User Manual TREK-668/TREK-303 In-Vehicle Hybrid MDT/ Surveillance Smart Display
Copyright The documentation and the software included with this product are copyrighted 2013 by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right to make improvements in the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of Advantech Co., Ltd. Information provided in this manual is intended to be accurate and reliable.
Declaration of Conformity CE This product has passed the CE test for environmental specifications. Test conditions for passing included the equipment being operated within an industrial enclosure. In order to protect the product from being damaged by ESD (Electrostatic Discharge) and EMI leakage, we strongly recommend the use of CE-compliant industrial enclosure products.
Warnings, Cautions and Notes Warning! Warnings indicate conditions, which if not observed, can cause personal injury! Caution! Cautions are included to help you avoid damaging hardware or losing data. e.g. There is a danger of a new battery exploding if it is incorrectly installed. Do not attempt to recharge, force open, or heat the battery. Replace the battery only with the same or equivalent type recommended by the manufacturer. Discard used batteries according to the manufacturer's instructions.
Ordering Information P/N Description TREK-668-GWB7A0E Intel Atom N2600 1.6 Ghz, GPS, GPRS,Wlan,BT, 16G CF, Win7 TREK-668-GHB7A0E Intel Atom N2600 1.6 Ghz , GPS, HSDPA,BT,16G CF, Win7 TREK-668-00A0E Intel Atom N2600 1.6 Ghz, Barebone TREK-303D-HA0E 7" vehicle display system, 800 x 480 resolution, with 4 wire resistive touch screen, 2-watts speaker x 2 1700018342 2-meter Cable Safety Instructions 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. Read these safety instructions carefully.
16. CAUTION: The computer is provided with a battery-powered real-time clock circuit. There is a danger of explosion if battery is incorrectly replaced. Replace only with same or equivalent type recommended by the manufacture. Discard used batteries according to the manufacturers instructions. 17. THE COMPUTER IS PROVIDED WITH CD DRIVES COMPLY WITH APPROPRIATE SAFETY STANDARDS INCLUDING IEC 60825. 18. This device complies with Part 15 of the FCC rules.
might have on over current protection and supply wiring. Appropriate consideration of equipment nameplate ratings should be used when addressing this concern. E) Reliable Earthing - Reliable earthing of rack-mounted equipment should be maintained. Particular attention should be given to supply connections other than direct connections to the branch circuit (e.g. use of power strips).
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Contents Chapter 1 General Information ............................1 1.1 1.2 1.3 Introduction ............................................................................................... 2 General Specifications .............................................................................. 3 Dimensions ............................................................................................... 4 Figure 1.1 TREK-668dimensions................................................. 4 2 System Setup .....
Table 4.1: Jumpers on Motherboard ......................................... 17 Connectors ................................................................................. 17 Table 4.2: Connectors on Motherboard..................................... 17 Jumper Settings ...................................................................................... 18 4.2.1 CMOS Clear for External RTC (J1) ............................................ 18 Table 4.3: Clear CMOS / External RTC (JP1).........................
6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13 6.14 6.15 Figure 6.4 CAN test ................................................................... 34 RTC Test................................................................................................. 35 Figure 6.5 RTC test - 1 .............................................................. 35 Figure 6.6 RTC test - 2 .............................................................. 35 Figure 6.7 RTC test - 3 ..........................................
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Chapter 1 1 General Information This chapter gives background information on the TREK-668/303 In-Vehicle Hybrid MDT/Survillance Computing Box.
1.1 Introduction TREK-668 is an industrial degree Dual core mobile Digital Video recorders designed to provide high-quality video surveillance and fleet management for police car, ambulance, fire engine, buses and trains.
Specifications Dimensions: (W x H x D): 346 x 97 x 196.2 mm Weight: 4 kg Vehicle power feature: – Input voltage: 9 ~ 32 Vdc, support ignition cold crank – Supports Ignition on/off – Supports low battery shut-down protection threshold (optional) – Supports power off event delay – Supports power on delay – Supports power low delay – Supports power low hard delay – Supports hard off delay Note! For more detail of function please refer to Chapter 6, Section 6.3 of this manual.
Video output: 1 x VGA output by DB-15 (independent display). Video in surveillance: 4/8/12 Video inputs with 12V/2A power supply for camera Mini PCI express bus expansion slot: Accepts full size mini PCI bus card. Watchdog timer: Supports 0-255 sec. time intervals, SW programmable and SW enable/disabled. RTC Battery: 3.0 V @ 200 mAH lithium battery. Power management: Supports power saving modes including Normal/ suspend-to-disk modes.
Chapter 2 2 System Setup This chapter details system setup on TREK-668/303.
2.1 A Quick Tour of the TREK-668 Computing Box Before starting to set up the In-Vehicle Computing Box, take a moment to become familiar with the locations and functions of the controls, drives, connectors and ports, which are illustrated in the figures below. When the Computer box is placed inside truck glove cabinet or under the passenger's seat next to the driver, its front appears as shown in Figure 2.1. Figure 2.1 Front view of TREK-668 Figure 2.2 Rear view of TREK-668 Figure 2.
Chapter 2 2.2 Installation Procedures 2.2.1 Connecting the Power Cord Connect the three pin waterproof power cord to the DC inlet of the In-Vehicle Computing Box. On the open-wire end, one pin is reserved for positive voltage and is marked, "+"; one pin is reserved for ground and is marked, "-"; and, one pin is reserved for the ignition signal with an "ignition" mark.
2.2.2 Power Connector (12/24V; 9 ~ 32V) Connector type: M12 A-coding Jack GT234102-02050 female 5P Table 2.2: Power Connector Pin Signal Depiction 1 Power Input (9 ~ 32 VDC) 2 Power Input (9 ~ 32 VDC) 3 Ground 4 Ground 5 Acc Ignition Input Cable Part number: 1700020122 Figure 2.6 Power connector photo Note! Fuse holder: The fuse holder on the power cable is water/dust proof; you may change the fuse (5 Amp) easily by yourself.
2.4 Installing the Drivers for Win XP After installing system software, the computer is ready to set up the Intel Atom N2600 VGA, audio, LAN, and touch screen functions. All the pre-requisite drivers are stored on a CD-ROM disc entitled "Drivers and Utilities" (Check the correct wording on the CD, which can be found in the accessory box.) The utility directory includes multimedia programs.
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Chapter 3 3 Hardware & Peripheral Installation This chapter details the installation of hardware for TREK-668.
3.1 Overview of Hardware Installation & Upgrading Vehicle Computing Box consists of a PC-based computer that is housed in a ruggedized aluminum enclosure. Any maintenance or hardware upgrades can be completed after removing the bottom cover plate. Warning! Do not remove the ruggedized aluminum covers until verifying that no power is flowing within the computer. Power must be switched off and the power cord must be unplugged. Take care in order to avoid injury or damage to the equipment. 3.
The WWAN module is on the Mini PCI slot can be easily installed, just undo the 16 screws from the bottom cover and Top cover to install WWAN and WLAN. 3.3.3 Installing CF Card Figure 3.3 Installing CF Card USB cable clip Figure 3.4 Install USB cable clip 13 TREK-668/303 User Manual Hardware & Peripheral Installation Figure 3.2 Mini PCI type WWAN module view Chapter 3 3.3.
3.3.4 GPS Module The GPS module is not to be installed by the customer with breaking the warranty. 3.4 Paired with TREK-303 Specifications See Appendix A TREK-668 provides both VGA function and LCD to connect with TREK-303, it can output different content, clone to VGA output.
Chapter 4 4 4 Jumper Settings and Connectors This chapter explains how to set up the In-Vehicle Computing Box hardware, including instructions on setting jumpers and connecting peripherals, and how to set switches and read indicators. Be sure to read all the safety precautions before beginning the installation procedure.
4.1 Setting Jumpers and Switches It is possible to configure the In-Vehicle Computing Box to match the needs of the application by resetting the jumpers. A jumper is the simplest kind of electrical switch. It consists of two metal pins and a small metal clip, often protected by a plastic cover that slides over the pins to connect them. To “close” a jumper, connect the pins with the clip. To “open” a jumper, remove the clip. Sometimes a jumper has three pins, labeled 1, 2, and 3.
Chapter 4 Connectors Figure 4.2 Locations of jumpers and connectors on bottom side of the motherboard 4.1.2 Jumpers Table 4.1: Jumpers on Motherboard Location Function J1 CMOS clear for external RTC CN16 CAN bus termination selection CN20 Pin9 of COM9 function selection 4.1.3 Connectors On-board connectors link the In-Vehicle Computing Box to external devices such as hard disk drives. The table below lists the function of each connector. Table 4.
CN24 VGA + COM connector CN25 Camera Input connector CN27 HDC connector CN28 Smart Display connector CN29 Bluetooth Module connector CN30 Heater connector CN31 MC55i Module connector CN32 Mini-PCIe Socket (Only USB interface) Mini card CN33 Mini-PCIe Socket(USB+PCIe interface)Mini card(standard interface) SW1 RESET SW2 Setting MiniPCIe(CN33) Socket Function Selection SW3 Setting MiniPCIe(CN33) Adjustment 3.3 Voltage level Max to 3.6V SW4 Setting MiniPCIe(CN32) Adjustment 3.
Pin 9 on COM9 port can be configured as RI or 12 V output. Table 4.5: Pin 9 of COM9 Function Table 4.6: Selection (CN20) +12 VDC (max. 500 mA) RI (Default) 1 2 3 1 2 3 Table 4.7: Mini-PCIe Socket Function Selection (SW2) SW2.1 WLAN OFF WWAN ON Default Setup on WLAN 4.2.5 Mini-PCIe Socket Voltage Adjustment Level (SW3) Setting MiniPCIe Socket(CN33) Adjustment 3.3 Voltage level Max to 3.6V Table 4.8: Mini-PCIe Socket Function Selection (SW3) SW3.1 SW3.2 3.
4.2.7 COM Port Interface The computer provides ten serial ports in total for difference uses. Six of the ten serial ports (COM1~COM6) are implemented via the Super I/O chip and their physical address are fixed. The other four serial ports are via USB serial converter, and need driver support to work. Advantech provides WES (Windows Embedded Standard), WinXPe and Win CE 6.0 OS, the four USB-to-Serial serial ports are fixed from COM8 to COM11). Table 4.
Chapter 5 5 Pin Assignments This chapter explains pin assignments on the TREK-668.
5.1 Front Side Connectors 5.2 Rear Side Connectors 5.3 LED Indicator System Reset Button Force the system to reboot Power Activity Indicator LED When the system is in NORMAL mode, this LED will be lit up (Red Color) CF Activity Indicator LED The storage activity indicator is a green LED, and flashes to show the activity of CF (Green Color) WLAN Activity Indicator LED The WLAN activity indicator is a green LED, and flashes to show the activity of the WLAN module.
Chapter 5 System power indicator LED Red LED Keep light Normal mode System is in NORMAL mode Red LED flashing Boot loader mode F/W can be update Orange LED flashing Turn on Heater now 5.4 Power Connector (12/24V; 9 ~ 32V) Connector type: M12 A-coding Jack GT234102-02050 female 5P Table 5.
5.5 CAN/J1708 Connector Connector type: 15P D-SUB female Connector Table 5.2: CAN/J1708 Connector Pin Signal Depiction Pin Signal Depiction 1 CAN - H 9 J1708 - N 2 CAN - L 10 J1708 - P 3 CAN - Ground 11 J1708 - Ground 4 Isolation Digital Ground 12 DR - Speed - P 5 Isolation Digital Input 5 13 DR - Speed - N 6 Isolation Digital Input 6 14 DR - DIR - P 7 Isolation Digital Input 7 15 DR - DIR - N 8 Isolation Digital Input 8 5.
Connector type: D-SUB 50P 1.
5.8 Smart Display Connector Table 5.
Chapter 5 5.9 VGA & RS-232 Connector (CN24) Table 5.6: RS232 Connector(COM9) Pin Signal Depiction Pin Signal Depiction 1 RS-232 DCD 5 RS-232 Ground 2 RS-232 RXD 6 RS-232 DSR 3 RS-232 TXD 7 RS-232 RTS 4 RS-232 DTR 8 RS-232 CTS 9 RS-232 RI / +12 VDC output Table 5.
5.10 Video Input Connector (CN25) Video Input Connector ‐2 Video Input Connector ‐1 Connector type: DVI-I 29P/DVI-I 29P 1.905mm Female right angle DIP C1DA2G2-020-R Table 5.
Signal Depiction Pin Signal Depiction 1 Video Input Channel 9 15 Digital Ground 2 Video Input Channel 10 16 Digital Ground 3 Video Input Channel 11 17 RS-485 N 4 Video Input Channel 12 18 RS-485 P 5 Audio Input Channel 5 19 Digital Ground 6 Audio Input Channel 6 20 Digital Ground 7 Audio Input Channel 7 21 Video Input Channel 13 8 Audio Input Channel 8 22 Video Input Channel 14 9 Digital Ground 23 Video Input Channel 15 10 Digital Ground 24 Video Input Channel 16 1
5.12 Front USB Connector (CN21) Connector type: Single USB A-Type Receptacle DIP UB1112C-4K1-4F Table 5.
Chapter 6 6 6 Software Demo Utility Setup This appendix explains the software demo utility for TREK-668.
6.1 Introduction To make the hardware easier to access for programmers, Advantech has developed a demo utility in order to let customer test the functions on TREK-668. This document describes detailed information for each Advantech demo utility so that application developers can become more familiar with using them. For technical support, contact Advantech application engineers worldwide. For news updates, visit our website: www.advantech.com 6.1.
Click J1939: customer may connect directly to the truck; we use a car simulator board below to explain how J1939 protocol can be executed. First, connect to the simulator board to TREK-668 CAN port and console PC, once the simulator is powered on (connect to the truck), you can start getting the data, just click [Read], you may get the data you need from the car simulator, click [Read], you may transfer the data to Console. Chapter 6 2. Setup Figure 6.2 J1939 test - 1 Figure 6.
6.1.2 Execute CAN Demo Utility Figure 6.4 CAN test 1. 2. 3. 4. 5. Received CAN message. Transmit CAN message Set up the filter of CAN message (only show the message ID). Reset the module. Set the bit rate for CAN bus.
Execute "RTC test" 1. For RTC Time setting: You may set year, month, date, and time show as below. Chapter 6 6.2 RTC Test Setup Figure 6.5 RTC test - 1 Figure 6.
Figure 6.7 RTC test - 3 Figure 6.
Chapter 6 RTC Alarm Setting: You may also set Alarm time; you may wake up the system by the time you have set. Please refer to below figure 6.9. Setup Figure 6.9 RTC test - 5 6.3 Vehicle Power Management 6.3.1 Power Management Mechanism The feature of Vehicle Power Management (VPM) is provided for users to fulfill the special requirements on in-vehicle applications.
Low battery protection To avoid draining out the car battery, low-battery protection is involved to ensure the car battery is capable to start the vehicle. When the system is ON, the VPM controller will monitor the car battery voltage. If the battery voltage is lower than a programmable threshold (LOW_THRESHOLD), the VPM controller will go into LOW_DELAY stage and start to count down.
6.3.3 Power Management Parameter Settings The parameters for power management on TREK-668 could be read or modified by Demo utility (see the image below) or SDK/API. Chapter 6 6.3.2 Power Management Utility Program Setup Figure 6.
6.3.4 TREK-668 Power Consumption OS: Windows Embedded Standard; Test program: Burn-in test V6.0 Item Test Condition Test Case Result 1 Full Loading Run BURN-IN 6.0 DC Input current (24V) 1.30 A Total Power (W) 32.4 W 2 Windows Idle DC Input current (24V) 1.15 A Total Power (W) 27.6 W DC Input current (24V) 1.15 Total Power (W) 27.6 W DC Input current (24V) 1.80A Total Power (mW) 43.2 W DC Input current (12V) 2.53 mA Total Power (mW) 30.
Chapter 6 a. Digital Output ==> isolated relay driver output b. Digital Input ==> isolated dry contact input Setup Figure 6.12 Digital in Figure 6.
6.5 Video in Test Figure 6.14 Video test utility 6.6 Dead Reckoning Dead reckoning (DR) supplements GPS satellite position information with heading and distance data provided by additional sensors. When GPS satellites are out of sight, location is extrapolated using distance and angle information from the sensors. DR enables accurate navigation even in locations with poor or absent GPS signals such as tunnels, indoor parking facilities and deep urban canyons.
IMC SDK provides a simple API to set and get the basic hardware data. You may use these APIs to get the HW basic information, platform name, BIOS version etc. User can also use core function API to easily understand read/write counting times, and bootup time, etc. Chapter 6 6.8 Core Function Setup Figure 6.15 Core Function test 6.9 SMBus & I2C Control The test includes 2 main items, one is system bus and the other is read/write I2C bus.
6.10 Hardware Monitor Hardware monitor APIs provide some figures on M/B, these data includes voltage, temperature, etc. Figure 6.
When you want to operate open /close on HW components, you may use this API to set or read/get the status. On TREK-668, you may use this API to operate BT, GPS, WWAN (3G), WLAN and CAN enable/disable. If you want to read hardware component status, you may use this API to get the current status. Chapter 6 6.11 Peripheral Control Setup Figure 6.18 Peripheral Control test 6.12 Roaming Control TREK-668 supports dual WWAN, user can use this API to control SIM card and WWAN matching status. Figure 6.
6.13 Heater TREK-668 has a heater to cope with extremely low temperature. User can use this API to control the heater operation status, and allow user to enable and stop the temperature setting. When user would like to know the heater sense temperature, you can use this API to read the temperature. Figure 6.
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6.14 Altimeter TREK-668 has integrated altimeter in our product. User can use this API to set altimeter operation status and the pressure value which pressure sensor reads. User can base on altimeter spec to transfer into the height of the vehicle. Figure 6.
IMC SDK provides a simple WatchDog function. When watchdog is enabled, if the user doesn’t trigger the counting within the timing you set, watchdog will force to boot up. This function can prevent TREK-668 from hanging up in unexpected condition. User needs to set a time, and enable the sensor in the program during the time you set to prevent the system hang up in special condition. Chapter 6 6.15 Watch Dog Setup Figure 6.
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Appendix A A TREK-303 This appendix explains the TREK303 detailed information.
A.1 Paired with TREK-303 Specifications Table A.1: TREK-303 Specification Display Models TREK-303R-DA0E Design compatible models Paried with TREK-668 Resolution (pixel) 800 x 480 Number of colors 262 K (supports 24-bit) Pixel pitch 0.2168(H) x 0.
Table A.
Pin assignment P1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 P2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Color BrownWhiteGround Brown red white Ground Ground Orange white red Orange yellow white Ground Ground Green white 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 Blue white Ground yellow Green Blue Black Purple Grey white Black Brown TREK-303 Hotkey Utility Execute IMC
Appendix A TREK-303 Figure A.1 Hotkey utility 1. 2. 3. 4. 5. 6. 7. Execute “Hot Key test” program Brightness level: You may set panelís brightness from level 0 ~10, total 10 levels, when you finish setting the brightness level you want, please click “Apply”. If you want to check the current brightness level of TREK-303, please click “Get”. Duty cycle: You may set every levelís brightness strength, total 10 levels, when you finish setting the brightness strength for each level, please click “Apply”.
A.2 TREK-668 Attached Cable Packet Indicator Power M12 Jack Cable Connector Type: M12 JACK GT238134-0205Z-JG-01 MALE 5P*1 Fuse Spec: 58V/7.5A*1 Table A.
Appendix A TREK-303 A.3 LAN M12 Jack Cable Connector Type: (M12 JACK GT234134-2108Z-JG-01 MALE 8P*1 ) (RJ45 WITHOUT LED*1) Table A.
A.4 DB15 Cable CONNECTOR TYPE: (D-SUB 15P MALE *1) (D-SUB 9PIN MALE*4) Table A.
Appendix A TREK-303 A.5 DVI Video Input Cable Table A.
A.6 HDC Cable Table A.7: HDC Cable Pin Depiction CONN4 (3.5 ⊕ PHONE JACK) CONN5 (3.5 ⊕ PHONE JACK) CONN6 (3.5 ⊕ PHONE JACK) CONN8 (Terminal Block 3P) LINE OUT LINE IN VIDEO INPUT Power Output PIN Depiction PIN Depiction PIN Depiction PIN Depiction 1 LINE OUT-LEFT 1 1 NC 1 +12V / 1A 2 LINE OUT-RIGHT 2 MIC IN 2 GND 3 +5V / 1A LINE IN-LEFT LINE IN-RIGHT 2 Table A.
Appendix A TREK-303 61 TREK-668/303 User Manual
www.advantech.com Please verify specifications before quoting. This guide is intended for reference purposes only. All product specifications are subject to change without notice. No part of this publication may be reproduced in any form or by any means, electronic, photocopying, recording or otherwise, without prior written permission of the publisher. All brand and product names are trademarks or registered trademarks of their respective companies. © Advantech Co., Ltd.
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