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Summary of Contents for Lanner LVC-2001
- Page 1 In-Vehicle Computing Hardware Platforms for mobile applications LVC-2001 Preliminary User's Manual Release Date: 2015/06/30...
- Page 2 Resource Website installed and used in accordance with the instruction manual, may cause harmful interference to radio Lanner http://www.lannerinc.com communications. Operation of this equipment in a residential area is likely to cause harmful interference Product Resources http://assist.lannerinc.com in which case the user will be required to correct the interference at his own expense.
- Page 3 Mechanical compliance Revision History Vibration: 2015/06/15 Preliminary General Vibration (operating): Refer to MIL-STD-810G, • 2015/06/30 Revised specifications Method 514.6, Procedure I (Transportation), Category A d d e d v i b r a t i o n a n d 4 –...
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Page 4: Table Of Contents
Connecting Power Chapter 5: The Flow Chart Appendix A: Using the Ignition System Manager (ISM) Appendix B: Digital Input/Output Appendix C: Accessing the GPS Data from the LVC-2001 Appendix D: Programming System Watchdog Timer Appendix E : Terms and Conditions... -
Page 5: Chapter 1: Introduction
Dimensions 198 x 52 x 185 (mm, the unit) Processor Intel® BayTrail E3845/E3825 Thank you for choosing LVC-2001. The fanless Box PC is System Memory DDR3L SO-DIMM x1 (up to 4GB) an ideal vehicle gateway controller. LVC-2001 is built with... -
Page 6: Package Contents
- Mini-PCIe Screws x 8 (P/N: 070W101000401) - MIO connector 16pin x1 (P/N: 04AW20161Z101) Ordering Information LVC-2001-A1 Intel® Atom SoC E3845 CPU In-Vehicle Computer, 1 x DDR3L SODIMM, Mini-PCIe x3, USB 3.0 host x 1, USB 2.0 host x1, Serial... -
Page 7: Chapter 2: System Components
Chapter 2: System Components Mechanical Drawings Mechanical dimensions of the LVC-2001 with the system itself Unit: mm... - Page 8 Mechanical dimensions of the LVC-2001 with vibration kit Unit: mm...
- Page 9 Mechanical dimensions of the LVC-2001 with wallmount kit Unit: mm...
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Page 10: Block Diagram: The Mainboard
Block Diagram: The MainBoard The block diagram depicts the relationships among the interfaces and modules on the motherboard. -
Page 11: Front Components
Front Components Component Description F1 LED Power and HDD/SSD LED F2 SIM SIM card socket access with cover and lock-screw F3 USB 1x USB 3.0 type A connector 1 x USB 2.0 type A connector F4 CAN An optional CAN bus supports J1939 &J1708 standards F5 COM1/COM2 RS-232/422/485 ports for serial communication... -
Page 12: Rear Components
Rear Components Component Description R1 Multiple-I/O Connector A 16-pin male connector for the following functions: 4x DI (5V or 12V TTL selectable) 4x DO (12V TTL , Max. 100mA) 2x MCU DI 1x 12V Output @Max. 1A R2 Two 10/100/1000Mbps LAN Two RJ-45 (provided by Intel i210IT) jacks with LED ports indicators as described below... -
Page 13: Chapter 3: Motherboard Information
Chapter 3: Motherboard Information Connectors and Jumpers The following picture highlights the locations of connectors and jumpers on the motherboard. PRJK1 MSATA1 LVDS1 MPCIE1 JVLCD1 JKBMS1 MPCIE2 INVER1 SIM1 VGA1 USB1 USB2 HDMI1 CAN1 LAN1 JRI2 COM2 MIO1 COM1 SATAPWR1/2 JCMOS1/2 JRI1 DDR3L... - Page 14 SIM2...
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Page 15: Add-On Card: Lvk-Msdm
Add-on Card: LVK-MSDM LVC-2001 comes with a SATA-interface add-on card LVK- MSDM for extra mSATA storage (if the mSATA slot on the motherboard is occupied and assigned to function as a Mini-PCIe socket for other purposes). MSATA1 SATA... -
Page 16: Connectors And Jumpers List
Connectors and Jumpers List The tables below list the function of each of the board jumpers and connectors by labels shown in the above section. The next section in this chapter gives pin definitions and instructions on setting jumpers. Labels Function JCMOS1/2 Clear CMOS jumpers... -
Page 17: Jumper Settings
Jumper Settings Connectors JCMOS1/2 (Clean CMOS Jumper): VGA (VGA1) This jumper is used to erase data in CMOS. To clear CMOS, 5 4 3 2 1 first turn off your system and unplug power source. Then, by placing the cap on pin 2 and 3 (short pin 2-3), this jumper can erase the system settings stored in CMOS 15 14 13 12 11 memory. - Page 18 mSATA (MSATA1) LAN (LAN1) mSATA storage socket with USB and SIM signals, which may also allow this socket to function as a mini-PCIe con- nector for other purposes. Description Description LAN1_MDI0P LAN2_MDI0P LAN1_MDI0N LAN2_MDI0N LAN1_MDI1P LAN2_MDI1P LAN1_MDI2P LAN2_MDI2P LAN1_MDI2N LAN2_MDI2N LAN1_MDI1N LAN2_MDI1N LAN1_MDI3P...
- Page 19 COM1/COM2 Power Selection (JRI1/JRI2): MPCIE2: Mini-PCIe Connector (half-size) JRI1 selects COM1 power voltage and JRI2 selects COM2 power voltage . The default is Ring Indicator (RI) for pin 8 of COM. JRI2 JRI1 Signal Signal WAKE#_MPCIE2 VCC3P3 Pin No. Signal V1P5_MPCIE Default CLKREQ3#_MPCIE...
- Page 20 COM1&2 Keyboard & Mouse connector (JKBMS1) 1 2 3 4 5 6 7 8 9 Pin No. Pin Name Pin No. Pin Name KCLK VCC5_KB Description MDATA KDATA SP1_DCD MCLK SP1_DSR SP1_RXD SP1_RTS SP1_TXD Low-Pin Count (JLPC1) SP1_CTS SP1_DTR VCC_RI1 Description SP2_DCD SP2_DSR...
- Page 21 Power Input with Ignition Control (PRJK1) CAN Bus Connector (CAN1) on COM3 port 1 2 3 4 5 Pin No. Pin Name 6 7 8 9 Ignition Pin No. Pin Name DC_IN J1850-/J1708- GND_CAN CAN Bus Module Connector (CN1) CAN_H/J1939+ K_LINE CAN_L/J1939- J1850-/J1708-...
- Page 22 LVDS Connector (LVDS1) The 30-pin connector for LVDS display output Description Description LVDS_VCC LVDS_VCC LVDS_VCC LVDS_VCC LVDS_VCC LVDS_VCC DDC_SCL DDC_SDA LVDSA_DP0 LVDSA_DP3 LVDSA_DN0 LVDSA_DN3 LVDSA_DP1 LVDSA_DN1 LVDSA_DP2 LVDSA_CKP LVDSA_DN2 LVDSA_CKN...
- Page 23 mSATA (MSATA1) SATA Male Connector (SATA1) mSATA storage socket on LVK-MSDM add-on card. SATA male connector on LVK-MSDM add-on card. Description Description Description Description V3P3S SATA_TX_C_DN SATA_TX_C_DP SATA_TX_C_DN SATA_TX_C_DP SATA_RX_C_DN SATA_RX_C_DP V3P3S V3P3S V1P5S SATA_RX_C_DP V3P3S V3P3S SATA_RX_C_DN...
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Page 24: Chapter 4: Hardware Setup
Please wear ESD protection gloves before conducting the following steps. 1. Make sure LVC-2001 is powered off and disconnected from any power source. 2. Turn the device upside-down. 3. Remove the 4 screws circled in the image below. -
Page 25: Installing Msata Storage Device
Installing mSATA Storage Device Installing a SATA/mSATA Storage Device 1. Align the mSATA storage device with the MSATA1 The system provides one SATA 2.5” HDD/SSD drive bay socket. and an additional mSATA socket (if the mSATA slot on the motherboard is occupied and assigned to function as a 2. -
Page 26: Connecting Power
Connecting Power Connect the LVC-2001 to a +9V ~ +36V vehicle battery. To Install a mSATA Storage Device The DC power-in connector comes with a 3-pin terminal Connect the other end of the SATA cable to the SATA block for its Phoenix contact. This power socket can only connector of LVK-MSDM add-on card. -
Page 27: Chapter 5: The Flow Chart
Chapter 5: The Flow Chart The flow chart section contains all flow chart used in the system. The flow chart describes the system’s behavior on powering on and off the system via power ignition control or on/off switch when the appropriate timer control parameters are set. -
Page 28: Appendix A: Using The Ignition System Manager (Ism)
COM5 features that the Power Ignition Module provides. For sample ISM code, see ISM folder under LVC-2001 Utility on the Driver and Manual CD. Running the Program Just double click the ISM.exe to launch the ISM. -
Page 29: Appendix B: Digital Input/Output
The Digitanl I/O on the rear panel is designed to provide the input and output operations for the system. For sample DIO code, see SuperIO folder under LVC-2001 Utility on the Driver and Manual CD. Make sure that you have installed the Lanner GPIO driver as instructed below. - Page 30 8. Choose to select the hardware Manually 11. Click HaveDisk to locate the L_IO.inf file 9. Choose Show all device and click Next. 12. Select the L_IO.inf 13. Select OK to confirm with the installation 10. Click HaveDisk to locate the L_IO.inf file...
- Page 31 14. Select the Lanner IO driver and click Next. To verify the GPIO driver installation, do the following steps: Right-click on the My Computer icon, and then select Properties form the menu. Click the Hardware tab, then click the Device Manager button.
- Page 32 A sample DIO program in C: ioaccess.c: IO access code for Lanner Platfomr Digital IO program #include <time.h> ********************************************************* #include <stdint.h> **********************/ #include <fcntl.h> #include <errno.h> #include <string.h> #define delay(x) usleep(x) #include “../include/config.h” #endif #ifdef DJGPP #ifdef MODULE /* standard include file */ #include <linux/kernel.h>...
- Page 33 #include <machine/bus.h> outportb(INDEX_PORT, 0xAA); #include <machine/resource.h> return; #endif #endif unsigned char read_SIO_reg(int LDN, int reg) /* local include file */ outportb(INDEX_PORT, 0x07); //LDN register #include “../include/ioaccess.h” delay(5); outportb(DATA_PORT, LDN); #if (defined(MODULE) || defined(DIRECT_IO_ACCESS) || delay(5); defined(KLD_MODULE)) outportb(INDEX_PORT, reg); delay(5); return(inportb(DATA_PORT)); *------------------------------------------------------------------------- ----- * LEB-5000 Version V1.0...
- Page 34 exit_SIO_config(); return; void dio_set_output(unsigned char out_value) enter_SIO_config(); write_SIO_reg(0x6, 0xf1, ((read_SIO_reg(0x6, 0xf1)& 0xF0)|out_value)); exit_SIO_config(); return; unsigned int dio_get_input(void) unsigned int tmp=0x00; enter_SIO_config(); tmp=read_SIO_reg(0x6, 0xA2)& 0x0f; exit_SIO_config(); return tmp; //====================================== ======================================== ================= #endif...
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Page 35: Appendix C: Accessing The Gps Data From The Lvc-2001
SBAS: WAAS, EGNOS, from the LVC-2001 MSAS Time-To-First-Fix (All Cold Start: 26 s The LVC-2001 employs an onbard u-blox NEO-7N GPS satellites at -130 dBm) Warm Start: 26 s module for vehicle tracking and navigation system. You Hot Start: 1 s could read the GPS data through the RS-232 serial port. - Page 36 Specify the following communication parameters: Bits per Second: 9600 Data Bits: 8 Parity: None Stop Bit: 1 9600 Flow Control: None The hyper terminal should display GPS data:...
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Page 37: Appendix D: Programming System Watchdog Timer
“ F81865_test AlarmLED port_ For sample watchdog code, see watchdog folder under number value\n”\ LVC-2001 Utility on the Driver and Manual CD “ F81865_test GPS_LED port_ number value\n”\ “ F81865_test WirelessLED port_ number value\n”\ “... - Page 38 “ Watchdog Watchdog timer.\n”\ int nPort = atoi (argv[2]) ; \ “ CaseOpen Check case opened state.\n”\ int nValue = atoi (argv[3]) ; “ CaseOpen_Clear Clear case open state.\n”\ “ port_number The port number.\n”\ c (nPort, nValue) ; “ value 1 for on and 0 for off.\n”\ “...
- Page 39 // Clear case open state return 0 ; int mCaseOpen_Clear (int argc, char* argv[]) CHECK_ARGC (2) ; // Watchdog CaseOpen_Clear () ; int mWatchDog (int argc, char *argv[]) BOOL bOpen = CaseOpen () ; if (argc != 3 && argc != 2) RETMSG (-1, PARAMETER_HELP) ;...
- Page 40 {“DIO_IN” , mDIO_IN // No match argument {“DIO_OUT” , mDIO_OUT RETMSG (-1, “Wrong Argument\n”) ; {“PIO” , mPIO catch (char *str) {“RunLED” , mRunLED // Output the error message {“AlarmLED” , mAlarmLED printf (“\n%s\n”, str) ; {“GPS_LED” , mGPS_LED catch (...) {“WirelessLED”...
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Page 41: Appendix E : Terms And Conditions
Appendix E : RMA Service Requesting a RMA# Terms and Conditions To obtain a RMA number, simply fill out and fax the “RMA Request Form” to your supplier. Warranty Policy The customer is required to fill out the problem code as listed.
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