JAI TS-2030EN, TS-9720EN, TS-1327EN manual Appendix G Ethernet Requirements

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VIS-CAM System

11 Appendix G: Ethernet Requirements.

The Ethernet media is the key component for data transmission in the VIS-300/400 system.

In order to ensure a smooth running system, install the Ethernet infrastructure with the following considerations in mind:

•Physical cabling - minimum Cat 5E is recommended – in larger systems, Cat 6 or fiber optic cables are recommended for backbones with high traffic loads. It is strongly recommended, that the quality of the installed Ethernet cabling is verified with a suitable network tester (certifier) such as Fluke Optiview, Fluke Etherscope, Lantek 6 or similar.

•Network speed – The minimum speed required is 100 Mbit – though 1000 Mbit (1Gbit) is the optimal speed and ensures sufficient bandwidth in most applications. In general, assessment of network speed is an important issue, and should have been taken into consideration in the design phase. The transmission speed on a local gantry with (for example) 4 EN-Camera units, could very well be based on a 100 Mbit network topology which then is linked externally with a 1 Gbit FO (Fiber Optic) uplink to the server location – see Figure 96

Figure 96. Network cabling example:

•The actual traffic load that the individual cameras inflict on the network depends heavily on the cameras current run mode – in a normal operable system, the cameras run in asynchronous mode, which means that the cameras only grab images when triggered. Converted to network load, asynchronous image triggering with a rate of 3600 incidents per hour (a car per second) will typically inflict a 3-4% load per camera on a 100 Mbit network. If the same camera is set to synchronous mode, which is the mode typically used during alignment and diagnostics procedures, the camera grabs the images with a speed of approximately 10 images per second (measured on a 1.4 Ghz Intel Centrino based laptop) – the load will now rise to around 30% per camera. Even the drastic increase in network load when using synchronous mode, will normally not be a problem, since the mode is only applied to the cameras of interest.

Throughput per lane: Four (4) vehicles per second for a five (5) second burst rate – not indefinitely sustainable. One vehicle per second sustainable indefinitely.

Appendix G: Ethernet Requirements

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Contents VIS-CAM System Page Disclaimer WarrantyCertifications VIS-CAM SystemMailtrafficsales.americas@jai.com Trafficsales.emea@jai.com Table of Contents Connector signal specifications Connector physical Interface Table of Contents Vii VIS-CAM System Viii Table of Contents List of Figures List of FiguresStandard configuration of Serial settings for port List of Tables List of TablesVIS-CAM System Xii List of Tables Introduction IntroductionDocument Overview Product overviewTraffic Light Sensor TLS300 Preparing for InstallationSystem Components description Viscam Back shot VIS installationOperational Overview Over Lane Positioning Preparing for installationInstallation Preparation Camera height versus trigger distance considerations Camera tilt considerationsAsynchronous triggering considerations VIS-CAM System VIS 300 U.S. Camera options chart VIS 350 U.S. Camera options chart VIS 400 U.S. Camera options chart VIS 300 European Camera options chart VIS 350 European Camera options chart VIS 400 European Camera options chart Typical side of road installation Side of Road InstallationFlash and camera distances VIS-CAM System Preparing for Installation To install the Traffic Light Sensor Installing the Vehicle Imaging SystemInstalling the TNF-300 Traffic Light Sensor Installing the Vehicle Imaging SubsystemLight Sensor Cables Wire color SignalMounting pipe and flange Optional Side Mount Installing the CamerasCamera mount template X4 Pin # Wire Color Signal Remarks Electrical wiring for the VIS CAM installationProperly wired X-4 connector VIS CAM connections to the J-Panel VIS-CAM System Installing the J-PanelX1, X2 Pin # Wire Color Signal Remarks 1 X1 and X2 VIS CAM 300/400X7 Pin TLS 300 to J-Panel connectionsX6 Pin # Signal Description Connection to Power input to the J-PanelX8 to converter connector 6 Power input connection 4 X8 LS RS485 Out ConnectorTrigger polarity 5 X14 Trigger Input ConnectorTrigger input connector X14 Pin # Signal Description Connection toTest Trigger X15 Pin # Signal Description Connection toX15 Lane Controller Arrow down negative goingIllumination Options Installing the TNF-31 FlashPin Signal Description Connection to Optimal Illumination Distance Between Camera and TNF Installing The Laser Vehicle DetectorTrigger Options X7 Pin # Signal Description Connection to Connection for LVD to VIS CAM Wiring for LVD to VIS CAMVIS-CAM System Installing the Vehicle Imaging Subsystem System Set-Up Pre-Alignment ChecklistSystem Set-Up Preparation for AlignmentSelect the Camera to Align Validate the Installation GeometryEdit the alignment settings on the Setup Computer Typical minimum plate heights and nominal plate heightsExample of a network connection using a local switch Connect the Setup Computer to the CameraProperly Position the License Plate Stand Drive and Park the Setup Vehicle CorrectlyPerform Initial Lens Adjustment and Camera Aiming Initial Camera Alignment Display example Roll Bar Display example Perform Final Camera Mount and Lens Adjustments Finalize Lens Adjustments and Camera AimingFocus Bar marker display Focus Bar Waveform display Flash Head Alignment Focus Bar Waveform Display with waveform cursorsOptimal Illumination Distance Between Camera and TNF VIS-CAM System System Set-Up Appendix a Camera Functional & Connector Description Appendix a Camera Functional and Connector DescriptionComponent layout of the EN board VIS-CAM System I/O Board LayoutVIS-CAM System X4 I/O Board Connection to J-panel Connector specificationConnector signal specifications Signal levelsTrigger input Description Electrical interface on the I/O boardEthernet Interface Connector physical Interface . Physical interface tablePower input Connection to Pin Signal Description Panel RemarksI/O Board Flash Connection Typical wiring diagramDescription Output signal specificationExternal power requirement Connection DC Flash to an internally powered board VIS-CAM System Test IO board electrical interfacePhysical interface pinouts Connector physical InterfaceConnecting the second AC flash X7I/O Board Laser Vehicle Detector Connection VIS-CAM System Night Light TNC 100 ConnectionCommunication Power OutputTrigger Input Connector physical Interface Connector table X1, X3 I/O Board Ethernet Test ConnectorsPin Signal Description Connection to Remarks Test setupVIS-CAM System Cables VIS-CAM System X15 I/O Board Auxiliary power connectorCable Specifications RS485 and powerMounting the cables Combined cable Ethernet, RS485 and powerRecommended Cables Page X1 J-panel connection to Camera Appendix B J-Panel Functional and Connector DescriptionAppendix B J-Panel Functional & Connector Description Panel LayoutElectrical interface on the J-Panel Signal parameters and conditionsTrigger output Description Pin Signal Description Connection to Remarks Board Connector physical Interface Physical interface tableSwitch labels IndicatorsLED indicators SwitchesBoard and camera J-panel connection to camera Functionality VIS-CAM System X2 J-panel connection to CameraSignal table Category 5 or 6 ethernet wiring diagram Connector physical Interface Ethernet physical connectionsX3 Light Sensor Connection Connector switchesDatabus D0 and D1 X4 Lane Controller Signal to J-Panel #2Connector physical Interface Physical interface connections LED physical indicatorsDatasignal X5 Lane Controller Signal from J-Panel #1Physical pin connections J-panel #1 X6, X7 24V DC PowerData signal Principle in the power distribution Connector specification X11 Ethernet Interface from Camera Connector physical Interface RS485 physical connections10 X12 Ethernet Interface from Camera Connector physical Interface Physical connector descriptionExternal Trigger connection Functionality 11 X14 External TriggerTrigger 1 Electrical interface on the J-Panel Trigger 0 Electrical interface on the J-PanelTwo Lane Controllers 12 X15 Lane Controller interface 6.12.1 FunctionalityCommon Lane Controller Connecting Lane Controller RS485 signal between J-Panels Connector physical Interface Wago physical interfaceAppendix C Two Cameras, One-Flash Configuration Appendix C Two Cameras, One Flash ConfigurationMaster to slave connections Master Flash Connector Slave Laser ConnectorAppendix D Pluggable Terminal Blocks Appendix D Pluggable Terminal BlocksVIS-CAM System Appendix D Pluggable Terminal Blocks Basic Settings Appendix E Moxa N-Port 5232 ConfigurationAppendix E Moxa N Port 5232 Configuration Network Settings Standard configuration of Network SettingsSerial port 1 settings Standard configuration of Serial settings for portConfiguration overview of serial port 1 Data Packing Operating settings portTCP Server Mode VIS-CAM System Appendix F Multiple Moxa N port Configuration Diagram Appendix F Multiple Moxa N-port Configuration DiagramPage Appendix G Ethernet Requirements Appendix G Ethernet RequirementsPage Fault Symptom Check/Possible Reason Appendix H TroubleshootingAppendix H Troubleshooting VIS-CAM System Appendix H Troubleshooting VIS-CAM System Europe, Middle East & Africa