PWRTS_PCAMR title Power ConsumptionAbsolute maximum ratings
Scroll Table Layout widths orientation portrait sortDirection ASC repeatTableHeaders default style sortByColumn 1 sortEnabled false cellHighlighting true
Power Input Pin	Typical Current
VIN	TBD*

* TBD - To Be Determined

Power Distribution Dependencies

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anchor	Figure_PWR_PD
title	Power Distribution

Scroll Ignore
Create DrawIO object here: Attention if you copy from other page, objects are only linked.

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Power-On Sequence

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anchor	Figure_PWR_PS
title	Power Sequency

Scroll Ignore
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Voltage Monitor Circuit

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anchor	Figure_PWR_VMC
title	Voltage Monitor Circuit

Symbols Description Min Max Unit Note VIN Power supply -0.3 6.0 V Detemined by U10. VCCIO - 3 V I/O I/O buffers power supply -0.5 4.10 V Intel Cyclone 10 GX VCCIO - LVDS I/O I/O buffers power supply -0.5 2.46 V Intel Cyclone 10 GX VADJ Adjustable voltage -0.5 4.10 V Intel Cyclone 10 GX T_STG Storage temperature -40 85 °C

Recommended Operating Conditions

Operating temperature range depends also on customer design and cooling solution. Please contact us for options.

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Scroll Title
anchor Table_PWRTS_PRROC title Module power railsRecommended operating conditions.
Scroll Table Layout widths orientation portrait sortDirection ASC repeatTableHeaders default style sortByColumn 1 sortEnabled false cellHighlighting true
Power Rail Name	B2B Connector JM1 Pin	B2B Connector JM2 Pin	B2B Connector JM3 Pin	Direction	Notes

Bank Voltages

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anchor	Table_PWR_BV
title	Zynq SoC bank voltages.

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Bank          

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Voltage

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Parameter Min Max Unit Reference Document VIN 5.0 5.0 V VCCIO 2.85 3.15 V See Intel Cyclone 10 GX datasheet. VADJ 2.85 3.15 V VCCIO

Physical Dimensions

• Module size: 60 mm × 80 mm.  Please download the assembly diagram for exact numbers.

• Mating height with standard connectors: 5 mm.

• PCB thickness: 1.7 mm

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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Include Page
PD:6 x 6 SoM LSHM B2B Connectors	PD:6 x 6 SoM LSHM B2B Connectors

? x ? modules use two or three Samtec Micro Tiger Eye Connector on the bottom side.

• 3 x REF-??????? (compatible to ????????), (?? pins, ?? per row)

  Operating Temperature: -??°C ~ ??°C
  Current Rating: ??A per ContactNumber of Positions: ??
  Number of Rows: ??

Technical Specifications

Absolute Maximum Ratings

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anchor	Table_TS_AMR
title	PS absolute maximum ratings

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Recommended Operating Conditions

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In 'Physical Dimension' section, top and button view of moduloe must be insterted, information regarding physical dimention can be obtained through webpage for product in Shop.Trenz, (Download> Documents> Assembly part)for every SoM. For Example: for Module TE0728, Physical Dimension information can be captured by snipping tools from the link below: https://www.trenz-electronic.de/fileadmin/docs/Trenz_Electronic/Modules_and_Module_Carriers/5.2x7.6/TE0745/REV02/Documents/AD-TE0745-02-30-1I.PDF Note For more information regarding how to draw diagram, Please refer to "Diagram Drawing Guidline" .

Scroll Title
anchor TableFigure_TS_ROCPD title Recommended operating conditions.Physical Dimension
scroll- tablelayout ignore orientation draw.io Diagram portrait border sortDirection false ASC viewerToolbar repeatTableHeaders true default fitWindow style false	widths

diagramDisplayName lbox

sortByColumn1sortEnabled

false

cellHighlighting

revision 3

trueParameterMinMaxUnitsReference DocumentVSee ???? datasheets.VSee Xilinx ???? datasheet.VSee Xilinx ???? datasheet.VSee Xilinx ???? datasheet.VSee Xilinx ???? datasheet.VSee Xilinx ???? datasheet.VSee Xilinx ???? datasheet.°CSee Xilinx ???? datasheet.°CSee Xilinx ???? datasheet.

Physical Dimensions

• Module size: ?? mm × ?? mm.  Please download the assembly diagram for exact numbers.

• Mating height with standard connectors: ? mm.

...

diagramName TEI0006_TS_PD simpleViewer false width links auto tbstyle hidden diagramWidth 611 Scroll Only scroll-pdf true scroll-office true scroll-chm true scroll-docbook true scroll-eclipsehelp true scroll-epub true scroll-html true Image Added

Currently Offered Variants 

For more information regarding how to draw diagram, Please refer to "Diagram Drawing Guidline" .

• • /

  • https://shop.trenz-electronic.de/en/Products/Trenz-Electronic/

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hidden true id Comments
Set correct link to the shop page overview table of the product on English and German. Example for TE0728: ENG Page: https://shop.trenz-electronic.de/en/Products/Trenz-Electronic/TE07XX-Zynq-SoC/TE0728-Zynq-SoC/ DEU Page: https://shop.trenz-electronic.de/de/Produkte/Trenz-Electronic/TE07XX-Zynq-SoC/TE0728-Zynq-SoC/ if not available, set. https://shop In 'Physical Dimension' section, top and button view of moduloe must be insterted, information regarding physical dimention can be obtained through webpage for product in Shop.Trenz, (Download> Documents> Assembly part)for every SoM. For Example: for Module TE0728, Physical Dimension information can be captured by snipping tools from the link below: https://www .trenz-electronic.de/ fileadmin de/ docs Produkte/Trenz _ -Electronic /Modules_and_Module_Carriers/5.2x7.6/TE0745/REV02/Documents/AD-TE0745-02-30-1I.PDF
Note

Scroll Title
anchor FigureTable_TSVCP_PDSO title Physical DimensionTrenz Electronic Shop Overview
scroll- ignore tablelayout drawio orientation border portrait true sortDirection viewerToolbar ASC true repeatTableHeaders fitWindow default false sortByColumn
diagramName	TEI0006_TS_PD
simpleViewer	false
width
diagramWidth	641
revision	1

Scroll Only
scroll-pdf true scroll-office true scroll-chm true scroll-docbook true scroll-eclipsehelp true scroll-epub true scroll-html true
Image Removed

Currently Offered Variants 

...

hidden	true
id	Comments

Set correct link to the shop page overview table of the product on English and German.

Example for TE0728:

ENG Page: https://shop.trenz-electronic.de/en/Products/Trenz-Electronic/TE07XX-Zynq-SoC/TE0728-Zynq-SoC/

DEU Page: https://shop.trenz-electronic.de/de/Produkte/Trenz-Electronic/TE07XX-Zynq-SoC/TE0728-Zynq-SoC/

if not available, set.

1 sortEnabled false cellHighlighting true Trenz shop TEI0006 overview page English page German page

Revision History

Hardware Revision History

Scroll Title
anchor Table_RH_HRH title Hardware Revision History
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Date Revision Changes Documentation Link 202-12-23 03 two input cloock signals on B2B connected directly to GXBL1C bank REV03 2019-09-11 02 added 100MHz MEMS oscillator, remove CLKUSR signal from J2 replaced U21/U15 by SiT8008 added pull-up to M10_NSTATUS signal added pull-up to M10_DEVCLRN, removed signal from J2 added optional CryptoAuthentication chip U19 REV02 2018-08-10 01 - REV01

Hardware revision number can be found on the PCB board together with the module model number separated by the dash.

...

https://shop.trenz-electronic.de/de/Produkte/Trenz-Electronic/

...

Scroll Title
anchor TableFigure_VCPRV_SOHRN title Trenz Electronic Shop Overview Board hardware revision number.
scroll- tablelayout
orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style	widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true
Trenz shop TE0728 overview page
English page	German page

Revision History

Hardware Revision History

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anchor	Table_RH_HRH
title	Hardware Revision History

ignore draw.io Diagram border false viewerToolbar true fitWindow false diagramDisplayName lbox false revision 3 diagramName TEI0006_RV_RHN simpleViewer false width links auto tbstyle top diagramWidth 178 Scroll Only scroll-pdf true scroll-office true scroll-chm true scroll-docbook true scroll-eclipsehelp true scroll-epub true scroll-html true Image Added

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Document Change History

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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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Scroll Title
anchor Table_RH_DCH title Document change history..
Scroll Table Layout orientation portrait sortDirection ASC repeatTableHeaders default sortByColumn 1 sortEnabled false cellHighlighting true Date Revision Contributor Description Page info infoType Modified date dateFormat yyyy-MM-dd type Flat Page info infoType Current version prefix v. type Flat showVersions false Page info infoType Modified by type Flat showVersions false corrected Bank Voltages for Bank 2J (VCCIO2J) and Bank 2K (VCCIO2K) 2022-03-18 v.85 Vitali Tsiukala Added Info about Gigabit Transceivers 2021-06-07 v.84 Martin Rohrmüller corrected Physical Dimension figure updated to REV03 2020-01-17 v.82 Martin Rohrmüller updated to REV02 2019-06-14 v.80 Pedram Babakhani Figures updated Technical specifications updated 2019-05-29 v.69 Pedram Babakhani initial release
Scroll Table Layout
orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style	widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true

change list

Date	Revision	Contributor	Description
Page info infoType Modified date dateFormat yyyy-MM-dd type Flat	Page info infoType Current version prefix v. type Flat showVersions false	Page info infoType Modified by type Flat showVersions false
--	all	Page info infoType Modified users type Flat showVersions false	--