Template Revision 1.0 - on construction

For carrier - module combination, create main getting started page for carrier Design Name always "TE Series Name" +Getting Started, for example "TE0701 Getting started" and add carrier/module combination in the description → link on the module resource page also

For whole board,  use the board name, for example "TEBF0911 Getting Started"


In this section you must explain how to power on the board and run the Reference Design (test board) on the particular module. The main points must be mentioned are:

  • Overview of the board (point out the LEDs, Ethernets, Switches and etc on the board overview)
  • Explain Switches functionality
  • Explain user LEDs
  • Explain the UART connection

  • Refer to the Reference Design

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



Table of Contents

Overview

Basic instructions to work with TEI0022.

Functionality of buttons, DIP switches, and LEDs depends on CPLD Firmware.






Board Overview

NumberNoteNumberNote
1U10 - Intel Cyclone V15J5 - Micro USB for UART
2U26...27 - DDR3 for Fabric16U21 - USB to JTAG FTDI

3

U28...29 - DDR3 for HPS17J13 - Micro USB for JTAG
4J4 - FMC18J7...10 / J15 / J17...18 - SMA Connector
5P1...4 - PMOD19S1, S3...5 - Button
6J3 - SD Card20LEDs
7U1 - Ethernet PHY21S2 / S7...8 - DIP Switch
8J1 - Ethernet RJ4522J6 - Power Jack
9U8 - USB PHY23U48 - Oscillator
10U33 - USB HUB24U3 - Programmable Clock Generator
11J2/ J12 - USB Connector25U6 - QSPI
12U23 - HDMI Transmitter26U15 - QSPI
13J11 - HDMI Connector27U54 - Power Monitoring
14U41 - Intel MAX 1028U38 - EEPROM

Power supply

The input power supply must be mentioned.

Single +12.0 V power supply is needed to power on the board at power jack J6. Current depends mainly on design and cooling solution. Use Intel Power Estimator and/or your Intel Quartus Prime Project to estimate min current. Minimum of 3A are recommended for basic functionality.

DIP-Switches and Push Buttons

Explain all DIP switches functionality.

There are three four-bit dip switches and four buttons, explained in the following:

Overview 21DefaultDescriptionActive Level
S2-1OFFHPS User Switch 1L
S2-2OFFHPS User Switch 2L
S2-3OFFFPGA User Switch 1L
S2-4OFFFPGA User Switch 2L



Overview 21DefaultDescriptionActive Level
S7-1OFF


S7-1S7-2Boot Selection
00FPGA
10SD/MMC
11SPI


L
S7-2ONL
S7-3ON


S7-3S7-4S8-4JTAG Selection
XXONMAX 10
ONONOFFHPS
ONOFFOFFFPGA
OFFONOFFFMC


L
S7-4OFFL



Overview 21DefaultDescriptionActive Level
S8-1OFF


S8-3S8-2S8-1Output Voltage
ONONON3.3 V
ONONOFF2.5 V
ONOFFON1.8 V
ONOFFOFF1.5 V
OFFONON1.25 V
OFFONOFF1.2 V
OFFOFFON0.8 V (not supported by Intel Cyclone V)
OFFOFFOFFSelected by HPS (Firmware dependent)


L
S8-2OFFL
S8-3OFFL
S8-4OFF


S7-3S7-4S8-4JTAG Selection
XXONMAX 10
ONONOFFHPS
ONOFFOFFFPGA
OFFONOFFFMC


H



Overview 21DefaultDescriptionActive Level
S1OFF

Intel Cyclone V HPS Reset

L
S3OFFIntel Cyclone V HPS Warm ResetL
S4OFFIntel Cyclone V FPGA ResetL
S5OFF

Intel Cyclone V User Button

L


LEDs

Explain all user LEDs functionality and connections.

The LED functionality is explained in the following:

DesignatorColorConnected toActive LevelNote
J1CYellowEthernet PHYLEthernet Status
D25RedIntel MAX 10HBoard Status
D11GreenIntel Cyclone V HPSHHPS User LED 2
D12GreenIntel Cyclone V HPSHHOS User LED 1
D13GreenIntel Cyclone V FPGAHFPGA User LED 2
D14GreenIntel Cyclone V FPGAHFPGA User LED 1
D8GreenIntel MAX 10 and Intel Cyclone VLProgramming Status
D15GreenUART FTDILUART Status
D18GreenUART TXLUART TX Status
D19GreenUART RXLUART RX Status
D21Green+12.0VH+12.0 V Status
D1Green+12.0V_FMCH+12.0 V FMC Status
D2Green+5.0VH+5.0 V Status
D3Green+3.3VH+3.3 V Status
D20Green+3.3V_MAX10H+3.3 V Standby Status
D22Green+3.3V_FMCH+3.3 V FMC Status
D4Green+2.5VH+2.5 V Status
D5GreenIntel MAX 10H+1.8 V Status
D7GreenIntel MAX 10HVCC Status
D9GreenIntel MAX 10HVADJ Status
D6GreenIntel MAX 10HFPGA DDR VDD Status
D23GreenIntel MAX 10HHPS DDR VDD Status
D17GreenIntel MAX 10HHPS DDR VTT Status
D10GreenIntel MAX 10HFPGA DDR VTT Status


JTAG/UART

Explain JTAG or UART connection breifly.

JTAG and UART connections are available through mini USB connectors.

Designator

Connected to

DirectionNote
J13Intel MAX 10 via FTDIINJTAG
J5Intel Cyclone V via FTDI-UART


Reference Designs

In this Section you must refer to the Reference Design (Test board) for the particular module.

For Example: TE0728 Reference Designs

Notes

In this Section you must refer to the Resources Page for the particular module.

For Example: TE0728 Resources