Page History

Custom_table_size_100

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Module: TRM Name always "TE Series Name" +TRM
Example: "TE0728 TRM"

Template Change history:

Version	Changes	Author
4.1	Minor changes Notes Tables	ED
4.0	Rework for smaller TRM which can be generated faster Reduce Signal Interfaces Pin Reduce On Board Perihery Reduce Power Move Configuration Signals from Overview to own section	JH
3.12	Version History changed from list to table all changed title-alignment for tables from left to center	ma
3.11	update "Recommended Operating Conditions" section
3.1	New general notes for temperature range to "Recommended Operating Conditions"
3.02	add again fix table of content with workaround to use it for pdf and wiki Export Link for key features examples Notes for different Types (with and without Main FPGA) Export Link for Signals, Interfaces and Pins examples Notes for different Types (Modul, Modul Hypride, Evalboard, Carrier)
3.01	remove fix table of content and page layout ( split page layout make trouble with pdf export) changed and add note to signal and interfaces, to on board periphery section ...(not finished)
3.00	→ separation of Carrier/Module and evaluation kit TRM
2.15	add excerpt macro to key features
2.14	add fix table of content add table size as macro

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Important General Note:

If some section is configurable and depends on Firmware, please refer to the addition page (for example CPLD). If not available, add note, that this part is configurable

Designate all graphics and pictures with a number and a description, Use "Scroll Title" macro

Use "Scroll Title" macro for pictures and table labels. Figure number must be set manually at the moment (automatically enumeration is planned by scrollPDF)

Figure template:

Scroll Title

anchor	Figure_anchorname
title-alignment	center
title	Text

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

Scroll Only
image link to the generate DrawIO PNG file of this page. This is a workaround until scroll pdf export bug is fixed

Table template:
- Layout macro can be use for landscape of large tables

Scroll Title

anchor	Table_tablename
title-alignment	center
title	Text

Scroll Table Layout

orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style
widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true

Example	Comment
1	2

The anchors of the Scroll Title should be named consistant across TRMs. A incomplete list of examples is given below
- <type>_<main section>_<name>
  - type: Figure, Table
  - main section:
    - "OV" for Overview
    - "SIP" for Signal Interfaces and Pins,
    - "OBP" for On board Peripherals,
    - "PWR" for Power and Power-On Sequence,
    - "B2B" for Board to Board Connector,
    - "TS" for Technical Specification
    - "VCP" for Variants Currently in Production
    - "RH" for Revision History
  - name: custom, some fix names, see below
- Fix names:
  - "Figure_OV_BD" for Block Diagram
  - "Figure_OV_MC" for Main Components
  - "Table_OV_IDS" for Initial Delivery State
  - "Table_PWR_PC" for Power Consumption
  - "Figure_PWR_PD" for Power Distribution
  - "Figure_PWR_PS" for Power Sequence
  - "Figure_PWR_PM" for Power Monitoring
  - "Table_PWR_PR" for Power Rails
  - "Table_PWR_BV" for Bank Voltages
  - "Table_TS_AMR" for Absolute_Maximum_Ratings
  - "Table_TS_ROC" for Recommended_Operating_Conditions
  - "Figure_TS_PD" for Physical_Dimensions
  - "Table_VCP_SO" for TE_Shop_Overview
  - "Table_RH_HRH" for Hardware_Revision_History
  - "Figure_RH_HRN" for Hardware_Revision_Number
  - "Table_RH_DCH" for Document_Change_History
Use Anchor in the document: add link macro and add "#<anchorname>
Refer to Anchror from external : <page url>#<pagename without space characters>-<anchorname>

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-----------------------------------------------------------------------

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Note for Download Link of the Scroll ignore macro:

Link to the base folder of the module (remove de/ or en/ from the URL):
Example: https://shop.trenz-electronic.de/Download/?path=Trenz_Electronic/Modules_and_Module_Carriers/4x5_Carriers/TE0728/

Scroll Ignore
Download PDF version of this document.

Overview

The Trenz Electronic TE0818 is an industrial grade MPSoC SOM integrating a Xilinx an AMD Zynq UltraScale+ MPSoC, DDR4 SDRAM with 64-Bit width data bus connection, SPI Boot Flash memory for configuration and operation, transceivers and powerful switch-mode power supplies for all on-board voltages. A large number of configurable I/Os is provided via rugged high-speed stacking connections in a compact 5.2 cm x 7.6 cm form factor.

Refer to http://trenz.org/te0818-info for the current online version of this manual and other available documentation.

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Notes :

short description of the PCB
Short Link of the wiki resources reference:
- Use short link the Wiki Resource page, for example: http://trenz.org/te0728-info
- List of available short links: https://wiki.trenz-electronic.de/display/CON/Redirects

Key Features

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Note:
'description: Important components and connector or other Features of the module
→ please sort and indicate assembly options

→ See examples fro different types <Series Name> TRM Template section examples#%3CSeriesName%3ETRMTemplatesectionexamples-KeyFeatures

Excerpt

SoC
- Device: ZU6 / ZU9 / ZU15 ¹⁾
- Engine: CG / EG ¹⁾
- Speedgrade: -1 / -2 ¹⁾
- Temperature Range: Extended / Industrial ¹⁾
- Package: FFVC900
RAM/Storage
- 4 GByte DDR4 SDRAM ²⁾
- 2 x 64 MByte Serial Flash ³⁾
- EEPROM with MAC address
On Board
- Oscillator
Interface
- 4 x B2B Connector (ADM6)
  - up to 204 PL IO
    - HP: 156
    - HD: 48
  - up to 65 PS MIO
  - 4 GTR
  - 16 GTH
  - I2C, JTAG, CONFIG
Power
- 3.3 V power supply via B2B Connector needed ⁴⁾.
Dimension
- 76 mm x 52 mm
Notes
¹⁾ Please, take care of the possible assembly options. Furthermore, check whether the power supply is powerful enough for your FPGA design.
²⁾ Up to 32 GByte are possible with a maximum bandwidth of 2400 MBit/s.
³⁾ Please, take care of the possible assembly options.
⁴⁾ Dependant Dependent on the assembly option a higher input voltage may be possible

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add drawIO object in Scroll Ignore section and add reference image in Scroll Only.

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

Note

Title (not anchor) of all Scroll Title such as DrawIOs and Tables should be changed according to the Module name.

Example: TE0812 Block Diagram

Note

All created DrawIOs should be named according to the Module name:

Example: DrawIO of TE0812 Block Diagram should be named TE0812_OV_BD

Scroll Title

anchor	Figure_OV_BD
title-alignment	center
title	TExxxx TE0818 block diagram

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

Scroll Only
image link to the generate DrawIO PNG file of this page. This is a workaround until scroll pdf export bug is fixed

Main Components

draw.io Diagram

border	true

diagramName	TE0818_OV_BD
simpleViewer	false
width
links	auto
tbstyle	top
lbox	true
diagramWidth	641
revision	5

Scroll Only
Image Added

Main Components

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Notes :

Picture of the PCB (top

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Notes :

Picture of the PCB (top and bottom side) with labels of important components
Add List below

Note
For more information regarding how to add board photoes, Please refer to "Diagram Drawing Guidline" .

Scroll Title

anchor	Figure_OV_MC
title-alignment	center
title	TExxxx main components

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

Scroll Only
image link to the generate DrawIO PNG file of this page. This is a workaround until scroll pdf export bug is fixed

...
...
...

Initial Delivery State

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Note

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

draw.io Diagram

border	true

diagramName	Figure_OV_MC
simpleViewer	false
width
links	auto
tbstyle	top
lbox	true
diagramWidth	751
revision	4

Scroll Only
Image Added

SoC, U1
DDR4, U2, U3, U9, U12
Quad SPI Flash, U7, U17
Connector, J1, J2, J3, J4
EEPROM, U4
Clock Generator, U5
Oscillator, U25, U32

Initial Delivery State

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Note

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

Scroll Title

anchor	Table_OV_IDS
title-alignment	center
title	Initial delivery state of programmable devices on the module

Scroll Table Layout

orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style
widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true

Storage device name	Content	Notes
DDR4 SDRAM	not programmed
Quad SPI Flash	not programmed
EEPROM	not programmed besides factory programmed MAC address
Programmable Clock Generator	not programmed

Scroll Title

anchor	Table_OV_IDS
title-alignment	center
title	Initial delivery state of programmable devices on the module

Scroll Table LayoutorientationportraitsortDirectionASCrepeatTableHeadersdefaultstylewidthssortByColumn1sortEnabledfalsecellHighlightingtrue

Storage device name

Content

Notes

Quad SPI Flash

EEPROMSystem Controller CPLDDDR4 SDRAMeMMCProgrammable Clock Generator

Signals, Interfaces and Pins

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For subsection examples see: <Series Name> TRM Template section examples#%3CSeriesName%3ETRMTemplatesectionexamples-Signals,InterfacesandPins

Note
Table with all connectors and Designtor List of different interfaces per connector IO CNT (for FPGA IOs where functionality can be changed by customer)

Connectors

Scroll Title

anchor	Table_SIP_C
title-alignment	center
title	Board Connectors

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orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style
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sortEnabled	false
cellHighlighting	true

Connector Type	Designator	Interface	IO CNT	Notes
B2B

Test Points

J1	MGT PL	12 x MGT (RX/TX)
B2B	J1	HP	52 SE / 24 DIFF
B2B	J2	MGT PS	2 x MGT CLK
B2B	J2	CLK	DIFF CLK
B2B	J2	MGT PL	4 x MGT (RX/TX)
B2B	J2	MGT PS	4 x MGT (RX/TX)
B2B	J2	CFG	JTAG
B2B	J2	CFG	MODE
B2B	J3	HD	48 SE / 24 DIFF
B2B	J3	MGT PL	3 x MGT CLK
B2B	J3	CLK	DIFF CLK
B2B	J3	MIO	65 GPIO
B2B	J4	HP	104 SE / 48 DIFF

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:

¹⁾ Direction:

- IN (C2M): Carrier to Module, means it's an input from the point of view of this board
- OUT (M2C): Module to Carrier, means it's output from the point of view of this board

¹⁾ Direction:

- IN (C2M): Carrier to Module, means it's an input from the point of view of this board
- OUT (M2C): Module to Carrier, means it's output from the point of view of this board

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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	Notes¹⁾
TP1	PWR_PL_OK

¹⁾ Direction:

- IN (C2M):

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Test Point

Signal

Notes¹⁾

TP1

PWR_PL_OK

Scroll Title

anchor	Table_SIP_TPs
title-alignment	center
title	Test Points Information

Scroll Table Layout

orientation

portrait

sortDirection

ASC

repeatTableHeaders

default

style

widths

sortByColumn

1

sortEnabled

false

cellHighlighting

true

Test Point

Signal

Notes¹⁾

TP1

On

scroll-

board Peripherals

Notes :

In the on-board peripheral table "chip/Interface" must be linked to the corresponding chapter or subsection by assigning advance link using: #NameOfTheSection

Example:

title

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id	Comments

Chip/Interface

Designator

Connected To

Notes

ETH PHY

U10

B2B connector J1
SoC MIO

Gigabit ETH PHY

Scroll Title

anchor	Table_OBP
title-alignment	center
title	On board peripherals

Scroll Table Layout

orientation

portrait

sortDirection

ASC

repeatTableHeaders

default

style

widths

sortByColumn

1

sortEnabled

false

cellHighlighting

true

Chip/Interface

Designator

Connected To

Notes

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For example subsections see: <Series Name> TRM Template section examples#%3CSeriesName%3ETRMTemplatesectionexamples-On-boardPeripherals

Configuration and System Control Signals

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id	Comments

Overview all Controller signals, like Reset, Boote Mode, JTAG Interface(Connector or USB In case of FTDI)...
In case it's connected to CPLD always link to CPLD description and add not from the current implementation here(in case it's available)

Scroll Title

anchor	Table_OV_CNTRL
title-alignment	center
title	Controller signal.

Scroll Table LayoutorientationportraitsortDirectionASCrepeatTableHeadersdefaultstylewidthssortByColumn1sortEnabledfalsecellHighlightingtrueConnector+Pin

Signal Name

Direction¹⁾Description

¹⁾ Direction:

- IN (C2M): Carrier to Module, means it's an input from the point of view of this board
- OUT (M2C): Module to Carrier, means it's output from the point of view of this board

Power and Power-On Sequence

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id	Comments

Enter the default value for power supply and startup of the module here.

Order of power provided Voltages and Reset/Enable signals

Link to Schematics, for power images or more details

Power Rails

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id	Comments

List of all Powerrails which are accessible by the customer

Main Power Rails and Variable Bank Power

Scroll Title

anchor	Table_PWR_PR
title-alignment	center
title	Module power rails.

Scroll Table LayoutorientationportraitsortDirectionASCrepeatTableHeadersdefaultstylewidthssortByColumn1sortEnabledfalsecellHighlightingtruePower Rail Name/ Schematic NameConnector + PinDirection¹⁾Notes

¹⁾ Direction:

- IN (C2M): Carrier to Module, means it's an input from the point of view of this board
- OUT (M2C): Module to Carrier, means it's output from the point of view of this board

Recommended Power up Sequencing

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id	Comments

List baseboard design hints for final baseboard development.

Scroll Title

anchor	Table_BB_DH
title-alignment	center
title	Baseboard Design Hints

Scroll Table LayoutorientationportraitsortDirectionASCrepeatTableHeadersdefaultstylewidthssortByColumn1sortEnabledfalsecellHighlightingtrueSequenceNet nameRecommended Voltage RangePull-up/downDescriptionNotes

Board to Board Connectors

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id	Comments

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 PagePD:6 x 6 SoM LSHM B2B ConnectorsPD:6 x 6 SoM LSHM B2B Connectors

Technical Specifications

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id	Comments

List of all Powerrails which are accessible by the customer

Main Power Rails and Variable Bank Power add boarder one time maximum Rating (Board will damaged)

Absolute Maximum Ratings ^*)

Scroll Title

anchor	Table_TS_AMR
title-alignment	center
title	PS absolute maximum ratings

Scroll Table LayoutorientationportraitsortDirectionASCrepeatTableHeadersdefaultstylewidthssortByColumn1sortEnabledfalsecellHighlightingtruePower Rail Name/ Schematic NameDescriptionMinMaxUnitVVVVVVVV°C

^*) Stresses beyond those listed under TE0818 TRM (more or less equal to TE0808 but other connectors) 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 TE0818 TRM (more or less equal to TE0808 but other connectors). Exposure to absolute-maximum rated conditions for extended periods may affect device reliability.

Recommended Operating Conditions

This TRM is generic for all variants. Temperature range can be differ depending on the assembly version. Voltage range is mostly the same during variants (exceptions are possible, depending on custom request)

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

Variants of modules are described here: Article Number Information

Modules with commercial temperature grade are equipped with components that cover at least the range of 0°C to 75°C

Modules with extended temperature grade are equipped with components that cover at least the range of 0°C to 85°C

Modules with industrial temperature grade are equipped with components that cover at least the range of -40°C to 85°C

anchor	Table_SIP_TPs
title-alignment	center
title	Test Points Information

Scroll Table Layout

orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style
widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true

Test Point	Signal	Notes	Revision Notes
TP1	PLL_SCL	pulled-up to PS_1V8
TP2	PLL_SDA	pulled-up to PS_1V8
TP3	LP_DCDC
TP4	DCDCIN
TP5	GND
TP6	TCK
TP7	PL_DCIN
TP8	GND
TP9	GT_DCDC
TP10	GND
TP11	TDI
TP12	TDO
TP13	TMS
TP14	PS_1V8
TP15	1V25_REF	REF3312AIDCKT (U33) ouput voltage	No Net Name for REV01.
TP16	FP_0V85
TP17	DDR_2V5
TP18	DDR_PLL
TP19	PL_VCCINT
TP20	AUX_R
TP21	AVTT_R
TP22	AUX_L
TP23	DDR4-TEN		Only REV02.
TP24	AVCC_R
TP25	PLL_SDA	pulled-up to PS_1V8	Only REV02.
TP26	AVTT_L
TP27	PLL_SCL	pulled-up to PS_1V8	Only REV02.
TP28	AVCC_L
TP29	LP_DCDC		Only REV02.
TP30	PS_PLL
TP31	PS_AVTT
TP32	LP_0V85
TP33	PS_AUX
TP34	PS_AVCC
TP35	DCDCIN		Only REV02.
TP36	POR_B
TP37	PL_DCIN		Only REV02.
TP38	GT_DCDC		Only REV02.
TP39	PS_1V8		Only REV02.
TP40	1V25_REF		Only REV02.
TP41	FP_0V85		Only REV02.
TP42	DDR_2V5		Only REV02.
TP43	DDR_PLL		Only REV02.
TP44	PL_VCCINT		Only REV02.
TP45	AUX_R		Only REV02.
TP46	AVTT_R		Only REV02.
TP47	AUX_L		Only REV02.
TP48	AVCC_R		Only REV02.
TP49	AVTT_L		Only REV02.
TP50	AVCC_L		Only REV02.
TP51	PS_PLL		Only REV02.
TP52	PS_AVTT		Only REV02.
TP53	LP_0V85		Only REV02.
TP54	PS_AUX		Only REV02.
TP55	PS_AVCC		Only REV02.
TP56	DDR_1V2		Only REV02.
TP57	DDR_1V2		Only REV02.
TP58	SI_PLL_1V8		Only REV02.
TP59	SI_PLL_1V8		Only REV02.
TP60	PL_GT2_1V35		Only REV02.
TP61	PL_GT2_1V35		Only REV02.
TP62	PL_GT2_1V05		Only REV02.
TP63	PL_GT2_1V05		Only REV02.
TP64	PL_GT_1V35		Only REV02.
TP65	PL_GT_1V35		Only REV02.
TP66	PL_GT_1V05		Only REV02.
TP67	PL_GT_1V05		Only REV02.
TP68	3.3VIN		Only REV02.
TP69	3.3VIN		Only REV02.
TP70	DCDC_2V0		Only REV02.
TP71	DCDC_2V0		Only REV02.
TP72	PS_GT_1V0		Only REV02.
TP73	PS_GT_1V0		Only REV02.
TP74	PL_1V8		Only REV02.
TP75	PL_1V8		Only REV02.
TP76	VREFA		Only REV02.
TP77	VREFA		Only REV02.
TP78	VTT		Only REV02.
TP79	VTT		Only REV02.

On-board Peripherals

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Notes :

In the on-board peripheral table "chip/Interface" must be linked to the corresponding chapter or subsection by assigning advance link using: #NameOfTheSection

Example:

Chip/Interface	Designator	Connected To	Notes
ETH PHY	U10	B2B connector J1 SoC MIO	Gigabit ETH PHY

The actual operating temperature range will depend on the FPGA / SoC design / usage and cooling and other variables.

Scroll Title

anchor	Table_TS_ROCOBP
title-alignment	center
title	Recommended operating conditions.On board peripherals

Scroll Table Layout

orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style
widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true

Parameter

Chip/Interface

Min

Designator

Max

Connected To

Units

Notes

Reference Document

V

See ???? datasheets.

V

See ???? datasheet.

V

See ???? datasheet.

V

See ???? datasheet.

V

See ???? datasheet.

V

See ???? datasheet.

V

See ???? datasheet.

°C

See ???? datasheet.

Physical Dimensions

Module size: ?? mm × ?? mm. Please download the assembly diagram for exact numbers.
Mating height with standard connectors: ? mm.

PCB thickness: ?? mm.

DDR4 SDRAM	U2, U3, U9, U12	SoC - PS
Quad SPI Flash	U7, U17	SoC - PS	Booting.
EEPROM	U4	B2B - J2
Clock Generator	U5	SoC, B2B
Oscillator	U25	Clock Generator	25 MHz
Oscillator	U32	SoC	33.333333 MHz

In 'Physical Dimension' section, top and bottom view of module must be inserted, information regarding physical dimensions 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

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id	Comments

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

Scroll Title

anchor	Figure_TS_PD
title-alignment	center
title	Physical Dimension

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

Scroll Only

scroll-pdf	true
scroll-office	true
scroll-chm	true
scroll-docbook	true
scroll-eclipsehelp	true
scroll-epub	true
scroll-html	true

image link to the generate DrawIO PNG file of this page. This is a workaround until scroll pdf export bug is fixed

Currently Offered Variants

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id	Comments

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

Example for TE0706:

ENG Page: https://shop.trenz-electronic.de/en/search?sSearch=TE0706

DEU Page: https://shop.trenz-electronic.de/de/search?sSearch=TE0706

Scroll Title

anchor	Table_VCP_SO
title-alignment	center
title	Trenz Electronic Shop Overview

Scroll Table LayoutorientationportraitsortDirectionASCrepeatTableHeadersdefaultstylewidthssortByColumn1sortEnabledfalsecellHighlightingtrueTrenz shop TEXXXX overview pageEnglish page German page

For example subsections see: <Series Name> TRM Template section examples#%3CSeriesName%3ETRMTemplatesectionexamples-On-boardPeripherals

Configuration and System Control Signals

Page properties

hidden	true
id	Comments

Overview all Controller signals, like Reset, Boote Mode, JTAG Interface(Connector or USB In case of FTDI)...
In case it's connected to CPLD always link to CPLD description and add not from the current implementation here(in case it's available)

Scroll Title

anchor	Table_OV_CNTRL
title-alignment	center
title	Controller signal.

Scroll Table Layout

orientation	portrait
sortDirection	ASC
repeatTableHeaders	default
style
widths
sortByColumn	1
sortEnabled	false
cellHighlighting	true

Connector+Pin	Signal Name	Direction¹⁾	Description
J1.A45	POR_OVERRIDE	IN	Override power-on reset delay ²⁾.
J2.A30	PG_PLL_1V8	OUT	SI_PLL_1V8 power rail powered-up.
J2.A31	ERR_OUT	OUT	PS error indication ²⁾.
J2.A34	ERR_STATUS	OUT	PS error status ²⁾.
J2.A35	LP_GOOD	OUT	Low-power domain powered-up. Pulled up to 3.3VIN.
J2.A36	PLL_SCL	IN	I2C clock. Pulled up to PS_1V8.
J2.A37	PLL_SDA	IN/OUT	I2C data. Pulled up to PS_1V8.
J2.A40	PG_GT_L	OUT	Left GTH Transceivers powered-up.
J2.A41	EN_PSGT	IN	Enable GTR transceiver power-up.
J2.A44 / J2.A45 / J2.A46 / J2.A47	TCK / TDI / TDO / TMS	Signal-dependent	JTAG configuration and debugging interface. JTAG reference voltage: PS_1V8
J2.B29	PG_PSGT	OUT	GTR transceivers powered-up.
J2.B30	PROG_B	IN/OUT	Power-on reset ²⁾. Pulled-up to PS_1V8.
J2.B33	SRST_B	IN	System reset ²⁾. Pulled-up to PS_1V8.
J2.B34	INIT_B	IN/OUT	Initialization completion indicator after POR ²⁾. Pulled-up to PS_1V8.
J2.B37	PG_PL	OUT	Programmable logic powered-up.
J2.B38	EN_FPD	IN	Enable full-power domain power-up.
J2.B41	PG_FPD	OUT	Full-power domain powered-up.
J2.B42	EN_LPD	IN	Enable low-power domain power-up.
J2.B45	PG_DDR	OUT	DDR power supply powered-up.
J2.B46	DONE	OUT	PS done signal ²⁾. Pulled-up to PS_1V8.
J2.B47	EN_DDR	IN	Enable DDR power-up.
J2.C30	EN_GT_L	IN	Enable left GTH transceiver power-up.
J2.C31	MR	IN	Manual reset.
J2.C32	PLL_SEL0	IN	PLL clock selection.
J2.C33	PLL_RST	IN	PLL reset. Pulled-up to PS_1V8.
J2.C35	EN_PL	IN	Enable programable logic power-up.
J2.C36	EN_GT_R	IN	Enable right GTH transceiver power-up.
J2.C37	PLL_FDEC	IN	PLL Frequency decrementation.
J2.C44 / J2.C45 / J2.C46 / J2.C47	MODE3..0	IN	Boot mode selection ²⁾: JTAG QUAD-SPI (32 Bit) SD1 (2.0) eMMC (1.8 V) SD1 LS (3.0) Supported Modes depends also on used Carrier.
J2.D29	EN_PLL_PWR	IN	Enable PLL power supply.
J2.D30	PLL_FINC	IN	PLL Frequency incrementation.
J2.D31	PLL_LOLn	OUT	Loss of lock status.
J2.D32	PLL_SEL1	IN	PLL clock selection.
J2.D33	PG_GT_R	OUT	Right GTH Transceivers powered-up.
J2.D37	PSBATT	IN	PS RTC Battery supply voltage ^{2) 3)}.
J2.D38	PUDC_B	IN	Configuration pull-ups setting ²⁾. Pulled-up to PL_1V8.
J2.D45 / J2.D46	DX_P / DX_N	-	SoC temperatur sensing diode pins ²⁾.

¹⁾ Direction:

- IN: Input from the point of view of this board.
- OUT: Output from the point of view of this board.

²⁾ See UG1085 for additional information.

Power and Power-On Sequence

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Enter the default value for power supply and startup of the module here.

Order of power provided Voltages and Reset/Enable signals

Link to Schematics, for power images or more details

Power Rails

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List of all Powerrails which are accessible by the customer

Main Power Rails and Variable Bank Power

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Power Rail Name/ Schematic Name	Connector + Pin	Direction¹⁾
VCCO_66	J1.A32 / J1.A33	IN
VREF_66	J1.A41	IN
3.3VIN	J1.A54 / J1.A55 / J1.B55 / J1.B56	IN
PL_1V8	J1.C32 / J1.C33 / J1.D33 / J1.D34	OUT
PL_DCIN	J1.C56 / J1.C57 / J1.C58 / J1.C59 / J1.C60 / J1.D56 / J1.D57 / J1.D58 / J1.D59 / J1.D60	IN
LP_DCDC	J2.A50 / J2.A51 / J2.A52 / J2.B50 / J2.B51 / J2.B52 / J2.C50 / J2.C51 / J2.C52 / J2.D50 / J2.D51 / J2.D52	IN
DCDCIN	J2.A57 / J2.A58 / J2.A59 / J2.A60 / J2.B57 / J2.B58 / J2.B59 / J2.B60 / J2.C57 / J2.C58 / J2.C59 / J2.C60 / J2.D57 / J2.D58 / J2.D59 / J2.D60 /	IN
PS_BATT	J2.D37	IN
DDR_1V2	J2.D47	OUT
PS_1V8	J2.C34 / J2.D34 / J3.A56 / J3.B56 / J3.C56 / J3.D56	OUT
PLL_3V3	J3.A55	IN
GT_DCDC	J3.A59 / J3.A60 / J3.B59 / J3.B60 / J3.C59 / J3.C60 / J3.D59 / J3.D60 /	IN
VCCO_48	J3.C7 / J3.C8 / J3.D8 / J3.D9	IN
VCCO_47	J3.C19 / J3.C20 / J3.D20 / J3.D21	IN
VCCO_64	J4.B21 / J4.B39	IN
VREF_64	J4.B30	IN
VCCO_65	J4.C21 / J4.C39	IN
VREF_65	J4.C30	IN

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

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The power up sequencing highly depends on the use case. In general, it should be possible to enable/disable the processing system (PS) / programmable logic (PL) independently. Furthermore, within the processing logic it should be possible to enable/disable only low-power domain and/or low-power and full-power domain. Additionally, usage of GTR for PS side and GTH for PL side should be possible. GTH transceivers on left and right side are usable independently. Because of this flexibility the needed parts of the following table needs to be selected individually. For detailed information take a look into schematics.

Sequence	Net name	Recommended Voltage Range	Pull-up/down	Description	Notes
0	-	-	-	Configuration signal setup.	See Configuration and System Control Signals.
1 ¹⁾	PSBATT	1.2 V ... 1.5 V	-	Battery connection.	Battery Power Domain usage. When not used, tie to GND.
1	3.3VIN	3.3 V (± 5 %)	-	Management power supply.	Management module power supply. 0.5 A recommended.
GTH / GTR Transceiver clocking (Only necessary in cases where the PLL clock is used for GTH / GTR.):
1 ¹⁾	GT_DCDC	3.3 V (± 5 %) ²⁾		GTH transceiver power supply.	Main module power supply for GTH / GTY transceiver. 5 A recommended. Power consumption depends mainly on design and cooling solution.
1 ¹⁾	EN_PLL_PWR	-	PU ³⁾, 3.3VIN	PLL power enable.
1 ¹⁾	PG_PLL_1V8	-	PU ³⁾, 3.3VIN	PLL power good status.
1 ¹⁾	PLL_3V3	3.3 V (± 5 %)		PLL power supply
2	Processing System (PS):			Procedure for PS starting.
2.1	Low-power domain:			Bring-up for low-power domain PS.
2.1.1	LP_DCDC	3.3 V (± 5 %) ²⁾	-	Low-power domain power supply.	Main module power supply for low-power domain. 5.5 A recommended. Power consumption depends mainly on design and cooling solution.
2.1.2	EN_LPD	-	PU ³⁾, 3.3VIN	Low-power domain power enable.
2.1.3	LP_GOOD	-	PU ³⁾, 3.3VIN	Low-power domain power good status.	Module power-on sequencing for low-power domain finished.
2.2	Full-power domain:			Bring-up for full-power domain PS.	Full-power PS domain needs powered low-power PS domain.
2.2.1	DCDCIN	3.3 V (± 5 %) ²⁾		Full-power domain and GTR transceiver power supply.	Main module power supply for full-power domain. 7 A recommended. Power consumption depends mainly on design and cooling solution.
2.2.2	EN_FPD	3.3 V	-	Full-power domain power enable.
2.2.3	PG_FPD	-	PU ³⁾, 3.3VIN	Full-power domain power good status.	Module power-on sequencing for full-power domain finished.
2.2.4	EN_DDR	3.3 V	-	DDR memory power enable.
2.2.5	PG_DDR		PU ³⁾, 3.3VIN	DDR memory power good status.	Module power-on sequencing for DDR memory finished.
2.3	GTR Transceiver			Procedure for GTR transceiver starting.	PS transceiver usage needs powered PS (low- and full-power domain).
2.3.1	EN_PSGT	3.3 V	-	GTR transceiver power enable.
2.3.2	PG_PSGT	-	PU ³⁾, 3.3VIN	GTR transceiver power good status.	Module power-on sequencing for GTR transceiver finished.
2	Programmable Logic (PL)			Procedure for PL starting.	PS and PL can be started independently.
2.1	PL_DCIN	3.3 V (± 5 %) ²⁾	-	Programmable logic power supply.	Main module power supply for programmable logic. 12 A recommended. Power consumption depends mainly on design and cooling solution.
2.2	EN_PL	-	PU ³⁾, 3.3VIN	Programmable logic power enable.
2.3	PG_PL	-	PU ³⁾, 3.3VIN	Programmable logic power good status.	Module power-on sequencing for programmable logic finished. Periphery and variable bank voltages can be enabled on carrier.
2.4	VCCO_47 / VCCO_48 / VCCO_64 / VCCO_65 / VCCO_66	⁴⁾	-	Module bank voltages.	Enable bank voltages after PG_PL deassertion.
3	GTH / GTY Transceiver			Procedure for GTH / GTY transceiver starting.	PL transceiver usage needs powered PL and low-power PS domain.
3.1	GT_DCDC	3.3 V (± 5 %) ²⁾	-	GTH transceiver power supply.	Main module power supply for GTH transceiver. 5 A recommended. Power consumption depends mainly on design and cooling solution.
3.2	EN_GT_L / EN_GT_R	3.3 V	-	GTH / GTY left / right transceiver power enable.	Transceivers on left / right side can be used independently.
3.3	PG_GT_L / PG_GT_R	-	PU ³⁾, 3.3VIN	GTH / GTY transceiver power good status.

¹⁾ (optional)

²⁾ Dependent on the assembly option a higher input voltage may be possible.

³⁾ (on module)

⁴⁾ See DS925 for additional information.

Board to Board Connectors

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use "include page" macro and link to the general B2B connector page of the module series,
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6 x 6 SoM LSHM B2B Connectors
6 x 6 SoM LSHM B2B Connectors

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	5.2 x 7.6 UltraSoM+ ADF6 and ADM6 B2B Connectors
	5.2 x 7.6 UltraSoM+ ADF6 and ADM6 B2B Connectors

Technical Specifications

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List of all Powerrails which are accessible by the customer

Main Power Rails and Variable Bank Power add boarder one time maximum Rating (Board will damaged)

Absolute Maximum Ratings ^*)

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Power Rail Name/ Schematic Name	Description	Min	Max	Unit
LP_DCDC	Micromodule Power	-0.300	6.0	V
DCDCIN	Micromodule Power	-0.300	7.0	V
GT_DCDC	Micromodule Power	-0.300	6.0	V
PL_DCIN	Micromodule Power	-0.300	7.0	V
3.3VIN	Micromodule Power	-0.300	3.600	V
PLL_3V3	PLL power supply	-0.500	3.8	V
PS_BATT	RTC / BBRAM	-0.500	2.000	V
VCCO_47	HD IO Bank power supply	-0.500	3.400	V
VCCO_48	HD IO Bank power supply	-0.500	3.400	V
VCCO_64	HP IO Bank power supply	-0.500	2.000	V
VCCO_65	HP IO Bank power supply	-0.500	2.000	V
VCCO_66	HP IO Bank power supply	-0.500	2.000	V
VREF_64	Bank input reference voltage	-0.500	2.000	V
VREF_65	Bank input reference voltage	-0.500	2.000	V
VREF_66	Bank input reference voltage	-0.500	2.000	V

^*) Stresses beyond those listed under Absolute Maximum Ratings 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 Recommended Operating Condition. Exposure to absolute-maximum rated conditions for extended periods may affect device reliability.

Recommended Operating Conditions

This TRM is generic for all variants. Temperature range can be differ depending on the assembly version. Voltage range is mostly the same during variants (exceptions are possible, depending on custom request).

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

Variants of modules are described here: Article Number Information
Modules with commercial temperature grade are equipped with components that cover at least the range of 0°C to 75°C
Modules with extended temperature grade are equipped with components that cover at least the range of 0°C to 85°C
Modules with industrial temperature grade are equipped with components that cover at least the range of -40°C to 85°C
The actual operating temperature range will depend on the FPGA / SoC design / usage and cooling and other variables.

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Parameter	Min	Max	Units	Reference Document
LP_DCDC ¹⁾	3.201	3.399	V
DCDCIN ¹⁾	3.135	3.465	V
GT_DCDC ¹⁾	3.201	3.399	V
PL_DCIN ¹⁾	3.135	3.465	V
3.3VIN	3.135	3.465	V
PLL_3V3	3.201	3.399	V
PS_BATT	1.200	1.500	V	See FPGA datasheet.
VCCO_47	1.164	3.399	V	See FPGA datasheet.
VCCO_48	1.164	3.399	V	See FPGA datasheet.
VCCO_64	0.970	1.854	V	See FPGA datasheet.
VCCO_65	0.970	1.854	V	See FPGA datasheet.
VCCO_66	0.970	1.854	V	See FPGA datasheet.
VREF_64	0.6	1.2	V	See FPGA datasheet.
VREF_65	0.6	1.2	V	See FPGA datasheet.
VREF_66	0.6	1.2	V	See FPGA datasheet.

¹⁾ Higher values may possible. For more information consult schematic and according datasheets.

Physical Dimensions

Module size: 76 mm × 52 mm. Please download the assembly diagram for exact numbers.
Mating height with standard connectors: 5 mm.

PCB thickness: 1.6 mm (± 10 %).

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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

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

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Currently Offered Variants

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

Example for TE0706:

ENG Page: https://shop.trenz-electronic.de/en/search?sSearch=TE0706

DEU Page: https://shop.trenz-electronic.de/de/search?sSearch=TE0706

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Trenz shop TE0818 overview page
English page	German page

Revision History

Hardware Revision History

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Set correct links to download Carrier, e.g. TE0706 REV02:

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Note:

Date format: YYYY-MM-DD
Example:
Date Revision Changes Documentation Link
2020-11-25 REV02
Resistors R14 and R15 was replaced by 953R (was 5K1)
Resistor R5 was replaced by 5K1, R8 by 953R (was 9K09 and 1K69 respectively)
REV02

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Date	Revision	Changes	Documentation Link
-	REV02	Added capacitors C178, C187, C188, C189 (470nF) to VTT net. Added U18/ U37 compensation network: R119, C190, C191. R118 is optional jumper and is installed when using the internal compensation network. External compensation network is used by default. Connected all DDR4 TEN pins together and pulled them down with resistor R120 and added testpoint TP23. Added testpoints TP25, TP27, TP29, TP35, TP37...TP79. Changed capacitor C112 size from 0402 to 0201 and voltage rating from 16 V to 10 V. Changed ferrid beads from MPZ0603S121HT000 to BLM15PX800SZ1D for L1, L2, L3, L4, L5, and L7. Changed ferrid beads from MPZ1608S221A to BLM15PX800SZ1D for L6 and L8. Added diode D2 between U41 pin 3 net MR and voltage rail 3.3VIN. Modified trace length. Updated documentation overviews.	REV02
-	REV01	First Production Release	REV01

Revision History

Hardware Revision History

Set correct links to download Carrier, e.g. TE0706 REV02:

TE0706-02 -> https://shop.trenz-electronic.de/Download/?path=Trenz_Electronic/Modules_and_Module_Carriers/4x5/4x5_Carriers/TE0706/REV02/Documents

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Date format: YYYY-MM-DD

Example:

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Date

Revision

Changes

Documentation Link

2020-11-25

REV02

Resistors R14 and R15 was replaced by 953R (was 5K1)
Resistor R5 was replaced by 5K1, R8 by 953R (was 9K09 and 1K69 respectively)

REV02

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DateRevisionChangesDocumentation Link

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

Document Change History

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Date

Revision

Contributor

Description

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type	Flat
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Added power supply PLL_3V3 in table "Recommended Power up Sequencing".
Fix typo.

2023-09-20

v.16

ED

Updated for REV02

2023-01-12

v.13

ED

Initial Document

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Trenz Electronic Documentation

Page History

Versions Compared

Old Version 2

New Version Current

Key

Overview

Key Features

Main Components

Main Components

Initial Delivery State

Initial Delivery State

Signals, Interfaces and Pins

Connectors

Test Points

Configuration and System Control Signals

Power and Power-On Sequence

Power Rails

Recommended Power up Sequencing

Board to Board Connectors

Technical Specifications

Absolute Maximum Ratings *)

Recommended Operating Conditions

On-board Peripherals

Physical Dimensions

DDR4 SDRAM

Quad SPI Flash

EEPROM

Clock Generator

Oscillator

Currently Offered Variants

Configuration and System Control Signals

Power and Power-On Sequence

Power Rails

Recommended Power up Sequencing

Board to Board Connectors

Technical Specifications

Absolute Maximum Ratings *)

Recommended Operating Conditions

Physical Dimensions

Currently Offered Variants

Revision History

Hardware Revision History

Revision History

Hardware Revision History

Document Change History

Disclaimer

Table of contents

Absolute Maximum Ratings ^*)

Absolute Maximum Ratings ^*)