NEXCOM International Co., Ltd. Mobile Computing Solutions Vehicle Telematics Computer VTC 7120-BK Series User Manual NEXCOM International Co., Ltd. Published November 2013 www.nexcom.
Contents Contents Preface WLAN & WWAN Active LED.................................................................7 USB 2.0 Port.........................................................................................7 Reset Button.........................................................................................8 SIM Card Connector-3.5G Wakeup.......................................................8 CFast Card Connector..........................................................................
Contents Chapter 5: System Setup CMOS Input Voltage Select.................................................................20 PCI-104 VI/O Voltage Setting..............................................................20 RS232 Connector...............................................................................21 LVDS Connector+USB0.......................................................................21 GPS I-PEX Connector..........................................................................
Contents Appendix D: OBDII Module Setup and Command OBDII Module........................................................................................64 VIOX-CAN01 Setup................................................................................64 AT Command Summary.........................................................................65 Simple Data Protocol: (ASCII CODE).......................................................66 Simple Data Protocol: (HEX CODE).......................................
Preface Preface Copyright Regulatory Compliance Statements This publication, including all photographs, illustrations and software, is protected under international copyright laws, with all rights reserved. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written consent from NEXCOM International Co., Ltd. This section provides the FCC compliance statement for Class B devices and describes how to keep the system CE compliant.
Preface e13 Mark How to recognize NEXCOM RoHS Products? The “e” mark is the proof of compliance with directives (laws) required by the European Union. The Council of European communities in Brussels issues these directives and all members must accept approved products. e13 - Luxembourg For more information, visit http://www.tuv.com/jp/en/_e_mark_and_e_ mark_homologation_for_vehicles_vehicle_components_.html.
Preface Warranty and RMA Repair Service Charges for Out-of-Warranty Products NEXCOM will charge for out-of-warranty products in two categories, one is basic diagnostic fee and another is component (product) fee. NEXCOM Warranty Period NEXCOM manufactures products that are new or equivalent to new in accordance with industry standard. NEXCOM warrants that products will be free from defect in material and workmanship for 2 years, beginning on the date of invoice by NEXCOM.
Preface Installation Recommendations Warnings Read and adhere to all warnings, cautions, and notices in this guide and the documentation supplied with the chassis, power supply, and accessory modules. If the instructions for the chassis and power supply are inconsistent with these instructions or the instructions for accessory modules, contact the supplier to find out how you can ensure that your computer meets safety and regulatory requirements. Ensure you have a stable, clean working environment.
Preface ▪▪ If the equipment is not used for a long time, disconnect it from the power source to avoid damage by transient overvoltage. Safety Precautions ▪▪ Read these safety instructions carefully. ▪▪ Never pour any liquid into an opening. This may cause fire or electrical shock. ▪▪ Keep this User Manual for later reference. ▪▪ Disconnect this equipment from any AC outlet before cleaning. Use a damp cloth. Do not use liquid or spray detergents for cleaning. ▪▪ Never open the equipment.
Preface Technical Support and Assistance Conventions Used in this Manual 1. For the most updated information of NEXCOM products, visit NEXCOM’s website at www.nexcom.com. Warning: Information about certain situations, which if not observed, can cause personal injury. This will prevent injury to yourself when performing a task. 2.
Preface Global Service Contact Information Headquarters NEXCOM International Co., Ltd. 15F, No. 920, Chung-Cheng Rd., ZhongHe District, New Taipei City, 23586, Taiwan, R.O.C. Tel: +886-2-8226-7786 Fax: +886-2-8226-7782 www.nexcom.com America USA NEXCOM USA 2883 Bayview Drive,Fremont CA 94538, USA Tel: +1-510-656-2248 Fax: +1-510-656-2158 Email: sales@nexcom.com www.nexcom.com Asia Taiwan Central Taiwan Office 16F, No.250, Sec. 2, Chongde Rd., Beitun Dist., Taichung City 406, R.O.C.
Preface Chengdu Office Italy 9F, Shuxiangxie, Xuefu Garden, No.12 Section 1, South Yihuan Rd., Chengdu, 610061, China Tel: +86-28-8523-0186 Fax: +86-28-8523-0186 Email: sales@nexcom.cn www.nexcom.cn NEXCOM ITALIA S.r.l Via Gaudenzio Ferrari 29, 21047 Saronno (VA), Italia Tel: +39 02 9628 0333 Fax: +39 02 9286 9215 Email: nexcomitalia@nexcom.eu www.nexcomitalia.
Preface Package Contents Before continuing, verify that the VTC 7120-BK series package that you received is complete. Your VTC 7120-BK series package should have all the items listed in the following table. Item P/N Name 1 50311F0110X00 (H)Flat Head Screw Long FEI:F3x5ISO+NYLOK NIGP F3x5 NI NYLOK 4 2 60233PW134X00 Power Cable For VTK33B SMBus Signal EDI:356206060201-RS ATX POWER CON. 6P TO 6P PITCH:4.
Preface Ordering Information The following provides ordering information for VTC 7120-BK series. • VTC 7120-BK (P/N: 10V00712000X0) Intel® Celeron® 847E 1.1GHz, 2GB DDR3 SODIMM, LVDS/ VGA Output, 1x RS-232, 1x RS-422/485 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 1: Product Introduction Chapter 1: Product Introduction Physical Features VTC 7120-BK Line-out1 Mic-in1 SSD1 CFast Antenna holes COM1 LVDS LAN1 LAN2 Power button LED indicators USB SIM card sockets Line-out2 Mic-in2 GPS connector DC input 9V~36V USB COM2 VGA GPIO DC output Reset button Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 1: Product Introduction Overview Key Features VTC 7120-BK series, adopting the Intel® high performance processor, is a new generation of VTC series. In addition to keeping the advantage of existing VTC series, it offers dual LAN ports for redundancy, two high speed interface for storage, 2.5” SATA and CFast. The storage is easily accessible from the front side for maintenance concern. Furthermore, it offers OBDII for heavy duty truck such as SAE J1939/ J1708.
Chapter 1: Product Introduction Hardware Specifications ▪▪ 1x DB9 female connector for 4x DI and 4x DO (Digital Input) Input Voltage (Internal Type): 5VDC TTL (default) Input Voltage (Source Type): 0~30 VDC (Digital Output) Digital Output (Sink Type): 5VDC TTL (default), max current: 20mA Digital Output (Source Type): 0~30VDC, max current: 250mA ▪▪ 2x USB 2.
Chapter 1: Product Introduction Environment Power Management ▪▪ Operating temperatures: Ambient with air: -30°C to 50°C ▪▪ Storage temperatures: -35°C to 85°C ▪▪ Relative humidity: 10% to 90% (non-condensing) ▪▪ Vibration (random): 1g@5~500 Hz (in operation, SSD) ▪▪ Vibration (SSD): Operating: MIL-STD-810G, Method 514.6, Category 4, common carrier US highway truck vibration exposure Storage: MIL-STD-810G, Method 514.
Chapter 1: Product Introduction Connector Numbering The following diagrams indicate the numbers of the connectors. Use these numbers to locate the connectors’ respective pinout assignments on chapter 2 of the manual. Please note that connector numbers 6, 10, and 13 pinouts are not available. VTC 7120-BK Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description Chapter 2: External Connectors Pinout Description Power Button Power On & SSD or HD Active LED Connector Number: 1 Connector Number: 2 1 1 2 4 3 4 A1 MH1 3 A1 C1 MH1 MH2 Pin 1 3 A1 T1 2 C1 MH2 Definition GND +V3.3ALW VCC5_S B1 Pin 2 4 C1 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description WLAN & WWAN Active LED USB 2.0 Port Connector Number: 2 Connector Number: 3 T1 1 4 B1 Pin T1 B1 Pin 1 3 Function Description WWAN LED WLAN LED Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description Reset Button SIM Card Connector-3.5G Wakeup Connector Number: 4 Connector Number: 5 1 Pin 1 2 2 C5 C1 C6 C2 C7 C3 SW Function Description GND RST_BTN# Pin C1 C3 vedC6 SW SW Definition POWER VOLTAGE CLOCK SIGNAL VPP:PROGRAM VOLTAGE Contact present switch Pin C2 C5 C7 Definition RESET SIGNAL GND I/O NOTE: Only SIM CARD 1 (top side) can support SMS wake up function with CM8000 WWAN module. Copyright © 2012 NEXCOM International Co., Ltd.
Chapter 2: External Connectors Pinout Description CFast Card Connector Line-out Connector Number: 7 Connector Number: 8 S1 Pin S1 S3 S5 S7 PC1 PC3 PC5 PC7 PC9 PC11 PC13 PC15 PC17 S7 PC1 PC17 Definition GND SATA_TXN SATA_RXN GND CFAST_CDI NC NC GND CFAST_LED2 NC VCC3 GND CFAST_CDO Pin S2 S4 S6 Definition SATA_TXP GND SATA_RXP PC2 PC4 PC6 PC8 PC10 PC12 PC14 PC16 GND NC NC CFAST_LED1 NC NC VCC3 GND Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description Mic-in Mic-in2, Line-out2 Connector Number: 8 Connector Number: 9 Pin 1 3 5 Definition NC NC GND Pin 2 4 6 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description RS232 Connector LVDS Connector Connector size: DB9, Male Connector Number: 11 Connector size: DB26, Female Connector Number: 12 1 9 Pin 1 3 5 7 9 9 5 26 6 Definition DCD TXD GND RTS RI Pin 2 4 6 8 Definition RXD DTR DSR CTS Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 1 19 Definition Panel_ EN VDD LCDD09(OUT3) LCDD08(OUT3#) LCDD_GND LCDD07(CLK) LCDD06(CLK#) LVDS_GND LCDD05(OUT2) LCDD04(OUT2#) LCDD_GND USB_0# USB_0 Pin 2 4 6 8 10 12 14 16 18 20 22
Chapter 2: External Connectors Pinout Description LAN Connectors USB Connector Connector size: RJ-45 Connector Number: 14 Connector Number: 15 8 Pin 1 3 5 7 1 4 5 8 1 Definition TX+ RX+ N/C2 N/C3 Pin 2 4 6 8 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description RS422/485 Connector VGA Connector Connector size: DB9, Male Connector Number: 16 Connector size: DB15, Male Connector Number: 17 1 9 Pin 1 3 5 7 9 5 6 Definition RS422_RX+ / RS485_+ RS422_TX+ GND NC NC Pin 2 4 6 8 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description GPIO Connector External 12V (4A) & Car Battery (4A) Power and SMBUS Connector size: DB9, Female Connector Number: 18 Connector Number: 19 1 8 Pin 1 3 5 7 9 5 6 Definition INPUT_1 PORT INPUT_3 PORT GND OUTPUT_2 PORT / OUTPUT_4 PORT Pin 2 4 6 8 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 2: External Connectors Pinout Description Power Input Connector size: 3W3 3PIN 6.85mm DIP Connector Number: 23 3 Pin 1 2 3 2 1 Definition GND VIN IGNITION Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches Chapter 3: Jumpers and Switches dry environments. A grounding strap is warranted whenever danger of static electricity exists. This chapter describes how to set the jumpers on the motherboard. Note that the following procedures are generic for all VTC 7120-BK series. Before You Begin Precautions ▪▪ Ensure you have a stable, clean working environment. Dust and dirt can get into components and cause a malfunction. Use containers to keep small components separated.
Chapter 3: Jumpers and Switches Jumper Settings A jumper is the simplest kind of electric switch. It consists of two metal pins and a cap. When setting the jumpers, ensure that the jumper caps are placed on the correct pins. When the jumper cap is placed on both pins, the jumper is short. If you remove the jumper cap, or place the jumper cap on just one pin, the jumper is open.
Chapter 3: Jumpers and Switches VTC 7120-BK Series Connector Specification & Jumper Setting Carrier board placement The figure below is the carrier board which is the board used in the system. It shows the locations of the jumpers and connectors. Top View Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches Bottom View Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches VTC 7120-BK Jumpers Setting RS232 – Enable Select Connector location: JP8 CMOS Clear Select Pin 1-2 1-2(*) SW2: Power-on Button SW3: Reset Button Item B. Start-up & Shut down voltage control (*) for default seeting Connector location: JP1 2 1 N O Pin 1-2 2-3(*) setup voltage SW1.1 SW1.
Chapter 3: Jumpers and Switches RS232 Connector LVDS Connector+USB0 Connector size:2 x 5 = 10Pins PIN Header, ( 2.0 mm Pitch ) Connector location: CN11, CN15 Connector size: 2 X 15 (2.
Chapter 3: Jumpers and Switches GPS I-PEX Connector DVI+VGA Connector Connector location: CN13 Connector size: 2 x 15 = 30Pins PIN Header, ( 1.0 mm Pitch ) Connector location: CN14 3 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 2 1 MH1 Pin 1 3 Definition RF_IN_F GND Pin 2 4 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches SATA PWR Connector SATA Connector Connector location: CN16 Connector location: CN17 4 1 Pin 1 3 Definition VCC12 GND Pin 2 4 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches Mini-PCIe (WWAN) Connector location: CN18 1 2 51 52 Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 Definition MIC + MIC SPK + GND GND VCC_MSM26_DIG NC GND NC NC GND NC NC Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved. Definition +V3.3S GND NC USIM PWR USIM DATa USIM CLK USIM RST NC GND W_DISABLE# NC NC GND Pin 27 29 31 33 35 37 39 41 43 45 47 49 51 24 Definition GND GND NC RESET GND GND +V3.3S +V3.
Chapter 3: Jumpers and Switches Mini-PCIe (WLAN) Connector location: CN19 1 2 51 52 Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 Definition WAKE# NC NC CLKREQ# GND REFCLKREFCLK+ GND NC NC GND PERn0 PERp0 Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved. Definition +V3.3S GND +V1.5S NC NC NC NC NC GND DISABLE# PERST# +3.
Chapter 3: Jumpers and Switches PCI-104 Connector Connector location: CN20 1 2 29 30 1 2 29 30 Row A Row B Row C Row D Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 A GND VI/O AD05 C/BE0# GND AD11 AD14 +3.3V SERR# GND STOP# +3.3V FRAME# GND AD18 B Reserved AD02 GND AD07 AD09 VI/O AD13 C/BE1# GND PERR# +3.3V TRDY# GND AD16 +3.3V Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved. C +5 AD01 AD04 GND AD08 AD10 GND AD15 Reserved +3.3V LOCK# GND IRDY# +3.
Chapter 3: Jumpers and Switches MCU Programmer PIN Header MCU COM Port Connector location: JP2 Connector location: JP3 1 5 Pin 1 3 5 1 Definition +3.3ALW MRST GND Pin 2 4 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches GAL Programmer PIN Header Super I/O Temperature Sensor Connector location: JP4 Connector location: JP5 1 6 Pin 1 3 5 Definition VCC3 TCK TD1 1 Pin 2 4 6 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches MCU Temperature Sensor LVDS Power Connector Connector location: JP7 Connector location: J8 1 2 Pin 1 2 6 Function Description SENSOR+ GND Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches GPS Connector Port80 Connector Connector location: J9 Connector location: J10 6 1 Pin 1 3 5 10 Definition +V3.3S SP_RX1 GPS_LED# Pin 2 4 6 Definition GND SP_TX1 GPS_BAT Pin 1 3 5 7 9 NOTE: Onboard uBlox NEO-6Q GPS module can’t be used with optional GPS dead reckoning module (VIOB-GPS-DR01) at the same time. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches Bluetooth Connector Button Power Connector location: J11 Connector location: J13 10 Pin 1 3 5 7 9 2 1 1 Definition GND USB_6N_L NC NC NC Pin 2 4 6 8 10 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved. Definition USB_6P_L NC BT_AUDIO_EN_R BT_3.3V GND NO Pin 1 2 31 Function Description GND 3.
Chapter 3: Jumpers and Switches RTC Battery Connector Connector location: J14 2 Pin 1 1 Definition GND Pin 2 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches Hi-speed Board to Board Connector B1 B3 B5 B7 B9 B11 B13 B15 B17 B19 B21 B23 B25 B27 B29 B31 B33 B35 B37 B39 A2 A4 A6 A8 A10 A12 A14 A16 A18 A20 A22 A24 A26 A28 A30 A32 A34 A36 A38 A40 B2 B4 B6 B8 B10 B12 B14 B16 B18 B20 B22 B24 B26 B28 B30 B32 B34 B36 B38 B40 A2 A4 A6 A8 A10 A12 A14 A16 A18 A20 A22 A24 A26 A28 A30 A32 A34 A36 A38 A40 B2 B4 B6 B8 B10 B12 B14 B16 B18 B20 B22 B24 B26 B28 B30 B32 B34 B36 B38 B40 G1 G2 G3 G4 G5 G6 G7 G8 GND1 GND2 GND3 GND4 GND5 GND6 GND7
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43 A44 A45 A46 A47 A48 A49 A50 A51 A52 A53 A54 A55 A56 A57 A58 A59 A60 A61 A62 A63 A64 A65 A66 A67 A68 A69 A70 A71 A72 A73 A74 A75 A76 A77 A78 A79 A80 A81 A82 A83 A84 A85 A86 A87 A88 A89 A90 A91 A92 A93 A94 A95 A96 A97 A98 A99 A100 A101 A102 A103 A104 A105 A106 A107 A108 A109 A110 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20
Chapter 3: Jumpers and Switches Pin A15 A17 A19 A21 A23 A25 A27 A29 A31 A33 A35 A37 A39 A41 A43 A45 A47 A49 A51 A53 A55 A57 A59 A61 A63 A65 A67 A69 Definition SUS_S3# SATA0_TXSATA0_RX+ GND NC NC BATLOW# AC_SYNC GND AC_SDOUT NC USB6+ USB4GND USB2+ USB0VCC_RTC NC GND NC NC GND NC NC GPI1 NC NC PCIE_TX0- Pin A16 A18 A20 A22 A24 A26 A28 A30 A32 A34 A36 A38 A40 A42 A44 A46 A48 A50 A52 A54 A56 A58 A60 A62 A64 A66 A68 A70 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 3: Jumpers and Switches Pin A71 A73 A75 A77 A79 A81 A83 A85 A87 A89 A91 A93 A95 A97 A99 A101 A103 A105 A107 A109 Definition LVDS_A0+ LVDS_A1+ LVDS_A2+ LVDS_VDD_EN LVDS_A3+ LVDS_A_CK+ LVDS_I2C_CK NC NC PCIE0_CK_REFRSVD NC RSVD VCC_12V VCC_12V VCC_12V VCC_12V VCC_12V VCC_12V VCC_12V Pin A72 A74 A76 A78 A80 A82 A84 A86 A88 A90 A92 A94 A96 A98 A100 A102 A104 A106 A108 A110 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20 A21 A22 A23 A24 A25 A26 A27 A28 A29 A30 A31 A32 A33 A34 A35 A36 A37 A38 A39 A40 A41 A42 A43 A44 A45 A46 A47 A48 A49 A50 A51 A52 A53 A54 A55 A56 A57 A58 A59 A60 A61 A62 A63 A64 A65 A66 A67 A68 A69 A70 A71 A72 A73 A74 A75 A76 A77 A78 A79 A80 A81 A82 A83 A84 A85 A86 A87 A88 A89 A90 A91 A92 A93 A94 A95 A96 A97 A98 A99 A100 A101 A102 A103 A104 A105 A106 A107 A108 A109 A110 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 A17 A18 A19 A20
Chapter 3: Jumpers and Switches Pin C15 C17 C19 C21 C23 C25 C27 C29 C31 C33 C35 C37 C39 C41 C43 C45 C47 C49 C51 C53 C55 C57 C59 C61 C63 C65 C67 C69 Definition NC NC NC GND PCI_RESET# PCI_AD2 PCI_AD6 PCI_AD10 GND PCI_C/BE1# PCI_LOCK# PCI_IRDY# PCI_AD17 GND PCI_AD23 PCI_AD25 PCI_AD29 PCI_IRQA# GND PEG_RX0NC NC NC NC NC NC NC NC Pin C16 C18 C20 C22 C24 C26 C28 C30 C32 C34 C36 C38 C40 C42 C44 C46 C48 C50 C52 C54 C56 C58 C60 C62 C64 C66 C68 C70 Copyright © 2012 NEXCOM International Co., Ltd.
Chapter 3: Jumpers and Switches Pin C71 C73 C75 C77 C79 C81 C83 C85 C87 C89 C91 C93 C95 C97 C99 C101 C103 C105 C107 C109 Definition NC NC NC NC NC NC NC NC GND NC NC GND NC NC NC NC GND VCC_12V VCC_12V VCC_12V Pin C72 C74 C76 C78 C80 C82 C84 C86 C88 C90 C92 C94 C96 C98 C100 C102 C104 C106 C108 C110 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 4: Mechanical Dimensions Chapter 4: Mechanical Dimensions VTC 7120-BK 172.00 92.00 Ø4 132.00 286.40 274.40 Ø4 260.00 66.50 72.50 260.00 Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup Chapter 5: System Setup Removing the Chassis Cover CAUTION! Prior to removing the chassis cover, make sure the unit’s power is off and disconnected from the power sources to prevent electric shock or system damage. Bottom View Front View Rear View Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup Installing a GPRS/UMTS/HSDPA Module 1. When you want to install the Mini PCI Express card, you have to remove the SSD tray and bracket. First, remove the SSD tray. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved. 2. Remove the SSD bracket.
Chapter 5: System Setup 4. Insert the module into the Mini PCI Express slot at a 45 degrees angle until the gold-plated connector on the edge of the module completely disappears inside the slot. 3. The Mini PCI Express slot shown below is used to install a 3.5G communication module such as GPRS, UMTS or HSDPA module. Mini PCI Express slot Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup 5. Push the module down then secure it with mounting screws. 6. Attach one end of the RF cable onto the module. Attach RF cable to the modul Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup 7. Mount the other end of the cable to the antenna mounting hole located at the front panel of the chassis. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup Installing a Wireless LAN Module 1. The Mini PCI Express slot shown below is used to install a wireless LAN module. 2. Insert the wireless LAN module into the Mini PCI Express slot at a 45 degrees angle until the gold-plated connector on the edge of the module completely disappears inside the slot. Mini PCI Express slot Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup 3. Push the module down then secure it with mounting screws. 4. Attach one end of the RF cable onto the module. Attach RF cable to the module Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup Installing a SATA SSD Drive 2. Place the SDD drive into the tray and then tighten the four screws. 1. Remove the SSD tray. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup 3. Install the HDD tray, and then tighten the screws to secure the drive to the chassis. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 5: System Setup Rackmount Brackets 2. Now mount the system on the wall by fastening screws through the bracket’s mounting holes. The rackmount brackets provide a convenient and economical way of mounting the system on the wall. 1. The mounting holes are located at the bottom of the system. Secure the brackets on each side of the system using the provided mounting screws. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Chapter 6: Driver Installation Chapter 6: Driver Installation When you want to install the VTC 7120-BK series driver, please refer to the following steps, it will help you with the driver installation. Note: Please change the path according to the product name. Step 6. Installing the WLAN module driver Please access the folder: \\VTC7110\Module Driver\WLAN Module\ Step 1.
Appendix A: Software Demo Utility for I/O Ports of Function Control Appendix A: Software Demo Utility for I/O Ports of Function Control NEXCOM’s software demo utility enables users to test and control different I/O port functions on the VTC 7120-BK. This document shows how to use the utility. There are also source code files of the utility in the CD. Users can refer to the source codes to develop their applications. Menu Screen Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Appendix A: Software Demo Utility for I/O Ports of Function Control 1.1 Status 1.2 GPIO 1.1.1 Ignition Status 1.2.1 GPO Setting Press the button of Ignition Status, the signal of ignition will be shown. ON …… Signal of ignition is high. OFF ….. Signal of ignition is low. Press the button of Ignition Status, the signal of ignition will be shown. ON …… Signal of ignition is high. OFF ….. Signal of ignition is low. 1.1.2 Battery Status 1.2.
Appendix A: Software Demo Utility for I/O Ports of Function Control 1.3 WDT Setting 1.4 Output Power Enables or disables the WDT function. There are 8 selections of time. The timer of WDT can also be cleared by button. 1.4.1 External +12V Enables or Disables the output of 12VDC. 1.4.2 Bypass Car Battery Power Reads the status of GPI. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Appendix A: Software Demo Utility for I/O Ports of Function Control 1.5 Power On Delay Time 1.7 3G Module Enables or disables the power on delay time function. There are 8 selections of delay time. Enables or disables WWAN module function. SIM card 1 or SIM card 2 can also be selected for the WWAN module on mini-PCIe socket (CN18). 1.6 Power Off Delay Time 1.8 WLAN Module Enables or disables the power off delay time function. There are 8 selections of delay time.
Appendix A: Software Demo Utility for I/O Ports of Function Control 1.9 Wake Up Function 1.9.1 3G Enables or disables the wake up function for the WWAN module on mini-PCIe socket (CN18). 1.9.2 RTC Enables or disables the RTC wake up function. The timer setting of RTC is located in BIOS setting. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Appendix B: Using the GPS Feature Appendix B: Using the GPS Feature u-blox NEO-6Q GPS Module Specification Receiver Type 50-channel u-blox 6 engine GPS L1 C/A code SBAS: WAAS, EGNOS, MSAS The VTC has a built-in u-blox NEO-6Q GPS receiver module by default. Global Positioning System (GPS) uses a constellation of 50 medium earth orbit satellites to transmit and receive microwave signals to determine its current location.
Appendix B: Using the GPS Feature 2. Insert the Installation Disc into CD-Rom drive and execute the “Gpsinfo. exe” file (the file also saved in C:\Utility\GPS_Utility). 4. When the setup complete, press . 3. Follow the given instructions to complete the installation. 5. Once the installation is completed, installation of GPS Information onto PDA device will be launched automatically. Select to continue. Copyright © 2012 NEXCOM International Co., Ltd. All Rights Reserved.
Appendix B: Using the GPS Feature • “WAAS/EGNOS” - Check the box to activate WAAS/EGNOS in order to Setup Window Screenshot increase the accuracy of positioning Double click GpsInfo_Vista icon from Desktop to start GPS. • “Main GPS data Window” - Display data received by GPS device.
Appendix B: Using the GPS Feature • “Latitude” – User’s current latitude is displayed in N/S degree (North/ GPS Information Instructions South Hemisphere) format 1. Make sure that the GPS device is properly inserted. • “Satellite Status Chart” – display the status of each connected satellite 2. Start GPS Information Software. • The number under each bar marks corresponding Satellite, and the 3. Choose and select the proper communication port.
Appendix C: Signal Connection of DI/DO Appendix C: Signal Connection of DI/DO GPIO Pinout Description The figure below shows how to connect an external output source to one of the input channel. SIO-F-90-5.08mm 1 6 2 7 3 8 4 9 5 Internal External VCC5 5 6 7 8 G_IN1 G_OUT1 G_IN2 G_OUT2 G_IN3 G_OUT3 G_IN4 G_OUT4 RN1 1K 4 3 2 1 CN1 CN18 SIO-F-90-5.
Appendix C: Signal Connection of DI/DO Digital Output Wet Contact (default) The SW4 needs to switch to “ON” state. The GPO signal will have a pull up resistor to 5V internally when you switch “SW1” to “ON” state. The output signal has two states, one is low level (driven to 0V from GPO signal ) other is high level (driven to 5V from GPO signal). CN18 connector for GPO signal (digital signal output) The CN18 has 4 digital output channels. Each channel can accept 0~30Vdc voltage.
Appendix C: Signal Connection of DI/DO Dry Contact The SW4 needs to switch to “OFF” state. The GPO signal will no have a pull up resistor internally when you switch “SW4” to “OFF” state. The figure below shows how to connect an external input source to one of the output channel. Internal GPO0 GPO1 1 8 2 7 3 6 4 5 G_OUT1 GPO2 GPO3 1 8 2 7 3 6 4 5 EMB17A03G External power G_OUT2 EMB17A03G G_OUT3 External SIO-F-90-5.
Appendix D: OBDII Module Setup and Command Appendix D: OBDII Module Setup and Command OBDII Module You can also type HEX code instead: “41”, “54”, “5A”, “0D” If you see the strange characters instead of “>”, you may set the incorrect baud rate. Please check baud rate. If you send the incorrect command, the device will show a single question mark (“?”) to indicate your input is not understood. If VTC fails to link to the BUS, it will show “PLEASE REBOOT”.
Appendix D: OBDII Module Setup and Command AT Command Summary PA @1 AT@1: Display version information Setting RS232 baud rate. xy is baud rate parameter. ATBR09: 9600 ATBR19: 19200 BRxy ATBR38: 38400 ATBR57: 57600 ATBR99: 115200 ATE0: echo off(Default) Eh ATE1; echo on T ATT: Terminate sending. To use ATS will continue it. ATI : Request vehicle ID, the length is variable. 1.
Appendix D: OBDII Module Setup and Command Simple Data Protocol: (ASCII CODE) Data HEAD Byte 0 Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 Byte 8 Byte 9 Byte 10 Byte 11 Byte 12 Byte 13 Byte 14 Byte 15 Byte 16 Byte 17 Byte 18 Byte 19 Byte 20 Byte 21 Byte 22 Byte 23 Byte 24 Description @ , Speed , (0~255) KM/HR , RPM High Byte (RPMHB) , RPM Low Byte(RPMLB) , RPM=RPMHB*256+RPMLB , Engine Loading, (0~100%) , Battery Voltage (BV), = (BV+100)/10 (v) , Engine Temperature( ET), =ET-40°C , Throttle position 0
Appendix D: OBDII Module Setup and Command Simple Data Protocol: (HEX CODE) NOTE: 1.) Data format : ASCII CODE @ , 7 8 , 0 E , 7 0 , 0 0 ,0 3 , 9 8 , 2 8 , Status ,MAF,D1,D2,Fu,CS speed=78 km/hr rpm=0x0E70= 3696 2.
Appendix D: OBDII Module Setup and Command J1939 Raw Data Protocol (HEX CODE) J1708 Raw Data Protocol (HEX CODE) Support for J1939 PGN / SPN access as defined in the J1939 standards. This function will report all PGNs and their source node on the J1939 network. This function will report all MID and PID that broadcasting on the J1708 network. Its data length is not fixed, please refer to SAEJ1708.
Appendix D: OBDII Module Setup and Command J1939 Packaged Messages Protocol ATS: send packaged messages by turns. Response HEX CODE (default) after ATPH command S Packing 1: Byte 0:“ @” ,( 0x40) Byte 1: “1”, (0x31) Byte 2: #00 Byte 3: #01 ...... Byte 19:#17 Byte 20: Check sum = Byte2 + ..+Byte 19 Byte 21: 0X0D Byte 22: 0X0A Packing 4: Byte 0:“ @” ,( 0x40) Byte 1: “a”,(0x41) Byte 2: #54 Byte 3: #55 ...... Byte 19:#71 Byte 20: Check sum = Byte2 + ..
Appendix D: OBDII Module Setup and Command B7 B6 B5 NOT USED B4 B3 B2 B1 Engine Starter Mode #14 Axle weight 0.5 kg / Bit gain (Low Byte),AWL Axle weight 0.5 kg / Bit gain (High Byte), AWH #15 Weight=(AWH*256+AWL)*0.5 #16 Engine total hours of Operation, EH1 #17 Engine total hours of Operation, EH2 #18 Engine total hours of Operation, EH3 Engine total hours of Operation, EH4 #19 Accumulated time=((EH4*256*256*256)+(EH3*256*256)+(EH2*256)+EH1)*0.
Appendix D: OBDII Module Setup and Command #35 #36 #37 | #38 #37 #38 #39 D3 D4 The distance which can be traveled by the vehicle before the next service inspection is required SERV=(V2*256+V1)*5-160635 (KM) V1 V2 B7 B6 Vehicle motion(B7,B6): 00 = Vehicle motion not detected 01 = vehicle motion detected B7 B6 Vehicle Overspeed B5 B4 B3 Driv.
Appendix D: OBDII Module Setup and Command #45 #46 #47 #48 #49 #50 #51 #52 #53 #54 Ambient Air Temperature: Temperature of air surrounding vehicle. #55 AAT=(AATH* 256+AATL)*0.
Appendix D: OBDII Module Setup and Command #58 B7 B6 Bit 7, Bit 6: Lock Status Door 2 00 = Unlocked 01 = Locked 10 = Error 11 = Not available B5 B4 Bit 5,Bit 4: Enable Status Door 1 00 = Disabled 01 = Enabled 10 = Error 11 = Not available B3 B2 Bit 3,Bit 2: Open Status Door 1 00 = Closed 01 = Open 10 = Error 11 = Not available B1 B0 Bit 1,Bit 0: Lock Status Door 1 00 = Unlocked 01 = Locked 10 = Error 11 = Not available #59 B7 B6 Bit 7, Bit 6: Open Status Door 3 00 = Closed 01 = Open 10 = Error 11 = N
Appendix D: OBDII Module Setup and Command Selected Gear = data -125negative gear are reverse gears #73 00000000 = neutral 11111011 = park Current Gear=data-125 negative gear are reverse gears #74 00000000 = neutral 11111011 = park Bellow Pressure Front Axle Left #75 Information of the pressure of the air suspension bellow at the left | side of the front axle #76 Pressure= ((BPFAL2*256)+BPFAL1)* 0.
Appendix D: OBDII Module Setup and Command Bit 3,2,1,0: Telltale Status 2 1000 = off 1001 = Cond. Red 1010 = Cond. Yellow 1011 = Cond. Info 1100–1110 = Reserved 1111 = not available #96 Bit 7,6,5,4: Telltale Status 3 1000 = off 1001 = Cond. Red 1010 = Cond. Yellow 1011 = Cond. Info 1100–1110 = Reserved 1111 = not available Bit 3,2,1,0: Telltale Status 4 1000 = off 1001 = Cond. Red 1010 = Cond. Yellow 1011 = Cond.
Appendix D: OBDII Module Setup and Command Bit 3,2,1,0: Telltale Status 10 1000 = off 1001 = Cond. Red 1010 = Cond. Yellow 1011 = Cond. Info 1100–1110 = Reserved 1111 = not available #100 Bit 7,6,5,4: Telltale Status 11 1000 = off 1001 = Cond. Red 1010 = Cond. Yellow 1011 = Cond. Info 1100–1110 = Reserved 1111 = not available Bit 3,2,1,0: Telltale Status 12 1000 = off 1001 = Cond. Red 1010 = Cond. Yellow 1011 = Cond.
Appendix D: OBDII Module Setup and Command J1708 Packaged Messages Protocol Once AT1708 SLEEP, it can wake it up. Start to send data by 3 packing, response HEX CODE S Packing 1: Byte 0: “ @” , 0x40; Byte 1: 4 Byte 2: #00 Byte 3: #01 Byte 4: #02 Byte 5: #03 Byte 6: #04 Byte 7: #05 Byte 8: #06 Byte 9: #07 Byte 10: #08 Byte 11: #09 Byte 12: #10 Byte 13: #11 Byte 14: #12 Byte 15: #13 Byte 16: #14 Byte 17: #15 Byte 18: #16 Byte 19: #17 Byte 20: Check sum = Byte2 + ..
Appendix D: OBDII Module Setup and Command #00 | #01 #00 #01 Road Speed—Indicated vehicle velocity Maximum Range: 0.0 to 205.2 km/h (0.0 to 127.5 mph) speed=(SHB*256+SLB)/256 Speed Low Byte (SLB) Speed High Byte (SHB) Cruise Control Status—State of the vehicle velocity control system (active, not active), and system switch (on, off), for various system operating modes.
Appendix D: OBDII Module Setup and Command PTO Engagement Control Status PTO output status: Bits 8-5: Reserved—all bits set to 1 Bits 4-3: PTO #2 engagement actuator status Bits 2-1: PTO #1 engagement actuator status #28 NOTE—Each status will be described using the following nomenclature: 00 Off/Not active 01 On/Active 10 Error condition 11 Not available #29 Average Fuel Economy | AFE=((AFE2*256)+AFE1) *1.
Appendix D: OBDII Module Setup and Command #33 #34 #35 #36 #37 | #38 #37 #38 #39 | #40 #39 #40 #41 #42 #43 #44 #45 #46 D1 D2 D3 D4 Fuel Rate (Instantaneous)—Amount of fuel consumed by engine per unit of time. Maximum Range: 0.0 to 1.076 65 L/s FR=(V2*256+V1) * 16.428 x 106 L/s V1 V2 Total Vehicle Hours(TVH)—Accumulated time of operation of vehicle. Maximum Range: 0.0 to 214 748 364.8 h TVH=((H4*256*256*256)+(H3*256*256)+(H2*256)+H1)*0.
Appendix D: OBDII Module Setup and Command J1708 Command Example 1.) >AT#h, Response: “Data1” “Data2” “H0D” “H3E” by ASCII CODE. EX1: AT#1, to get vehicle speed, if speed is 255, Display, FF > (H46,H46, H0D,H3E). 2.) Trouble code : 40 37 80 8 CA 80 A AA 80 B AA 80 C AA 80 1 AA FC D A Trouble code : MID 128( H80) PID 8(H8) Diagnostic code character ( CA), FMI= A , bit4~bit1 4.
Appendix E: Pin Definition for GPS with Dead Reckoning Appendix E: Pin Definition for GPS Dead Reckoning Module -VIOB-GPS-DR01 S2532DR Overview Technical Specifications Receiver Type Accuracy Startup Time Reacquisition Sensitivity Update Rate Operational Limits Serial Interface Protocol Datum Input Voltage Input Current Dimension Weight Interface Connector Operating Temperature Storage Temperature Humidity The S2532DR GPS Dead-Reckoning receiver module combines GPS position d
Appendix E: Pin Definition for GPS with Dead Reckoning VIOB-GPS-DR01 consists of S2532DR and cables. Here are the connector and cable pin definition for VIOB-GPS-DR01. Connector pin definition of P1 (1) Connect VIOB-GPS-DR01 and DB9 Cable (On VIOB-GPS-DR01) A. Connector type: 1x6 6-pin header B. Connector location: J1 6 Pin 1 Definition Pin Definition 1 GND 4 GPIO22 2 DIRECTION 5 1PPS 3 ODOMETER 6 GND C.