VN1600 Interface Family
Contents
1. CANalyzer CANoe synchronization fuse aa a fuse sec sec 1 100375 I 1 100376 CAN Interface 1 200381 Y 1 200382 FR Interface 2 300371 32 300372 2 400405 y 2 400406 CH1 CH2 2500502 3 500593 CHA lt CHB Time Stamp Clock 3 600241 3 600242 Time Stamp Master Clock Lan FlexRa Figure 46 Time stamps are synchronized to the master clock accuracy in range of 1 us Note The hardware synchronization must be supported by the application For further information please refer to the relevant application manual Please note that the software synchronization must be disabled see Vector Hardware Config General information Settings Software time synchronization if the hardware synchronization is used Vector Informatik GmbH Version 2 2 46 Manual Driver Installation 4 Driver Installation In this chapter you find the following information 4 1 Minimum Requirements page 48 4 2 Hints page 49 4 3 Vector Driver Setup page 50 4 4 Vector Hardware Configuration page 52 4 5 Loop Tests page 54 CAN FlexRay MOST Ethernet O Vector Informatik GmbH Version 2 2 47 Manual Driver Installation 4 1 Minimum Requirements Hardware CPU Pentium 4 or higher Memory 512 MB or more CANcardXL PCMCIA CANcardXLe ExpressCard 54 CANboardXL PCI PCI CANboardXL PCle PCI Express x1 CANboardXL pxi Compact PCI PXI CANcaseXL USB CANcaseXL log USB VN1610 USB VN1611 USB VN1630A USB2. Channel4 0x10 Channel8 0x100 Setting bit rate to 1000000 bit s t1 5 t2 2 sampling point 75 btrO 00 btr1 14 Fw ersion 0709001E HwVersion 00000000 SerialNumber 164 Fw ersion 0800000E Hw ersion 00000000 SerialNumber 99991 7 Stress priority Setting timer rate to 1 Started at Mon Mar 19 12 07 38 2012 Time synchronization disabled 0 00 06 493 CIKDiff 2 188ms Tim 5492 Stats 30 30 Msg 50859 1 07196 1 0 10197 21378msg s 04 Delay ns AvRev 246716 4v 31232 Min 10000 Max 20000 Global Av 0 Min 0 Max 0 Last 0 08 Delay ns AvRev 264817 Av 0 Min 0 Max 0 Global Av 33522 Min 10000 Max 20000 Last 10000 Total global delays ns Average 16761 Min 0 Max 20000 Average ClkDiff 2248 27us BusLoad 100 Version 2 2 55 Manual Driver Installation 7 The test procedure can be terminated with the Stop button O Vector Informatik GmbH An OK should appear in the upper part of the window Loop3 CAN Benchmark utility Settings ae een es RW Reg statistics IT Stress priority Time imit fs 1st CANcard lt Le Channel 3 I White logs 7 1st CANcardXLe Channel 4 Y Timer events Burst size E 1st CANcaseXL log Channel 1 16 E 1st CANcaseXL log Channel 2 000 0084 y 1 000 000 Bd Save statist RA 1st N1610 Channel 1 clic TM 1st N1610 Channel 2 Random IDs Dump events Fw ersion 0709001E Hw ersion 00000000 SerialNumber 164 Fiwersion 0800000E Hw e
3. 1051cap CAN High 1051cap GND 1051cap CAN Low Use the CANcable 2Y to access both channels on separate D SUB9 connectors see accessories manual article number 05075 2 4 4 Technical Data 2 CAN Low 2 CH1 A VN1610 mr ai m CH2 B m Figure 4 CANcable 2Y connected to VN1610 CAN channels 2x CAN high speed 1051cap up to 2 Mbit s Temperature range Operating 40 C 70 C Shipping and storage 40 C 85 C Relative humidity of ambient air 15 95 non condensing Operating system requirements Windows 7 32 bit 64 bit Windows 8 1 32 bit 64 bit Dimensions LxWxH 65 mm x 42 mm x 20 mm Weight 809 O Vector Informatik GmbH Version 2 2 12 Manual VN1600 Interface Family 2 5 VN1611 2 5 1 Main Features VN1611 features The main features of the VN1611 interface are gt 1x LIN 7269cap transceiver capacitively decoupled gt 1x CAN high speed 1051cap transceiver capacitively decoupled gt Software sync Figure 5 VN1611 LIN CAN Interface e Note The VN1611 does not support LIN2 1 compliance tests Please use the I VN1630 or the VN1640 for these purposes 2 5 2 Connectors gt D SUB9 CH1 2 The VN1611 has a D SUB9 connector with one LIN and one CAN channel Further information on the pin assignment for CH1 CH2 can be found in section Pin Assignment CH1 and CH2 on page 14 g
4. Manual VN1610 VN1611 VN1630A VN1640A Version 2 2 English vector Imprint Vector Informatik GmbH Ingersheimer StraBe 24 D 70499 Stuttgart The information and data given in this user manual can be changed without prior notice No part of this manual may be reproduced in any form or by any means without the written permission of the publisher regardless of which method or which instruments electronic or mechanical are used All technical information drafts etc are liable to law of copyright protection Copyright 2015 Vector Informatik GmbH All rights reserved Manual Contents 1 Introduction 1 1 Safety Instructions and Hazard Warnings 1 1 1 Proper Use and Intended Purpose 1 1 2 Hazards 1 1 3 Disclaimer 1 2 About this User Manual 1 2 1 Certification 1 2 2 Warranty 1 2 3 Registered Trademarks 2 VN1600 Interface Family 2 1 Introduction 2 2 Accessories 2 3 Getting Started 2 3 1 Step 1 Driver Installation 2 3 2 Step 2 Device Installation 2 3 3 Step 3 Device Configuration 2 3 4 Step 4 Quick Test 2 4 VN1610 2 4 1 Main Features 2 4 2 Connectors 2 4 3 Pin Assignment CH1 and CH2 2 4 4 Technical Data 2 5 VN1611 2 5 1 Main Features 2 5 2 Connectors 2 5 3 Pin Assignment CH1 and CH2 2 5 4 Technical Data 2 6 VN1630 2 6 1 Main Features 2 6 2 Connectors Bus Side 2 6 3 Connectors USB Side 2 6 4 Bus Configuration 2 6 5 Pin Assignment CH1 3 and CH2 4 2 6 6 Pin Assignment CH5 2 6 7 Replacing Pigg
5. VN1640A USB Network interface VN2610 USB VN2640 USB VN3300 PCI VN3600 USB VN5610 USB VN7570 PCI Express x1 VN7572 PCI Express x1 VN7600 USB VN7610 USB VN8910A USB VN8912 USB Windows 7 32 64 bit Windows 8 1 32 64 bit Driver version Ox Software Operating system The devices can be run with several applications from Vector e g CANoe CANalyzer or with measurement applications from other companies The devices require a related license Applications based on the Vector XL Driver Library can be run without a license Measurement application O Vector Informatik GmbH Version 2 2 48 Manual Driver Installation 4 2 Hints Note Many desktop PCs have power managers which block the CPU for a specific I time This impairs accuracy of the time system If your application has stringent timing requirements e g time driven sending of messages or time driven evaluations you have to deactivate these power managers Power management settings may be con tained in the BIOS setup or on the Control Panel of Windows 7 Windows 8 1 e g Power options No further mention will be made of the power manager in this document i Info Please note that you will need Administrator Rights for the following steps O Vector Informatik GmbH Version 2 2 49 Manual Driver Installation 4 3 Vector Driver Setup General information The Vector Driver Disk offers a driver setup which allows the
6. Digital input 1 ln 6 Analog GND j Digital Out 8 7 ly Digital GND 9 8 Digital output I 9 Digital GND i_____l A A A A AAA a l Vec l l LI i LI l _ 11 33V 370pF i l Il Digital GND Digital GND LI LI l i Il Digital GND LI l E AA A eni A b Figure 29 Digital input 0 1 E Teen A 11 l Isolation 1 I LI Vcc I i LI Y LI DI I 11 DI l IC l LI l l DI i ni Analog GND l i DI l 11 i LI Analog GND I 11 II i l l i l L Analog GND Figure 31 Analog input Vector Informatik GmbH Version 2 2 34 Manual Extended measuring range of the analog input Examples VN1600 Interface Family In normal operation voltages up to 18 V can be applied and measured at the analog input The cutoff frequency fe 3 dB for AC voltages is approx 7 2 KHz For measurements above 18 V max 50 V an external series resistor has to be applied to the analog input The series resistor Rext depends on the input voltage U input and can be calculated as follows Ro kQ Gaz 061111 11 100 with 18 V lt Uinput lt 50 V The cutoff frequency for AC voltages is also affected by the external series resistor 1 felHzl 23310 Rika 24 V 32 V 36 V 48 V Ros 367 KQ 856 kQ 1100 kQ 1833 kQ Rox E96 374 KQ 866 kQ 1100 kQ 1870 KQ 24 12 V 32 17 V 36 00 V 48 60 V fe 3 dB 1148 Hz 496 Hz 390 Hz 230 Hz Vector Informatik GmbH Version 2 2 35 Manual VN
7. It Vref i l Ee pel iS gt E Ywo orvovy TYVY E 5 gt gt UMFPl F 5OIIAI BBUNM VV Y YHKMMUOU_ eF e v V gt mar Figure 15 Digital input 0 1 E Teen A LI Isolation 1 I 11 VEE LI Y I LI l LI I T LI l t I l I1 LI i ni Analog GND l l mi I LI i LI Analog GND DI DI i i i I L Analog GND Figure 17 Analog input Vector Informatik GmbH Version 2 2 23 Manual Extended measuring range of the analog input Examples VN1600 Interface Family In normal operation voltages up to 18 V can be applied and measured at the analog input The cutoff frequency f 3 dB for AC voltages is approx 7 2 kHz For measurements above 18 V max 50 V an external series resistor has to be applied to the analog input The series resistor Rext depends on the input voltage Uinput and can be calculated as follows Rex kQ Gaz 061111 11 100 with 18 V lt Uinput lt 50 V The cutoff frequency for AC voltages is also affected by the external series resistor 1 felHzl 23310 Rika 24 V 32 V 36 V 48 V Ros 367 KQ 856 kQ 1100 kQ 1833 kQ Rox E96 374 KQ 866 kQ 1100 kQ 1870 KQ 24 12 V 32 17 V 36 00 V 48 60 V fe 3 dB 1148 Hz 496 Hz 390 Hz 230 Hz Vector Informatik GmbH Version 2 2 24 Manual VN1600 Interface Family 2 6 7 Replacing Piggybacks Warning When performing this operation be sure not to touch the to
8. installation or the removal of Vector devices Tal 1 Execute the driver setup from the autostart menu or directly from gn Drivers Setup exe before the device is inserted or connected to the PC with the included USB cable If you have already inserted or connected the device to the PC the Windows found new Hardware wizard appears Close this wizard and then execute the driver setup Vector Informatik GmbH Driver Setup Version 2 2 14 vector Welcome to Vector Driver Setup This program will install Vector Drivers on your computer Click Next to continue with the setup program Please close all open applications before proceeding 2 Click Next in the driver setup dialog The initialization process starts O Vector Informatik GmbH Version 2 2 50 Manual 3 4 Vector Informatik GmbH Driver Installation In the driver selection dialog select your devices to be installed or to be uninstalled a a Vector Informatik GmbH Dnver Setup Version 2 2 14 Driver Selection Select the device to be installed uninstalled vector The setup will install or uninstall the selected devices ff the device is currently not connected choose the automatic driver search in the Hardware Wizard after the device has been connected to the PC Device Installed diver Driver in installation packet AL Interface Family CANcardXL not installed 9 7 16 CANcardXLe not installed 7 9 30 CANcaseXL CANcaseX
9. of available channels are shown in a tree view Status information on the device components and the channels are also shown in this dialog In Application all available applications are shown with their configured channels If you click on an application all of its channels are displayed in the right pane on the screen The General information section contains general information on Vector devices and Vector Informatik GmbH Version 2 2 52 Manual License Gl Vector Informatik GmbH Driver Installation applications The License section contains information on all current valid licenses Note You will find a detailed description of Vector Hardware Config in the online help Help Contents Version 2 2 53 Manual Driver Installation 4 5 Loop Tests Operating test The test described here can be performed to check the functional integrity of the driver and the device This test is identical for Windows 7 Windows 8 1 and independent of the used application 4 5 1 CAN Device test The operating test for CAN can be executed with the following devices CANcardXL CANcardXLe CANcaseXL CANcaseXL log CANboardXL Family VN1610 VN1630A VN1640A VN5610 VN7570 VN7572 VN7600 VN8910A VN8912 V V V V V V V V N V V V V Loop3 exe Either two High Speed or two Low Speed transceivers are necessary for this functional test 4 1 Connect two CAN channels with a suitable cable If two High Speed trans
10. 1600 Interface Family 2 8 7 Replacing Piggybacks the boards VN1640 main board or Piggybacks to avoid damages due to electrical A Warning When performing this operation be sure not to touch the top or bottom of discharges 1 First loosen the VN1640 housing screws on the side with the four D SUB9 connectors This requires removing the two black decorative caps Then carefully pull the PC board out of the housing Figure 32 Opening the housing 2 The plug in locations are defined as follows Figure 33 Piggyback plug in locations CH1 CH4 O Vector Informatik GmbH Version 2 2 36 Manual VN1600 Interface Family 3 Each of the two Piggybacks is fastened by a screw and retainer Please loosen the appropriate screw including the retainer and carefully remove the Piggyback from the plug in location Figure 34 Unmount mount Piggybacks 4 Insert the replacement Piggyback When doing this please make sure that the single and dual row connectors are not laterally offset 5 Secure the new Piggyback with the appropriate screw and retainer O Vector Informatik GmbH Version 2 2 37 Manual VN1600 Interface Family 6 Place the VN1640 main board back in the housing This operation involves placing the housing on a table with its back side side with the bar code facing upward Then the main board with the Piggybacks facing upward is inserted into the first guide rails Figure 35 First guide rails 7 It sh
11. L which is a flexible and cost efficient solution for CAN LIN K Line and J1708 applications An excellent performance with minimal latency times and high time stamp accuracy is also guaranteed The multi application functionality of the VN1600 interface family supports simultaneous operation of different applications on one channel e g CANoe and CANape Tasks range from simple bus analyses to complex remaining bus simulations also diagnostic calibration and reprogramming tasks as well as LIN 2 1 compliance tests You can also program your own applications using the XL Driver Library Bus types Depending on the VN16xx interface built in transceivers as well as exchangeable CAN LIN and J1708 transceivers can be used The exchangeable transceivers are available as plug in boards Piggybacks and are inserted in the VN16xx A list of compatible Piggybacks can be found in the accessories manual on the driver CD Figure 1 Piggyback 2 2 Accessories Reference Further information on the available accessories can be found in the separate accessories manual on the driver CD in Documentation Accessories A O Vector Informatik GmbH Version 2 2 8 Manual VN1600 Interface Family 2 3 Getting Started 2 3 1 Step 1 Driver Installation r Please use the drivers from the included Vector Driver Disk UL 1 Execute Vector Driver Setup from the autostart menu or directly from Drivers Setup exe before the VN16xx is connected to th
12. L log not installed 8 7 16 CANboardXL PCle FXI 7414 8 7 16 CAN LIN Interface Family VNI1610 VNI1611 VN1630 VN1640 notinstalled 8 1 36 FlexRay Interface Family VN3300 not installed 8 2 26 VN3600 VN7600 not installed 8 2 26 VN7570 not installed 8 3 26 MOST Interface Family VN2600 VN2610 not installed 7 5 18 VN2640 not installed 8 4 28 WM8900 Interface Family VNg2910 VN8912 USB 8 8 16 8 8 16 Update drivers on the device C VN8910 VN8912 Ethemet 8 4 20 8 4 20 Ethernet Interface Family VN5610 not installed 8 5 36 Miscellaneous Vector Keyman License Dongle not installed 4 50 906 Vector USB Dongle License Dongle 5 95 1 162 5 95 1 162 Select deselect all devices Remove all diver components Click Install to execute the driver installation or Uninstall to remove existing drivers A confirmation dialog appears Click Close to exit If the driver has been installed properly the device can be inserted or connected to the PC with the included USB cable The device is ready for operation now Version 2 2 51 Manual Driver Installation 4 4 Vector Hardware Configuration Executing Vector Hardware Config Control panel Windows 7 Control panel Windows 8 1 Hardware Application General information After the successful installation you will find the configuration application Vector Hardware in the Control Panel see below The tool gives you information about t
13. Windows 7 32 bit 64 bit Windows 8 1 32 bit 64 bit 65 mm x 42 mm x 20 mm 80 g Manual 2 6 VN1630 2 6 1 Main Features VN1600 Interface Family VN 1630 features The main features of the VN1630 interface are 2x CAN high speed 1051cap transceivers capacitively decoupled 2x additional plug in locations for CAN LINpiggies Fifth channel for dedicated digital analog input output tasks Software sync Hardware sync via SYNCcableXL gt V V V V Figure 7 VN1630 CAN LIN Interface 2 6 2 Connectors Bus Side Device connectors Figure 8 VN1630 with 1x Sync and 2x D SUB9 gt Vector Informatik GmbH Binder connector Sync This connector Binder type 711 can be used for time synchronization of different Vector devices The sync connector is not intended to connect a power supply Pin Assignment 1 Not connected Synchronization line Ground Version 2 2 16 Manual gt VN1600 Interface Family D SUB9 CH1 3 and CH2 4 The VN1630 has two D SUB9 connectors each with up to two channels CAN CAN or LIN CAN Further information on the pin assignment for CH1 CH3 and CH2 CH4 can be found in section Pin Assignment CH1 3 and CH2 4 on page 20 2 6 3 Connectors USB Side Device connectors Figure 9 VN1630 with 1x USB and 1x D SUB9 gt O Vector Informatik GmbH USB Connect your PC and the VN1630 via USB to install and to use the device with measurement application
14. able 2Y to access both channels on separate D SUB9 connectors see accessories manual article number 05075 The pin assignments of the D SUB9 connectors depend on the used bus transceiver configuration inside the VN1630 A list of available Piggybacks and their D SUB9 pin assignments is included in the accessories manual CH1 A 2 CAN Low 2 VN1630 a CH1 3 Special function tt MA 2 CAN Low 2 VN1630 lt CH2 4 Special function Si ae Figure 14 2x CANcable 2Y connected to VN1630 Vector Informatik GmbH Version 2 2 22 Manual VN1600 Interface Family 2 6 6 Pin Assignment CH5 Digital analog lO Internal interconnection of digital input 0 1 Internal interconnection of digital output Internal interconnection of analog input The pin assignment for p CHS is as follows mer Analogi SSS Sl I Analog GND 6 1 Analog input gt 2 Not connected l Oo a 3 Not connected ZA 4 Digital input O amp Digital In 1 5 5 Digital input 1 ln 6 Analog GND j Digital Out 8 7 Not connected SS I Digital GND 9 8 Digital output I gt 9 Digital GND Io I Isolation dA i LI 1 VI LI so E 370pF l Il Digital GND Digital GND l I LI l l LI l i Il Digital GND LI
15. according to the message rate Orange Error frames have been sent or received The flashing frequency varies according to the message rate Red Bus off gt Status Multicolored LED that indicates the status of the device Color Description Green Device is ready for operation running measurement Orange Initializing driver Please wait Red Error Device not working Vector Informatik GmbH Version 2 2 29 Manual VN1600 Interface Family 2 8 VN1640 2 8 1 Main Features VN 1640 features The main features of the VN1640 interface are gt 4x plug in locations for CAN LINpiggies Fifth channel for dedicated digital analog input output tasks 5x D SUB9 connectors Software sync Hardware sync via SYNCcableXL V V V V Figure 25 VN1640 CAN LIN Interface 2 8 2 Connectors Bus Side Device connectors Figure 26 VN1640 with 1x Sync and 4x D SUB9 gt Binder connector Sync This connector Binder type 711 can be used for time synchronization of different Vector devices The sync connector is not intended to connect a power supply Vector Informatik GmbH Version 2 2 30 Manual gt VN1600 Interface Family Pin Assignment 2 Synchronization line 1 Not connected 3 Ground D SUB9 CH1 CH4 The VN1640 has four D SUB9 connectors each assigned to a dedicated Piggyback plug in location Further information on the pin assi
16. amp Clock Figure 40 Common time stamp clock for each channel If the measurement setup requires more than one Vector network interface a synchronization of all connected interfaces and their hardware clocks is needed Due to manufacturing and temperature tolerances the hardware clocks may vary in speed so time stamps of various Vector devices drift over time O Vector Informatik GmbH Version 2 2 42 Manual Common Features CANalyzer CANoe huso Vector CAN Interface SEC 0 000000 0 100376 0 200382 0 300372 0 400406 CH1 CH2 0 500593 Time Stamp Clock 0 600242 CAN SEC 0 000000 0 100383 0 200982 0 301456 0 402612 0 503895 CHA CHB 0 604092 Time Stamp Clock Vector FR Interface FlexRa Figure 41 Example of unsynchronized network interfaces Independent time stamps drift apart To compensate for these time stamp deviations between the Vector network interfaces the time stamps can be either synchronized by software or by hardware see next section O Vector Informatik GmbH Version 2 2 Note The accuracy of the software sync is typically in range of 100 us Note The accuracy of the hardware sync is typically in range of 1 ps 43 Manual Common Features 3 1 2 Software Sync Synchronization The software time synchronization is driver based and available for all applications by software without any restrictions The time stamp deviations from different Vector network
17. ble via Piggybacks up to 330 kbit s Max 2 with LINpiggy 7269mag at CH1 CH2 Max 4 configurable via Piggybacks 10 bit Input 0 V 18 V Voltage tolerance up to 50 V with series resistor Sampling rate up to 1 kHz Range 0 V 32 V Schmitt trigger high 2 7 V low 2 2 V Hysteresis 0 5 V Input frequencies up to 1 kHz Open Drain External supply up to 32 V Current max 500 mA Short circuit over voltage protected Operating 40 C 70 C Shipping and storage 40 C 85 C 15 95 non condensing Windows 7 32 bit 64 bit Windows 8 1 32 bit 64 bit Approx 83 mm x 110 mm x 44 mm 330 g without accessories Approx 2 5 W Version 2 2 39 Manual VN1600 Interface Family 2 9 VN1640A 2 9 1 Main Features VN1640A features The main features and the technical data of the VN1640A are identical to VN 1640 On top of that the VN1640A has five LEDs indicating bus activities and status Figure 37 VN1640A CAN LIN Interface LEDs Status LI Figure 38 LEDs of the VN1640A gt CH1 CH4 with CAN LINpiggies Multicolored channel LEDs each indicating the bus activity for CAN or LIN Color Description Green Data frames have been sent or received correctly The flashing frequency varies according to the message rate Orange Error frames have been sent or received The flashing frequency varies according to the message rate Red Bus off gt Status Mu
18. ceivers af are being used we recommend our CANcable 1 CANcable 0 for Low Speed transceivers 2 Start Drivers Common Loop3 exe from the driver CD This program accesses the Vector devices and transmits CAN messages Select the connected CAN channels of the device s to be tested Set the appropriate baudrate depending on the transceiver being used High Speed max 1 000 000 Bd Low Speed max 125 000 Bd Vector Informatik GmbH Version 2 2 54 Manual Driver Installation i ede Setti 2 Selected channels A la Time limit s Exit 0 MW Req statistics M 1st CANcard lt Le Channel 3 vector I write logs E 1st CANcardxLe Channel 4 Y Timer events Burst size Stress priority E 1st CANcaseXL log Channel 1 16 g n Save statistic Start Dump events E 1st CANcaseXL log Channel 2 MI 1st N1610 Channel 1 TM 1st N1610 Channel 2 1 000 000 Bd Random IDs 5 Click Start 6 You will see statistical data in the lower part of the window if the system has been Loop3 application Vector Informatik GmbH configured properly Settings V Req statistics Time limit s I Write logs o V Timer events Burst size 1 000 000 Bd Save statistic Random IDs Dump events Selected channels 2 1st CANcardxLe Channel 3 1st CANcardXLe Channel 4 E 1st CANcaseXL log Channel 1 E 1st CANcaseXL log Channel 2 1st N1610 Channel 1 1 1st VN1610 Channel 2
19. condary channel according to the DIP switch settings Reference Further information on DIP switches can be found on page 20 Piggyback LIN Secondary Built in CAN CAN Transceiver 1051cap 1051cap Vector Informatik GmbH Version 2 2 18 Manual Examples 2x CAN without Piggybacks Configuration 4x CAN 1x 10 Configuration 1x LIN 2x CAN 1x 10 Configuration VN1600 Interface Family The following tables show examples of possible configurations Transceiver 1051cap 1051cap CH1 no Piggyback built in CAN 1051cap transceiver CH3 CH3 not usable CH2 no Piggyback built in CAN 1051cap transceiver CH4 CH4 not usable CH5 no Piggyback Transceiver 1051cap 1051cap CH1 CANpiggy CH3 built in CAN 1051cap transceiver CH2 CANpiggy CH4 built in CAN 1051cap transceiver CH5 lOpiggy CH2 CH4 Primary A Built in CAN CAN Transceiver 1051cap 1051cap CH1 LINpiggy CH3 built in CAN 1051cap transceiver CH2 no Piggyback built in CAN 1051cap transceiver CH4 CH4 not usable CH5 lOpiggy Vector Informatik GmbH Version 2 2 CH5 CH5 CH5 CH5 19 Manual VN1600 Interface Family 2 6 5 Pin Assignment CH1 3 and CH2 4 Double assignment Before installing a Piggyback in the plug in location see section Replacing of D SUB9 Piggybacks on page 25 the pin assignment of the D SUB9 connector CH1 CH3 and connectors CH2 CH4 has to be selected via DIP switches
20. d Intended Purpose influencing control systems and electronic control units This includes inter alia bus systems like CAN LIN K Line MOST FlexRay Ethernet and or BroadR Reach The interface may only be operated in a closed state In particular printed circuits must not be visible The interface may only be operated i according to the instructions and descriptions of this manual ii with the electric power supply designed for the interface e g USB powered power supply and iii with accessories manufactured or approved by Vector AN Caution The interface is designed for analyzing controlling and otherwise The interface is exclusively designed for use by skilled personnel as its operation may result in serious personal injuries and damage to property Therefore only those persons may operate the interface who i have understood the possible effects of the actions which may be caused by the interface ii are specifically trained in the handling with the interface bus systems and the system intended to be influenced and ili have sufficient experience in using the interface safely The knowledge necessary for the operation of the interface can be acquired in workshops and internal or external seminars offered by Vector Additional and interface specific information such as Known Issues are available in the Vector KnowledgeBase on Vector s website at www vector com Please consult the Vector KnowledgeBase fo
21. d be handled like CAN here Piggyback Configurations CH1 CH2 CH3 CH4 CAN CAN CAN CAN LIN CAN CAN CAN LIN LIN CAN CAN LIN LIN LIN CAN LIN LIN LIN LIN Vector Informatik GmbH Version 2 2 32 Manual VN1600 Interface Family Further examples The following tables show examples of other combinations 1x CAN CH1 CH2 CH3 CH4 1x LIN CH1 CH4 LIN 1x LIN CH1 CH4 1x CAN LIN 1x LIN CH1 CH4 1x CAN CAN 2x LIN CH1 CH4 1x CAN LIN 2 8 5 Pin Assignment CH1 CH4 Assignment of the The pin assignments depend on the inserted Piggybacks A list of available D SUB9 connectors Piggybacks and their D SUB9 pin assignments can be found in the separate accessories manual on the driver CD in Documentation Accessories dle Example CANpiggy 1041mag The following example shows the pin assignment of CH1 if a CANpiggy 1041mag is inserted in the plug in location at channel 1 CH1 Shield 1041mag VB 1041mag Split 1041mag VB 1041mag CAN High 1041mag CAN Low O Vector Informatik GmbH Version 2 2 33 Manual VN1600 Interface Family 2 8 6 Pin Assignment CH5 Digital analog lO Internal interconnection of digital input 0 1 Internal interconnection of digital output Internal interconnection of analog input The pin assignment for p CHS is as follows mer Analogi SSS Sl I Analog GND 6 1 Analog input gt x J Digital In O 4 4 Digital input 0 amp Digital In 1 5 5
22. de with the bar code facing upward Then the main board with the Piggybacks facing upward is inserted into the second guide rails Figure 21 Second guide rails It should be possible to slide the main board in the housing up to a few milli meters from the end without forcing it in Close the housing by applying light pressure and then secure it with the appropriate screw fasteners The screws should be secure but not excessively tight Please also attach the two black decorative caps Connect the VN1630 and the PC via the USB cable and check the bus configuration in Vector Hardware Config er Vector Hardware Config ec lle t File Edit Tools Window Help OE Hardware es Virtual CAN Bus 1 HR CANboard amp L 1 123451 A h A CLOUD 3 VN1630 1 000257 USB 20 1630 1 000257 Ae ci Driver version 8 1 16 Firmware version 8 1 16 Hardware revision 2 0 Channel 4 Capabilities CAN LIN 024 10 11708 K LINE CAPL On Board AS On board D 4 10 1021 Gi Multiple device mode NO i eneral information eg Receive latency Very hast H License Vector H ardware change detected Figure 22 Check inserted Piggybacks Version 2 2 ae 2 6 8 Technical Data CAN channels LIN channels K Line channels J1708 channels Analog input Digital input Digital output Temperature range Relative humidity of ambient air Operating system requirements D
23. e PC via USB If you have already connected the VN16xx the Windows found new Hardware wizard appears Close this wizard and then execute the driver setup 2 Finish the driver installation with the setup Note Further information on the driver installation can be found in the separate i installation instructions at the end of this manual 2 3 2 Step 2 Device Installation F 1 Install the drivers as described before 2 Connect the VN16xx to a free USB2 0 port via the USB cable 2 3 3 Step 3 Device Configuration Configuration Before the installed device can be used in an application e g CANalyzer CANoe it has to be properly configured for the needed use case This configuration is done with the Vector Hardware Config tool which comes with the driver installation The tool can be found in Windows Start Settings Control Panel Vector Hardware and manages all installed Vector devices Vector Hardware Config Sr File Edit Tools Window Help 0 38 Hardware Details Gell Virtual CAN Bus 1 3 ad CANboardxL 1 123451 i fei C NcardxLe 1 000164 Type USE 2 0 i Be VNTE40 1 Driver version 8 1 16 H A CANpiggy 10414mag Highspeed Firmware version 8 1 16 se C Npigoy 1041 mag Highspeed Hardware revision 0 0 H Channel 3 Capabilities CAN LIN 044 10 47708 K LINE CAPL On Board H z Channel 4 ES On board DA 10 1021 EG Multiple device mode HO iG Application pay Receive latency Very fast cs General info
24. es no liability for correct contents or damages which are resulted from the usage of the documentation We are grateful for references to mistakes or for suggestions for improvement to be able to offer you even more efficient products in the future 1 2 3 Registered Trademarks Registered trademarks All trademarks mentioned in this documentation and if necessary third party registered are absolutely subject to the conditions of each valid label right and the rights of particular registered proprietor All trademarks trade names or company names are or can be trademarks or registered trademarks of their particular proprietors All rights which are not expressly allowed are reserved If an explicit label of trademarks which are used in this documentation fails should not mean that a name is free of third party rights gt Windows Windows 7 Windows 8 1 are trademarks of the Microsoft Corporation O Vector Informatik GmbH Version 2 2 6 Manual VN1600 Interface Family 2 VN1600 Interface Family In this chapter you find the following information 2 1 Introduction page 8 2 2 Accessories page 8 2 3 Getting Started page 9 2 4 VN1610 page 11 2 5 VN1611 page 13 2 6 VN1630 page 16 2 7 WN1630A page 29 2 8 VN1640 page 30 2 9 VN1640A page 40 O Vector Informatik GmbH Version 2 2 7 Manual VN1600 Interface Family 2 1 Introduction General information The VN1600 interface family is an advanced development of the proven CANcaseX
25. gnment can be found in section Pin Assignment CH1 CH4 on page 33 2 8 3 Connectors USB Side Device connectors Figure 27 VN1640 with 1x USB and 1x D SUB9 gt O Vector Informatik GmbH USB Connect your PC and the VN1640 via USB to install and to use the device with measurement applications CANoe CANalyzer Use the USB2 0 compliant cable found in the delivery USB extension cables may generate faults between the PC and the device Connect the device directly to USB at your PC or use a USB hub with its own power supply self powered Depending on the used Piggyback the VN1640 requires the entire USB current 500 mA which cannot be provided by a bus powered USB hub D SUB9 CH5 The VN1640 has a D SUB9 connector CH5 for dedicated digital analog input output tasks The pin assignment can be found in section Pin Assignment CH5 on page 34 Version 2 2 aie e Manual VN1600 Interface Family 2 8 4 Bus Configuration Piggybacks An advantage of the VN1640 is its four Piggyback plug in locations CH1 CH4 Depending on requirements electrically decoupled CAN High Speed CAN Low Speed CAN Single Wire J1708 or LIN transceivers may be used CH5 is reserved for dedicated lO tasks Figure 28 Piggyback plug in locations for CH1 CH4 Note LINpiggies have to be inserted before CANpiggies in ascending order If you I Intend to use only one LINpiggy please use the first plug in location CH 1 J1708 shoul
26. he connected and installed Vector devices There are also several settings that can be changed gt Category view Windows Start Control Panel Hardware and Sound click Vector Hardware in the list gt Symbols view Windows Start Control Panel click Vector Hardware in the list gt Category view lt Windows key gt lt X gt Control Panel Hardware and Sound click Vector Hardware in the list gt Symbols view lt Windows key gt lt X gt Control Panel click Vector Hardware in the list Vector Hardware Config Application License Tools Support Help SE Hardware Details i 4 Virtual CAN Bus 1 dp Device VN1630 1 003882 Be C NcardxLe 1 000164 Type USB 2 0 connected with Hi Speed 480 MBit s a u Huse Serial number 3002 gy 10414mag Highspeed Driver version 8 922 43 CANpiggy 251 mag Highspeed Firmware version 9 922 8 On board CAN 1051 cap Highspeed Hardware revision 2 0 A On board CAN 1051 caplHighspeed Capabilities CAN LIN D448 10 JT 708 K LINE A E On board DIA 10 1021 Features CAPL on Board 0 59 Application gf General information E Multiple device mode NO i EA License E Receive latency Fast e Number of channels All The tool is split into two windows The left window lets you access the installed Vector devices the right window displays the details of the selection The following nodes are available in the left window Each installed Vector device is shown in Hardware Additional details
27. imensions LxWxH Weight Power consumption O Vector Informatik GmbH VN1600 Interface Family Max 4 configurable via Piggybacks up to 2 Mbit s Max 2 configurable via Piggybacks up to 330 kbit s Max 2 with LINpiggy 7269mag at CH1 CH2 Max 2 configurable via Piggybacks 10 bit Input 0 V 18 V Voltage tolerance up to 50 V with series resistor Sampling rate up to 1 kHz Range 0 V 32 V Schmitt trigger high 2 7 V low 2 2 V Hysteresis 0 5 V Input frequencies up to 1 kHz Open Drain External supply up to 32 V Current max 500 mA Short circuit over voltage protected Operating 40 C 70 C Shipping and storage 40 C 85 C 15 95 non condensing Windows 7 32 bit 64 bit Windows 8 1 32 bit 64 bit Approx 85 mm x 106 mm x 32 mm 230 g without accessories Approx 2 5 W Version 2 2 28 Manual VN1600 Interface Family 2 7 VN1630A 2 7 1 Main Features VN1630A features The main features and the technical data of the VN1630A are identical to VN 1630 On top of that the VN1630A has five LEDs indicating bus activities and status Figure 23 VN1630A CAN LIN Interface LEDs Status LI Figure 24 LEDs of the VN1630A gt CH1 CH4 with CAN LINpiggies Multicolored channel LEDs each indicating the bus activity for CAN or LIN Color Description Green Data frames have been sent or received correctly The flashing frequency varies
28. interfaces are calculated and synchronized to the common PC clock For this purpose no further hardware setup is required PC CANalyzer CANoe rccoa fuss synchronization fuse by software PC clock sec sec 1 100356 1 100413 CAN Interface 1 200362 YY 1 200421 FR Interface 2 300362 1 3 2 300429 2 400356 2 400419 CH1 CH2 2 500353 3 500415 CHA CHB Time Stamp Clock 3 600362 3 600420 Time Stamp Clock Oo oa ee FlexRa Figure 42 Time stamps of devices are synchronized to the PC clock accuracy in range of 100 us The setting of the software time synchronization can be changed in the Vector Hardware Config tool in General information Settings Software time synchronization Z Vector Hardware Config File Edit Tools Window Help ae Hardware lf Application Eg General information poh i Settings e Transmit Queue size 256 messages Software time synchronization a Diagnostic E Configuration flags gel Driver status cs Number of Virtual CAN Devices 1 Support celeb License Figure 43 Switching on the software synchronization gt YES The software time synchronization is active gt NO The software time synchronization is not active Use this setting only if the Vector network interfaces are being synchronized over the sync line or if only a single device is used Vector Informatik GmbH Version 2 2 44 Manual Common Features 3 1 3 Hardware Sync Synchronizatio
29. lticolored LED that indicates the status of the device Color Description Green Device is ready for operation running measurement Orange Initializing driver Please wait Red Error Device not working O Vector Informatik GmbH Version 2 2 40 Manual Common Features 3 Common Features In this chapter you find the following information 3 1 Time Synchronization page 42 General Information Software Sync Hardware Sync O Vector Informatik GmbH Version 2 2 41 Manual Common Features 3 1 Time Synchronization 3 1 1 General Information Time stamps are useful when analyzing incoming or outgoing data or event Tim m Seep 329420653 on a specific bus and events pog ID Name Dir DLC Data 0 100376 2 100 8 23 19 05 47 79 34 52 82 0 100378 1 100 8 23 19 05 47 79 34 52 82 A 0 200382 2 100 8 03 04 06 95 06 07 56 74 0 200384 1 100 8 03 04 06 95 06 07 56 74 0 300372 1 102 8 74 02 31 73 94 12 04 93 0 300374 2 102 8 74 02 31 73 94 12 04 93 meio 2 8 23 19 05 47 79 34 52 82 A A ana i py 4 10 NG A7 Fo 24 CIS F Figure 39 Time stamps of two CAN channels in CANalyzer Generating Each event which is sent or received by a Vector network interface has an accurate time stamps time stamp Time stamps are generated for each channel in the Vector network interface The base for these time stamps is a common hardware clock in the device CANalyzer CANoe huso Vector CAN Interface Time St
30. n A more accurate time synchronization of multiple devices is provided by the hardware by hardware synchronization which has to be supported by the application e g CANalyzer CANoe Two Vector network interfaces can therefore be connected with the SYNCcableXL see accessories manual part number 05018 In order to synchronize up to five devices at the same time a distribution box is available see accessories manual part number 05085 VN5610 22 55 TA pe VN1630 SYNCcable XL PESI O oe Os i VN7570 Multi U SYNCbox DI de 0 BPC SYNCcable XL SYNCcable XL ES A VN1640 external PC A E a oze Vector Devices SAT A i O VN1640 S82 E SY NCoable XL y Do Figure 44 Example of a time synchronization with multiple devices VN8912 AO ED Power SYNCcable XL Multi SYNCbox external USB VN8912 SYNCcable XL SYNCcable XL SYNCcable XL Figure 45 Example of a time synchronization with VN8912 and additional devices O Vector Informatik GmbH Version 2 2 45 Manual Common Features At each falling edge on the sync line which is initiated by the application the Vector network interface generates a time stamp that is provided to the application This allows the application to calculate the deviations between the network interfaces and to synchronize the time stamps to a common time base master clock which is defined by the application
31. ould be possible to slide the main board in the housing up to a few milli meters from the end without forcing it in Close the housing by applying light pressure and then secure it with the appropriate screw fasteners The screws should be secure but not excessively tight Please also attach the two black decorative caps Connect the VN1640 and the PC via the USB cable and check the bus configuration in Vector Hardware Config i Vector Hardware Confic SS File Edit Tools Window Help HE Hardware Deal JM Virtual CAN Bus 1 tI C NboardxL 1 123451 _ ETA tt T r ETEF ype l A i Driver version 8 1 16 H CANpiggy 1041Amag Highspeed Firmware version 5 1 16 oe CAN piggy 1041 4mag Highspeed Hardware revision 0 0 fT Channel 3 Capabilities CAN LIN D A 10 41 08 K LINE CAPL On Board f Channel 4 H E On board DIA 10 1021 E Multiple device mode NO 7 E General information E License ELE E Receive latency Very fast Figure 36 Check inserted Piggybacks O Vector Informatik GmbH Version 2 2 38 2 8 8 Technical Data CAN channels LIN channels K Line channels J1708 channels Analog input Digital input Digital output Temperature range Relative humidity of ambient air Operating system requirements Dimensions LxWxH Weight Power consumption O Vector Informatik GmbH VN1600 Interface Family Max 4 configurable via Piggybacks up to 2 Mbit s Max 4 configura
32. p or bottom of r the boards VN1630 main board or Piggybacks to avoid damages due to electrical discharges r 1 First loosen the VN1630 housing screws on the side with the two D SUB9 af connectors This requires removing the two black decorative caps Then carefully k pull the PC board out of the housing Figure 18 Opening the housing 2 You will find the plug in location 1 CH1 at the sync connector side and plug in location 2 CH2 at the edge of the PC board Piggy 2 CH2 ON REGGEE 123456 AS A A da EES NO A Figure 19 Piggyback plug in locations CH1 and CH2 O Vector Informatik GmbH Version 2 2 25 Manual VN1600 Interface Family 3 Each of the two Piggybacks is fastened by a screw and retainer Please loosen the appropriate screw including the retainer and carefully remove the Piggyback from the plug in location Figure 20 Unmount mount Piggybacks 4 Setthe DIP switches as described in section Pin Assignment CH1 3 and CH2 4 on page 20 5 Insert the replacement Piggyback When doing this please make sure that the single and dual row connectors are not laterally offset 6 Secure the new Piggyback with the appropriate screw and retainer O Vector Informatik GmbH Version 2 2 26 Manual re Vector Informatik GmbH VN1600 Interface Family Place the VN1630 main board back in the housing This operation involves placing the housing on a table with its back side si
33. r updated information prior to the operation of the interface 1 1 2 Hazards systems and electronic control units Serious hazards for life body and property may arise in particular without limitation by interventions in safety relevant systems e g by deactivating or otherwise manipulating the engine management steering airbag and or braking system and or if the interface is operated in public areas e g public traffic airspace Therefore you must always ensure that the interface is used in a safe manner This includes inter alia the ability to put the system in which the interface is used into a safe state at any time e g by emergency shutdown in particular without limitation in the event of errors or hazards AN Caution The interface may control and or otherwise influence the behavior of control Comply with all safety standards and public regulations which are relevant for the operation of the system Before you operate the system in public areas it should be tested on a site which is not accessible to the public and specifically prepared for performing test drives in order to reduce hazards 1 1 3 Disclaimer the extent damages or errors are caused by improper use of the interface or use not according to its intended purpose The same applies to damages or errors arising from insufficient training or lack of experience of personnel using the interface AN Caution Claims based on defects and liability claims agains
34. rmation rs License Figure 2 Vector Hardware Config For the quick test described in this manual no further configuration is required Ta Note Further details on the Vector Hardware Config tool can be found in the J separate installation instructions at the end of this manual Vector Informatik GmbH Version 2 2 9 Manual VN1600 Interface Family 2 3 4 Step 4 Quick Test i Note Please execute the test described in section Loop Tests on page 54 O Vector Informatik GmbH Version 2 2 10 Manual VN1600 Interface Family 2 4 VN1610 2 4 1 Main Features VN1610 features The main features of the VN1610 interface are gt 2x CAN high speed 1051cap transceivers capacitively decoupled gt Software sync Figure 3 VN1610 CAN Interface 2 4 2 Connectors gt D SUB9 CH1 2 The VN1610 has a D SUB9 connector with two CAN channels Further information on the pin assignment for CH1 CH2 can be found in section Pin Assignment CH1 and CH2 on page 12 gt USB Connect your PC and the VN1610 via USB to install and to use the device with measurement applications e g CANoe CANalyzer O Vector Informatik GmbH Version 2 2 11 Manual VN1600 Interface Family 2 4 3 Pin Assignment CH1 and CH2 D SUB9 connector CH1 CH2 CAN Y cable The pin assignment of the D SUB9 connector CH1 and CH2 is as follows CH2 Shield CH1 Shield 1051cap CAN Low f4 0 1051cap GND 1051cap CAN High 1051cap CAN Low
35. rsion 00000000 SerialNumber 99991 Setting timer rate to 1 Started at Mon Mar 19 12 07 38 2012 Time synchronization disabled Test finished with result XXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXX 0 00 22 092 CIkDiff 2 188ms Tim 21092 Stats 120 120 Msg 209829 440823 0 10233 21450msq s 04 Delay ns AvRev 203431 Av 31899 Min 0 Max 50000 Global Av 0 Min 0 Max 0 Last 0 08 Delay ns AvRev 218295 Ay 0 Min 0 Max 0 Global Av 34229 Min 0 Max 50000 Last 10000 Total global delays ns Average 17114 Min 0 Max 50000 Average CIkDiff 2247 3us BusLoad 100 Version 2 2 56 Manual Driver Installation 4 5 2 FlexRay Device test The operating test for FlexRay can be executed with the following devices VN3300 VN3600 VN7570 VN7572 VN7600 VN7610 VN8910A with VN8970 VN8912 with VN8970 VN8972 V V V V VU Vv VV FRLoop exe This operating test requires an inserted FRpiggy a 1 Remove the FlexRay cable if it is connected 2 Start Drivers Common FRLoop exe from the driver CD 3 Execute the test 4 lfno error messages occur the operating test was successful FRLoop Channel Selection CANcardXLe Channel 4 VN7600 Channel 2 VN3x00 VNZ600 Channel 4 vector FlexRay Interface MESE Options Net config accepted by driver Create Log file Activate channel command Node switched to normal Coldstart CC sync frame received Tx ck of sync frame recei
36. s CANoe CANalyzer Use the USB2 0 compliant cable found in the delivery USB extension cables may generate faults between the PC and the device Connect the device directly to USB at your PC or use a USB hub with its own power supply self powered Depending on the used Piggyback the VN1630 requires the entire USB current 500 mA which cannot be provided by a bus powered USB hub D SUB9 CH5 The VN1630 has a D SUB9 connector CH5 for dedicated digital analog input output tasks The pin assignment can be found in section Pin Assignment CH5 on page 23 Version 2 2 e Manual VN1600 Interface Family 2 6 4 Bus Configuration Piggybacks for CH1 and CH2 An advantage of the VN1630 is its two Piggyback plug in locations primary channels CH1 and CH2 Depending on requirements electrically decoupled CAN High Speed CAN Low Speed CAN Single Wire J1708 or LIN transceivers may be used In addition two electrically decoupled built in CAN TJA1051 high speed transceivers are available secondary channels CH3 and CH4 CH5 is reserved for dedicated lO tasks P SS Peele PEGG NO Figure 10 Piggyback plug in locations for CH1 and CH2 Note LiNpiggies have to be inserted before CANpiggies in ascending order If you intend to use only one LINpiggy please use the first plug in location CH 1 J1708 should be handled like CAN here Each empty plug in location is loaded with a built in transceiver from the se
37. t 8 1051cap CAN High 9 Piggyback dependent dia Example CANpiggy 1041mag VN1600 Interface Family A all ON B all OFF CEER Figure 13 Configuration with Piggyback The following example shows the pin assignment of CH1 CH3 if a CANpiggy 1041mag is inserted in the plug in location at channel 1 CH1 Shield 1041mag VB 1041mag Split 1041mag VB 1041mag CAN High 1041mag CAN Low CH3 Shield 1051cap CAN High 1051cap GND 1051cap CAN Low Note The described pin assignment is also valid for CH2 CH4 gt A warning message appears in the Vector Hardware Config tool if the DIP switch settings are improperly set Check your DIP switch settings in this case File Edit Tools Window Help Hardware Ed Virtual CAN Bus 1 Ge CANboard lt L 1 123451 i C Ncard lt Le 1 000164 ME 01630 1 000257 E Channel 1 invalid dip switch settings TF Channel 2 invalid dip switch settings i T Channel 3 invalid dip awitch settings Channel 4 invalid dip switch settings On board 04 10 1021 E Application E General information E License Version 2 2 Details VN4630 1 000257 USE 2 0 Serial number 257 Driver version 6 1 16 Firmware version 8 1 16 Hardware revision 2 0 Capabilities CAN LIN D A 10 1105 K LINE CAPL On Boarc es Multiple device mode NO ci Receive latency Very hast 294 2 Manual CAN LIN Y cable VN1600 Interface Family Use the CANc
38. t USB Connect your PC and the VN1611 via USB to install and to use the device with measurement applications e g CANoe CANalyzer Vector Informatik GmbH Version 2 2 13 Manual VN1600 Interface Family 2 5 3 Pin Assignment CH1 and CH2 D SUB9 connector CH1 CH2 CAN LIN Y cable The pin assignment of the D SUB9 connector CH1 and CH2 is as follows CH1 CH2 Shield Shield 269cap VB 269cap Pdis 1051cap CAN High 7269cap VB 7269cap LIN 1051cap GND 1051cap CAN Low Pdis power disable Use the CANcable 2Y to access both channels on separate D SUB9 connectors see accessories manual article number 05075 2 gt CH1 A CH2 B Figure 6 CANcable 2Y connected to VN1611 Note If pin 4 Pdis is connected to pin 3 VB the internal power supply is disabled In this case an external power supply is required at pin 9 VB Vector Informatik GmbH Version 2 2 14 Manual 2 5 4 Technical Data CAN channels LIN channels K Line channels Temperature range Relative humidity of ambient air Operating system requirements Dimensions LxWxH Weight O Vector Informatik GmbH Version 2 2 VN1600 Interface Family 1x CAN high speed 1051cap up to 2 Mbit s 1x LIN 7269cap up to 330 kbit s 4 Operating 40 C 70 C Shipping and storage 40 C 85 C 15 95 non condensing
39. t Vector are excluded to O Vector Informatik GmbH Version 2 2 4 Manual Introduction 1 2 About this User Manual Conventions In the two following charts you will find the conventions used in the user manual regarding utilized spellings and symbols Style Utilization bold Blocks surface elements window and dialog names of the software Accentuation of warnings and advices OK Push buttons in brackets File Save Notation for menus and menu entries Microsoft Legally protected proper names and side notes Source Code File name and source code Hyperlink Hyperlinks and references lt CTRL gt lt S gt Notation for shortcuts Symbol Utilization Here you can obtain supplemental information AN This symbol calls your attention to warnings Here you can find additional information oF de Here is an example that has been prepared for you is Step by step instructions provide assistance at these points E Instructions on editing files are found at these points A This symbol warns you not to edit the specified file Vector Informatik GmbH Version 2 2 5 Manual Introduction 1 2 1 Certification Certified Quality Vector Informatik GmbH has ISO 9001 2008 certification The ISO standard is a Management System globally recognized standard 1 2 2 Warranty Restriction of warranty We reserve the right to change the contents of the documentation and the software without notice Vector Informatik GmbH assum
40. ved Hardware Information TxAck of cyclic frame received FPGA 7 05 020 TxAck of singleshot frame received HW Type VN7600 Channel 1 i j Firmware 7 05 20 Doing data consistency checks Bootcode 3 00 12 Deactivate channel command Hardware 0x1000000 Serialnumber 558 Test completed successfully i Measurement Ray Vector Informatik GmbH Version 2 2 57 Manual Driver Installation 4 5 3 MOST Device test The operating test for MOST can be executed with the following devices gt VN2610 gt VN2640 MLoop exe This functional test requires a MOST fiber optic cable and a fiber coupler for HFBR connectors 4 1 VN2610 af Start Drivers Common MLoop exe from the driver CD VN2640 Start Drivers Common M150Loop exe from the driver CD Select the VN2610 VN2640 to be tested from the list of detected devices Click Twinkle and check if the power LED of the VN2610 VN2640 is blinking at least for one second 4 Connect the MOST fiber optic cable with the VN2610 VN2640 device select Master mode and check if the program displays the status Unlock Check if red light comes out of the TX fiber of the MOST fiber optic cable 5 Connect both ends of the fiber with one fiber coupler to a ring and check if the program displays the status Lock 6 Close MLoop exe with Exit Vector Informatik GmbH Version 2 2 58 Manual Driver Installation 4 5 4 Ethernet Device test The operating test for Ethernet can be executed
41. which can be found inside the device CH1 and CH2 at the plug in locations Piggy 1 CH1 3 Piggy 2 CH2 4 ON E greets T Opera gr ON FERRER REID PEEEEE RETE GERE d NO SEZ NO 3 Figure 11 DIP switches left CH1 3 right CH2 4 Pin assignment The pin assignments of the D SUB9 connectors depend on the used bus transceiver CH1 CH4 configuration inside the VN1630 A list of available Piggybacks and their D SUB9 pin assignments is included in the separate accessories manual gt No Piggyback inserted A all OFF B all ON If no Piggyback is inserted only the A built in CAN transceiver at CH1 CH2 is active no double assign ment of the D SUB9 connector 1051cap CAN Low 1051cap GND hield 051cap CAN High I i Y I Figure 12 Configuration without Piggyback GHI SGGEONI MV I Example No Piggyback The following example shows the pin assignment of CH1 CH3 if no Piggyback is inserted in the plug in location at channel 1 CH1 Shield CH3 disabled 1051cap GND 1051cap CAN High 1051cap CAN Low O Vector Informatik GmbH Version 2 2 20 Manual O Vector Informatik GmbH gt CAN LIN Piggyback inserted If a CAN or LINpiggy is inserted the Piggyback is assigned to CH 1 CH2 and the built in CAN transceiver is assigned to CH3 CH4 1 1051cap CAN Low 2 Piggyback dependent 3 Piggyback dependent 4 Piggyback dependent 5 Shield 6 1051cap GND 7 Piggyback dependen
42. with the following devices gt VN5610 y 1 Connect both Ethernet channels of the VN5610 with an Ethernet cable UL 2 Connect both BroadR Reach channels at the D SUB9 connector as follows N CH1 CH2 P CH1 CH2 Start Drivers Common ETHloop exe from the driver CD Select an installed VN5610 from the list Press Twinkle and check if the LED Status blinks Start the test by pressing the button Start Test The test is successful if no error messages occur EthLoop memi IO 2 me Start Test R 145 IEEE Auto Negotiation 100 MBit CO Po amp i R145 IEEE Auto Negotiation 1000 MBit OK DSUB BroadR Reach 100 MBit OK Vector Informatik GmbH Version 2 2 59 Get more Information Visit our Website for gt News gt Products gt Demo Software gt Support gt Training Classes gt Addresses www vector com vector
43. ybacks 2 6 8 Technical Data 2 7 VN1630A 2 7 1 Main Features 2 8 VN1640 2 8 1 Main Features 2 8 2 Connectors Bus Side 2 8 3 Connectors USB Side 2 8 4 Bus Configuration 2 8 5 Pin Assignment CH1 CH4 2 8 6 Pin Assignment CH5 2 8 7 Replacing Piggybacks 2 8 8 Technical Data 2 9 VN1640A 2 9 1 Main Features O Vector Informatik GmbH Version 2 2 Contents OOOO AAAA O Manual VN1600 Interface Family 4 1 4 2 4 3 4 4 4 5 Common Features Time Synchronization ca General Information 942 Software Sync Sls Hardware Sync Driver Installation Minimum Requirements Hints Vector Driver Setup Vector Hardware Configuration Loop Tests 4 5 1 CAN 4 5 2 FlexRay 4 5 3 MOST 4 5 4 Ethernet Vector Informatik GmbH Version 2 2 Contents Manual Introduction 1 Introduction In this chapter you find the following information 1 1 Safety Instructions and Hazard Warnings page 4 Proper Use and Intended Purpose Hazards Disclaimer 1 2 About this User Manual page 5 Certification Warranty Registered Trademarks O Vector Informatik GmbH Version 2 2 3 Manual Introduction 1 1 Safety Instructions and Hazard Warnings Caution In order to avoid personal injuries and damage to property you have to d i read and understand the following safety instructions and hazard warnings prior to installation and use of this interface Keep this documentation manual always near the interface 1 1 1 Proper Use an
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