Lanner LVC-2000 Bedienungsanleitung

>>In-Vehicle ComputingHardware Platforms for mobile applicationsLVC-2000PreliminaryUser's ManualPublication date:2014-10-13

10System ComponentsChapter 2Embedded and Industrial ComputingRear ComponentsComponent Description Pin Definition ReferenceR1 Multiple-I/O Connector A

11Board LayoutChapter 3Embedded and Industrial ComputingChapter 3: Board LayoutExternal Connectors The following picture highlights the location of i

12Board LayoutChapter 3Embedded and Industrial ComputingInternal Connectors and JumpersThe following picture highlights the location of internal conne

13Board LayoutChapter 3Embedded and Industrial ComputingInternal Connectors and Jumpers (backside)The following picture highlights the location of int

14Board LayoutChapter 3Embedded and Industrial ComputingConnectors and Jumpers ListThe tables below list the function of each of the board jumpers and

15Board LayoutChapter 3Embedded and Industrial ComputingMaximum input/output current for each port is 100mAFor all Input/output pins:Voltage Logic Reg

16Board LayoutChapter 3Embedded and Industrial ComputingAUDIOIN1: Line-in and Mic-in ConnectorMCU Programming Connector (JMCU1)CAN Bus Connector (CAN1

17Board LayoutChapter 3Embedded and Industrial ComputingmSATA (MSATA1) for mini-SATA Connector: It complies with SATA 2.0PIN Pin Name PIN Pin Name1 N/

18Board LayoutChapter 3Embedded and Industrial ComputingSIM Card Socket (SIM1): SIM1 pairs with MPCIE1 and SIM2 pairs with MPCIE2.Power-in with Igniti

19Board LayoutChapter 3Embedded and Industrial ComputingSelect MCU Detect Function for power ignition behavior (SW1):The functions of the above jumper

2AboutAboutEmbedded and Industrial ComputingOverviewIcon DescriptionsThe icons are used in the manual to serve as an indication of interest topics or

20Hardware SetupChapter 4Embedded and Industrial ComputingChapter 4: Hardware SetupPreparing the Hardware InstallationTo access some components and p

21Hardware SetupChapter 4Embedded and Industrial ComputingmSATA Card Installation 1. Align the mSATA card’s key with the Mini-PCIe slot notch.2. Ins

22Hardware SetupChapter 4Embedded and Industrial ComputingConnecting PowerConnect the LVC-2000 to a +9V ~ +36V vehicle battery. The DC power-in conne

23Flow ChartChapter 5Embedded and Industrial ComputingChapter 5: The Flow ChartThe flow chart section contains all flow chart used in the system. Th

24Using the Ignition System Manager (ISM)Embedded and Industrial ComputingAppendix AAppendix A: Using the Ignition System Manager (ISM)The Ignition S

25Digital Input/Output ControlAppendix BEmbedded and Industrial ComputingAppendix B: Digital Input/Output The Digitanl I/O on the rear panel is desi

26Digital Input/Output ControlAppendix BEmbedded and Industrial Computing8. Choose to select the hardware Manually9. Choose Show all device and clic

27Digital Input/Output ControlAppendix BEmbedded and Industrial Computing14. Select the Lanner IO driver and click Next.15. Click Next16. Click Comple

28Digital Input/Output ControlAppendix BEmbedded and Industrial ComputingA sample DIO program in C: ioaccess.c: IO access code for Lanner Platfomr Dig

29Digital Input/Output ControlAppendix BEmbedded and Industrial Computing#include <machine/bus.h>#include <machine/resource.h>#endif#endif

3AboutAboutEmbedded and Industrial ComputingMechanical compliance Low Pressure (Altitude): • MIL-STD-810G, Method 500.5, Procedure I (Storage) • MIL

30Digital Input/Output ControlAppendix BEmbedded and Industrial Computing exit_SIO_config(); return;}void dio_set_output(unsigned char out_valu

31Accessing the Digital Accelerometer Appendix CEmbedded and Industrial ComputingAppendix C: Accessing the Digital Accelerometer Data from the LVC-20

32Accessing the GPS DataAppendix DEmbedded and Industrial ComputingAppendix D: Accessing the GPS Data from the LVC-2000The LVC-2000 employs an onbard

33Accessing the GPS DataAppendix DEmbedded and Industrial ComputingSpecify the following communication parameters:Bits per Second: 9600Data Bits: 8Par

34Programming Watchdog TimerEmbedded and Industrial ComputingAppendix EAppendix E: Programming System Watchdog Timer of the LVC-2000A watchdog timer

35Programming Watchdog TimerEmbedded and Industrial ComputingAppendix E “ Watchdog Set Watchdog timer.\n”\ “ CaseOpen Check

36Programming Watchdog TimerEmbedded and Industrial ComputingAppendix E// Clear case open stateint mCaseOpen_Clear (int argc, char* argv[]){ CHECK_A

37Programming Watchdog TimerEmbedded and Industrial ComputingAppendix E {“DIO_IN” , mDIO_IN }, {“DIO_OUT” , mDIO_OUT }, {“PIO” , mPIO }, {“Run

41Terms and ConditionsAppendix BEmbedded and Industrial ComputingAppendix B: Terms and ConditionsWarranty Policy 1. All products are under warrant

42Terms and ConditionsAppendix BEmbedded and Industrial Computing

TTaTTable of Contentsbeable of Contents4Chapter 1: Introduction 5System Specications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5IntroductionChapter 1Embedded and Industrial ComputingChapter 1: IntroductionThank you for choosing the LVC-2000. The LVC-2000 is a compact in-vehi

6IntroductionChapter 1Embedded and Industrial ComputingPackage ContentsYour package contains the following items:LVC-2000 Fanless Embedded System with

7System ComponentsChapter 2Embedded and Industrial ComputingChapter 2: System ComponentsSystem DrawingMechanical dimensions of the LVC-2000 with the

8System ComponentsChapter 2Embedded and Industrial ComputingBlock Diagram: The MainBoardThe block diagram depicts the relationships among the interfac

9System ComponentsChapter 2Embedded and Industrial ComputingComponent Description Pin Definition ReferenceF1 GPS AntennaReserved for GPS antennaF2 H