AXIOMTEK eBOX560-900-FL User Manual

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eBOX560-900-FL Series
Embedded System
User’s Manual
Page 2
Disclaimers
This manual has been carefully checked and believed to contain accurate information. Axiomtek Co., Ltd. assumes no responsibility for any infringements of patents or any third party’s rights, or any liability arising from such uses.
Axiomtek does not warrant or assume any legal liability or responsibility for the accuracy, completeness or usefulness of any information in this document. Axiomtek does not make any commitment to update any information in this manual.
Axiomtek reserves the right to change or revise this document and/or product at any time without notice.
No part of this document may be reproduced, stored in a retrieval system, or transmitted in any forms or by any means, electronic, mechanical, photocopying, recording, among others, without prior written permissions of Axiomtek Co., Ltd.
Copyright 2018 Axiomtek Co., Ltd. All Rights Reserved June 2018, Version A1 Printed in Taiwan
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Safety Precautions
Before getting started, please read the following important safety precautions.
1. The eBOX560-900-FL does not come with an operating system which must be loaded first before installation of any software into the computer.
2. Be sure to ground yourself to prevent static charge when installing any internal components. Use a wrist grounding strap and place all electronic components in any static-shielded devices. Most electronic components are sensitive to static electrical charge.
3. Disconnect the power cord from the eBOX560-900-FL prior to making any installation. Be sure both the system and all external devices are turned OFF. Sudden surge of power could ruin sensitive components. Make sure the eBOX560-900-FL is properly grounded.
4. Make sure the voltage of the power source is correct before connecting it to any power outlet.
5. Turn Off system power before cleaning. Clean the system using a cloth only. Do not spray any liquid cleaner directly onto the screen.
6. Do not leave equipment in an uncontrolled environment where the storage temperature is below -40 or above 80 as it may damage the equipment.
7. Do not open the system’s back cover. If opening the cover for maintenance is a must, only a trained technician is allowed to do so. Integrated circuits on computer boards are sensitive to static electricity. To avoid damaging chips from electrostatic discharge, observe the following precautions:
Before handling a board or integrated circuit, touch an unpainted portion of the
system unit chassis for a few seconds. This will help discharge any static electricity on human body.
When handling boards and components, wear a wrist grounding strap available from
most electronic component stores.
8. Note!! Caution with touch! eBOX560-900-FL will be hot when it's on.
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Classification
1. Degree of production against electric shock: not classified
2. Degree of protection against ingress of water: IP40
3. Equipment not suitable for use in the presence of a flammable anesthetic mixture with air,
oxygen or nitrous oxide.
4. Mode of operation: Continuous
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General Cleaning Tips
Please keep the following precautions in mind while understanding the details fully before and during any cleaning of the computer and any components within.
A piece of dry cloth is ideal to clean the device.
1. Be cautious of any tiny removable components when using a vacuum cleaner to absorb dirt on the floor.
2. Turn the system off before clean up the computer or any components within.
3. Avoid dropping any components inside the computer or getting circuit board damp or wet.
4. For cleaning, be cautious of all kinds of cleaning solvents or chemicals which may cause allergy to certain individuals.
5. Keep foods, drinks or cigarettes away from the computer.
Cleaning Tools:
Although many companies have created products to help improve the process of cleaning computer and peripherals, users can also use house hold items accordingly for cleaning. Listed below are items available for cleaning computer or computer peripherals.
Pay special attention to components requiring designated products for cleaning as mentioned below.
Cloth: A piece of cloth is the best tool to use when rubbing up a component. Although
paper towels or tissues can be used on most hardware as well, it is recommended to use a piece of cloth.
Water or rubbing alcohol: A piece of cloth may be somewhat moistened with water or
rubbing alcohol before being rubbed on the computer. Unknown solvents may be harmful to plastic parts.
Absorb dust, dirt, hair, cigarette and other particles outside of a computer can be one of
the best methods of cleaning a computer. Over time these items may restrict the airflow in a computer and cause circuitry to corrode.
Cotton swabs: Cotton swaps moistened with rubbing alcohol or water are applicable to
reach areas in keyboard, mouse and other areas.
Foam swabs: If possible, it is better to use lint free swabs such as foam swabs.
.
Note: It is strongly recommended that customer should shut down the system before
start to clean any single components.
Please follow the steps below:
1. Close all application programs;
2. Close operating software;
3. Turn off power switch;
4. Remove all devices;
5. Pull out power cable.
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Scrap Computer Recycling
If the computer equipment’s needs the maintenance or are beyond repair, we strongly recommended that you should inform your Axiomtek distributor as soon as possible for the suitable solution. For the computers that are no longer useful or no longer working well, please contact your Axiomtek distributor for recycling and we will make the proper arrangement.
Trademarks Acknowledgments
Axiomtek is a trademark of Axiomtek Co., Ltd. IBM, PC/AT, PS/2, VGA are trademarks of International Business Machines Corporation. Intel® and Pentium® are registered trademarks of Intel Corporation. NVIDIA
®
and Jetson are registered trademarks of NVIDIA Corportion. MS-DOS, Microsoft C and QuickBasic are trademarks of Microsoft Corporation. Windows 10, Linux and other brand names and trademarks are the properties and registered brands of their respective owners.
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Table of Contents
Disclaimers ............................................................................................................. ii
Safety Precautions ................................................................................................ iii
Classification ......................................................................................................... iv
General Cleaning Tips ........................................................................................... v
Scrap Computer Recycling ................................................................................... vi
CHAPTER 1 INTRODUCTION ....................................................................... 1
1.1 General Description ........................................................................... 1
1.2 System Specifications ....................................................................... 2
1.2.1 Product Specification ...................................................................................... 2
1.2.2 I/O System ........................................................................................................ 2
1.2.3 System Specification ....................................................................................... 3
1.3 Dimensions ........................................................................................ 4
1.3.1 System Dimension ........................................................................................... 4
1.3.2 Wall mount Bracket Dimension ...................................................................... 5
1.3.3 Din-rail mount Bracket Dimension ................................................................. 6
1.3.4 VESA mount Bracket Dimension .................................................................... 7
1.4 I/O Outlets ......................................................................................... 8
1.5 Packing List ...................................................................................... 9
1.6 Model List ........................................................................................... 9
CHAPTER 2 HARDWARE INSTALLATION ................................................. 11
2.1 Installing the PCI Express Mini Card .............................................. 11
2.2 Installing LTE Antenna Cable ......................................................... 14
2.3 Installing the M.2 2280 M-Key SSD Module .................................... 18
CHAPTER 3 JUMPER SETTING & CONNECTOR ...................................... 21
3.1 Jumper & Connector Location ........................................................ 21
3.2 Jumper Setting Summary ................................................................ 23
3.2.1 Other Settings (JP2) ...................................................................................... 24
3.2.2 PCIe Signal Selection (JP3) .......................................................................... 24
3.3 Connectors ....................................................................................... 24
3.3.1 M.2 2280 M-Key NVMe SSD (CN1) ............................................................... 25
3.3.2 SIM Card Slot (CN3) ...................................................................................... 26
3.3.3 PCI-Express Mini Card Connector (CN4) ..................................................... 27
3.3.4 Micro USB 2.0 On-The-Go Connector (CN7) ............................................... 28
3.3.5 Ethernet Ports (CN8) ..................................................................................... 28
3.3.6 USB2.0 Connector (CN9) ............................................................................... 29
3.3.7 DC Power Jack w/ Screw (CN11) .................................................................. 29
3.3.8 HDMI Connector (CN12) ................................................................................ 29
3.3.9 Digital I/O Connector (CN14) ........................................................................ 30
3.2.10 Debug Port Connector (JP1) ........................................................................ 30
3.3.11 Force Recovery Mode (SW1) ........................................................................ 30
3.3.12 CMOS Battery Interface (BAT1) .................................................................... 30
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eBOX560-900-FL Series User’s Manual
Introduction
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CHAPTER 1
INTRODUCTION
This chapter contains general information and detailed specifications of the eBOX560-900-FL. The Chapter 1 includes the following sections:
General Description System Specifications Dimensions I/O Outlets Packing List Model List
1.1 General Description
The eBOX560-900-FL is an embedded system with NVIDIA® JETSON™ TX2 supercomputer on a module to support Linux Ubuntu 16.04, suitable for the most endurable operation.
It features fanless design with full feature I/O, one 8GB 128-bit LPDDR4@1866 MHz memory, and enhanced system dependability by built-in Watchdog Timer.
Features
1. NVIDIA® JETSON™ TX2 with Pascal™, 256 CUDA cores GPU
2. High AI computing performance for GPU-accelerated processing
3. Ideal for intelligent edge applications
4. Compact size with NVMe supported
5. JetPack 3.2 ready
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Reliable and Stable Design
The eBOX560-900-FL adopts the advanced fanless system and supporting the NVMe through M.2 interface, which makes it especially suitable for AI computing environments, best for industrial automation, GPU-accelerated processing and smart city applications.
JetPack 3.2 Supported
The eBOX560-900-FL supports JetPack 3.2. NVIDIA JetPack SDK is the most comprehensive solution for building AI applications.
JetPack 3.2 with L4T R28.2 is the latest production software release for NVIDIA Jetson TX2. It bundles all the Jetson platform software, including TensorRT, cuDNN, CUDA Toolkit, VisionWorks, GStreamer, and OpenCV, all built on top of L4T with LTS Linux kernel.
O.S. Supported
The eBOX560-900-FL supports Linux Ubuntu 16.04.
Various Storage devices supported
For storage device, the eBOX560-900-FL supports one M.2 2280 M-Key with PCI­Express 2.0 x4 Interface (support NVMe SSD), and an onboard 32GB eMMC (via JETSON TX2).
1.2 System Specifications
1.2.1 Product Specification
CPU Board
NVIDIA
®
JETSON™ TX2
CPU
HMP Dual Denver 2/2 MB L2 + Quad ARM
®
A57/2 MB L2
GPU
NVIDIA
®
Pascal™, 256 CUDA cores
Storage
32GB eMMC onboard One M.2 2280 M-Key with PCI-Express 2.0 x4 Interface to support optional NVMe
System Memory
One 8GB 128-bit LPDDR4 @ 1866 MHz onboard
WLAN & WWAN
802.11ac WLAN, Bluetooth onboard 3G/LTE supports through optional mini PCIe module
1.2.2 I/O System
One HDMI 2.0 for display (HDMI 2.0 Resolution: up to 4096 x 2160@60Hz) Two RJ-45 connectors for 10/100/1000 Base-T Ethernet ports (NVIDIA® + Intel® I210-IT) One USB 2.0 connector
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Introduction
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One full-size PCI Express Mini Card slot (USB + PCI Express signal)
PCIe signal is designed by jumper selection, is supports either PCIe of mini PCIe
connector or LAN Intel
®
I210-IT. For more details, please refer to section 3.2.2: PCIe
Signal Selection (JP3)
Two Indicators LEDs (System Power, Storage) Four SMA type connector openings for Antenna One 12 VDC Power jack connector
1.2.3 System Specification
Watchdog Timer
Support the watchdog timer embedded in NVIDIA
®
JETSON™ TX2
Power Supply
Input : 12VDC
Operation Temperature
-10~+50 (-14°F~+122°F)
Storage Temperature
-25 ~ 80 (-40 ºF ~ 176ºF)
Humidity
10% ~ 95% (non-condensation)
Vibration Endurance
3Grm w/ SSD Storage (5-500Hz, X, Y, Z directions)
Weight
0.8 kg(1.76lb) without package 1.5 kg(3.31lb) with package
Dimensions
141.6 mm(5.57”) (W) x 106 mm(4.17”) (D) x 55 mm(2.17”) (H)
Note: All specifications and images are subject to change without notice.
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Introduction
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1.3 Dimensions
The following diagrams show you dimensions and outlines of the eBOX560-900-FL.
1.3.1 System Dimension
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Introduction
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1.3.2 Wall mount Bracket Dimension
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Introduction
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1.3.3 Din-rail mount Bracket Dimension
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Introduction
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1.3.4 VESA mount Bracket Dimension
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Introduction
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1.4 I/O Outlets
The following figures show you I/O outlets on front view of the eBOX560-900-FL.
Front View drawing
Rear View drawing
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eBOX560-900-FL Series User’s Manual
Introduction
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1.5 Packing List
The package bundled with your eBOX560-900-FL should contain the following items:
eBOX560-900-FL System Unit x 1 eBOX560-900-FL Quick Installation Guide x 1 Screws Pack x 1 Antennas for WLAN / WWAN x 2 12VDC / 60W AC to DC Adapter x 1 EU Power cord x 1 or US Power cord x 1
Regarding the Jetpack 3.2 image & product manual, please download them from Axiomtek
official website.
1.6 Model List
eBOX560-900-FL-US
Fanless Embedded System with NVIDIA® JETSON TX2, 1 HDMI 2.0, 2 GbE LANs, 1 USB 2.0, 12V/60W power adapter and EU power cord
eBOX560-900-FL-EU
Fanless E mbedded S ystem with N VIDIA® JETSON™ TX2, 1 HDMI 2.0, 2 GbE LANs, 1 USB 2.0, 12V/60W power adapter and EU power cord
If you cannot find this package or any items are missing, please contact Axiomtek distributors immediately.
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Hardware Installation 11
CHAPTER 2
HARDWARE INSTALLATION
The eBOX560-900-FL is convenient for your various hardware configurations, such as SSD (Solid State Drive) and PCI Express Mini Card modules. The chapter 2 will show you how to install the hardware.
2.1 Installing the PCI Express Mini Card
Step 1 Turn off the system, and unplug the power adaptor. Step 2 Turn the system upside down to locate screws at the bottom side as
red marked and loosen four screws.
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12 Hardware Installation
Step 3 Remove the bottom cover.
Step 4 Locate the PCI Express mini card slot on the board.
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Hardware Installation 13
Step 5 Holding the PCI Express mini card at a 45 degree angle up from
horizontal, slowly insert the golden fingers into the PCI Express slot
until it is fully inserted in.
Step 6 Press it down gently, but firmly, and then secure the PCI Express mini
card to the carrier by tightening up the one M2*5L Phillips pan head screw to the marked position.
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2.2 Installing LTE Antenna Cable
Step 1 Take the Antenna kit out of its box. And turn off the system, and
unplug the power adaptor.
Step 2 Turn the system upside down to locate screws at the bottom side as
red marked and loosen four screws.
Step 3 Install the Mini PCIe card into the Mini PCIe slot and affix it with a
screw. For more details, please refer to section 2.1: Installing the PCI Express Mini Card.
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Hardware Installation 15
Step 4 Remove the Hex nut and washer from the Antenna cable.
Step 5 Install the antenna cable connector through the opening at the back of
the chassis.
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16 Hardware Installation
Step 6 Put the washer and Hex nut into the antenna cable connector, and
tighten it up.
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Hardware Installation 17
Step 7 Connect the antenna cable to the PCI Express mini card.
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2.3 Installing the M.2 2280 M-Key SSD Module
Step 1 Turn off the system, and unplug the power adaptor. Step 2 Turn the system upside down to locate screws at the bottom side as
red marked and loosen four screws.
Step 3 Remove the bottom cover.
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Hardware Installation 19
Step 4 Locate the M.2 2280 M-Key slot on the board.
Step 5 Holding the M.2 2280 M-Key SSD card at a 30 degree angle up from
horizontal, slowly insert the golden fingers into the M.2 2280 M-Key
slot until it is fully inserted in.
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20 Hardware Installation
Step 6 Press it down gently, but firmly, and then secure the M.2 2280 M-Key
SSD card to the carrier by tightening up the one M3*4L Phillips flat head screw to the marked position.
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Jumper setting & connector 21
CHAPTER 3
JUMPER SETTING & CONNECTOR
Proper jumper settings configure the eBOX560-900-FL to meet your application purpose. We are here with listing a summary table of all jumpers and default settings for onboard devices, respectively.
3.1 Jumper & Connector Location
SBC87900 Top View
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22 Jumper setting & connector
SBC87900 Bottom View
SBC87900 Rear View
Note: We strongly recommended that you should not modify any unmentioned jumper
setting without Axiomtek FAE’s instruction. Any modification without instruction might cause system to become damage.
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Jumper setting & connector 23
3.2 Jumper Setting Summary
Proper jumper settings configure the eBOX560-900-FL to meet your application purpose. We are herewith listing a summary table of all jumpers and default settings for onboard devices, respectively.
SBC87900:
Jumper &
Switch
Descriptions
Settings
JP2
Other Settings
Sleep
1-2 Close
Force Recovery
3-4 Close
Auto Power On
5-6 Close
Power Button
7-8 Close
Reset
9-10 Close
JP3
PCIe Signal Selection
Default: Enable LAN Intel® I210-IT
2-3 Close
Note: How to setup Jumpers
The illustration shows how to set up jumpers. When the jumper cap is placed on pins, the jumper is “close”, if not, that means the jumper is “open”.
[Open] [Closed] [Pin1-2 Closed]
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24 Jumper setting & connector
3.2.1 Other Settings (JP2)
The JP2 allows you to select the power mode as following table.
3.2.2 PCIe Signal Selection (JP3)
PCIe signal can be selected by JP3 to mini PCIe connector or LAN Intel
®
I210-IT.
3.3 Connectors
Connectors connect the board with other parts of the system. Loose or improper connection might cause problems. Make sure all connectors are properly and firmly connected. Here is a summary table shows you all connectors and button on the eBOX560-900-FL Series.
External Connectors / Buttons
PCB Location
Section
M.2 2280 M-Key NVMe SSD
CN1
3.3.1
SIM Card Slot
CN3
3.3.2
PCI-Express Mini Card Connector
CN4
3.3.3
Micro USB 2.0 On-The-Go Connector
CN7
3.3.4
Ethernet Port
CN8
3.3.5
USB 2.0 Connector
CN9
3.3.6
DC Jack with Screw
CN11
3.3.7
HDMI Connector
CN12
3.3.8
Digital I/O
CN14
3.3.9
Debug Port Connector
JP1
3.3.10
Force Recovery Mode
SW1
3.3.11
CMOS Battery Interface
BAT1
3.3.12
Pin
Description
1-2
Sleep Pin1-Pin2 Short: Sleep Pin1-Pin2 Open: Normal Operation (Default)
3-4
Force Recovery Pin3-Pin4 Short: Force Recovery Pin3-Pin4 Open: Normal Operation (Default)
5-6
Auto Power On Pin5-Pin6 Short: Auto Power on (Default) Pin5-Pin6 Open: Power on by power button
7-8
Power Button. Short Pin7-Pin8 for power on.
9-10
Reset. Short Pin9-Pin10 for system reset.
Pin
Description
1-2
Enable PCIe signal for mini PCIe connector
2-3
Enable LAN Intel® I210-IT (Default)
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Jumper setting & connector 25
3.3.1 M.2 2280 M-Key NVMe SSD (CN1)
The eBOX560-900-FL comes with one M.2 2280 M-Key NVM Express SSD for storage.
Pin
Signal
Pin
Signal
1
GND
2
+3.3V
3
GND
4
+3.3V
5
PERn3
6
NC 7 PERp3
8
NC 9 GND
10
DAS/DSS#
11
PETn3
12
+3.3V
13
PETp3
14
+3.3V
15
GND
16
+3.3V
17
PERn2
18
+3.3V
19
PERp2
20
NC
21
GND
22
NC
23
PETn2
24
NC
25
PETp2
26
NC
27
GND
28
NC
29
PERn1
30
NC
31
PERp1
32
NC
33
GND
34
NC
35
PETn1
36
NC
37
PETp1
38
DEVSLP
39
GND
40
NC
41
PERn0
42
NC
43
PERp0
44
NC
45
GND
46
NC
47
PETn0
48
NC
49
PETp0
50
PERST#
51
GND
52
CLKREQ#
53
REFCLKN
54
PEWAKE#
55
REFCLKP
56
NC
57
GND
58
NC
59
Connector Key
60
Connector Key
61
Connector Key
62
Connector Key
63
Connector Key
64
Connector Key
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26 Jumper setting & connector
Pin
Signal
Pin
Signal
65
Connector Key
66
Connector Key
67
NC
68
SUSCLK
69
PEDET
70
+3.3V
71
GND
72
+3.3V
73
GND
74
+3.3V
75
GND
3.3.2 SIM Card Slot (CN3)
The eBOX560-900-FL includes one SIM slot on the bottom side of the system for inserting SIM Card. It is mainly used in 3G/LTE wireless network application on CN3.
Pin
Signal
1
PWR
2
RST 3 CLK 4 NC 5 GND
6
VPP 7 I/O 8 NC
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Jumper setting & connector 27
3.3.3 PCI-Express Mini Card Connector (CN4)
The eBOX560-900-FL supports a full-size PCI-Express Mini Card slots. CN4 is applying to either PCI-Express or USB 2.0 signal, and complies with PCI-Express Mini Card Spec. V1.2. PCIe signals can be selected by JP3. Please refer to Jumper Setting section.
Pin
Signal
Pin
Signal
1
WAKE#
2
+3.3VSB
3
No use
4
GND
5
No use
6
+1.5V
7
CLKREQ#
8
No use
9
GND
10
No use
11
REFCLK-
12
No use
13
REFCLK+
14
No use
15
GND
16
No use
17
No use
18
GND
19
No use
20
W_DISABL E#
21
GND
22
PERST#
23
PE_RXN3/ SATA_RXP
24
+3.3VSB 25
PE_RXP3/ SATA_RXN
26
GND 27
GND
28
+1.5V
29
GND
30
SMB_CLK
31
PE_TXN3/ SATA_TXN
32
SMB_DATA 33
PE_TXP3/ SATA_TXP
34
GND 35
GND
36
USB_D8-
37
GND
38
USB_D8+
39
+3.3VSB
40
GND
41
+3.3VSB
42
No use
43
GND
44
No use
45
No use
46
No use
47
No use
48
+1.5V
49
No use
50
GND
51
No use
52
+3.3VSB
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3.3.4 Micro USB 2.0 On-The-Go Connector (CN7)
USB On-The-Go, often abbreviated USB OTG, is a specification that allows USB devices such as digital audio players or mobile phones to act as a host, allowing other USB devices like a USB flash drive, mouse, or keyboard to be attached to them. Unlike conventional USB systems, USB OTG systems can drop the hosting role and act as normal USB devices when attached to another host.
3.3.5 Ethernet Ports (CN8)
The eBOX560-900-FL comes with two RJ-45 connectors; LAN1 (NVIDIA® JETSON™ TX2) and LAN2 (Intel® I210-IT). Ethernet connection can be established by plugging one end of the Ethernet cable into this RJ-45 connector and the other end (phone jack) to a 1000/100/10 Base-T hub.
Pin
Signal
1
USB_5V_Power
2
D- 3 D+ 4 ID 5 GND
Pin
1000 Base-T
100/10 Base-T
Description
L1
BI_DA+
TX+
Bidirectional or Transmit Data+
L2
BI_DA-
TX-
Bidirectional or Transmit Data-
L3
BI_DB+
RX+
Bidirectional or Receive Data+
L4
BI_DC+
N.C.
Bidirectional or Not Connected
L5
BI_DC-
N.C.
Bidirectional or Not Connected
L6
BI_DB-
RX-
Bidirectional or Receive Data-
L7
BI_DD+
N.C.
Bidirectional or Not Connected
L8
BI_DD-
N.C.
Bidirectional or Not Connected
A
Active Link LED (Yellow) Off: No link Blinking: Data activity detected
B
Speed LED 1000: Orange 100/10: OFF/Green
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Jumper setting & connector 29
3.3.6 USB2.0 Connector (CN9)
The Universal Serial Bus connectors are compliant with USB 2.0 (480Mbps), and ideally for installing USB peripherals such as keyboard, mouse, scanner, etc.
Pin
Signal
1
USB_PWR3
2
USB_PN6
3
USB_PP6
4
GND
3.3.7 DC Power Jack w/ Screw (CN11)
The CN11 is a DC jack with screw. Firmly insert at least 60W adapter into this connector. Loose connection may cause system instability and make sure all components/devices are properly installed before connecting.
Pin
Signal
1
12V 2 GND
3
GND
3.3.8 HDMI Connector (CN12)
The HDMI (High-Definition Multimedia Interface) is a compact digital interface which is capable of transmitting high-definition video and high-resolution audio over a single cable.
Pin
Signal
Pin
Signal
1
HDMI DATA2+
2
GND
3
HDMI DATA2-
4
HDMI DATA1+
5
GND
6
HDMI DATA1-
7
HDMI DATA0+
8
GND
9
HDMI DATA0-
10
HDMI Clock+
11
GND
12
HDMI Clock-
13
N.C.
14
N.C.
15
HDMI SCL
16
HDMI SDA
17
GND
18
+5V
19
HDMI_HTPLG
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30 Jumper setting & connector
3.3.9 Digital I/O Connector (CN14)
The eBOX560-900-FL supports one 8-Channel digital I/O connector by option. The digital I/O is controlled via software programming.
3.2.10 Debug Port Connector (JP1)
The JP1 is UART interface (UART Port0) for debug port when developing software.
3.3.11 Force Recovery Mode (SW1)
It will make NVIDIA® JETSON™ TX2 to force recovery mode when push SW1.
3.3.12 CMOS Battery Interface (BAT1)
This connector is for CMOS battery interface..
Pin
Signal
Pin
Signal
1
DIO01
2
DIO08
3
DIO02
4
DIO07
5
DIO03
6
DIO06
7
DIO04
8
DIO05
9
+5V
10
GND
Pin
Signal
1
+5V 2 +3.3V
3
TX 4 RX 5 RTS#
6
CTS#
7
GND
Push Button
Description
SW1
Force Recovery Mode
Pin
Signal
1
+3.3V
2
GND
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