TEI0016 TRM

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Table of Contents

Overview

The Trenz Electronic TEI0016 is a commercial-grade module based on Intel® MAX 10. Intel MAX 10 devices are the ideal solution for system management, I/O expansion, communication control planes, industrial, automotive, and consumer applications.

Refer to http://trenz.org/tei0016-info for the current online version of this manual and other available documentation.

Key Features

Intel® MAX 10 Commercial [10M08SAU169C8G]
- Package: UBGA-169
- Speed Grade: C8 (Slowest)
- Temperature: 0°C to 85°C
- Package compatible device 10M08...10M16 as assembly variant on request possible
SDRAM Memory up to 32 Mbyte (8Mbyte default)
USB 2.0 Multipurpose UART/FIFO IC (FT2232H)
- 4 Kbit EEPROM Memory for FTDI configuration data
- Micro USB Receptacle (communication and power)
SPI Flash - NOT INSTALLED (only special option)
8x User LED
Micro USB Connector
16 Bit Analog to Digital Converter with 1 MSPS or 500 kSPS
2x SMA Female Connector
I/O interface: 23x GPIO
Power Supply: 5V (from USB)
Dimension: 25 mm x 86.5 mm
Others:
- Instrumentation Amplifier
- Differential Amplifier
- Operational Amplifier

Block Diagram

TEI0016 block diagram

Main Components

TEI0016 main components

SMA Connector, J5...6
Amplifier, U12
Analog to Digital Converter, U6
Voltage Reference, U8
Voltage Regulator, U10 - U13 - U16
Switching Voltage Regulator/LDO, U11 - U4
SDRAM Memory, U2
Intel® MAX 10 FPGA, U1
SPI Flash Memory, U5 (not populated)
12.00 MHz MEMS oscillator, U7
FTDI USB to JTAG/UART/FIFO, U3
User LEDs, D2...9
4Kb EEPROM, U9
Configuration LED (Red) , D10
Power-on LED (Green), D1
Push button, S1...2
Micro USB Connector, J9
1x14 pin header, J2 (Not assembled)
1x6 pin header, J4 (Not assembled)
Jumper, J3
1x14 pin header, J1 (Not assembled)

Initial Delivery State

Storage device name	Content	Notes
Quad SPI Flash	N/A	Not populated
EEPROM	Programmed	FTDI configuration

Initial delivery state of programmable devices on the module

Configuration Signals

The FPGA configuration for Intel MAX 10 FPGAs can be stored through JTAG interface (using a *.POF file) on the FPGA itself since the Intel MAX 10 FPGA offers non-volatile configuration memory on chip. The FPGA configuration is loaded from the non-volatile memory when the board is powered up. To configure the FPGA directly, the JTAG interface can be used to configure the FPGA volatile (using a *.SOF file), means the configuration is lost after power off.

FPGA Reconfigration can be triggered by pressing push button S1.

Signal	Push Button	Pin Header	Note
RESET	S1	J2	Connected to nCONFIG

Reset process.

Signals, Interfaces and Pins

I/Os on Pin Headers and Connectors

FPGA Bank	Connector Designator	I/O Signal Count	Voltage Level	Notes
Bank 1A	J1	7	3.3V	AIN0...6
Bank 1B	J4	5	3.3V	JTAG interface
Bank 2	J1	4	3.3V	DIO2...5
Bank 5	J2	9	3.3V	DIO6...14
Bank 5	J1	2	3.3V	DIO0...1
Bank 8	J2	1	3.3V	RESET

General I/Os to Pin Headers and connectors information

FPGA I/O Banks

FPGA Bank	I/O Signal Count	Connected to	Notes
Bank 1A	7	1x14 Pin header, J1	AIN0...6
Bank 1A	1	Jumper, J3	AIN7
Bank 1B	5	1x6 Pin header, J4	JTAG_EN, TDI, TDO, TMS, TCK
Bank 2	4	1x14 Pin header, J1	D2...5
	5	ADC, U15	ADC_EN, ADC_SDI, ADC_SDO, ADC_SCK, ADC_CNV
	1	12MHz Oscillator, U7	CLK12M
	2	Amplifier, U12	nIAMP_A0, nIAMP_A1
Bank 3	22	SDRAM, U2	RAM_ADDR_CMD
Bank 5	9	1x14 Pin header, J2	DIO6...14
	2	1x14 Pin header, J1	DIO0...1
	1	D12_R	DIO12
Bank 6	16	SDRAM, U2	DQ0...15
	2	SDRAM, U2	DQM0...1
	1	D11_R	DIO11
Bank 8	8	User Red LEDs, D2...9	LED0...7
	6	SPI Flash, U5	F_CS, F_CLK, F_DI, F_DO, nSTATUS, DEVCLRn
	1	Red LED, D10	CONF_DONE
	6	FTDI JTAG/UART Adapter, U3	BDBUS0...5
	1	Push Button, S2	USER_BTN

FPGA I/O Banks

Micro-USB Connector

The Micro-USB2 connector J9 provides an interface to access the UART and JTAG functions via FTDI FT2232 chip. The use of this feature requires that USB driver is installed on your host PC.

Pins	Connected to	Note
VBUS	USB_VBUS
D+	FTDI U3, DP pin
D-	FTDI U3, DM pin

Micro USB-2 connector pins

JTAG Interface

JTAG access to the TEI0016 SoM through pin header connector J4.

JTAG Signal	Pin Header Connector	Note
TMS	J4-6
TDI	J4-5
TDO	J4-4
TCK	J4-3
JTAG_EN	J4-2	Pulled-up to 3.3V.

JTAG pins connection

On-board Peripherals

Chip/Interface	Designator	Notes
TEI0016 TRM#SDRAM	U2
FTDI FT2232H	U3	JTAG/UART/FIFO
TEI0016 TRM#SPI Flash	U5
TEI0016 TRM#EEPROM	U9
Oscillator	U7	12 MHz clock source
TEI0016 TRM#ADC	U6	Analog to Digital Converter
8x User LEDs	D2...9	Red LEDs
Push Buttons	S1...2

On board peripherals

SDRAM

TEI0016 is equipped with a Winbond 64 MBit (8 MByte) SDRAM chip in standard configuration, variants with 256 Mbit (32 MByte) memory density are also available. The SDRAM chip is connected to the FPGA bank 3 and 6 via 16-bit memory interface.

SDRAM I/O Signals	Signal Schematic Name	Connected to	Notes
Address inputs	A0 ... A13	bank 3	-
Bank address inputs	BA0 / BA1	bank 3	-
Data input/output	DQ0 ... DQ15	bank 6	-
Data mask	DQM0 ... DQM1	bank 6	-
Clock	CLK	bank 3	-
Control Signals	CS	bank 3	Chip select
	CKE	bank 3	Clock enable
	RAS	bank 3	Row Address Strobe
	CAS	bank 3	Column Address Strobe
	WE	bank 3	Write Enable

SDRAM interface IOs and pins

FTDI FT2232H

The FTDI chip U3 converts signals from USB to a variety of standard serial and parallel interfaces. Refer to the FTDI data sheet to get information about the features of the FT2232H chip. FTDI FT2232H chip channel A is used in MPPSE mode for JTAG. Channel B is configured to be used as in async FIFO mode, this is default mode when using preprogrammed FTDI configuration. In this mode the communication from host PC looks like normal UART but from the FTDI side it is 8 bit FIFO style interface.

The configuration of FTDI FT2232H chip is pre-programmed on the EEPROM U9.

FTDI Chip U3 Pin	Signal Schematic Name	Connected to	Notes
ADBUS0	TCK	FPGA bank 1B, pin G2	JTAG interface
ADBUS1	TDI	FPGA bank 1B, pin F5
ADBUS2	TDO	FPGA bank 1B, pin F6
ADBUS3	TMS	FPGA bank 1B, pin G1
BDBUS0	BDBUS0	FPGA bank 8, pin A4	User configurable
BDBUS1	BDBUS1	FPGA bank 8, pin B4	User configurable
BDBUS2	BDBUS2	FPGA bank 8, pin B5	User configurable
BDBUS3	BDBUS3	FPGA bank 8, pin A6	User configurable
BDBUS4	BDBUS4	FPGA bank 8, pin B6	User configurable
BDBUS5	BDBUS5	FPGA bank 8, pin A7	User configurable
BDBUS6	BDBUS6	FPGA bank 6, pin C11
BDBUS7	BDBUS7	FPGA bank 3, pin J7
BCBUS0	BCBUS0	FPGA bank 5, pin J9
BCBUS1	BCBUS1	FPGA bank 3, pin K5
BCBUS2	BCBUS2	FPGA bank 3, pin K5
BCBUS3	BCBUS3	FPGA bank 3, pin K5
BCBUS4	BCBUS4	FPGA bank 3, pin K5

FTDI chip interfaces and pins

SPI Flash

Optional SPI flash device maybe assembled in custom variants, normally it is not populated.

Signal Schematic Name	Connected to	Notes
F_CS	FPGA bank 8, pin B3	Chip select
F_CLK	FPGA bank 8, pin A3	Clock
F_DI	FPGA bank 8, pin A2	Data in / out
nSTATUS	FPGA bank 8, pin C4	Data in / out, configuration dual-purpose pin of FPGA
DEVCLRN	FPGA bank 8, pin B9	Data in / out, configuration dual-purpose pin of FPGA
F_DO	FPGA bank 8, pin B2	Data in / out

Quad SPI Flash memory interface

EEPROM

The configuration of FTDI FT2232H chip is pre-programmed in the EEPROM U9.

Schematic	Connected to	Notes
EECS	FTDI U3, Pin EECS
EECLK	FTDI U3, Pin EECLK
EEDATA	FTDI U3, Pin EEDATA

I2C EEPROM interface MIOs and pins

ADC

The boards with article nuber - TEI0016-03-08-C8A - are equipped with the Analog DevicesADC - ADAQ7988BCCZ - 16-bit 500kSPS,
boards wit article number TEI0016-03-08-C8B are equipped with the Analog Devices ADC - ADAQ7980BCCZ - 16-bit 1MSPS.

The ADC can be distinguished via its part code:

TEI0016-03-08-C8A: ADAQ7988BCCZ - 16-bit 500kSPS - starts with Y6H
TEI0016-03-08-C8B: ADAQ7980BCCZ - 16-bit 1.0MSPS - starts with Y6F

TEI0016 part code variants

Pins	Connected to	Notes
IN+	U8, VOUT
IN-	U12, VOUT
SDI	Bank 2, ADC_SDI
SDO	Bank 2, ADC_SDO
SCK	Bank 2, ADC_SCK
CNV	Bank 2, ADC_CNV

ADC converter interface and pins

LEDs

Designator	Color	Connected to	Active Level	Note
D2...9	Red	LED1...8	Active High	User LEDs
D10	Red	CONF_DONE	Active Low	Configuration DONE LED
D1	Green	3.3V Power Rail	Active High	After power on it will be on.

On-board LEDs

Push Buttons

Designator	Connected to	Functionality	Note
S1	RESET	General reset
S2	USER_BTN	User push button	Connected to FPGA Bank 8.

On-board Push Buttons

Clock Sources

Clock Source

Schematic Name

Frequency

Note

MEMS Oscillator, U7

CLK12M

12.00 MHz

Connected to FTDI FT2232 U3, pin 3.

Connected to FPGA bank 2, pin H6.

Osillators

Power and Power-On Sequence

Power Supply

The module is supplied from USB (optionally via unpopulated pin header).

Power Consumption

FPGA	Typical Current
Intel MAX 10 10M08 FPGA	TBD*

Power Consumption

* TBD - To Be Determined

Power Distribution Dependencies

Power Distribution

Power-On Sequence

There is no specific or special power-on sequence, just one single power source is needed. After power on, the green LED (D1) will be on.

Power Rails

Power Rail Name	Connector J2 Pin	Connector J9 Pin	Direction	Notes
VIN	J2-13	-	Input	5 V - Pin Header
3.3V	J2-12	-	Output
5V	J2-14	-	Output
USB_VBUS	-	J9-1	Input	5 V - USB Connector

Module power rails.

Bank Voltages

Bank	Schematic Name	Voltage
Bank 1A	VCCIO1A	3.3V
Bank 1B	VCCIO1B	3.3V
Bank 2	VCCIO2	3.3V
Bank 3	VCCIO3	3.3V
Bank 5	VCCIO5	3.3V
Bank 6	VCCIO6	3.3V
Bank 8	VCCIO8	3.3V

Intel Max 10 SoC bank voltages.

Technical Specifications

Absolute Maximum Ratings

Symbols	Description	Min	Max	Unit	Reference Document
VIN	Supply voltage	4.75	5.25	V
CH1-, CH1+	Analog input voltage on amplifier U12 pin 1, 10	-30	30	V	AD8251 datasheet
T_STG	Storage Temperature	-40	+85	°C

Absolute maximum ratings

Recommended Operating Conditions

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

Symbols	Min	Max	Unit	Reference Document
VIN supply voltage (5.0V nominal)	4.75	5.25	V
Analog input voltage on amplifier U12 pin 1 (CH1-), 10 (CH1+)	-10	10	V
T_OP	0	+70	°C	W9864G6JT-6 datasheet

Recommended operating conditions.

Physical Dimensions

Module size: 86.5 mm × 25 mm. Please download the assembly diagram for exact numbers.

PCB thickness: 1.22 mm.

Physical Dimension

Currently Offered Variants

Trenz shop TEI0016 overview page
English page	German page

Trenz Electronic Shop Overview

Revision History

Hardware Revision History

Date	Revision	Changes	Documentation Link
2019-02-11	01	-	REV01

Hardware Revision History

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

Board hardware revision number.

Document Change History

Date	Revision	Contributor	Description
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2019-09-20	v.56	Kilian Jahn	update notes for variants
2019-06-05	v.55	ED	Technical Specifications updated Power Rails updated
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Document change history.

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WEEE

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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.

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