Manual - Vector
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1. Manual MOST Interfaces VN2610 VN2640 Version 1 5 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 VN2600 Interface Family 2 1 Introduction to VN2600 Family 2 1 1 General Information 2 1 2 Scope of Delivery 2 1 3 Installation 2 1 4 Device Connectors Rear 2 1 5 Device Connectors Front 2 2 VN2610 2 2 1 Main Features 2 2 2 Description 2 2 3 Details 2 2 4 Audio 2 2 5 LEDs 2 2 6 Technical Data 2 3 VN2640 2 3 1 Main Features 2 3 2 Description 2 3 3 Details 2 3 4 Audio 2 3 5 LEDs 2 3 6 Technical Data 3 VN2600 Accessories 3 1 Accessories 4 Common Features 4 1 Time Synchronization 4 1 1 General Information 4 1 2 Software Sync 4 1 3 Hardware Sync 5 Driver Installation 5 1 Minimum Requirements 52. C 70 C 1 40 C 85 C 15 90 non condensing Windows 7 32 bit 64 bit Windows 8 1 32 bit 64 bit Approx 140 x 105 x 32 mm Externally not by USB Operation Storage Startup 7 V 50 V approx 5 W Operation 5 V 50 V approx 7 W 1 us 21 8 KQ Max 2000 mVrms Max 4000 mVpp 150 mW 160 0 36 kg 22 Manual VN2600 Interface Family 2 3 VN2640 2 3 1 Main Features VN2640 features The main features of the VN2640 MOST Interface are gt MOST150 interface gt Vector Spy150 IP core in the FPGA gt ECL for exchanging wake up and diagnostic information gt Sending up to 800 control messages per second depending on the driver version gt Receiving up to 800 control messages per second depending on the driver version 2 3 2 Description Power up After supplying the power the VN2640 switches immediately into bypass mode The power of the optical transmitter building block FOT is set to 100 0 dB This state is maintained until the application sets another configuration The status LEDs always display the current state of the device and of the ring network lock unlock The VN2640 will support the configuration of the power up mode with a future driver release With this feature the VN2640 can start either in static master slave or bypass mode to prevent later unlocks when the ring has to be accessed This is useful when the VN2640 has to be connected to a PC when a ring fa
3. Features E Multiple device mode NO EG Receive latency Fast E Number of channels All General information License 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 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 Version 1 5 41 Manual License il 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 Vector Informatik GmbH Version 1 5 42 Manual Driver Installation 5 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 5 5 1 CAN Device test The operating test for CAN ca
4. gt Routing engine for audio gt Sending up to 1400 control messages per second gt Receiving up to 900 control messages per second 2 2 2 Description Power up Node and spy position Example 2 2 3 Details OS8104 Amount of control messages After supplying the power the VN2610 immediately switches into bypass mode The power of the optical transmitter building block FOT is set to 100 0 dB This state is maintained until the application sets another configuration The status LEDs always display the current state of the device and of the ring network lock unlock The VN2610 supports the simultaneous operation of the node mode master or slave and the spy mode for all messages and packets transmitted on the MOST bus The control spy follows the transmitting node of the VN2610 Node B Node A Node C VN2610 x 2 EA EA Figure 8 Example for spy node application The used MOST network controller is an OS8104 which guarantees full compatibility to existing MOST systems The device can be used as a timing master timing slave or in bypass operation Parallel to each of these three modes all control messages and asynchronous packets can be recorded online via a suitable application e g CANoe without influencing the MOST bus using the spy function In master mode a frame frequency of 44 1 kHz or 48 kHz can be set If the device is a visible node in master or slave mode in
5. 2 Hints 5 3 Vector Driver Setup 5 4 Vector Hardware Configuration 5 5 Loop Tests 5 5 1 CAN Vector Informatik GmbH Version 1 5 Contents DAMON DADO Vi Manual 5 5 2 FlexRay 5 5 3 MOST 5 5 4 Ethernet Vector Informatik GmbH Version 1 5 Introduction 46 48 Manual Introduction 1 Introduction In this chapter you find the following information 1 1 Safety Instructions and Hazard Warnings page 6 Proper Use and Intended Purpose Hazards Disclaimer 1 2 About this User Manual page 7 Certification Warranty Registered Trademarks Vector Informatik GmbH Version 1 5 5 Manual Introduction 1 1 Safety Instructions and Hazard Warnings 1 Caution In order to avoid personal injuries and damage to property you have to l 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 and 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
6. 34 52 82 Ka N annane 1 inn Tw 2 972 10 NG 47 70 24 7 QD mW r Figure 14 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 PC CANalyzer CANoe fuss Vector CAN Interface Time Stamp Clock Figure 15 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 Vector Informatik GmbH Version 1 5 31 Manual Common Features PC CANalyzer CANoe Vector Vector CAN Interface FR Interface CH1 CH2 CHB Time Stamp Clock Time Stamp Clock Figure 16 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 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 Vector Informatik Gmb
7. 4 Vector Hardware Configuration Executing Vector Hardware Config Control panel Windows 7 Control panel Windows 8 1 Hardware Application General information Vector Informatik GmbH After the successful installation you will find the configuration application Vector Hardware in the Control Panel see below The tool gives you information about the 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 Siart 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 am Application License Tools Support Help SE Hardware Details H Virtual CAN Bus 1 amp Device VN1630 1 003882 CANcardxLe 1 000164 Type USB 2 0 connected with Hi Speed 480 MBit s amp VN1630 1 003882 Serial number 3882 CANpiggy 1041Amag Highspeed Driver version 8 9 22 4 CANpiggy 251mag Highspeed Firmware version 8 9 22 4 On board CAN 1051 cap Highspeed Hardware revision 3 0 43 On board CAN 1051 cap Highspeed On board D A 10 1021 ip Application CAN LIN DA 10 J1708 K LINE CAPL on Board Capabilities
8. Classes gt Addresses www vector com vector
9. 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 Utilization Here you can obtain supplemental information This symbol calls your attention to warnings Here you can find additional information Here is an example that has been prepared for you 190 a Step by step instructions provide assistance at these points Instructions on editing files are found at these points DA This symbol warns you not to edit the specified file Vector Informatik GmbH Version 1 5 7 Manual Introduction 1 2 1 Certification Certified Quality Management System 1 2 2 Warranty Restriction of warranty Vector Informatik GmbH has ISO 9001 2008 certification The ISO standard is a globally recognized standard We reserve the right to change the contents of the documentation and the software without notice Vector Informatik GmbH assumes 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 t
10. connector Alternative supply device It does not matter which connector is used to supply the device It is not possible to chain the power supply through the VN26xx e g to operate several VN26xx interfaces on one power supply due to internal diodes VCC Power Sync 1 Power gt 2 Syne SYNC 3 GND 4 GND Power Sync Figure 2 Scheme of Binder connector on the device rear Alternatively to the main supply the VN26xx can be operated from other sources For this purpose a power supply cable with stripped wires is included in the scope of delivery Vector Informatik GmbH Version 1 5 11 Manual VN2600 Interface Family Power Sync The pin assignment of the Power Sync connector is as follows Pin Assignment 1 Power supply voltage x Sync line 5 V compatible q GND ground of the power supply and of the sync line N 4 2 1 4 2 Sync Time Synchronization Note Further information on time synchronization can be found in section Time Il Synchronization on page 31 2 1 4 3 Ethernet VN2640 Connection to the PC The Ethernet connector is reserved for future use 2 1 4 4 S PDIF Audio Digital by optical The devices of the VN2600 interface family have additional S PDIF connectors S PDIF Toslink for digital audio input to the MOST bus and digital audio output from the MOST bus One stereo channel can be provided per connector through the optical S PDIF connectors This me
11. for the following steps Vector Informatik GmbH Version 1 5 38 Manual Driver Installation 5 3 Vector Driver Setup General information The Vector Driver Disk offers a driver setup which allows the installation or the removal of Vector devices 1 Execute the driver setup from the autostart menu or directly from LE 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 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 Vector Informatik GmbH Version 1 5 39 Manual Driver Installation 3 Inthe driver selection dialog select your devices to be installed or to be uninstalled Vector Informatik GmbH Driver Setup Version 2 214 Driver Selection Select the device to be installed uninstalled vector The setup will install or uninstall the selected devices If the device is currently not connected cho
12. 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 1 5 33 Manual Common Features 4 1 3 Hardware Sync A more accurate time synchronization of multiple devices is provided by the 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 Synchronization by hardware In order to synchronize up to five devices at the same time a distribution box is available see accessories manual part number 05085 PC VN5610 SYNCcable XL T VN7570 am A A o gt ma Que Vector Devices SYNCcable XL Figure 19 Example of a time synchronization with multiple devices VN8912 nn ann Power USB VN8912 SYNCcable XL SYNCcable XL SYNCcable XL Figure 20 Example of a time synchronization with VN8912 and additional devices Vector Informatik GmbH Version 1 5 34 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
13. the MOST network up to 1400 control messages per second can be received and up to 900 control messages per second can be transmitted The usable bandwidth is shared between transmission and receiving The bandwidth is determined by the OS8104 Vector Informatik GmbH Version 1 5 17 Manual Packet length Synchronous channels 2 2 4 Audio S PDIF synchronization Audio analysis and audio stimulation as MOST slave VN2600 Interface Family Asynchronous packets like control messages can only be transmitted in master and slave mode Receiving is also possible in bypass mode and always provides all packets to the application which are transmitted via MOST Transmission and receiving are supported with packet lengths up to 1014 data bytes 1024 bytes packet length at full bandwidth 1 45 MB s Multi channel synchronous data streams can be analyzed with or without time stamps test signals for synchronous channels in the PC can also be generated via USB This allows for example gt Logging of the complete MOST data communication for offline analysis and error logging for suppliers Test of transfer functions of digital analog or analog digital converters Implementation of optimized flash algorithms with full bandwidth in production 1 60 bytes gt ECU diagnostics via hidden communication in idle synchronous channels gt Implementation and test of DTCP algorithms with the PC gt Creation of test signals of any complex
14. H Version 1 5 32 Manual Common Features 4 1 2 Software Sync Synchronization by software The software time synchronization is driver based and available for all applications without any restrictions The time stamp deviations from different Vector network interfaces are calculated and synchronized to the common PC clock For this purpose no further hardware setup is required PC CANa lyze r CANoe PC clock fuss synchronization fuss by software PC clock sec sec Vector 0 000000 r 0 000000 Vector 1 100356 1 100413 CAN Interface 1 200362 YY 1 200421 FR Interface 2 300362 2 300429 2 400356 2 400419 CH1 CH2 3 500353 7 3 500415 CHA CHB Time Stamp Clock 3 600362 3 600420 Time Stamp Clock Figure 17 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 Gi E Vector Hardware Config File Edit Tools Window Help arr Details a Application MIO ero lg General information SAR time Seba i Settings E Transmit Queue size 256 messages L Diagnostic eA Configuration flags 0x0 i E Driver status E Number of Virtual CAN Devices 1 i gt Support amp License vector Figure 18 Switching on the software synchronization gt YES The software time synchronization
15. In bypass mode neither the master nor the slave LED illuminates Vector Informatik GmbH Version 1 5 21 Manual 2 2 6 Technical Data MOST network controller Number of MOST channels Operating modes Spy for Control und asynchronous channel Control messages master slave Control messages spy Asynchronous packets Synchronous channels Line in connector Line out headphone connector S PDIF In Connector MOST connector Master frame rates PC interface Temperature range Relative humidity of ambient air Software requirements Dimensions LxWxH Power supply Time stamp accuracy Input impedance Input voltage Output voltage Output power Weight Vector Informatik GmbH Version 1 5 VN2600 Interface Family OS8104 1 Master slave spy bypass Can also be activated separately parallel to other modes at any time Up to 985 s Tx up to 1453 s Rx Full bandwidth receivable Packet length up to 1014 bytes Up to 9600 packets s Tx Up to 25000 packets s Rx Up to 1 45 MB s Tx and or Rx USB 1 60 byte per frame Tx and or Rx with optional Rx time stamps 1x Line In 1x Line Out Headphone 1 x S PDIF optical IN 1 x S PDIF optical OUT 2 x sample rate converter for S PDIF 3 5 mm stereo jack 3 5 mm stereo jack Toslink optical 16 bit stereo Standard MOST 2 0 Full Physical Compliant Mix401 Infineon Fs 44 1 and 48 kHz USB2 0 USB1 1 reduced bandwidth 20
16. Settings Selected channels iA Reg statistics I Stress priority Time limit s 2 1st CANcard lt Le Channel 3 Uwe 0 IT 1st CANcardxLe Channel 4 Pai timer events Burst size IT 1st CANcaseXL log Channel 1 E 16 Di 1st CANcaseXL log Channel 2 oosa 1 000 000Bd A 1stVN1610 Channel 1 _Save statistic DD 1st YN1610 Channel 2 Random IDs x Dump events Channel 0x10 Channel8 0x100 Setting bit rate to 1000000 bit s t1 5 t2 2 sampling point 75 btr0 00 btr1 14 Fuersion 0709001E HwVersion 00000000 SerialNumber 164 Fuersion 0800000 HwVersion 00000000 SerialNumber 999917 Setting timer rate to 1 Started at Mon Mar 19 12 07 38 2012 Time synchronization disabled 0 00 06 493 ClkDiff 2 188ms Tim 5492 Stats 30 30 Msg 50859 107196 1 0 10197 21378msg s 04 Delay ns AvRcv 246716 Av 31232 Min 10000 Max 20000 Global Av 0 Min 0 Max 0 Last 0 08 Delay ns AvRcv 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 CIKDiff 2248 27us BusLoad 100 Version 1 5 44 Manual Driver Installation 7 The test procedure can be terminated with the Stop button An OK should appear in the upper part of the window Loop3 CAN Benchmark utility _Setings z Selected channels lie F Req statistics I Stress priority Time limit s Exit 1st CANcardXLe Ch
17. annel 3 1 Write logs i E 1st CANcardxLe Channel 4 face Burst size Vector D 1st CANcaseXL log Channel 1 16 ID 1st CANcaseXL log Channel 2 Toop0008a CRETE J M 1st YN1610 Channel 1 _Save statistic Start D 1stvN1610 Channel 2 Random IDs Dump events Clear Fwiversion 0709001E Hwiversion 00000000 SerialNumber 164 a Fw ersion 0800000E Hw ersion 00000000 SerialNumber 99991 7 Setting timer rate to 1 Started at Mon Mar 19 12 07 38 2012 Time synchronization disabled Test finished with result sessi CT _oAi o y T lt _ TEO _ er ee peer AKANA n 0 00 22 092 CIKDiff 2 188ms Tim 21092 Stats 120 120 Msg 209829 440823 1 0 10233 21450msg s 04 Delay ns AvRcv 203431 Av 31899 Min 0 Max 50000 Global Av 0 Min 0 Max 0 Last 0 08 Delay ns AvAcv 218295 Av 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 Vector Informatik GmbH Version 1 5 45 Manual 5 5 2 FlexRay Device test vvvV V V VV FRLoop exe Vector Informatik GmbH 1 2 3 4 VN3300 VN3600 VN7570 VN7572 VN7600 VN7610 VN8910A with VN8970 VN8912 with VN8970 VN8972 Remove the FlexRay cable if it is connected This operating test requires an inserted FRpiggy Driver Installation The operating test for FlexRay can be executed with the follow
18. ans that only the MSB and CSB for the left and right channel of the S PDIF data stream can be routed to from MOST via connection labels The LSB and CUV bytes are omitted or transmitted as zeros Both sampling frequencies of MOST and S PDIF can be optionally equalized by two sample rate converters SRC to avoid clicks The following operation modes are available gt MOST Timing Slave S PDIF Master SRC off gt MOST Timing Slave S PDIF Slave SRC on gt MOST Timing Master S PDIF Master SRC off MOST clock by quartz with 44 1 kHz or 48 kHz gt MOST Timing Master S PDIF Slave SRC on MOST clock by quartz with 44 1 kHz or 48 kHz gt MOST Timing Master S PDIF Slave SRC off MOST clock by S PDIF only VN2610 Vector Informatik GmbH Version 1 5 12 Manual VN2600 Interface Family 2 1 4 5 USB Connection to the PC In order to use the VN26xx MOST Interface it must be connected to a USB port on the PC using the included USB cable The device does not burden the PC s electrical power supply since it has to be externally supplied USB3 0 Superspeed The VN26xx can be operated at a USB3 0 Superspeed connector but the bandwidth is limited to USB3 0 Highspeed USB2 0 Highspeed In order to use the VN26xx the PC s USB port must be USB2 0 Highspeed compliant to make us of the MOST bandwidth USB1 1 Fullspeed USB1 1 is not supported by the VN26xx MOST Interface Due to the high data rate of MOST a USB1 1 connection is
19. ansmitter can be lowered according to the MOST specification from 100 to 50 3 dB Vector Informatik GmbH Version 1 5 14 Manual VN2600 Interface Family 2 1 5 2 Electrical Control Line ECL Description The VN2640 has an ECL port according to the MOST specification which is used for exchanging wake up and diagnostic information along the MOST ring Use the included ECL cable with stripped wires to connect to this port For further information please refer to the accessories manual included on the Vector Driver CD The Vbat voltage has to be externally applied to pin 1 and supplies the ECL pull ups and the transceiver This allows testing the ECL in variable voltage scenarios such as engine starts The voltage of Vbat can be in the range of 0 V 30 V but for a proper function it has be in the range of 5 5 V 30 V Vbat is also protected against inverse polarity Pin 3 ECL is an open collector bus The internal output driver can drive the bus only to GND To avoid high currents under faulty conditions it has an internal current limitation to 40 mA High levels are generated with the internal or additional external pull up resistors Inside the VN2640 there are two pull up resistors between Vbat and ECL The first resistor with 60 kOhm is permanently connected The second pull up with 1 1k Ohm in parallel to the first resistor can be switched on by software The ECL line is protected against inverse polarity and electromagnetic
20. ce 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 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 Caution Claims based on defects and liability claims against Vector are excluded to Vector Informatik GmbH Version 1 5 6 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
21. ded on the line out connector With the built in amplifier it is also possible to operate headphones 16 Q 150 mW on the line out In order to transmit and receive asynchronous packets via the used MOST network controller 0S8104 the controller s routing table must be set to particular values in the range of MRT0x44 to MRTOx7F This is automatically done by the firmware on power up Caution The range MRT0x44 to MRTOx7F must not be manually edited A change of these values can interrupt the receiving and transmission of asynchronous packets and compromises other aspects of the operation of the VN2610 The routing of synchronous channels via the line in or line out headphone jacks of the VN2610 is controlled by the routing engine of the MOST network controller For this purpose the following register values and addresses have to be used Vector Informatik GmbH Version 1 5 19 Manual VN2600 Interface Family Line in and line out Addresses in the routing engine for line in and line out Source Drain Channel Byte Address in routing engine LSB MRAOx41 Right MSB MRAOx42 LSB MRA0x43 LSB MRTOx41 Right MSB MRTOx42 LSB MRTOx43 S PDIF Addresses in the routing engine for S PDIF Source Drain Channel Byte Address in routing engine MSB MRAOx44 CSB MRAO0x45 Left LSB MRAO0x46 CUV MRAOx47 S PDIF IN MSB MRAO0x48 CSB MRAO0x49 Ri
22. discharges of 4 kV The used transceiver ATA6664 uses Vbat as reference voltage for its receiver A save low level is detected if the ECL line is below 40 of Vbat A save high level is detected if the ECL line is above 60 of Vbat The detected logic state is undefined between 40 and 60 of Vbat Pin 3 GND of the ECL connector is the reference ground for Vbat and ECL VBAT VBAT ECL ECL ECL LINE Binder 09 0078 00 03 Poly Fuse ECL LINE GND ECL Figure 5 Scheme of the ECL port Vector Informatik GmbH Version 1 5 15 Manual VN2600 Interface Family 2 1 5 3 Line In and Line Out Analog by The VN26xx offers a line in and line out headphone connector for input and output of Line In and Line Out Scheme Connector signal assignment analog audio signals MOST 988104 MOST gt Line Out Line In A A S gt Headphones Figure 6 Scheme of line in and line out The connection of the analog signals to the device is done via two 3 5 mm stereo jacks The signal assignment is as follows GND R L Figure 7 Signal assignment on the stereo jack Note Further information on signal routing can be found in the according device description of this manual VN2610 VN2640 Vector Informatik GmbH Version 1 5 16 Manual 2 2 VN2610 VN2600 Interface Family 2 2 1 Main Features VN2610 features The main features of the VN2610 MOST Interface are gt MOST25 interface
23. endent procedures and high load tests 2 1 2 Scope of Delivery 1 x VN26xx MOST Interface VN2610 or VN2640 1 x User manual English German 1 x Driver CD 1 x Power supply 100 240 V AC 12 V DC 1 25 A 1 x MOST fiber optic cable 1 x MOST 2 0 connector and 2 x HFBR 4531 2 x Fiber optic couplers for HFBR connectors 1 x Power supply cable 1 5 m with open end 1x Toslink S PDIF fiber optic cable 5 m 2 2 mm POF 1 x ECL cable 1 5 m with stripped wires only with VN2640 see accessories manual for further information Device and accessories vvvVvVV V V VV 2 1 3 Installation Note You can find a detailed description of the driver installation in the separate I installation instructions at the end of this manual Vector Informatik GmbH Version 1 5 10 Manual VN2600 Interface Family 2 1 4 Device Connectors Rear Rear Figure 1 2x Power Sync Ethernet only VN2640 2x S PDIF and USB 2 1 4 1 Power Supply External The VN26xx must be externally supplied by one of the two Power Sync jacks on the power supply rear of the device A power supply via USB is not possible After the VN26xx has been supplied with the startup voltage any voltage dip does not disturb the device function see the technical data of the according VN26xx MOST Interface in this manual The device consumes about 7 W during full operation Connectors Two identical and equivalent Binder connectors are available on the rear of the Scheme of
24. es as well as ring states and statistics for ring analyses This information is forwarded with low latency and high bandwidth to the PC An FPGA internal unlock generator accurately destroys two of three preambles in order to cause unlocks in following devices without that their PLLs drift apart In this way precise unlock times can be generated USB analog audio power sync Ethernet and ECL are all individually and galvanically isolated from each other to prevent high current ground loops especially in cars Such ground loops can destroy the VN2640 the notebook and the ECUs if the VN2640 and the notebook are supplied at different positions in the car for example The housing of the VN2640 is connected to the USB analog audio potential The device can be used as a timing master timing slave as a static master or in bypass operation Parallel to each of these modes all control messages asynchronous data and Ethernet packets can be recorded online via a suitable application e g CANoe without influencing the MOST bus using the spy function In static master mode a frame frequency of 44 1 kHz or 48 kHz can be set When the device is a visible node in static master or slave mode in the MOST network up to 800 control messages per second can be received and transmitted depending on the driver version The bandwidth is limited by the OS81110 INIC Asynchronous data and Ethernet packets can only be transmitted in static master and s
25. ght LSB MRAOx4A CUV MRAOx4B MSB MRT0x44 CSB MRTOx45 Left LSB MRTOx46 CUV MRTOx47 S PDIF OUT MSB MRTOx48 CSB MRTOx49 Right LSB MRTOx4A CUV MRTOx4B Abbreviations MSB Most Significant Byte CSB Center Significant Byte LSB Least Significant Byte CUV S PDIF Channel Status Data User Data Validity Vector Informatik GmbH Version 1 5 20 Manual VN2600 Interface Family Firmware Used address range Description Address in routing engine reserved for firmware MRTOx4C reserved for firmware reserved for firmware MRTOx7F 2 2 5 LEDs Device state The VN2610 has five LEDs that indicate the state of the device LED Color State Meaning Lock Green OFF Device is not synchronized to the master s clock Lock Green ON Device is synchronized with the master Master Yellow OFF Device is either slave or bypass Master Yellow ON Device is configured as master Slave Yellow OFF Device is either master or bypass Slave Yellow ON Device is configured as slave Rx Tx Green OFF No packets or messages transmitted Rx Tx Red Packet or message received Rx Rx Tx Green Packet or message transmitted Tx Rx Tx Orange Packet or message received and transmitted Power Green OFF Device is not ready for operation Power Green Device is initializing Power Green ON Device is ready for operation Legend Pulse blinking
26. he 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 Vector Informatik GmbH Version 1 5 8 Manual 2 VN2600 Interface Family In this chapter you find the following information 2 1 Introduction to VN2600 Family General Information Scope of Delivery Installation Device Connectors Rear Device Connectors Front 2 2 VN2610 Main Features Description Details Audio LEDs Technical Data 2 3 VN2640 Main Features Description Details Audio LEDs Technical Data Vector Informatik GmbH Version 1 5 VN2600 Interface Family page 10 page 17 page 23 Manual VN2600 Interface Family 2 1 Introduction to VN2600 Family 2 1 1 General Information VN2600 MOST The devices of the VN2600 MOST Family are high performance hardware interfaces Interface Family for the analysis simulation and testing of MOST networks Even at large quantities of data several devices can be used simultaneously with short reaction times which is especially advantageous for the analysis of ring position dep
27. iii with accessories manufactured or approved by Vector N 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 iii 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 for 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 interfa
28. iled and unlocking would reset the problem To set the INIC power up reference frequency to either 44 1 kHz or 48 kHz a switch inside the VN2640 can be used factory setting 48 kHz To change the setting the device must be opened This setting can be overridden by the application Switch for E E OO a a 1 Switch 441 RE ri 48 kHz Figure 12 Switching the reference frequency Node and The VN2640 supports the simultaneous operation of the node mode static master Vector Informatik GmbH Version 1 5 23 Manual spy position Example 2 3 3 Details 0S81110 Spy Unlock Galvanic isolation Modes and functions Amount of control messages Packet length VN2600 Interface Family or slave and the spy mode for all messages and packets transmitted on the MOST bus The spy follows the transmitting node of the VN2640 Node B Node A Node C VN2640 L 2 ld S Nod Hits Figure 13 Example for spy node application The used MOST network controller is an OS81110 INIC which guarantees full compatibility to existing MOST150 systems The OS81110 is connected to a low power FPGA via a Vector proprietary MediaLB IP core with the maximum possible bandwidth of 400 Mbps 8192 Fs The firmware of the OS81110 INIC is automatically updated by the driver The Vector proprietary Spy150 IP core in the FPGA decodes and extracts all bits and byt
29. ing devices Start Drivers Common FRLoop exe from the driver CD Execute the test If no error messages occur the operating test was successful FRLoop vector Net config TxAckofs TxAckofs Ray VN3x00 FlexRay Interface accepted by driver Activate channel command Node switched to normal Coldstart CC sync frame received ync frame received TxAck of cyclic frame received ingleshot frame received Doing data consistency checks Deactivate channel command Test completed successfully VN7600 Channel 2 VN7600 Channel 3 VN7600 Channel 4 VN1610 Channel 1 MACAN Channel 2 Options I Create Log file Hardware Information FPGA 7 05 020 IHW Type VN7600 Channel 1 Firmware 7 05 20 Bootcode 3 00 12 Hardware 0x1000000 Serialnumber 558 Driver Version 7 05 20 CapChannel Index 6 FRpiggy 1080mag CapChannel0 1 CapChannel02 Measurement Version 1 5 46 Manual 5 5 3 MOST Driver Installation Device test The operating test for MOST can be executed with the following devices gt gt VN2610 VN2640 MLoop exe This functional test requires a MOST fiber optic cable and a fiber coupler for HFBR connectors Vector Informatik GmbH VN2610 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 lis
30. ity It is possible to synchronize the S PDIF output to the S PDIF input to avoid synchronization errors in special cases Synchronization errors occur when neither the S PDIF source nor the S PDIF drain or both at the same time synchronize to their inputs For the following standard cases the synchronization is automatically set In other cases the activation and deactivation of synchronization respectively is done by the user in the application SRC off Figure 9 Left audio analysis as MOST slave right the audio stimulation as MOST slave with not synchronized source Vector Informatik GmbH Version 1 5 18 Manual Audio analysis and audio stimulation as MOST master Audio stimulation as MOST master with clock from S PDIF Legend Analog by line in and line out Routing engine OS8104 A VN2600 Interface Family SRC off Figure 10 Left audio analysis as MOST master 44 1 kHz 48 kHz right audio stimulation as MOST master with fixed frame rate 44 1 kHz 48 kHz and not synchronized source SRC off SIPDIF device Figure 11 Audio stimulation as MOST master with S PDIF clock m Clock Clock source Data Data source Analog signals fed through the line in are first digitalized and can be routed via the routing engine of the OS8104 on the MOST bus then Digital audio signals from MOST can also be converted into analog audio signals with adjustable volume provi
31. ket or message received Rx Rx Tx Green Packet or message transmitted Tx Rx Tx Orange Packet or message received and transmitted Power Green OFF Device is not ready for operation Power Green Device is initializing Power Green ON Device is ready for operation Pulse blinking In bypass mode neither the master nor the slave LED illuminates Vector Informatik GmbH Version 1 5 25 Manual 2 3 6 Technical Data MOST network controller Number of MOST channels Operating modes Spy for Control und asynchronous channel Control messages master slave Control messages spy Asynchronous data and Ethernet packets master slave Asynchronous data and Ethernet packets spy Synchronous channels Line in connector Line out headphone connector S PDIF In Connector MOST connector Master frame rates PC interface Temperature range Relative humidity of ambient air Software requirements Dimensions LxWxH Power supply Port isolation Time stamp accuracy Line in impedance Line in voltage Vector Informatik GmbH Version 1 5 VN2600 Interface Family OS81110 INIC150 1 Master static master slave spy bypass Can also be activated separately parallel to other modes at any time Up to 800 s limited by INIC depending on the driver version Full bandwidth receivable Packet length up to 1524 1506 payload bytes Up to 24000 packe
32. lave mode Receiving is also possible in bypass mode which always provides Vector Informatik GmbH Version 1 5 24 Manual 2 3 4 Audio Analog by line in and line out 2 3 5 LEDs Device state Legend VN2600 Interface Family all packets to the application that are transmitted on the ring Transmission and reception are supported with packet lengths up to 1524 bytes payload for MOST Data Packets MDP and up to 1506 bytes payload for MOST Ethernet Packets MEP ata maximum bandwidth limited by USB INIC Analog signals fed through the line in are first digitalized and can be routed via connection labels of the OS81110 INIC to the MOST ring Digital audio signals from MOST can also be converted into analog audio signals with adjustable volume provided on the line out connector With the built in amplifier it is also possible to operate headphones 16 Q 150 mW on the line out Digital line in and line out signals have a 2 x 16 bit resolution The VN2640 has five LEDs that indicate the state of the device LED Color State Meaning Lock Green OFF Device is not synchronized to the master s clock Lock Green ON Device is synchronized with the master Master Yellow OFF Device is either slave or bypass Master Yellow ON Device is configured as master Slave Yellow OFF Device is either master or bypass Slave Yellow ON Device is configured as slave Rx Tx Green OFF No packets or messages transmitted Rx Tx Red Pac
33. mbH Pentium 4 or higher 512 MB or more CANcardXL CANcardXLe CANboardXL PCI CANboardXL PCle CANboardXL pxi CANcaseXL CANcaseXL log VN1610 VN1611 VN1630A VN1640A VN2610 VN2640 VN3300 VN3600 VN5610 VN7570 VN7572 VN7600 VN7610 VN8910A VN8912 Windows 7 32 64 bit Windows 8 1 32 64 bit 8 x Driver Installation PCMCIA ExpressCard 54 PCI PCI Express x1 Compact PCI PXI USB USB USB USB USB USB USB USB PCI USB USB PCI Express x1 PCI Express x1 USB USB USB USB 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 Version 1 5 37 Manual Driver Installation 5 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
34. n ESD 4 kV Current limiting 40 MA polyfuse High level 0 6 Vbat 30 V ATA6664 Low level OV 0 4 Vbat ATA6664 GND pin 3 Reference to Vbat and ECL signal Vector Informatik GmbH Version 1 5 27 Manual VN2600 Accessories 3 VN2600 Accessories In this chapter you find the following information 3 1 Accessories page 29 Vector Informatik GmbH Version 1 5 28 Manual VN2600 Accessories 3 1 Accessories ia Reference Further information on the available accessories can be found in the separate accessories manual on the driver CD in Documentation Accessories Vector Informatik GmbH Version 1 5 29 Manual Common Features 4 Common Features In this chapter you find the following information 4 1 Time Synchronization page 31 General Information Software Sync Hardware Sync Vector Informatik GmbH Version 1 5 30 Manual Common Features 4 1 Time Synchronization 4 1 1 General Information Time stamps are useful when analyzing incoming or outgoing data or event Time stamps sequences on a specific bus and events AEGEZA Ru alle 5 Time Chn ID Name Dir DLC Data 0 100376 2 100 Rx 8 23 19 05 47 79 34 52 82 0 100378 1 100 Tx 8 23 19 05 47 79 34 52 82 0 200382 2 100 Rx 8 03 04 06 95 06 07 56 74 0 200384 1 100 Tx 8 0304069506 07 56 74 0 300372 1 102 Rx 8 7402 31 73 94 12 04 93 0 300374 2 102 Tx 8 7402 31 73 94 12 04 93 0 400406 2 100 Rx 8 23 19 05 47 79
35. n be executed with the following devices CANcardXL CANcardXLe CANcaseXL CANcaseXL log CANboardXL Family VN1610 VN1630A VN1640A VN5610 VN7570 VN7572 VN7600 VN8910A VN8912 vvv VV V VV VV VV VU Loop3 exe Either two High Speed or two Low Speed transceivers are necessary for this functional test 1 Connect two CAN channels with a suitable cable If two High Speed transceivers s 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 1 5 43 Manual Loop3 application Vector Informatik GmbH Driver Installation Settings Selected channels _ F Reg statistics IT Stress priority Time limit sl ted 1st CANcardxLe Channel 3 I Wite logs DD 1st CANcardXLe Channel 4 F Timer events Burst size DD 1st CANcaseXL log Channel 1 16 a ra haere 1 000 00084 Save statistic E 1st VN1610 Channel 2 Random ids _Dump events Click Start You will see statistical data in the lower part of the window if the system has been configured properly
36. not sufficient Vector Informatik GmbH Version 1 5 13 Manual VN2600 Interface Family 2 1 5 Device Connectors Front Front Figure 3 Optic fiber ECL only VN2640 and analog audio input output 2 1 5 1 MOST Optic fiber Example Alternative il Optical transmitter power In order to incorporate the VN26xx into an existing MOST network the fiber optic cable of the MOST ring must be cut through between two nodes and the HFBR connectors attached not included in the scope of delivery Then the Vector MOST fiber optic cable has to be connected with the VN26xx using the included coupling pieces see accessories manual and the fiber optic cable of the MOST network A _ Node A Node C Node A Node C Node A Node C NA 4x HFBR4531 2x HFBR4505 MOST Fibe Optic Cable Figure 4 Example of a connection The signal direction and the correct connection of light output and light input respectively must be heeded here The fibers of the MOST fiber optic cable are marked for easier identification see accessories manual Alternatively the MOST 2 0 connector can be connected with a custom fiber optic cable Note For the function test loop test described in the installation instructions the Rx and Tx fibers of the MOST fiber optic cable must be connected to each other using a coupler The power of the optical tr
37. ose the automatic driver search in the Hardware Wizard after the device has been connected to the PC Device Installed diver Driver in installation packet XL Interface Family v CANcardXL not installed 8 7 16 V CANcardXLe not installed 7 9 30 CANcaseXL CANcaseXL log not installed 8 7 16 CANboardXL PCle PXI 7 4 14 8 7 16 CAN LIN Interface Family W VN1610 VN1611 VN1630 VN1640 notinstalled 8 1 36 FlexRay Interface Family iv VN3300 not installed 8 2 26 MW VN3600 VN7600 not installed 8 2 26 vV VN7570 not installed 8 3 26 MOST Interface Family V VN2600 VN2610 not installed 7 5 18 Vi VN2640 not installed 8 4 28 VN8900 Interface Family vl VN8910 VN8912 USB 8 8 16 8 8 16 v Update drivers on the device VN8910 VN8912 Ethemet 8 4 20 8 4 20 Ethernet Interface Family Vi VNS610 not installed 8 5 36 Miscellaneous Vi Vector Keyman License Dongle not installed 4 50 906 Vector USB Dongle License Dongle 5 95 17162 5 95 17162 V Select deselect all devices Remove all driver components 4 Click Install to execute the driver installation or Uninstall to remove existing drivers 5 Aconfirmation 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 Vector Informatik GmbH Version 1 5 40 Manual Driver Installation 5
38. t of detected devices Click Twinkle and check if the power LED of the VN2610 VN2640 is blinking at least for one second 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 Connect both ends of the fiber with one fiber coupler to a ring and check if the program displays the status Lock Close MLoop exe with Exit Version 1 5 47 Manual Driver Installation 5 5 4 Ethernet Device test The operating test for Ethernet can be executed with the following devices gt VN5610 1 Connect both Ethernet channels of the VN5610 with an Ethernet cable CE 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 cs 5610 1 123456 Start Test RJ45 IEEE Auto Negotiation 100 MBit oo p p RJ45 IEEE Auto Negotiation 1000 MBit DSUB BroadR Reach 100 MBit CE Vector Informatik GmbH Version 1 5 48 Get more Information Visit our Website for gt News gt Products gt Demo Software gt Support gt Training
39. the time stamps to a common time base master clock which is defined by the application CANalyzer CANoe synchronization fuse by hardware Stop fuse x sec sec LI Vector 0 000000 0 000000 Vector 1 100375 1 100376 CAN Interface 1 200381 Y 1 200382 FR Interface 2 300371 32 300372 ai 2 400405 gt 2 400406 CH1 CH2 3 500592 3 500593 CHA X CHB Time Stamp Clock 3 600241 3 600242 Time Stamp Master Clock Figure 21 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 I 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 1 5 35 Manual Driver Installation 5 Driver Installation In this chapter you find the following information 5 1 Minimum Requirements page 37 5 2 Hints page 38 5 3 Vector Driver Setup page 39 5 4 Vector Hardware Configuration page 41 5 5 Loop Tests page 43 CAN FlexRay MOST Ethernet Vector Informatik GmbH Version 1 5 36 Manual 5 1 Minimum Requirements Hardware CPU Memory Network interface Software Operating system Vector Driver version Measurement application Informatik G
40. ts s limited by INIC Tx and or Rx depending on the driver version Full bandwidth receivable limited by USB 1x Line In 1x Line Out Headphone 1x S PDIF optical IN 1x S PDIF optical OUT 2x sample rate converter for S PDIF 3 5 mm stereo jack 3 5 mm stereo jack Toslink optical 16 bit stereo Standard MOST 2 0 Full Physical Compliant AFBR 1150L AFBR 2150L Infineon Fs 44 1 and 48 kHz USB2 0 Highspeed USB1 1 not supported Ethernet currently not supported 1 40 60 C 1 40 85 C 15 90 non condensing Windows 7 32 bit 64 bit Windows 8 1 32 bit 64 bit Approx 140 x 105 x 32 mm Externally not by USB Startup 7 V 50 V approx 7 W Operation 5 V 50 V approx 7 W USB analog audio connected to housing Power sync Ethernet and ECL are on separately isolated isles Operation Storage 1 us with hardware synchronization 11 2 KQ Max 1000 mVp 26 Manual VN2600 Interface Family Line out voltage Max 447 mVpp Line out power 6 W 16 Ohm Weight 0 36 kg Ethernet 10 100 Base TX with Auto MDIX crossing det support no device control possible ECL connector Vbat pin 1 0 V 30 V to GND Voltage protection ESD 4 kV Current limiting 40 MA polyfuse ECL signal pin 2 Transceiver ATA6664 Pull up resistor 60 KOhm permanent optional 1 1 kOhm in parallel to Vbat Voltage protectio
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