JAI TS-1327EN Security Camera User Manual
Contents
1. 36 Finalize Lens Adjustments and Camera Aiming 39 Flash Head Alignrment sierra re eere eter ET rue tea e ety PINO EPA e Rev bn 42 Appendix A Camera Functional and Connector 45 1 0 Board Eyes m MM 46 I O Board Connection to J panel ccc eee e cece ence eee e eee nennen nennen 47 iler R 47 5 2 2 Connector specificatiOn s cocos eorr renoier e nex PER Ee ee NE E Ro ARE TUER EE 47 Table of Contents V VIS CAM System 5 2 3 Connector signal eee enne ee enne 47 5 2 4 Electrical interface on the 1 0 48 5 2 5 Connector physical Interface cccscscncensesncccsceccesceeeneesasesscescesaceeaessneneess 49 5 2 6 Typical wirine diagram ot nexa E sus UE 50 5 3 Board Flash Connections exeo eben nr hen ERR RR ord EE ORO ERE Cos 50 5 3 1 Futrictionalily eres pe eere ree e EPI ON e p Pss e es Oe AE 50 5 3 2 Connector specification iocis eese eher nennen kehrte n rete PAR GI RR FOREVER2. 59 adis m 59 5 6 2 Connector specification iiec esee ree Ka NER FEE RES ERE TA EERESU EE ages 59 5 6 3 Connector signal 5 59 5 6 4 Connector physical Interface cccccscccensesccccsceccceceeeneeseseeseecceseeeeaesssenenes 60 5 6 5 Testsetup gt ee eerte trt ________ _ ____ _ TRAN TREES 60 5 6 6 Test setup 2 I IRR EEERERRERARERR IR RES S REESE DRE SAX REPE ERES be 61 5 7 X15 1 0 Board Auxiliary power connector eesseessesseeseee nee eene eene 62 MM seii 62 5 7 2 Connector physical Interface sssssssssessssssosoosssosoossosesoessessssssessessessessseseo 62 5 8 SEI ide EER Nene 62 58 1 Cable Specifications eerte retener eine AREE 62 5 8 2 Recommended hah hex er ENEE RR EF e Sao ERE ERE 63 5 8 3 MOUNTING the cables oues cese tree torn hme tho REESE TEX TER AEVO 63 6 Appendix B J Panel Functional and Connector Description 65 6 1 SE uIINE Vo gp m 65 6 2 X1 J panel connection to Camera 0 ssssssssssssssssssssssssssesessessessesssso
3. Pin Signal Description J Panel X1 Remarks or X2 1 Ethernet Ethernet signal to gigabit switch pin 1 Cat5e 6 cable white orange 2 Ethernet A Ethernet signal to gigabit switch Pin 2 Cat5e 6 cable orange 3 Ethernet B Ethernet signal to gigabit switch Pin 3 Cat5e 6 cable white green 4 Ethernet B Ethernet signal to gigabit switch Pin 4 Cat5e 6 cable green 5 Ethernet C Ethernet signal to gigabit switch Pin 5 eae RU ns 6 Ethernet C Ethernet signal to gigabit switch Pin 6 c IRE AM 7 Ethernet Ethernet signal to gigabit switch Pin 7 a 8 Ethernet D Ethernet signal to gigabit switch Pin 8 A 9 Gnd Power ground Pin 9 Black wire in Red Black pair 10 24V dc Supply voltage Pin 10 Red wire in Red Black pair 11 Vinit Balanced trigger pulse positive Pin 11 White wire in Brown White pair 12 Vinit Balance tripper pulse negative Pin 12 Brown wire in Brown White pair 13 RS485D RS485 Data for Lane Controller Pin 13 White wire in Red White pair 14 RS485D RS485 Data for Lane Controller Pin 14 Red wire in Red White pair 15 RS485D RS485 Data for Lane Controller Pin 15 White wire in Orange White pair 16 RS485D RS485 Data for Lane Controller Pin 16 Orange wire in Orange White pair Appendix A Camera Functional amp Connector Description 49 VIS CAM System 50 5 2 6 Typical wiring diagram Figure 43 Category 5 or 6 wiring diagram X1 or X2
4. hne ehe 78 X12 Ethernet Interface from Camera 1 78 dunes 2 78 Connector specification eee ote rri nto rh een nni e o ete a LEER RE CENE xen ER ba 78 Connector signal 79 Connector physical Interface 79 X14 External Trigger IS SR T E SE 79 PUNCTIONALILY er 79 Connector specificatiornu voee sees PRESE EEEAEPRRAI CREE ERR 80 Connector signal specifications ccccccccccscccsscccceccceencesceessesecscccecaesaesenes 80 Connector physical Interface 81 X15 Lane Controller interface 6 81 FUNCTIONALITY ERE PE RS E ONE PC RE DANS VERE Ve OR DF FCR S 81 Connector specification eee eee cove dave ete ve CE sees seve n Ea n dan 81 Connector signal 81 Connector physical Interface nE i KESER EER 82 Connecting L
5. Pin Signal Description Connection to Remarks 1 A wh org Ethernet Gigabit switch Connected when testing 2 org Ethernet A Gigabit switch Connected when testing 3 wht grn Ethernet Gigabit switch Connected when testing 4 Nu wht blu Not used 5 Nu blu Not used 6 B grn Ethernet B Gigabit switch Connected when testing 7 Nu wht brn Not used 8 Nu brn Not used 5 6 5 Test setup 1 The test setup for communication with the EN Camera and the network is shown in Figure 60 The patch cables can be twisted or not twisted Figure 60 EN network test configuration setup I O Board 34 and 55 are not used with EN9720 Camera PC with EN Camera Test Application EN Setup 100Mb ethernet switch The test setup does not work properly with a gigabit ethernet switch 60 Appendix A Camera Functional amp Connector Description VIS CAM System Ey See the possibilities The following 100Mb Ethernet switch has been tested successfully Phoenix Contact type FL Switch SF 8TX Inc no 2900 00 255 5 6 6 Test setup 2 The test setup for communication only with the EN Camera is shown in Figure 61 The patch cable must be twisted The patch cable to the PC is plugged into connector X3 A dummy cable or plug is plugged into connector X1 Figure 61 Test setup 2 I O Board 84 and 85 are notused with EN9720 C amera Tw
6. fa 1 106 gare J panel Lz p ttm L6 g RT Ls s t fis p acit tithe ace Three wires are connected from the flash connector on the IO Board of the Master camera to the laser LVD connector on the IO Board of the Slave camera Appendix C Two Cameras One Flash Configuration 83 VIS CAM System Table 35 Master to slave connections Master Flash Connector X5 Slave Laser Connector X7 Pin 2 Pin 2 Pin 3 Pin 3 Pin 5 Pin 1 e Junction Panel trigger polarity switch in position positive going edge e Master camera flash must be set to auto in Properties section of ENSetup software e Slave camera flash must be set to light sensor control in properties section of ENSetup software 84 Appendix C Two Cameras One Flash Configuration VIS CAM System EU See the possibilities 8 Appendix D Pluggable Terminal Blocks The connectors on the VIS CAM 300 IO Board and J Panel are pluggable terminal blocks with pin spacing of 3 81 mm 0 15 inch from WAGO The contacts are spring loaded Figure 86 Terminal block Table 36 Essential specifications for the pluggable terminal block Cross section from mm 0 08 mm Cross section to mm 1 5 mm Cross section from AWG 28 AWG Cross section to AWG 14 AWG Measured voltage EN 250V Measured shock voltage 2 5 kV Po
7. 40 Focus Bar Waveform display eene ehh hene 41 Focus Bar Waveform Display with waveform 42 Connection requirements esee eek eot zr e E ee ced VANE SNe eave REY VETE US 45 Component layout of the EN board cceeceese cece cece ence eee e eee eeeeeee esse eeeeeeeees 46 Board CONNECLIONS 47 ucsintte EoIe De H R R RR 48 Electrical interface dC LER 48 Physical interface table e e Eee e pr e rra pere e ree 49 Category 5 or 6 wiring diagram csseesseesseesseesseesenee ee e ehe eene eene 50 1 2 50 1 0 board electrical interface Test nnn n ae 51 LOCATION UU 51 Connecting DC Flash to a board powered from the Flash power supply 52 Connection DC Flash to an internally powered 52 AC flash unit conriectioh cerea eon RR 53 Second flash conriection EIFE 53 board electrical interface eere eren ehh 54 List of Figures ix VIS CAM System Figure 52 Figure 53 Figure 54 Figure 55 Figure 56 Figure 57 Fig
8. 9 LVD 5485 LTC14B0 58 Appendix A Camera Functional amp Connector Description VIS CAM System EU See the possibilities 5 5 4 Connector physical Interface Table 16 Connector table Pin Signal Description Connection to 1 24 Fused 0 5A Power to laser Laser power input 2 Tnd Power gnd Laser groundd 3 Trigger Trigger from laser Trigger out on laser 4 RS485 Communication interface RS 485 on laser 5 RS485 Communication interface RS 485 on laser 6 Gnd Communication gnd Communication gnd on laser 7 NC No connection 8 NC No connection 5 6 X1 1 0 Board Ethernet Test Connectors Figure 59 Ethernet test connectors X2 EN Camera NET p p xt 24V J Panel 3 5 6 1 Functionality Connection to Ethernet switch for test purposes The connectors have integral switches that disconnect the signal path from the camera to the X2 connector when plugs are inserted and it is therefore important always to insert plugs in both connectors when testing 5 6 2 Connector specification Connector types 8 pole RJ45 with integral switches Connector on board Kinsun ST3009F 880 Cable part Standard RJ45 plug 5 6 3 Connector signal specifications Standard Ethernet signals Appendix A Camera Functional amp Connector Description 59 VIS CAM System 5 6 4 Connector physical Interface Ethernet test connections
9. be moved with the mouse pointer or if the Focus Bar marker is selected using the arrow keys 1 Position the Focus Bar marker directly over the license plate System Set Up 39 VIS CAM System m HPoo v 9 41 Figure 34 Focus Bar marker display Video Window File Edit Capture Om EB EJ ls mmu i FulSize HalfSize QuadSize RollBar TiltLine FocusBar Measuring Box Freeze Snap Live One All Last Settings 10 0 0 100 10 0 0 101 04 07 2005 14 04 33 486 L 10 0 0 101 10 0 0 102 10 0 0 103 Tilt Line Row 2348 RollBarRows 344 Focus 334 Measuring Box 304 400 Width 160 Height 50 2 Adjust the lens zoom ring until the plate width just barely fits in between the short vertical zoom markers on the display 3 Have your assistant tape the lens front focus chart to the stand so that it appears in between the zoom markers Make sure the black and white bars are vertical in the image 4 Carefully adjust the lens focus ring until the focus bar waveform display is maximized in amplitude spread The Focus percentage display shown on the left side of the Focus Bar Waveform window should then be maximized when the picture has got the best focus If necessary readjust the zoom and focus until the width of the plate is just inside the zoom mark
10. ere eere Dh hn dern nes i res e o aer ne ele sed set 3 Typical Over Lane Site 5 Typical Over Lane Site Layout Plan 6 VIS 300 U S Camera options chart 8 VIS 300 European Camera options chart 11 Typical side of road installato 14 Typical side of road installation plan view with no canopy overhead structue 14 Flash and camera distances ee eerie erts kenne arte a FR aa coU e S SEIEREN 15 Install the traffic light sensor cence een eene enhn nennen 17 TLS 300 signal and power cable ccccccccsese essen eenceeeee sees CE KEREN ES ERINE EEST EEE 18 Installing the TLS 300 through the mounting pipe and flange 18 Pipe clamps should be about 6 inches apart on a vertical 19 Camera Bre Ela nana 19 Camera mount template 20 Camera cabling as it appears before electrical installation
11. f gt C Es n m Emo oM MF A 3 3 6 X15 Lane Controller Connector X4 and X5 The Lane Controller connection to the J Panel is connector X15 The connections are listed in Table 8 Table 8 X15 Lane Controller X15 Pin Signal Description Connection to 1 00 RS485 databus DO Lane Controller databus 0 2 DO RS485 databus DO Lane Controller databus 0 3 Gnd gnd gnd 4 01 RS485 databus D1 Lane Controller databus 1 5 D1 RS485 databus D1 Lane Controller databus 1 It is possible to have one Lane Controller connected to several cameras or one Lane Controller to each camera One Lane Controller for two or more cameras 1 The Lane Controller is connected to the X15 pin 1 and 2 no connections to pin 4 and 5 2 Switch S2 position OPEN 3 The Lane Controller can be connected to more J Panels by connecting RJ45 patch cables between connector X4 and connector X5 on the next J Panel and from X4 on the next J Panel to X5 on the third J Panel Switch S2 on the other J Panels must also be in the OPEN position Two Lane Controller to two cameras 1 The Lane Controller for camera 0 is connected to X15 pin 1 and 2 2 The Lane Controller for camera 1 is connected to X15 pin 4 and 5 3 Switch S2 position TERM 4 Do not connect any cables to X4 and X5 Installing the Vehicle Imaging Subsystem VIS CAM System EU See the possibilities Figure 25 Two lane
12. 6 12 5 Connecting Lane Controller RS485 signal between J Panels The Lane Controller RS485 signal is connected from one J Panel to another by connecting RJ45 Patch cables between X4 on the source J Panel to X5 on the receive J Panel The RJ45 connectors have build in switch function to disconnect the termination resistor when the plug is inserted When no plug is inserted into the X4 connector the line is terminated with 120 The Lane Controller is connected to DO on X15 J Panel 1 Figure 84 Lane controller setup Lane C ontroller j penel EN CAM RJ45 Patch C able RJ45 Patch C able j ponel EN CAM J Panel 3 82 Appendix B J Panel Functional amp Connector Description VIS CAM System 7 Appendix C Two Cameras One Flash Configuration aD See the possibilities Figure 7 1 shows how to connect one flash to two VIS CAM 300 cameras The flash output from camera 0 the master camera is connected to the laser trigger input on camera 1 the slave camera The Flash unit is connected to the slave camera The flash output must always be enabled on the master camera The flash output on the slave camera is setup as normal controlled by the values from the light sensor Figure 85 Two camera one flash configuration Master 63 Slave Gprucnix Gi Jm wa cus prs fla pours
13. See the possibilities Installation Manual VIS CAM System Vehicle Imaging Subsystem Documen t Version 10436 Document P N C VIS CAM System See the possibilities Notice The material contained in this manual consists of information that is proprietary to Inc and may only be used by the purchasers of the product JAI Inc makes no warranty for the use of its product and assumes no responsibility for any errors which may appear or for damages resulting from the use of the information contained herein JAI Inc reserves the right to make changes without notice Microsoft Windows XP Windows 2000 Windows 98 Windows NT and Windows Explorer are either registered trademarks or trademarks of Microsoft Corporation in the United States and or other countries Warranty Each JAI product is warranted to be free from defects in material and workmanship under normal intended use and service if installed in accordance with this manual The warranty period is 2 years and begins on the date of shipment from JAI stock This warranty shall not apply to repairs or replacements necessitated by any cause beyond the control of including but not limited to 1 improper installation 2 acts of nature 3 accidents 4 misuse 5 lack of proper maintenance 6 unauthorized repairs or modifications Be advised that you need to obtain an RMA number from JAI before returning units for warranty repair Certifications C
14. or 10 degrees from horizontal but held firmly in place once a specific roll angle is selected The stand should be heavy enough so that the wind will not blow it over or move it Table 12 Typical minimum plate heights and nominal plate heights Plate Height Front of Vehicle Back of Vehicle minimum bottom edge 8in or 20cm 15in or 38cm nominal middle 16in or 40cm 24in or 60cm 4 1 3 Select the Camera to Align e fthe site employs a single camera per lane then you can choose any lane to start the alignment procedure e f the site employs multiple cameras regularly spaced across a roadway to provide continuous fieldof view coverage from edge to edge select one of the cameras at either edge of the roadway to be the first camera to align e Align all remaining cameras in order from the first camera aligned to the last camera at the other side of the roadway The next camera aligned is always the one adjacent to the camera most recently aligned 4 1 4 Validate the Installation Geometry The VIS cameras and vehicle trigger line should have been installed at the locations agreed to by you and Typically utilizes a specially developed Excel worksheet to confirm the suitability of the equipment placement at the site from an image processing perspective See Figure for an example worksheet However equipment is often not located where the worksheet specifies It is therefore imperative that the actual equi
15. 80 Trigger 80 Trigger M 80 Lane controller setup nee ehe ehh ehe 81 Lane controller setup cece enhn hh ehh esset enn 82 Two camera one flash configuration 83 Terminal DlOCK c 85 Standard configuration of Basic 87 Standard configuration of Network Settings cecceeccese cece eee e ence ence 88 Standard configuration of Serial settings for port 1 89 Standard configuration of Serial settings for port 2 90 Configuration overview of serial port 1 2 90 Operation configuration of Serial port 1 cece cece cece cece eee eee eeeeeeeeeeeeeeeeee 91 Operation configuration of Serial port 2 00 ccc eee eee cece cece cece eee eeeeeeeeeeeeeeeeeeeees 92 Configuration overview of operating settings for serial port 1 and 2 92 Moxa configuration example eene enhn enhn hh ern etn rne 93 Network cabling example 95 List of Fi
16. 0 Board must in position NIGHT L away from connector X5 as shown below Installing the Vehicle Imaging Subsystem 29 VIS CAM System Table 10 Optimal Illumination Distance Between Camera and TNF TS 9720EN TSC 9720EN TS 2030EN TSC 2030EN TS 2076EN TSC 2076EN TS 1327EN TSC 1327EN Distance in Feet 3 5 TBD 2 1 TBD TBD TBD TBD Distance measured from outer wall of Camera housing to outer wall of Flash unit Figure 27 S3 switch setting Q5 Nm gt ro a 1 Figure 28 shows how to connect to AC its Flash unit with the 1 0 Board interface electronics internally powered by the 1 0 Board The Flash AC power connection is not shown Figure 28 Connecting an AC flash Flash Unit Flash Power Supply GND GND OUT STAT FPWR 24V Other Flash connection examples are found in Appendix A Camera Functional and Connector Description on page 43 The VIS CAM 300 has an interface for two flashes When this option is selected S3 position FLASH 2 and the other flash is connected to connector X6 the two flashes fire alternately Please refer to Appendix B J Panel Functional and Connector Description on page 67 for details 3 5 Trigger Options 3 5 1 Installing The Laser Vehicle Detector The connection from the Laser Vehicle Detector to the VIS CAM 300 is shown in Figure 29 and Table 10 Installing the Vehicle Imaging Subsystem VIS CAM
17. 1 4 1 MLMMMMMIMIMIiMIiIiIiIiiIii i gt 0 Shoulder u au a 4 Trigger Line 2 1 1 a Camera tilt considerations The requirement to freeze the motion of high speed vehicles limits how steep or shallow the tilt angle of the camera may be For example it is important to prevent the horizon from appearing in the image and thereby allowing the sun to blind the camera For over lane installations a camera tilt between 20 to 30 is recommended with 25 being considered the optimal angle This angle of tilt is the best compromise between minimizing visibility blockages caused by closely spaced vehicles and maximizing plate visibility for plate mounts that are slightly recessed or tilted downwards 2 1 1 b Asynchronous triggering considerations When the VIS is operated in trigger mode a vehicle detector is employed to cause the camera to capture an image at the precise moment the vehicle is in the best position to image both the vehicle and its license plate The delay between the time the vehicle passes the trigger position on the road and when the trigger signal actually reaches the VIS must be kept to a minimum to prevent high speed vehicles from moving out of the area viewed by the camera before the image is snapped 2 1 1 c Camera height versus trigger distance considerations It is cri
18. 50 5 3 3 Connector signal 51 5 3 4 Connector physical Interface he eene eene enne 51 5 3 5 Typical Wiring Diagram eh hh nenne nnn hh hn n ax En RR E n ERR Va FEN ERE Ego 52 5 3 6 X6 I O Board Night Light 2nd Flash Connection 53 5 3 FUNGHOMALILY LT 53 5 3 8 Connector specification i i oec eroe ek rex Fen EE SERRANO ERU ESSEN ERA ERRARE NER ers 54 5 3 9 Connector signal 54 5 3 10 Typical Wiring Diagram c eor ro trot t rr en E exe een Een a E rre 55 5 4 Night Light TNC 100 eme ehe enne 57 5 5 X7 1 O Board Laser Vehicle Detector Connection 57 551 F nctionality icio rea PE SED VERD PVP DIN A 58 5 5 2 Connector SPECIFICATION era Dae oU PERI ERE VERE E FE REFER 58 5 5 3 Connector signal specifications srssssserssresrsrvesssresisreers rrek srer sret ts eene 58 5 5 4 Connector physical Interface ssscssssssessoscsoesosssosoossosesoessessssssessessessesesaseo 59 5 6 X1 1 0 Board Ethernet Test Connectors
19. IN 8 GND4 3 ADJ lt FLASHB POWER C24 10u 1DN LIGHT_oUT FLASH_GNO Test A push button switch S2 can be activated to generate an output pulse for test purposes The light flash 2 output is high as long as the switch is activated The switch is located as shown Figure 51 54 Appendix A Camera Functional amp Connector Description VIS CAM System EU See the possibilities 5 3 9 a Connector physical Interface Table 15 Physical interface pinouts We emi Light Flash Gnd Light control Strobe out Light Strobe status FPWR Light Flash power The Gnd signal on pin 1 is connected to the Gnd signal on X5 pin 2 internally on the board 5 3 10 Typical Wiring Diagram Figure 52 shows how to connect to the 2nd DC Flash unit having the I O Board electronics powered from the Flash Power Supply Figure 52 Wiring a second DC flash from the flash power supply 2 Flash Unit Gnd 24V Flash Power Supply Appendix A Camera Functional amp Connector Description 55 56 VIS CAM System Figure 53 Connecting to a 2nd DC Flash unit with the I O Board electronics internally powered Board X5 Jumper Jumper wire GND QUT STAT FPWR Board X6 Figure 54 shows how to connect to the 2nd AC Flash unit Flash Mains power not shown Figure 54 Connecting the second AC flash Board X5 Jumper
20. System Figure 29 Connection for LVD to VIS CAM 400 _ __ 19IN QA 43571 L aD See the possibilities Z gt lt X7 MIS Table 11 Wiring for LVD to VIS CAM 400 X7 Pin Signal Description Connection to 1 24N Fused 0 5 Power to laser Laser power input 2 Gnd Power gnd Laser ground 3 Trigger Trigger from laser Trigger out on laser 4 RS485 Transmit to laser Receive input on laser 5 5485 Receive from laser Transmit output on laser 6 Gnd Communication Communication gnd on laser 7 nc No connection 8 nc No connection The cable must be shielded and the shield connected to the metal at the cable entry in the camera house The switch S3 and or S5 on the J panel must be in position positive going pushed towards X1 X2 to enable the laser trigger input on the IO Board Installing the Vehicle Imaging Subsystem 31 VIS CAM System 32 Installing the Vehicle Imaging Subsystem VIS CAM System EU See the possibilities 4 System Set Up This section provides a generic procedure for aligning one or more VIS CAM 300 400 cameras and their associated equipment at a site If you received a specific installation manual from JAI for your project then follow those instructions instead of the procedure described here The example installation process described in this section assumes that The cameras are being m
21. TBD TS 2076EN TSC 2030EN TBD TS 2030EN Distance in Feet TS 9720EN TSC 9720EN 2 1 TBD 3 5 Preparing for Installation 15 VIS CAM System 16 Preparing for Installation VIS CAM System EU See the possibilities 3 Installing the Vehicle Imaging System The individual components of the system is electrically linked together as shown in Figure 1 VIS elements on page 2 The VIS CAM 300 400 camera has connections to the J Panel and an optional Flash Night Light and Laser Vehicle Detector The J Panel has connection to two VIS CAM 300 400 cameras one Traffic Light Sensor 24V Power Supply a Lane Controller a RS485 to ethernet converter for the light sensor signals Trigger input an optionally second J Panel and finally a gigabit Ethernet switch 3 1 Installing the TNF 300 Traffic Light Sensor When installing the Traffic Light Sensor ensure the unit is positioned higher than either the camera or the flash unit so the A side is in direct sun whenever the targeted vehicles license plates are See Section 2 1 on page 6 for general site layout guidelines It is extremely important the light sensor be properly positioned at the site The light sensor must be placed so that no shadows from surrounding structures are cast on side A when the license plates being imaged by the VISCAM are in direct sunlight Because sun angles at any given site can change according to time of
22. There are termination resistors on the board See Figure 49 on page 53 for a description of the signal path 6 3 3 b Trigger output Description The trigger output is balanced and the driver is a RS485 transmitter LTC1480 Signal levels The signals are standard RS485 levels The specification below is taken from Linear Technologies datasheet for LTC1480 Appendix B J Panel Functional amp Connector Description 69 VIS CAM System Table 21 Signal table SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS Differential Driver Output Voltage Unloaded lg 0V 3 3 V Vop2 Differential Driver Output Voltage with Load R 270 RS485 e 15 3 3 V R 509 RS422 20 V AVop Change in Magnitude of Driver Differential Output 279 or R 500 e 0 2 V Voltage for Complementary Output States Voc Driver Common Mode Output Voltage 270 500 2 V Receiver Output HIGH Voltage lo 200mV 2 V VoL Receiver Output LOW Voltage lg 200mV 0 4 Electrical interface on the J Panel Figure 68 J electrical interface 3 5V C4 C10 Gb T T 10u 16V 14 22R VINITI VINIT14 RI5 226 LTC1480 6 3 3 c Ethernet Interface 100 Mb Ethernet interface The signals are routed directly to RJ45 connector X12 The cable to the camera must be a Cat 5e or preferably a Cat 6 cable The wire color marking on the PCB
23. YE YR D Yn XE 26 X14 Trigger Input Connector cesse eese ehh ay RR RRRRRERRRUEERE ERREUR NERO 27 X15 Lane Controller Connector X4 and 5 28 Illumination OPNS sesse eren ennt erae ro ERU ERES EE TRE Kee veo ad 29 Installing the TNF 31 o rh SE Ra e rr 29 Tagger OPTIONS A mM 30 Installing The Laser Vehicle Detector 30 System SETUP 33 Preparation for Alignment teer noter etur eher NEN Er E edu 33 Pre Alignment Checklist eee ret ht rra eren E tive npn ER x Cen env ER exe Ex n nna a epa 33 Select a Suitable Vehicle License Plate and Plate Stand for the Setup 34 Select the Camera to ALigri ii iier ceo tn rh rn ER near nennen dene n EIER E nn n aa 34 Validate the Installation Geometry 34 Edit the alignment settings on the Setup Computer 34 Connect the Setup Computer to the 35 Drive and Park the Setup Vehicle Correctly 36 Properly Position the License Plate Stand 36 Perform Initial Lens Adjustment and Camera
24. an anti glare filter a weatherproof housing with sun shield heater resistors interconnection PCB and a pan tilt roll mounting bracket TNF 31 Flash unit or optional TNC 60 permanent illumination VJP 300 EN Junction panel with terminal blocks and RJ 45 connectors and embedded diagnostics Features RS485 to Ethernet Converter System interconnection cables Optional gigabit Ethernet switch Optional 24V DC Power Supply Optional Laser Vehicle Trigger ENSetup Program Installation Documentation Introduction 1 VIS CAM System Figure 1 VIS elements 27 VIS INSTALLATION OVERVIEW PsuLnix Gigabit Ethernet Switch z Uplink 24VDC Power Supply RS 485 to Ethernet converter External Trigger TLS 300 Light Sensor Lane Controller nem P TNF 31 9 Laser Vehicle Detector VISCAM Flash Laser Vehicle Detector VISCAM Optional Trigger 300 350 400 Optional Trigger 300 350 400 1 3 System Components description 1 3 1 Traffic Light Sensor TLS300 The JAI traffic light sensor is the driver of the VIS control network It controls video signal parameters of each camera to ensure high contrast images of passing vehicles and their license plates regardless of vehicle speed weather or ambient light conditions Under the clear plastic dome of the traffic light sensor are mounted in opposing directions two vertical plates and corresponding light collection staffs that
25. 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 95 VIS CAM System See the possibilities 12 Appendix H Troubleshooting Table 37 Troubleshooting table Fault Symptom Check Possible Reason Flash fires only every second time Switch S3 on VIS CAM I O Board is in position Flash 2 and only one flash is installed to the camera Set switch S3 to position NIGHT L Camera s does not trigger trigger the camera Switch S3 and or S5 is set to the wrong trigger polarity Please refer to section 3 3 6 for setting the switches Laser connected to 10 board connector X7 does not Check that switch S3 and or S5 is set to positive going pushed towards X1 X2 connector on the J Panel Appendix H Troubleshooting 97 VIS CAM System 98 Appendix H Troubleshooting VIS CAM System y See the possibilities aD See the possibilities Europe Middle East amp Africa Phone 45 4457 8888 Fax 45 4491 3252 Asia Pacific Phone 81 45 440 0154 Fax 81 45 440 0166 Americas Phone Toll Free 1 800 445 5444 Phone 1 408 383 0301 www jal com See the possibilities
26. at the connector Table 20 Switch labels Switch label 54 TRIG 0 Switch color Push bottom Function Generates a trigger pulse to the camera 53 TRIG POLARITY Slide Selects trigger polarity 68 Appendix B J Panel Functional amp Connector Description VIS CAM System EU See the possibilities 6 3 X2 connection to Camera 1 Figure 67 Board and camera J panel connection to camera 1 1 1 TRIG ETHERNET Hi 55 TRIG 1 POLARITY CAM 1 Eh gt e 1 3S3 o o 12345 678 9 10111 6 3 1 Functionality Power and data connection to the EN camera The 24V power supply for all camera functions Camera I O Board light and heaters Ethernet and RS485 data communication is connected by means of this connector 6 3 2 Connector specification Connector type 16 pole WAGO pluggable terminal block Connector on board WAGO 734 246 Cable part WAGO 734 216 6 3 3 Connector signal specifications 6 3 3 a Lane Controller interface Description RS485 two wire half duplex multi drop communication network The I O Board has connections for daisy chain configuration The two signal pairs RS485D and RS485D can be reversed Signal levels Standard RS485 communication levels Electrical interface on the J Panel The signals are connected to J Panel X15 pin 4 and 5
27. donee re e ___________ ______ 4 Operational Overview ERR CREE saci PEE ERE 4 MOUE 4 Preparing for installation nete 5 Installation Preparation eee aa n yg Y a 5 Over Lane Positioning tm 5 Side of Road Installations eror hr erri htt ere SR E CR sa REP terio 14 Installing the Vehicle Imaging System 17 Installing the TNF 300 Traffic Light Sensor 17 To install the Traffic Light 17 Optional Side ciere bee aeraseeessebsaeneuadeainabersesassatacereechs 19 Installing the Caimera s ROPA DO NE Pu ID ex SS E HR DL 19 Installing the JPanel 5 2 rre ope lea Ros ER P OON ME Dres aa 23 X1 and XZ VIS CAM 300 400 ios oerte denote trainer n hn nnn han tn a a aaa gk ee 23 X3 X7 Traffic Light Sensor s Eye rh nth Len evan ern Rn Fa Uere oe T E a ERES 24 XO Power Input Connector ntn Oven days nep hn E Ya ra tees 25 X8 LS R5485 Qut Connector dx Yn Rye ERES E YAN Reve eR Va
28. expense Disclaimer iii VIS CAM System WARNING Changes or modifications to this unit not expressly approved by the party responsible for FCC compliance could void the user s authority to operate the equipment VIS CAM System Installation Manual JAI Inc 625 River Oaks Parkway San Jose CA 95134 Tel 408 383 0300 Tel 800 445 5444 Fax 408 383 0301 E mail trafficsales americas jai com trafficsales emea jai com www jai com October 30 2008 iv Disclaimer VIS CAM System GD QJ w w w N ww v p No No CJ CJ w w w w w w WOW amp CJ CJ CJ QJ ww EN AAARAAAARAAAAL ee Biba RUNS See the possibilities Table of Contents INCFODUCHION ee 1 Document OVERVIEW 1 Product OVEVICW EM 1 System Components 2 Traffic Light Sensor TLS300 iiie eee eee ern ehh tento ved nona ER Eee 2 VISCAM 3 M OMERMT 4 VJP 300 J riction Panel RREFEARE PER RARE E EE ERE ERE E PERENNE 4 RS485 DEVICE Server icis _____ _ _____ _______ 4 ENSetup Progralm s
29. now properly configured to support lens adjustments and camera aiming 4 1 6 Connect the Setup Computer to the Camera e Position the Setup Computer next to the camera being aligned If the alignment is conducted in bright sunlight shield the monitor screen with a hood to make it visible Make sure that no portion of the computer or cables interfere with the camera s view of the road Connect the Setup Computer s network adapter with the camera network This can be done directly to the 1 0 boards X1 and X3 connectors or using a local Ethernet switch It is preferable to use local Ethernet switch instead of a local direct connection to the 1 0 board A direct connection between the Setup computer and the camera will disconnect the camera from the site LAN and thereby disconnect the light sensor as well Figure 30 Example of a network connection using a local switch The network connection between the Setup computer and the camera can be established using a local switch Two separate ports of the Ethernet Switch are connected directly to the I O board connectors X1 and X3 The Setup computer is then also connected to one of the free ports on the switch If the switch is running on 24V dc the I O board is capable of supplying up to 0 5A on connector X15 located next to X1 and The pin marked with 1 on X15 is 24V System Set Up 35 VIS CAM System 4 1 7 Drive and Park the Setup Vehicle Correctly e Drive the setup veh
30. pair 15 RS485D RS485 Data for Lane Controller Pin 15 White wire in Orange White pair 16 RS485D RS485 Data for Lane Controller Pin 16 Orange wire in Orange White pair 6 3 5 Typical Wiring diagram Figure 69 Category 5 or 6 ethernet wiring diagram X2 WH OG oc WH GN GN WH BU WH BN w gt o e E o N E o 5 or CAT6 cable w o gt o 1 0 Board Appendix B J Panel Functional amp Connector Description aD 71 VIS CAM System 6 3 6 Indicators There are two LED indicators mounted at the connector Table 23 LED indicators LED label LED color Indication Trig 1 Green Indicates generation of trigger pulse to camera Off No trigger pulse LC DATA LED not mounted Power Green 24V present at connector pin 10 red No 24V at connector pin 10 6 3 7 Switches There are two switches located at the connector Table 24 Connector switches Switch label Switch color Function 51 TRIG CAM 1 Push bottom Generates a trigger pulse to the camera S5 TRIG POLARITY Slide Selects trigger polarity 6 4 X3 Light Sensor Connection Figure 70 Light sensor indicator on the board EPower X3 LIGHT SENSOR 4087 42 002 C 6 4 1 Functionality The Light Sensor connector is labelled X3 The DO and D1 RS485 bus is c
31. reversed The signal is terminated on the J Panel Signal levels Standard 65485 communication levels Common mode range 7 to 12V Appendix A Camera Functional amp Connector Description 47 VIS CAM System Electrical interface on the 1 0 board Figure 40 Interface drawing 3 3V RS485 9 021 CDS3CO9GTA RS4854 5 2 3 b Trigger input Description The trigger input is balanced and the input circuit 15 a 5485 receiver Signal levels The signal levels are standard RS485 signals The specification below is taken from Linear Technologies datasheet for LTC1480 The common mode range is 7 to 12V 5 2 4 Electrical interface on the 1 0 board Figure 41 Electrical interface CDS3CDBGTA D17 DCDS3CDBGTA LTC1460 48 Appendix A Camera Functional amp Connector Description VIS CAM System 5 2 4 a Ethernet Interface See the possibilities aD Description 100 Mb Ethernet interface The signal must be connected to a gigabit Ethernet switch for best performance The cable must be a Cat 5e or preferably a Cat 6 cable The wire color marking on the PCB is standard Ethernet wire colors 5 2 4 b Power input Voltage Current Max current Heaters on 24VDC 20 0 3A with heaters and LED light off inrush app 2 5A 1 3A totally 5 2 5 Connector physical Interface Figure 42 Physical interface table Connection to
32. titled Zoom Lens Back Focus Procedure 36 System Set Up VIS CAM System Ey See the possibilities 7 Adjust the lens zoom ring to obtain a plate width approximately equal to the distance between the short vertical sizing marks that appear above the tilt line Readjust focus as necessary See Figure 31 for more information Figure 31 Initial Camera Alignment Display example Video Window File Edit Capture EJ amp FullSize Half Size QuadSize TiltLine FocusBar Measuring Freeze Snap Live One All Last Settings 10 0 0 100 10 0 0 101 04 07 2005 14 04 33 486 W 1000101 W 1000102 W 1000103 Tilt Line Row 349 RollBarRow 242 Bar Row 163 8 Turn on the Roll Bar display on the Setup computer and then roll the camera mount until the horizontal bumper and trunk seams on the vehicle appear perfectly level with the horizontal line of the display Use one 7 16 closed end wrench on the roll gear to fine tune the roll angle Hold the roll position with the wrench while you use a second wrench to gently tighten the other roll bolts Then apply both wrenches to corresponding bolts on opposite sides of the mount Twisting in opposite directions to fully secure all of the roll bolts This approach prevents the roll adjustment from changing while you tighten the bolts See Figure 32 System Set Up 37 VIS CAM System Figure 32 Roll Bar Dis
33. to be captured The light sensor is connected by means of the J Panel VJP 300 and an RS485 to Ethernet converter to the Ethernet switch 1 3 2 The VISCAM uses a state of the art progressive interline transfer CCD that captures all of the vertical resolution at once thereby eliminating field to field imaging delays The use of progressive scanning allows the camera to freeze the motion of a rapidly moving vehicle at high resolution The VISCAM 300 houses a JAI TS 9720EN the VISCAM 350 houses a JAI TS 1327EN and the VISCAM 400 houses the TS 2030EN Ethernet camera with a built in IBM Power PC using an embedded Linux 5 and 64Mb memory for various operations such as frame store JPEG compression vehicle fingerprint extraction license plate find running applications and so on When the TLS 300 Traffic Light Sensor is used to control the VISCAM exposure settings no moving parts such as an auto iris lens are included in the VIS system This helps ensure high reliability for the system A 12 5 mm to 75 mm manual zoom lens is provided as a standard with the VISCAM 300 This allows the VISCAM to be mounted in a wide range of positions while ensuring sufficient resolution on the vehicle license plates A 35 mm fixed focal length lens is provided standard with the VISCAM 400 A zoom lens is also available as an option An anti glare polarizing filter is mounted in front of the lens to reduce smear in the picture caused by sun glint
34. wire GND OUT STAT Board X6 Appendix A Camera Functional amp Connector Description VIS CAM System Ey See the possibilities 5 4 Night Light TNC 100 Connection Figure 55 Connecting to the night light TNC 100 10 BOARD X5 JUMPER WIRE TNC 100 JUMPER 2 7 X WIRE BLACK GND OUT SHIELD STAT 110 277 VAC AC Power Plug Lamp 150W i 5 5 7 1 Board Laser Vehicle Detector Connection Figure 56 Detection board TY ui gt lt 5 lt 9IN QA 435 1 Appendix A Camera Functional amp Connector Description 57 VIS CAM System 5 5 1 Functionality Connection to the Laser Vehicle Detector LVD 5 5 2 Connector specification Connector type 8 pole WAGO pluggable terminal block Connector on board WAGO 734 238 Cable part WAGO 734 208 5 5 3 Connector signal specifications 5 5 3 a Power Output Voltage 24V DC Fuse 0 5A PTC fuse self resetable 5 5 3 b Trigger Input The LVD trigger input is shown in Figure 57 The input specification is Input impedance 10k pull up Signal level 3 3V logic Figure 57 LVD Trigger Input 5 8 LVD TRIG 470 74 1 14 5 5 5 3 c Communication The communication with the Laser Vehicle Detector is RS485 signal levels Figure 58 Electrical interface on the 1 0 board 3 5V LVD RS485 015 9 02
35. 20 Cable final wiring iecore ses ccs es vieslecne s tape EEEE E UE 21 Properly wired X 4 dt esitt ihata eene e hehe thee 22 Back of the video cam ra erre een hen ren e mtr rn hax Ranae no aree Eae e aaa a kr esis 22 15 CONMECHIONS A UEM 24 TES 300 to J Panel wiring iiie oreet eror pete E rer Rae kk E VERF ER FERES EE EE ERA 25 X 6 Power input connection a haee RR nhai ANENE CERE CORE ik 26 Wiring for the X8 to converter connector sseesseeeseeeee eese enne 27 iade EMT 28 Two lane controller use eoo teo teur n aera eR ore Lev eoo a Eee e Rue S Eran ui pa ka dies 29 TNF 31 flash m M 29 30 Connecting AC flashy cs ices eet eti RR eh nee RE OPE UC SE UE 30 Connection for LVD to VIS CAM 400 ehe hehehe enne 31 Example of a network connection using a local switch 35 Initial Camera Alignment Display example 37 Roll Bar Display example 38 Readjustment of camera tilt and zoom display 39 Focus Bar Marker display A
36. 5 Device Server The MOXA RS485 Device Server enables connection of RS485 serial devices to the Ethernet The purpose for the MOXA RS485 Device Server in the VIS system is to convert Ethernet to RS485 communication for the TLS 300 Light Sensor 1 3 6 ENSetup Program The ENSetup Program is an Ethernet based software tool specifically designed to assist the installer with VIS installation and EN Camera configuration and diagnostics The program runs on a standard PC Laptop with Windows XP installed Refer to Section 4 on page 31 of this manual and the VISCAM 300 400 EN Setup Manual for details 1 4 Operational Overview During installation the VISCAM and the optional light source are aimed at the area of the road where vehicles and their license plates are most likely to pass through The Traffic Light Sensor continually registers the ambient light The camera uses this information to set up exposure variables to ensure an optimal image of the vehicle and license plate During transition from day to night the camera enables the optional TNF 31 Flash and or white light LED s to secure adequate image quality during low ambient light conditions 1 4 1 Trigger Mode e vehicle passes by a vehicle detector sending a trigger to the VIS e The VIS employs a trigger to snap a video image of the vehicle and license plate when they are optimally positioned in the camera field of view e optional flash if used fires simultaneously with th
37. 5 or CAT6 cable wH oc WH GN GN WH BU WH BN 2WH 9L SE eL 06 8 L 9 S TH OLSLOLELZTLILOL6 8 4 9 S J Panel 1 O Board 5 3 I O Board Flash Connection Figure 44 Flash connections p 5 als m T p HSV13 s J s o 2 09 gt gt 2 gt lt x b o Q amp L5 5 3 1 Functionality Output to flash unit This output is used when only one flash unit is connected The output is galvanically isolated using an optocoupler The isolated part of the electronics on the board can be powered from the flash unit or from the 1 0 Board using a 24V DC output on the connector 5 3 2 Connector specification Connector type 6 pole WAGO pluggable terminal block Connector on board WAGO 734 236 Cable part WAGO 734 206 Appendix A Camera Functional amp Connector Description VIS CAM System EU See the possibilities 5 3 3 Connector signal specifications Description Logic inverter powered by 5V drives the output The inverter is a HCMOS type 74AHC14 Output signal specification Signal amplitude 5V TTL Output impedance 100 Q Pulse width 5 ms 1 ms Signal polarity active high External power requirement Voltage 8 26V DC Current max 25 Electrical Interface on the I O board Figure 45 1 0 board electrical interface Test A push button switch S1 can be activated for generation of an output pulse for test purposes The fla
38. Cat5e 6 cable white brown 8 Ethernet D Ethernet signal to gigabit switch Pin 8 Cat5e 6 cable brown 9 Gnd Power ground Pin 9 Black wire in Red Black pair 10 24V dc Supply voltage Pin 10 Red wire in Red Black pair 11 Vinit Balanced trigger pulse positive Pin 11 White wire in Brown White pair 12 Vinit Balance tripper pulse negative Pin 12 Brown wire in Brown White pair 13 RS485D RS485 Data for Lane Controller Pin 13 White wire in Red White pair 14 RS485D RS485 Data for Lane Controller Pin 14 Red wire in Red White pair 15 RS485D RS485 Data for Lane Controller Pin 15 White wire in Orange White pair 16 RS485D RS485 Data for Lane Controller Pin 16 Orange wire in Orange White pair Appendix B J Panel Functional amp Connector Description 67 VIS CAM System 6 2 5 Typical Wiring diagram Figure 66 Ethernet wiring diagram 6 2 6 Indicators X1 WH OG WH GN GN WH BU BU WH BN 1WH 916 1 68 LOGrE 21 J Panel 5 or CAT6 cable 11 016 8 4 9 S 21 Min 0 5mm TP cable a 1 0 Board There are two LED indicators mounted by the connector Table 19 LED indicators LED label LED color Indication Trig 0 Green Indicates generation of trigger pulse to camera Off No trigger pulse LC DATA LED not mounted Power Green 24N present at connector pin 10 red No 24V at connector pin 10 6 2 7 Switches There are two switches located
39. E Compliance The TS 2030EN TS 1327EN and TS 9720EN series of cameras have been certified to conform to the requirements of Council Directive 89 336 EC for electromagnetic compatibility and to comply with the following European Standards Emissions EN 55022A 1998 1 2000 2 2003 Immunity EN55024 1998 A1 2001 A2 2003 All JAI products bearing the CE mark have been declared to be in conformance with the applicable EEC Council Directives However certain factory installed options or customer requested modifications may compromise electromagnetic compatibility and affect CE compliance Please note that the use of interconnect cables that are not properly grounded and shielded may affect CE compliance Contact Applications Engineering Department for further information regarding CE compliance FCC This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area may cause harmful interference in which case the user will be required to correct the interference at his own
40. Interface from Camera 0 Figure 77 Interface from Camera 0 CAM 1 X12 ETHERNET 6 9 1 Functionality Ethernet interface from Camera 0 to Ethernet switch Appendix B J Panel Functional amp Connector Description 77 78 VIS CAM System 6 9 2 Connector specification 8 pole shielded RJ45 Connector type Connector on board Cable part 6 9 3 Connector signal specifications 6 9 3 a Data signal Ethernet signals on two pairs Rx and Tx 6 9 4 Connector physical Interface Table 31 Physical connector description Taitek Kinsun ST3009S 880 Standard RJ45 connector Pin Signal Description Connection to 1 Ethernet A Ethernet signal Gigabit switch Ethernet A Ethernet signal Gigabit switch Ethernet B Ethernet signal Gigabit switch Ethernet C Ethernet signal Gigabit switch Ethernet C Ethernet signal Gigabit switch Ethernet B Ethernet signal Gigabit switch Ethernet D Ethernet signal Gigabit switch KR Ww nN Ethernet D Ethernet signal Gigabit switch 6 10 X12 Ethernet Interface from Camera 1 Figure 78 Interface from Camera 1 6 10 1 Functionality Ethernet interface from Camera 1 to Ethernet switch 0 x11 ETHERNET 6 10 2 Connector specification 8 pole shielded RJ45 Connector type Connector on board Cable part Appendix B J Panel Functiona
41. J Panel is shown in Table 5 and Figure 22 The maximum power to a J Panel is Camera 0 2 0A Camera 1 2 0A Traffic Light Sensor 2 0A RS485 to Ethernet conv 0 3A Total 6 3A Table 5 Power input to the J Panel X6 Pin Signal Description Connection to 1 24V 24V dc 24V DC power supply output 2 GND 24V return 24V DC power supply return Installing the Vehicle Imaging Subsystem 25 VIS CAM System Figure 22 X 6 Power input connection 3 3 4 X8 LS 5485 Out Connector The RS485 output from the Light Sensor to the RS485 to Ethernet converter connector is X8 The connections from X8 to the converter are shown in Table 6 and Figure 23 Table 6 X8 to converter connector X8 Pin Signal Description Connection to RS485 to Ethernet converter 1 24V dc 24N Power output power input 2 Gnd Power return V power input 3 12V dc 12V Power output 4 Gnd Power return 5 00 RS485 databus 0 D Port 2 6 DO RS485 databus 00 D Port 2 7 Di RS485 databus D1 D Port 1 8 D1 RS485 databus D1 D Port1 Installing the Vehicle Imaging Subsystem VIS CAM System Ey See the possibilities Figure 23 Wiring for the X8 to converter connector To Ethemet Switch Up to four cameras can be connected to one Light Sensor using one Moxa Nport 5232 Device Server If more than four cameras need to be connected to the same Light Sensor please refer to Appendix E Mox
42. RS485 wires 6 12 1 a Common Lane Controller If one lane controller is to be connected to camera 0 and camera 1 LC DATA terminals labelled DO on X15 is used The signal runs to Camera 0 and is daisy chained back When 52 is in position OPEN DO is connected to Camera 1 and daisy chained back to connector X4 X4 has connection to a termination resistor that is activated when no plug is inserted into X4 If more J Panels are to be connected to the same lane controller see Figure 6 12 5 6 12 1 b Two Lane Controllers If separate lane controllers are to be connected to the two cameras databus DO is connected to Camera 0 and databus D1 is connected to Camera 1 Switch S2 must then be in position TERM The 120 termination resistor is then connected between the RS485 wires Figure 83 Lane controller setup diagram X15 LC DATA 56 aA 45 6 12 2 Connector specification Connector type 5 pole WAGO pluggable terminal block Connector on board WAGO 734 235 Cable part WAGO 734 205 6 12 3 Connector signal specifications DO and D1 are RS485 data bus signals from the Lane Controller Appendix B J Panel Functional amp Connector Description 81 VIS CAM System 6 12 4 Connector physical Interface Table 34 WAGO physical interface Pin Signal Description Connection to 1 00 RS485 databus DO 2 DO RS485 databus DO 3 Gnd 4 D1 RS485 databus D1 5 D1 RS485 databus D1
43. a N Port 5232 Configuration on page 93 in this Manual 3 3 5 X14 Trigger Input Connector The Trigger input connection to the J Panel is connector X14 The connections are listed in Table 7 Table 7 Trigger input connector X14 Pin Signal Description Connection to 1 0 Positive Trigger input to camera 0 Trigger device positive terminal 2 TrigO Negative Trigger input to camera 0 Trigger device negative terminal 3 Trigt Positive Trigger input to camera 1 Trigger device positive terminal 4 Trig1 Negative Trigger input to camera 1 Trigger device negative terminal 3 3 5 a Trigger polarity The switches S3 and S5 sets the trigger polarity If the trigger signal is normally low no voltage at trigger input the switch shall be in position Arrow up positive going If the trigger signal is normally high voltage at trigger input the switch shall be in position Installing the Vehicle Imaging Subsystem 27 28 VIS CAM System Arrow down negative going As a guideline the two LEDs marked TRIG O and TRIG 1 shall be off when no trigger pulse is present 3 3 5 b Test Trigger Activating switches S1 and S4 generates a trigger pulse for test purposes Only one trigger pulse is generated each time the switch is activated The duration of the trigger pulse is approximately 4 ms The trigger indicator LEDs flash when the test trigger switch is activated Figure 24 Test trigger X14 EXT TRIG
44. ane Controller 5485 signal between 82 Appendix C Two Cameras One Flash 83 Appendix D Pluggable Terminal 85 Appendix Moxa N Port 5232 Configuration c cece cece cece eee ee eeeeeeeeeeseeeeeeees 87 Appendix Multiple Moxa N port Configuration Diagram 93 Appendix Ethernet Requirements ehe ehe ehe ee enne 95 Appendix Troubleshooting nega era em ERR a Ead Pea ue 97 Table of Contents vii VIS CAM System viii Table of Contents VIS CAM System GD Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 Figure 25 Figure 26 Figure 27 Figure 28 Figure 29 Figure 30 Figure 31 Figure 32 Figure 33 Figure 34 Figure 35 Figure 36 Figure 37 Figure 38 Figure 39 Figure 40 Figure 41 Figure 42 Figure 43 Figure 44 Figure 45 Figure 46 Figure 47 Figure 48 Figure 49 Figure 50 Figure 51 See the possibilities List of Figures MEI M 2 Back shot VIS installation
45. controller X15 LC DATA 01 01 GND 00 00 3 4 Illumination Options 3 4 1 Installing the TNF 31 Flash The connection to the Flash unit in the VIS CAM 300 is shown in Table 9 and Figure 26 Figure 26 TNF 31 flash unit NIGHT FLASH 2 f y 22 lt 3 x E 5 LJ Table 9 Flash unit connection in VIS CAM 400 Pin Signal Description Connection to 1 1 0 Gnd IO Board Gnd Pin 2 when no power is available from the flash 2 Gnd Flash Gnd Flash ground negative power terminal 3 Out Strobe out Strobe input on flash unit 4 Stat Strobe status Status output from flash unit 5 FPWR Flash power Power from flash to output circuit 1 0 Board 6 24V IO board 24V Fused0 5A Pin 5 when no power is available from the flash The cable from the flash unit is connected to the VIS CAM 300 1 0 Board as shown in figure 3 17 and 3 18 There are two examples shown one where the output circuit on the 1 0 Board is powered from the flash unit and one where the output circuit is powered from the I O Board It is recommended that 1 0 Board output circuit be powered from the flash unit in order to obtain galvanic isolation between the to units In cases where this is not possible such as when using mains supplied flash units power is taken from the 1 0 Board The cable must be shielded and the shield connected to the metal at the cable entry in the camera house The switch labelled 53 on the VIS 300 1
46. d Hex v Enable EE EI 1 Delimiter 2 0 Hex ClEnable 1 Delimiter process Do Nothing Y Processed only when Packing length is 2 Force transmit 30 65535 ms mme A TCP Server Mode Local TCF port 400 Command port 966 x O Apply zhe above settings tc all serial ports Local listen port will be enumerated automatically Appendix E Moxa N Port 5232 Configuration 91 VIS CAM System Figure 93 Operation configuration of Serial port 2 Operating Settings Port 02 Operation mode TCP Server Mode TCP alive check time ko 99 min Inactivity time 0 ko 65535 ms connection 4 Ignore jammed IP Yes Allow driver control O Yes Data Packing Packing length 10 ko 1024 Delimiter 1 d v Enable Delimiter 2 0 L Enable Delimiter process Do Nothing Processed only when Packing length is 0 Force transmit 30 ko 65535 ms TCP Server Mode Local TCP port 14002 Command port 967 I5 Apply the above settings to all serial ports Local listen port will be enumerated automatically To make sure that operation mode of both serial channels are identically configured check the operating settings sub menu in the Moxa N Port server Figure 94 Configuration overview of operating settings for serial port 1 and 2 Operating Settings Operating Settings alive Inactivity 7 Force Operating mode check time t
47. day and time of year it is important to verify that the proposed setup will function on the actual spot 3 1 1 install the Traffic Light Sensor 1 Disconnect Power 2 Loosen the four hex screws and remove the flange from the mounting base See Figure 10 Figure 10 Install the traffic light sensor CHANNELB lf Se CHANNEL A SIDE VIEW PIPE i HEX SCREWS 4 4mm HEX wrench required BOTTOM VIEW Installing the Vehicle Imaging Subsystem 17 VIS CAM System 18 Figure 11 TLS 300 signal and power cable LIGHT SENSOR END COMPOSITE SIGNAL AND DC POWER WIRES J PANEL END 3 Route the Traffic Light Sensor end of the TLS 300 signal and power cable through the mounting pipe and the flange see Figure 12 4 Screw the flange onto the pipe finger tight to allow M 7 subsequent minor adjustment 5 Attach the cable connector to the Traffic Light Sensor 6 Attach the Traffic Light Sensor body to the flange and secure it with the four Allen screws 7 Orient the Traffic Light Sensor such that the white reflectors r s are parallel to the trigger plane with side B facing visible from the trigger plane 8 Route the free end of the cable to the VIS J Panel in accordance with the local code requirements 9 Connect the color coded wires to J Panel connector X3 as described in X3 X7 Traffic Light Sensor on pa
48. e 28 Physical pin connections J panel 1 Pin Signal Description Connection to 1 5485 5485 databus D 2 RS485 RS485 databus D 3 NC 4 NC 5 NC 6 NC 6 7 X6 X7 24V DC Power Figure 74 Signal from J panel 1 X6 X7 GND 24 GND 24V 6 7 1 Functionality The J Panel has one input for 24V DC X6 There is one unfused output X7 and four fused outputs for Camera 0 connector X1 fused 2A Camera 1 connector X2 fused 2A Light Sensor connector fused 2A and RS485 to ethernet Converter connector X8 fused 300mA It is possible to reset all fuses and they also reset automatically PTC type after removal of excessive load The three power LED indicators are electrically located between the fuse and connector and the status of the fuse is therefore indicated on the LED when the LED is green the load is ok when the LED is red an overload condition is present Appendix B J Panel Functional amp Connector Description 75 VIS CAM System Figure 75 Principle in the power distribution X6 X7 X8 LS RS485 OUT I ETHERNET los 6 7 2 Connector specification i ls 5 X3 LIGHT SENSOR 27 gt Connector type 2 pole WAGO pluggable terminal block Connector on board WAGO 734 232 Cable part WAGO 734 202 6 7 3 Connector signal specifications 24V DC power input The two connectors are connected in parallel un
49. e camera to ensure correct exposure for the image if the ambient lightning is too low 4 Preparing for Installation VIS CAM System y See the possibilities 2 Preparing for installation 2 1 Installation Preparation To prepare for installation consider the fundamental requirements for an effective deployment of the Vehicle Imaging Subsystem There are two basic ways to position the camera over the lane or beside the lane Figure 3 and Figure 4 depict a typical over lane installation Figure 7 and Figure 8 on page 13 depict a typical beside lane camera installation 2 1 1 Over Lane Positioning Over lane camera mounting is always employed when the road width being monitored contains more than two lanes of traffic when a convenient overhead structure is already in place or when preventing vandalism is a paramount concern Figure 3 Typical Over Lane Site Layout Light Sensor Camera Mounting Platform Rear of Vehicle Trigger Plane Enclosure Preparing for Installation 5 VIS CAM System Figure 4 Typical Over Lane Site Layout Plan Mounting Structure Y Licht Sensor O Shoulder Camera 1 Traffic Flow Lane2 Center 4 Se gt 3 5ft Flash 1 Lane Divider ma ma ma ma mm m rmm mu um Gm GGG GORGE UG GU GR GR UG GR GR GGG GR GG n m Flash 0 351 Traffic Flow
50. ejsiq Preparing for Installation Camera Height ft VIS CAM System Figure 6 VIS 300 European Camera options chart See the possibilities Recommended Options for Trigger and Overhead Camera positions EURO plates with character stroke widths of 1cm LEN LLL TTL HE pe TEES 5 Preparing for Installation Camera Height m VIS CAM System VIS 350 European Camera options chart nui NNI AM NAA NENN HANA Camera Height m i Ni IM Recommended Options for Trigger and Overhead Camera positions EURO plates with character stroke widths of 1cm 0 5 12 Preparing for Installation VIS CAM System See the possibilities VIS 400 European Camera options chart Recommended Options for Trigger and Overhead Camera positions EURO plates with character stroke widths of 1cm A ONT ATT NA T 496611 o2uejsiq Preparing for Installation AONT OTT Camera Height m 13 VIS CAM System 2 1 2 Side of Road Installation Figure 7 Typical side of road installation Light Sensor Camera Flash Head Rear of Vehicle T
51. er the correct time zone for the system location Local time Enter the correct time for the system location Time server Enter IP Address or domain name for the desired time server Web console Enables Disables the web configuration utility Telnet console Enables Disables the Telnet configuration utility Figure 87 Standard configuration of Basic Settings Basic Setting Seryer 1715200 EE ee s Time zone GMT 01 00 Amsterdam Berlin Rome Stockholm Vienna M wa ores rm 2005 7 13 12 43 Local time Modify Time server Console G Enable O Disable Enable ODisable Web console Telnet console Appendix E Moxa N Port 5232 Configuration 87 VIS CAM System E Network Settings IP address Enter the desired IP address of the unit The default address from the factory is 192 168 127 254 unless otherwise specified Netmask Enter the subnet mask of the unit The default subnet mask from the factory is 255 255 255 0 unless otherwise specified Gateway Enter the default gateway of the unit IP Configuration Specify whether the unit uses static of dynamic IP address DNS Server 1 Specify primary DNS server to be used by the unit DNS Server 2 Specify secondary DNS server to be used by the unit SNMP Enables Disables the SNMP protocol Auto report to IP Reports generated by the a
52. ernet Cable Cat 6 S FTP 4x2xAWG24 Power and RS485 Cable Twisted Pair 4x2x0 5mm2 Combined cable Cat 6 RS485 and power 5 8 3 Mounting the cables Please refer to Section 3 on page 15 of this manual See the possibilities JAI No 2900 00 262 No 2900 00 267 No 2900 00 268 Appendix A Camera Functional amp Connector Description aD 63 VIS CAM System 64 Appendix A Camera Functional amp Connector Description VIS CAM System 6 aD See the possibilities Appendix B J Panel Functional and Connector Description 6 1 Panel Layout Figure 63 EN CAM component layout TIN TRIC O LC DATA POWER ETHERNET tee v v Se gt z NORTE PS ee Pe OE RS a ae ET Y 125 88 Se ee so 6 2 X1 J panel connection to Camera 0 Figure 64 Connecting from J Panel to camera zero ET S ruc o ET Sic pata E gt E CAM H power Appendix B J Panel Functional amp Connector Description 9 CAU 1 LS RS485 XM EXT TRIG 5 ETH 35 552 IA 2245 jo EN CAM 4987 42 002 0 65 VIS CAM System H OY Y Pe 6 2 1 Functionality Power and data connection to the EN camera The 24V power supply for all camera functions Camera 1 0 Board light a
53. ers and the waveform spread of the bars is maximized 40 System Set Up VIS CAM System y See the possibilities Figure 35 Focus Bar Waveform display Focus Bar Waveform Focus 28 2 Black Cur 0 White Cur 255 Diff 255 4 Gently snug the zoom and focus lens holder thumbscrews against the lens without changing any of the lens settings 6 Uncover the license plate by removing the lens focus chart 7 Use the mouse to move the waveform cursors to the top and bottom of the waveform amplitude variation The Black Cursor is located at the bottom of the waveform display and the White Cursor is located on the top of the waveform display 8 Verify that the waveform amplitude variation for characters in both direct light and shadow if possible is at least 25 and that no portion of the waveform fully saturates either black or white System Set Up 41 VIS CAM System Figure 36 Focus Bar Waveform Display with waveform cursors Focus Bar Waveform File Edit Focus 28 2 Black Cur 88 White Cur 173 Diff 85 9 Use one hand to carefully hold the focus ring of the lens in place while you rotate the filter ring on the very front of the lens with your other hand Turn the filter ring until the white mark on the ring is oriented straight up or down Secure the filter ring in place with a small dab of RTV glue 10 Printout the image of the screen using the File gt Print menus on b
54. es 2 as standard None feature not used in communication with the light sensor None feature not used in communication with the light sensor Enable the TLS200 light sensor requires FIFO as standard RS 485 2wire the communication with the TLS 300 light sensor is standard 2 wire RS 485 Enable apply the above settings to all serial ports rename port 2 port alias to DO Figure 89 Standard configuration of Serial settings for port 1 Serial Settings Port alias pi Serial Parameters Baud rate E Data bits 8 bits gt None Flow control None O Disable Enable interface RS 485 2Wire apply the above settings to all serial ports Appendix E Moxa N Port 5232 Configuration 89 90 VIS CAM System Figure 90 Standard configuration of Serial settings for port 2 Serial Settings Port 02 Port alias Serial Parameters _ rate 9600 pata bits 8 Stop bits 2 Parity None P Flow control None E Disable Enable Interface RS 485 2 vi O Apply the above settings to all serial ports To make sure that both serial channels are identically configured check the serial settings sub menu in the Moxa N Port server Figure 91 Configuration overview of serial port 1 and 2 Serial Se
55. fication ecce errat ho xxr n ha rte EE gea aea arae 74 Connector signal 75 24 DC POWT 75 greater 75 Connector specification erren tok ERR M p Urbe PE RUM sa ERR ense TROC 76 Connector signal enhn 76 Connector physical Interface 76 X8 RS485 signal to Ethernet interface csssesssesseesseeeseeeee eene eene nene 76 deaur 76 Connector specification c ies core yea eter en e sy a FER re E RE a SEEK gv sued enn n Ea a C 77 Connector signal nnne 77 Connector physical Interface 77 X11 Ethernet Interface from Camera 77 FUNCHIONALILY M 77 Connector specification AER oer 78 Connector signal 5 E E E 78 Connector physical Interface
56. fused Maximum total current to X1 X2 X3 and X8 6 3 A fused value 6 7 4 Connector physical Interface Table 29 Physical connection for pins Pin Signal Description Connection to 1 24V 24V DC 24 DC power supply 2 GND 24V return 24V DC power supply 6 8 X8 RS485 signal to Ethernet interface Figure 76 RS485 to Ethernet 18 LS RS485 OUT 6 8 1 Functionality Interface to RS485 to Ethernet converter The signals come from the Light Sensor connection X3 Two power outputs for supplying the converter are available 76 Appendix B J Panel Functional amp Connector Description VIS CAM System aD See the possibilities 6 8 2 Connector specification Connector type 8 pole WAGO pluggable terminal block Connector on board WAGO 734 238 Cable part WAGO 734 208 6 8 3 Connector signal specifications 6 8 3 a Power output Voltage 24 V DC from power supply connected to X6 or X7 12 V DC from regulator on board Current 0 3A fused 6 8 3 b Databus DO and D1 DO and D1 are RS485 databus signals from the light sensor 6 8 4 Connector physical Interface Table 30 RS485 physical connections Pin Signal Description Connection to 1 24N dc 24v Power output 2 Gnd Power return 3 12V dc 12V power output 4 Gnd Power return 5 00 RS485 databus DO 6 DO RS485 databus DO 7 Di RS485 databus D1 8 D1 RS485 databus D1 6 9 X11 Ethernet
57. ge 22 Make sure that no power is applied when performing any wiring operation Figure 12 Installing the TLS 300 through the mounting pipe and flange Table 1 Light Sensor Cables PIN Wire color Signal 1 White green Heater gnd 2 Green Heater gnd 3 Red blue Heater 24V dc 4 Blue red Heater 24V dc 5 nc 6 Yellow 24V dc 7 nc 8 nc 9 nc 10 White Gnd 11 nc 12 nc 13 Brown D1 14 White brown 1 15 Orange 00 16 White orange 00 Shlds Installing the Vehicle Imaging Subsystem VIS CAM System EU See the possibilities 3 1 2 Optional Side Mount 1 Attach the pipe clamps approximately 6 inches apart on a vertical mounting surface as shown in Figure 13 2 Loosen the four Allen screws and remove the flange from the mounting base Figure 10 Install the traffic light sensor on page 15 3 Route the Traffic Light Sensor end of the TLS 300 signal and the power cable through the pipe and flange 4 Screw the flange onto the pipe somewhat tightly to allow subsequent minor adjustment 5 Place the pipe in the pipe clamps and tighten them to secure the pipe to the vertical mounting surface 6 Attach the Traffic Light Sensor body to the flange and secure it with the four Allen screws 7 Orient the Traffic Light Sensor such that the white reflectors le are parallel to the trigger plane with side B facing visible from the tr
58. gures VIS CAM System Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7 Table 8 Table 9 Table 10 Table 11 Table 12 Table 13 Table 14 Table 15 Table 16 Table 17 Table 18 Table 19 Table 20 Table 21 Table 22 Table 23 Table 24 Table 25 Table 26 Table 27 Table 28 Table 29 Table 30 Table 31 Table 32 Table 33 Table 34 Table 35 Table 36 Table 37 See the possibilities List of Tables Light Sensor Cables P voces sdsaussecedeacanseeesteddadadeaceecadss 18 Electrical wiring for the VIS CAM installation 21 VIS CAM connections to the J Panel 23 TLS 300 to J Panel 5 eee seann ninr ainin EEE rn ENESES 24 Power input to the 25 XS E 26 Trigger input CONNEC sos scrsccceseseesecievesscesssedscccecssdcedssicesseaeaecdins e err 27 X15 Lame Controller 28 Flash unit connection in VIS CAM 400 29 Optimal Illumination Distance Between Camera and 30 Wiring for LVD to VIS CAM 400 31 Typical minim
59. icle slowly towards the trigger line through the center of the cameras field of view in the same manner heading as a typical driver would occupy this lane Stop vehicle approximately one foot 0 3 meter past the trigger line Make sure that the vehicle is parked aimed in the same direction as the average driver would point their car if they were driving through this section of roadway Tohelp the driver of the vehicle properly aim the car while driving instruct him or her to always look forward down the road as they would normally Use a sound to signal the driver when to stop 4 1 8 Properly Position the License Plate Stand Using your portable plate stand position a license plate at minimum expected trigger distance from the camera atthe minimum expected plate height above the road the location along the trigger line where the center of the horizontal field of view of this camera is desired Rotate the plate on the stand until the top and bottom edges are level with the vehicle parked behind the trigger line to within a or a couple of degrees Secure the plate on the plate stand so that the adjustments you have just made do not change 4 1 9 Perform Initial Lens Adjustment and Camera Aiming 1 Back away all of the thumbscrews on the lens holder until they do not touch the knurled adjustment rings on the lens 2 Make sure the lens aperture adjustment is fully open rotate the third ring from
60. igger plane 2 8 Route the free end of the cable to VIS J Panel in SIDEVIEW 5 accordance with local code requirements 9 Connect the color coded wires to the J Panel connector X3 as described in Section 3 3 on page 21 Make sure that no power is applied when performing any wiring operation 5 Figure 13 Pipe clamps should be about 6 inches apart on a vertical surface 3 2 Installing the Camera s In general the camera s should be aimed at the most likely cross lane position of the vehicle license plates See Installation Preparation on page 6 for general site layout guidelines To install the camera s 1 Attach the camera mount to the camera enclosure using the included mounting bolts and washers Refer to Figure 14 Figure 14 Camera Installation Camera adjustments F REF 598 4 23559 i 1 Mite Y gt LE REF 273 5 10 769 MOUNTING PLAT Installing the Vehicle Imaging Subsystem 19 VIS CAM System 2 3 4 5 Align the camera enclosure mounting surface with the hole pattern of the camera mount and secure it to the camera mount with the five provided 4 20 hex bolts Attach the camera with mount to the mounting structure The hole pattern is shown in Figure 15 Below Figure 15 Camera mount template 64mm 2 5 3X 09 5 90 375 32mm 1 3 lt gt 4X 26 8 20 266 mounting h
61. igure 19 Figure 19 Back of the video camera For a detailed description of the VIS CAM 300 400 interface please refer to See Appendix A Camera Functional and Connector Description on page 43 in this manual 22 Installing the Vehicle Imaging Subsystem VIS CAM System 3 3 Installing the J Panel The J panel layout is shown in Appendix A See Connection requirements on page 43 This Appendix has a detailed description of the J Panel function and connectors 3 3 1 X1 and X2 VIS CAM 300 400 The VIS CAM connections to the J Panel are shown in Table 3 and Figure 20 See the possibilities Table 3 VIS CAM connections to the J Panel X1 X2 Pin Wire Color Signal Remarks 1 White orange in Cat5e 6 cable Ethernet 2 Orange in Cat5e 6 cable Ethernet A 3 White green in Cat5e 6 cable Ethernet 4 Green in Cat5e 6 cable Ethernet B 5 White blue in Cat5e 6 cable Ethernet not used with VIS CAM 6 Blue in Cat5e 6 cable Ethernet C not used with VIS CAM 7 White brown in Cat5e 6 cable Ethernet D not used with VIS CAM 8 Brown in Cat5e 6 cable Ethernet D not used with VIS CAM 9 Black wire in Red Black pair Gnd 10 Red wire in Red Black pair 24V dc 11 White wire in Brown White pair Vinit Trigger signal 12 Brown wire in Brown White pair Vinit Trigger signal 13 White wire in Red White pair RS485D Lane Controller 14 Red wire in Red White pair RS485D Lane Controller 15 White wi
62. ime Delimiter 1 Delimiter 2 transmit 7 0 D Enable 0 Disable 30 Port 1 TCP Server Mode Max connection 4 port 4001 Command port 966 7 o D Enable 0 Disable 30 Port 2 TCP Server Mode connection Local TCP port 2 4002 Command port 967 92 Appendix E Moxa N Port 5232 Configuration VIS CAM System See the possibilities 10 Appendix Multiple Moxa N port Configuration Diagram One Moxa N port Device Server is capable of accommodating a maximum of four concurrent connections on port 1 Port 2 is reserved for control Whenever more than four cameras are pointed to one Light Sensor it is necessary to connect multiple Moxa N ports in parallel to support the number of cameras being deployed The second Moxa is capable of eight concurrent connections four on each port Figure 95 Moxa configuration example Moxa configuration example for 12 simoultanious TCP Camera connections Be advised Moxa 1 IP Address 192 168 1 100 Moxa 2 IP Address 192 168 1 101 When specifying Light sensor A amp B side source under camera properties in EN Setup that you only use four connections for each available port Moxa 1 Settings 1 lt 4 TCP Connections For D1 Port 4000 P2 4 TCP Connections For DO Port 4001 Moxa 2 Settings P1 lt 4 TCP Connections For D1 Port 4000 P2 4 TCP Connections For D1 Port 4001 An example configuratio
63. in it when the wires are mounted Table 2 Electrical wiring for the VIS CAM installation X4 Pin Wire Color Signal Remarks 1 White orange in Cat5e 6 cable Ethernet 2 Orange in Cat5e 6 cable Ethernet A 3 White green in Cat5e 6 cable Ethernet 4 Green in Cat5e 6 cable Ethernet B 5 White blue in Cat5e 6 cable Ethernet not used with VIS CAM 6 Blue in Cat5e 6 cable Ethernet C not used with VIS CAM 7 White brown in Cat5e 6 cable Ethernet D not used with VIS CAM 8 Brown in Cat5e 6 cable Ethernet D not used with VIS CAM 9 Black Gnd 10 Red 24V dc 11 Black Vinit Trigger signal 12 Pink Vinit Trigger signal 13 Black RS485D Lane Controller 14 Brown RS485D Lane Controller 15 Black RS485D Lane Controller 16 Orange RS485D Lane Controller Installing the Vehicle Imaging Subsystem 21 VIS CAM System Figure 18 Properly wired X 4 connector WHITE ORANGE ORANGE WHITE GREEN GREEN WHITE BLUE BLUE WHITE BROWN BROWN BLACK RED BLACK PINK BLACK BROWN BLACK ORANGE 18K 24V Vinit4 Vinit RS485D RS485D 54850 854850 8 The cable is mounted in the cable entry on the back side of the camera as shown in the Figure 19 below The rubber bushing is mounted around the jacket and the metal brace is mounted around the shield securing proper electrical connection from the shield to the metal housing se figure F
64. ion Flash Unit Flash Power Supply 5 3 6 X6 I O Board Night Light 2nd Flash Connection Figure 50 Second flash connection _____ _____ NoOlLdO Z HSV14 LE UF a Flash _ Night Light m 24012 m Board 5 3 7 Functionality Output to Night Light or second Flash unit When switch 53 is positioned as shown in Figure 50 to the right X6 outputs the night light control signal When S3 is pushed to the left X6 outputs the signal for a second flash unit In this mode the strobe signal is fed alternately to X5 and X6 The output is galvanically isolated using an optocoupler The isolated part of the electronics on the board is powered from the Night Light or Flash unit If no power is available from the unit s power it can be taken from X5 Appendix A Camera Functional amp Connector Description 53 VIS CAM System 5 3 8 Connector specification Connector type 4 pole WAGO pluggable terminal block Connector on board WAGO 734 234 Cable part WAGO 734 204 5 3 9 Connector signal specifications Description A 5V logic inverter drives the output The inverter is a HCMOS type 74AHC14 Output signal specification Signal amplitude 5V TTL Output impedance 1000 Pulse width 5 ms 1 ms Signal polarity active high External power requirement Voltage 8 26Vdc Current max 25mA Electrical interface on the 1 0 board Figure 51 IO board electrical interface 022 LM2931AD 5 0 BAVIO R49 1 OUT
65. isted wth EN Camera Test RJ45 Patch Application cable Figure 5 24 Appendix A Camera Functional amp Connector Description 61 VIS CAM System 5 7 X15 0 Board Auxiliary power connector Figure 62 Auxiliary power connector I 6 AUX POWER 24V 0 5A 5 7 1 Functionality Power outlet for auxiliary equipment 5 7 2 Connector physical Interface Connector 2 pole WAGO pluggable terminal block PCB part WAGO 734 232 Cable part WAGO 734 202 Connector pin Signal 1 24V fused 0 5A self resetable 2 Gnd 5 8 Cables In order to comply with EMC regulations the cable must be shielded and the wires must be twisted pairs The cable used for the Ethernet signals must be minimum Cat 5e and preferably Cat 6 The wires used for power must be a minimum 0 5 mm2 5 8 1 Cable Specifications 5 8 1 a Ethernet Category Cat 5e or preferably Cat 6 Characteristic impedance 1000 Number of twisted pairs 4 Maximum cable diameter 15 mm Maximum cable length 100 meters 5 8 1 b RS485 and power Characteristic impedance 1200 Number of twisted pairs 4 Wire dimension gt 0 5mm Maximum cable diameter 15mm Maximum cable length 100 meters Appendix A Camera Functional amp Connector Description VIS CAM System 5 8 1 c Combined cable Ethernet RS485 and power Number of twisted pairs 8 Maximum cable diameter 15mm Maximum cable length 100 meters 5 8 2 Recommended Cables Eth
66. l amp Connector Description Taitek Kinsun ST3009S 880 Standard RJ45 connector VIS CAM System EU See the possibilities 6 10 3 Connector signal specifications 6 10 3 a Data signal Ethernet signals on two pairs Rx and Tx 6 10 4 Connector physical Interface Table 32 Pin connections for Ethernet from Camera 1 Pin Signal Description Connection to 1 Ethernet Ethernet signal Gigabit switch 2 Ethernet A Ethernet signal Gigabit switch 3 Ethernet Ethernet signal Gigabit switch 4 Ethernet Ethernet signal Gigabit switch 5 Ethernet C Ethernet signal Gigabit switch 6 Ethernet B Ethernet signal Gigabit switch 7 Ethernet D Ethernet signal Gigabit switch 8 Ethernet D Ethernet signal Gigabit switch 6 11 X14 External Trigger Figure 79 External Trigger connection X14 EXT TRIG 4 3 21 Trig 1 Trig 14 Trig 0 Trig 0 6 11 1 Functionality The trigger inputs on the J Panel are galvanically isolated by optocouplers in the input The trigger polarity can be selected 53 and S5 Push button switches S1 and S4 are found for generating test trigger pulses The presence of a trigger pulse is indicated on the green LED s marked TRIG 0 and TRIG 1 Appendix B J Panel Functional amp Connector Description 79 VIS CAM System Figure 80 Trigger polarity TL iain M TRIG 0 Ed ER s f 5 1 Tf TRG n S TRIG 1 CAM Pat
67. llution degree 2 Current intensity EN 10A Strip length from 7 mm Strip length to 7 mm Strip length 0 28 in When mounting the wire into the connector the wire is stripped 7mm The connector spring is released by using one of two tools WAGO 734 230 2900 00 249 WAGO 210 250 2900 00 250 BOP The wire is inserted and the spring is activated Appendix D Pluggable Terminal Blocks 85 VIS CAM System 86 Appendix D Pluggable Terminal Blocks VIS CAM System EU See the possibilities 9 Appendix E Moxa N Port 5232 Configuration Configuration of the Moxa N Port server is done through a standard web browser or using Telnet If you are unfamiliar with the configuration terms please consult the enclosed Moxa N Port server manual To carry out the configuration using Internet Explorer type the IP address of the unit in the address field http 192 168 127 254 CR You should now be able to configure the unit through the embedded web server To carry out the configuration using Telnet open the command prompt window type the following Telnet 192 168 127 254 CR You should now be able to configure the unit through the Telnet interface The necessary settings will be listed under its designated sub menu The items underlined in bold italics example Delimiter D must be configured as described Basic Settings Server name Enter the desired name for the N Port server Time zone Ent
68. mon Mode Output Voltage 270 500 2 Vou Receiver Output HIGH Voltage lg Vip 200mV e 2 V VoL Receiver Output LOW Voltage lp 4mA Vip 200mV e 0 4 V Electrical interface on the J Panel Figure 65 J Panel electrical interface 66 Appendix B J Functional amp Connector Description 6 2 3 c VIS CAM System Ethernet Interface See the possibilities aD 100 Mb Ethernet interface The signals are routed directly to RJ45 connector X11 The cable to the camera must be a Cat 5e or preferably a Cat 6 cable The wire color marking on the PCB uses standard Ethernet wire colors 6 2 3 d Power output Voltage Current 6 2 4 Connector physical Interface 2A fused 24VDC from power supply connected to X6 or X7 Table 18 Physical interface table Pin Signal Description h 5 Remarks 1 Ethernet Ethernet signal to gigabit switch pin 1 Cat5e 6 cable white orange 2 Ethernet A Ethernet signal to gigabit switch Pin 2 Cat5e 6 cable orange 3 Ethernet B Ethernet signal to gigabit switch Pin 3 Cat5e 6 cable white green 4 Ethernet B Ethernet signal to gigabit switch Pin 4 Cat5e 6 cable green 5 Ethernet C Ethernet signal to gigabit switch Pin 5 Cat5e 6 cable white blue 6 Ethernet C Ethernet signal to gigabit switch Pin 6 Cat5e 6 cable blue 7 Ethernet D Ethernet signal to gigabit switch Pin 7
69. n is listed in the table below Camera numberMoxa IP ae Port Number 1 192 168 1100 4000 2 192 168 1 100 4000 P1 1 3 192 168 1 100 4000 4 192 168 1 100 4000 5 192 168 1101 4000 6 1921681101 4000 dccus 7 1921681 101 4000 B 1921681101 4000 9 192 168 1 101 4001 10 192 168 1 101 4001 pM 11 192 168 1101 4001 12 192 168 1 101 4001 ACEITE 4 J panel EN CAM TLS 300 Host connection 120 O termination resistors are mounted across R and R on Moxa 2 see Section 3 3 4 on page 25 Appendix F Multiple Moxa N port Configuration Diagram 93 VIS CAM System 94 Appendix F Multiple Moxa N port Configuration Diagram VIS CAM System E See the possibilities 11 Appendix 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 s
70. nd heaters Ethernet and RS485 data communication is connected by means of this connector 6 2 2 Connector specification Connector type 16 pole WAGO pluggable terminal block Connector on board WAGO 734 246 Cable part WAGO 734 216 6 2 3 Connector signal specifications 6 2 3 a Lane Controller interface Description RS485 two wire half duplex multi drop communication network The I O Board has connections for daisy chain configuration The two signal pairs RS485D and RS485D can be reversed Signal levels Standard RS485 communication levels Electrical interface on the J Panel The signals are connected to J Panel X15 pin 1 and 2 There are termination resistors on the board See Figure 49 on page 53 for a description of the signal path 6 2 3 b Trigger output Description The trigger output is balanced and the driver is a RS485 transmitter LTC1480 Signal levels The signal levels are at standard RS485 levels The specification below is taken from Linear Technologies datasheet for LTC1480 Table 17 Signal parameters and conditions SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS Differential Driver Output Voltage Unloaded lg 0 3 3 V Differential Driver Output Voltage with Load R 270 RS485 e 15 33 V 500 5422 20 V AVop Change in Magnitude of Driver Differential Output 270 or R 2 500 0 2 V Voltage for Complementary Output States Voc Driver Com
71. ne Controller signal coming from another J Panel can be connected by means of this connector If no plug is inserted into the connector a build in switch activates a 120 termination resistor 6 5 2 Connector specification Connector type 8 pole shielded RJ45 Connector on board Taitek Kinsun ST3009S 880 Cable part Standard RJ45 connector 6 5 3 Connector signal specifications Datasignal RS485 databus signals from the Lane Controller 6 5 4 Connector physical Interface Table 27 Physical connector table for panel 2 Pin Signal Description Connection to 1 5485 5485 databus D 2 RS485 RS485 databus D 3 NC 4 NC 5 NC 6 NC 6 6 X5 Lane Controller Signal from J Panel 1 Figure 73 Signal from J panel 1 x5 LC FROM J PANEL 1 6 6 1 Functionality Lane Controller RS485 signal from a first J Panel If more than one J Panel is connected to the same Lane Controller the signal can be routed from J Panel 1 X4 to J Panel 2 X5 6 6 2 Connector specification Connector type 8 pole shielded RJ45 Connector on board Taitek Kinsun ST3009S 880 Cable part Standard RJ45 connector 74 Appendix B J Panel Functional amp Connector Description VIS CAM System EU See the possibilities 6 6 3 Connector signal specifications 6 6 3 a Data signal RS485 databus signals from a Lane Controller connected to another J Panel 6 6 4 Connector physical Interface Tabl
72. oles 64mm 2 5 mm 4 0 83mm 3 3 102mm 4 0 Route the camera end of the camera cable according to the camera IAW local electrical code Requirements The jacket is removed from the cable in the camera end and the wires are stripped as shown in the Figure 16 below There are two sets of four twisted pairs Four of the pairs are for ethernet signals These pairs are individually foil shielded and have a common braid shield The other four pairs are individually foil shielded without the common braid shield The shield on the Ethernet pairs must be run as close to the connector as possible All wires must be stripped for insulation app 7mm Figure 16 Camera cabling as it appears before electrical installation 6 The cable is separated into the Ethernet part with the braid shield and the power and control 20 part the rest Each part is fastened with cable ties to the respective cable relief s on the terminal block X4 on VIS CAM 1 0 Board Installing the Vehicle Imaging Subsystem VIS CAM System y See the possibilities Figure 17 Cable final wiring The wires are inserted into X4 as shown in Table 2 and Figure 18 A mounting tool for releasing the spring enabling insertion of the wire is enclosed together with the connectors Mounting the wires can be eased by separating the terminal block in the middle just break it into two blocks of eight terminals and then re jo
73. onnected to X8 where the RS485 to ethernet converter is to be connected Figure 71 Light sensor connector 72 Appendix B J Panel Functional amp Connector Description VIS CAM System aD See the possibilities 6 4 2 Connector specification Connector type 6 pole WAGO pluggable terminal block Connector on board WAGO 734 236 Cable part WAGO 734 206 6 4 3 Connector signal specifications 6 4 3 a Power output Voltage 24V DC from power supply connected to X6 or X7 Current 2A fused 6 4 3 b Databus DO and D1 DO and D1 are RS485 databus signals from the light sensor 6 4 4 Connector physical Interface Table 25 Physical interface connections Pin Signal Description Connection to 1 24V dc Power output 2 Gnd Power return 3 DO RS485 databus 0 4 DO RS485 databus DO 5 Di RS485 databus D1 6 D1 RS485 databus D1 6 4 5 Indicators There are two LED indicators mounted at the connector Table 26 LED physical indicators LED label LED color Indication Power Green 24V present at connector 1 red No 24V at connector pin 1 6 5 X4 Lane Controller Signal to J Panel 2 Figure 72 Signal to J panel 2 X4 LC TO J PANEL 2 Appendix B J Panel Functional amp Connector Description 73 VIS CAM System 6 5 1 Functionality Lane Controller RS485 signal to a second J Panel The Lane Controller connected to X15 pin 1 and pin 2 or a La
74. onnecting from J Panel to camera zero 65 J Panel electrical 66 Ethernet WINNS diagram s sere ere TR e Re E REESE ARR 68 Board and camera J panel connection to camera 1 69 J panel electrical interface eene enhn 70 Category 5 or 6 ethernet wiring diagram 71 Light sensor indicator on the nee ene 72 Light sensor vos sce AR C Sa Ry S e EIER NR Ye e EP 72 Signal to J panel Amm 73 Signal from Bm 74 Signal from J panel 31 rese ntt hn tnnt hee RR aAa NEARER EC UE 75 Principle in the power distribution 76 5485 tO Ethernet i e eoa oe sehr RR ER eU ree ra ONERE be OE PERDERE RSEN rand 76 Interface from Camera ERE 77 Interface from Camera 1 78 External Trigger connection rrr tie tit ee ERDS DERE CR sees teense CANA CRGA Ed 79 Tagger Polarity uu m
75. or description 78 Pin connections for Ethernet from Camera 1 79 opis dll c RERm 81 WAGO physical interface iecore ree tret kem rhet eret he annexes a ER Eee DAY RA SERRE EE UE 82 Master to slave 5 84 Essential specifications for the pluggable terminal block 85 Troubleshooting table nnns 97 List of Tables xi VIS CAM System xii List of Tables VIS CAM System EU See the possibilities 1 VIS CAM System Installation Manual 1 Introduction 1 1 Document Overview This document describes the steps necessary to deploy an installation of the JAI Vehicle Imaging Subsystem described as VIS from this point forward This manual also contains information about maintenance troubleshooting and RMA Return Material Authorization procedures JAI strongly recommends that the installer read this manual thoroughly in order to obtain sufficient knowledge about the VIS equipment before initiating the actual installation 1 2 Product overview The JAI VIS consists of the following components TLS 300 Traffic light sensor The VIS Camera comprised of an EN camera with zoom lens or fixed focal length lens and
76. oth the Video Window and the Focus Bar Waveform windows to document the settings If no printers are connected the PDFCreator printer driver can be used to save the pictures as PDF files 11 Have your assistant move the plate stand back to the near trigger line and re position the plate at the minimum plate height 12 Drive the setup vehicle slowly towards the trigger line in the same heading as normal traffic flow and center it directly between the camera being aligned and the adjacent camera that has already been aligned Marking the position halfway between adjacent cameras at the trigger line with some marker is advisable to help the driver properly aim the vehicle 13 Park the vehicle at the location where it just barely causes the trigger to cause an image to be captured For loop triggers park the vehicle where a vehicle would normally be located when the loop trigger signals the VIS to capture an image 4 1 11 Flash Head Alignment The following section provides a general procedure to align the VIS flash head Be sure to follow any specific alignment procedure provided with your system Align the flash head at night and after aligning the cameras Park a light colored vehicle underneath the camera and where the vehicle detector triggers the camera System Set Up VIS CAM System aD See the possibilities e Press the Repetitive Trigger button on the ENSetup toolbar This will trigger the camera eve
77. ounted on an overhead structure directly over the lane s being observed The process for aligning a camera mounted at the side of a lane is essentially the same as aligning a single camera mounted directly over the lane The site employs an accurate vehicle detection device that outputs a discrete TTL signal to the VIS system whenever the back or front of a vehicle crosses a fixed line across the road This line is referred to as the trigger line in this document Examples of such triggering devices are Peak s trafficLoop STI s Vehicle Detector light curtain and 5 Laser Vehicle Detector License plate reading or vehicle matching is performed on the images produced by the VIS system In these cases precise location and alignment of the cameras is critical to project success If the VIS images are only for human interpretation then achieving the exact camera alignment is much less critical The installer is familiar with using the ENSetup program supplied by Please refer to the ENSetup Program User s Guide if you are unfamiliar with this software offers engineering support and software tools to help select the optimum camera and trigger locations to meet your specific project needs Contact ITS Engineering Support at 408 383 0300 for further information about obtaining JAI assistance 4 1 Preparation for Alignment 4 1 1 Pre Alignment Checklist Make sure you have supplied setup computer with the ENSetup prog
78. peed 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 Local side switch 6 x 10 100Mbit 2 x 1Gbit Uplink Fibre optical Server side switch 24 x 1Gbit Copper 12 x 1Gbit Fibre 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
79. play example Video Window File Edit Capture m EB EH L2 L2 n nu Full Size Half Size QuadSize RollBar TiltLine FocusBar Measuring Freeze Snap Live One All Last Settings 2 10 0 0 100 10 0 0 101 04 07 2005 14 04 33 486 W 1000101 W 1000102 W 1000103 Tilt Line Row 349 344 Focus 163 Measuring Pos 304 400 Width 160 Height 50 Pan the camera mount until the plate stand is centered under the default position of the vertical line in the middle of the Roll Bar display Securely tighten the pan bolt Be careful not to change the pan of the camera while you tighten the bolt Oppositely twisting two 9 16 closed end wrenches is recommended one for the bolt head and one for the nut to help prevent the pan from moving while you tighten the bolt Switch back to the Tilt Line display Tilt the camera mount until the plate is positioned just above the tilt line Re adjust the zoom as necessary until the plate just fits in between the zoom markers on the Tilt Line Changing zoom usually requires that the tilt adjustment be modified also Do not tighten the Tilt bolts until after the final lens adjustment See Figure 33 38 System Set Up VIS CAM System Ey See the possibilities Figure 33 Readjustment of camera tilt and zoom display Video Window File Edit Capture zd B y oana frm i F
80. pment layout at any given site be measured to verify that the cameras and trigger are located at the desired locations relative to each other If necessary move the camera trigger positions until the distances required in the worksheet are met If it is not possible to move the equipment to the required locations then the impact of any changes to the subsequent image processing must be assessed Enter the actual camera locations into the Input section of the worksheet and then note the changes in the Results section If there are any questions about the suitability of a specific camera trigger layout contact your representative for advice 4 1 5 Edit the alignment settings on the Setup Computer In order to carry out the alignment properly the ENSetup program has to be configured with two values from the worksheet See the ENSetup Program User s Guide Video Window Setup section for details on changing Video Window properties Using the ENSetup program make sure the line and plate num cols items on your Portable Setup computer are exactly the same as the measurements including the proper plate size parameters measured in Section 4 1 4 Validate the Installation Geometry on page 32 All other 34 System Set Up VIS CAM System y See the possibilities camera settings should already be correct for the site installation but it is a good idea to verify that this is true before proceeding The Setup Computer is
81. protrude above a flat black base plate The sensor measures the ambient light reflecting off the face of both vertical plates The design is such that when the face of one plate is in direct sun the other one is in shadow These two measurements identify the range of light levels that the camera is required to image without saturation when a vehicle and its license plate are in the camera s field of view FOV To ensure correct functionality of the TLS 300 it is very important to ensure during installation that the sensor s base plate is levelled with the road surface and that the orientation of the sensor is rotated so that the direction from the vertical plate A to vertical plate B is the same as the direction of the traffic flow being observed by the traffic camera see Figure 2 Preparing for Installation VIS CAM System EU See the possibilities Figure 2 Back shot VIS installation Typical VIS installation for rear shot enforcement TLS 300 Sricntation B Channel Chunnel oe Direction of RR Ark Ge gt VISCAM traffic flow field of view m ta Trigger Loop The TLS 300 light sensor is an essential component that ensures the VIS cameras will be ready to capture high quality images of any vehicle and its license plate in virtually all weather and light conditions It is very important to ensure that sensor positioning closely resembles real road conditions where the vehicle image is most likely
82. ram installed The Setup computer needs to have an Ethernet network adapter installed preferably 1 Gigabit Ethernet Adapter and the TCP IP network configured with the correct IP address subnet mask and default gateway The Setup computer and the cameras need to be on the same subnet The cameras are shipped with the standard IP address 10 0 0 65 and subnet address 255 255 255 0 and the Setup computer needs to be assigned an IP address 10 0 0 xx in order to automatically discover the cameras using the ENSetup program NB xx must not be 65 All cameras have to be given unique IP addresses before the alignment begins This is done using the ENSetup application Confirm all VIS CAM components and cables are properly connected System Set Up 33 VIS CAM System 4 1 2 Select a Suitable Vehicle License Plate and Plate Stand for the Setup To accurately set up the Vehicle Imaging Subsystem the system installers need access to 1 A vehicle that can be temporarily parked on the road 2 A plate that is a typical in size and color for the site b clean flat and in like new condition 3 An adjustable plate stand that allows the plate to be mounted in a vertical plane at various heights above the road and at variable roll angles The stand must allow the plate to be placed at both the nominal plate height and the minimum expected plate height The stand must also allow the plate to be rolled at least
83. re in Orange White pair RS485D Lane Controller 16 Orange wire in Orange White pair RS485D Lane Controller Installing the Vehicle Imaging Subsystem aD 23 VIS CAM System Figure 20 VIS CAM connections WHITE ORANGE ORANGE WHITE GREEN GREEN I WHITE BLUE BLUE x WHITE BROWN y BROWN 5 BLACK RED al WHITE BROWN WHITE Jui RED WHITE ORANGE 3 3 2 X7 Traffic Light Sensor The Traffic Light Sensor TLS 300 connection to the J Panel is shown in Table 4 and Figure 21 Table 4 TLS 300 to J Panel connections X3 Pin X Signal Description Connection to Light Sensor Cable wire color 1 24V dc Power output Yellow 2 Gnd Power return White 3 00 RS485 databus 0 White orange 4 DO RS485 databus DO Orange 5 Di RS485 databus D1 White brown 6 D1 RS485 databus D1 Brown X7 Pin X 1 Heater 24V dc Power output Red blue and Blue red 2 Heater gnd Power return White green and Green 24 Installing the Vehicle Imaging Subsystem VIS CAM System aD See the possibilities Figure 21 TLS 300 to J Panel wiring 3 3 3 Power Input Connector YELLOW 24V WI IITE GND ele WHITE ORANGE 004 w ORANGE 00 e WHITE BROWN S 01 B3OWN Di RED BLUE BLUE RED mn WHITE GREEN GREEN N9 gt lt The Power Input connection to
84. rigger Plane A 18 72 s Mounting Platform 22 0 50 ft Dependent on expected intervehicle spacing Enclosure Figure 8 Typical side of road installation plan view with no canopy overhead structue 3 5 ft Flash 1 Shoulder Traffic Flow Lane2 Center gt Lane Divider mmm mm a m mmm mm mm e E GR GR RR n n n nm n n m n m jn mm mmm Traffic Flow Lane1 Center Shoulder Trigger Line Generally the flash head must be separated from the camera by a radial distance of at least three and a half feet 1 2 meters If the flash is positioned closer to the camera reflections from the license plate will cause overexposure If possible position the flash head in level with the reference plane shown in Figure 9 This plane is in level with the top surface of the camera enclosure but slices through the center of the lens 14 Preparing for Installation Figure 9 Distances measured from outer wall of camera housing to outer wall of Flash unit aD VIS CAM System See the possibilities Flash and camera distances REFERENCE PLANE IIIA lt lt lt TSC 1327EN TS 1327EN TBD TSC 2076EN TBD
85. ry second Make sure that the Ethernet external hardware trigger is enabled in the Camera Properties section 2 Trigger property External Trigger Source e Adjust the flash head tilt and pan control until the entire back of the vehicle is well illuminated If necessary adjust the flash head pan control to center the flash beam over the vehicle e Ifthe flash illumination is too bright for your installation contact JAI for instructions on how to adapt VIS system parameters to reduce sensitivity to nighttime illumination Repeat pressing the Repetitive Trigger button on the ENSetup toolbar to stop flash firing Repeat the above steps for each camera flash Table 13 Optimal Illumination Distance Between Camera and TNF TS 9720EN TSC 9720EN TS 2030EN TSC 2030EN TS 2076EN TSC 2076EN TS 1327EN TSC 1327EN Distance in Feet 3 5 TBD 2 1 TBD TBD TBD TBD Distance measured from outer wall of Camera housing to outer wall of Flash unit System Set Up 43 VIS CAM System 44 System Set Up VIS CAM System Ey 5 See the possibilities Appendix A Camera Functional and Connector Description The camera has connections to the EN J Panel Light sensor Flash Night Light and Laser Vehicle Detector as shown in the system overview Figure 37 Appendix A describes the camera connectors for these units the signal specifications output circuits and test facilitie
86. s Introduction 3 VIS CAM System 1 3 3 Illumination 1 3 3 a TNF 31 Flash The TNF 31 Flash generates light in wavelengths that are invisible to the human eye but visible to the camera This makes the flash suitable for illuminating both oncoming and receding views of traffic Unlike near infrared illuminators the TNF 31 yields high contrast images of license plates even if they have red characters on white or yellow backgrounds The TNF 31 Flash is automatically enabled whenever the TLS 300 Light Sensor determines that ambient light is insufficient to produce a picture of usable quality When the TNF 31 is enabled it fires every time the vehicle detector triggers the camera 1 3 3 b White light LED JAI offers White LEDs mounted inside the camera enclosure This option is usually employed when certain rare color combinations on license plates do not yield sufficient contrast with the TNF 31 Flash option alone 1 3 4 VJP 300 Junction Panel The VIS J Panel is the central connection point for the VIS components The J Panel is a DIN Rail mounted PCB equipped with various interface terminals for interconnection of the VIS components this can be Ethernet connection serial connection TTL trigger feed and power supply It offers the possibility of manually selecting trigger polarity to the camera Furthermore the J Panel is equipped with status LED s and trigger switches for diagnostics and troubleshooting purposes 1 3 5 548
87. s It also covers cable requirements Figure 37 Connection requirements Optional 2 Flash or Hight Light Laser Vehicle Detector Figure 5 1 Appendix A Camera Functional amp Connector Description 45 46 VIS CAM System 5 1 1 0 Board Layout Connections to the camera are made through the EN 1 0 Board located in the back of the camera housing Figure 38 shows the board layout Figure 38 Component layout of the EN board S Ethernet test ue gt a Ethernet test 140 2 HSY14 LHS LHOIN RS485D4 RS485D Appendix A Camera Functional amp Connector Description VIS CAM System Ey See the possibilities 5 2 X4 0 Board Connection to panel Figure 39 Board connections Controller i 5 2 1 Functionality Power and data connection to the camera The 24V power supply for all camera functions Camera 1 0 Board light and heaters Ethernet and RS485 data communication is connected using this connector 5 2 2 Connector specification Connector type 16 pole WAGO pluggable terminal block Connector on board WAGO 734 246 Cable part WAGO 734 216 5 2 3 Connector signal specifications 5 2 3 a Lane Controller interface Description RS485 two wire half duplex multi drop communication network The I O Board has connections that allow for daisy chain configuration The two signal pairs RS485D and RS485D can be
88. scsoesoso 65 DU Midas E 66 6 2 2 Connector specification sand o ei enn aii ee n oA 66 6 2 3 Connector signal nennen 66 6 2 4 Connector physical Interface sssssssssssssssssessessoesoosesosoosesosooseosssosssssssssse 67 6 2 5 Typical Wiring diagram cies coepere er neo ra armen nhe een aa ER a 68 NR MEN zr URSI 68 MEME ccv 68 6 3 X2 J panel connection to Camera 1 69 6 3 1 Functional sidere aero re sees 69 6 3 2 Connector specificatiOn i eee see ee E Uere E MEER ERR VE VERE ER Ee PRA ETERS 69 6 3 3 Connector signal 5 69 6 3 4 Connector physical Interface sssssssesssssssssssessssssessssossossssesossosssosssssssssss 71 6 3 5 Typical Wiring diagram iiie cese eire heh IRR istreni SEE RENE ERE C ss 71 6 3 6 Indicators ep tone ere npn n Ep ean TEE exea paru ER Reged 72 6 3 x MM M 72 6 4 Light Sensor Connection 72 6 4 1 F nctioriali
89. sh output is high as long as the switch is activated The switch is located as shown on Figure 46 Figure 46 Switch location 5 3 4 Connector physical Interface Table 14 Wiring diagram Pin Signal Description Connection to 1 1 0 Gnd IO Board Gnd Pin 2 when no power is available from the flash 2 GND Flash Gnd Flash ground negative power terminal 3 Out Strobe Out Strobe input on flash unit 4 Stat Strobe status Status output from flash unit 5 FPWR Flash power Power from flash to output circuit on 1 0 Board 6 24V IO board 24V Fused 0 5A Pin 5 when no power is available from the flash Appendix A Camera Functional amp Connector Description 51 VIS CAM System 5 3 5 Typical Wiring Diagram Figure 47 shows how to connect to the DC Flash unit having the 1 0 Board electronics powered from the Flash Power Supply Figure 47 Connecting DC Flash to a board powered from the Flash power supply Flash Unit Flash Power Supply Figure 48 shows how to connect to the DC Flash unit with the 1 0 Board electronics internally powered Figure 48 Connection DC Flash to an internally powered board Flash Unit Flash Power Supply GND GND QUT STAT FPWR 24V Figure 49 shows how to connect to the AC Flash unit Flash Power connections not shown 52 Appendix A Camera Functional amp Connector Description VIS CAM System E See the possibilities Figure 49 AC flash unit connect
90. the front of the lens fully counter clockwise until it stops at the f1 2 setting Secure the thumbscrew that lines up with the aperture ring until it just presses against the ring Next tighten the thumbscrew that lines up with the knurled ring closest to the camera body until it just presses against the lens Do not tighten any Lens Holder thumbscrews beyond a slight pressure against the lens 3 Loosen the roll pan and tilt bolts on the camera mounting head until each axis can be easily adjusted by hand but any particular setting will stay in place after you let go 4 Power on the Setup computer and then start ENSetup program Press the Video Window button to open the Video Window and then select the camera for adjustment from the tree view on the left side of the window Press the Live button in the toolbar to start the video streaming Press the Tilt Line button to show the alignment guidelines The Tilt Line can be moved using the mouse or if the Tilt Line is selected using the arrow keys 5 Interactively adjust the roll pan and tilt of the camera mount and the lens zoom and focus rings 6 Adjust the lens focus ring and camera pan and tilt as necessary to obtain a focused image of the plate on the plate stand If at any time you cannot fully focus the plate because the focus ring on the lens has reached the end of its turning movement perform the back focus procedure described in document
91. tically important to select the correct distance between the camera and the location on the road where the camera is triggered to capture an image Minimizing the cost of installation is usually also an important concern This means that whenever possible it is best to use existing structures or previously installed elements The following charts Figure 5 and Figure 6 provide a wide range of trade offs between camera height and trigger distance to enable the installer to select convenient camera and light sensor locations relative to existing mounting structures and vehicle trigger locations Adhering to the installation options provided in the installation charts yields camera images that are generally suitable for automatic license plate readers ALPR To use the charts correctly please follow the steps below 1 First measure the height above the road to convenient camera mounting locations 2 Measure the distance along the road from directly beneath each candidate camera position to convenient trigger locations Preparing for Installation VIS CAM System E See the possibilities 3 Select the appropriate installation chart for either USA or European style license plates To obtain charts for license plates from other countries please contact the JAI ITS division directly at 1 408 7470 300 102 4 Plot the candidate camera height trigger distance pairs on the chart and determine if the selected location lies within the
92. ttings Seral Settings Baud rate Databits Stop bits Parity FIFO Flow interface Port 1 b 19600 8 k Enable None Port 2 loo 9600 k None Enable 55 48 Appendix E Moxa N Port 5232 Configuration VIS CAM System EU See the possibilities Operating settings port 1 Operation mode TCP specify the operation mode of the serial channel currently TCP is required for communication with the TLS200 light sensor UDP will be implemented in the nearer future TCP alive check time 1 Specify the alive time for the TCP communication Inactivity time 0 Specify the timeframe for closing an idle serial line Max connections 4 Specify the amount of simultaneous TCP connections Ignore jammed IP Yes Allow driver control No Data Packing Delimiter 1 D Specify the size of the delimiter entry in Hex Force transmit 30 Specify the time frame for forced transmit entry in mS TCP Server Mode Local TCP port 4001 Specify the broadcast port 4001 is default Command port 966 Specify the command port 966 is default Figure 92 Operation configuration of Serial port 1 Operating Settings Port 01 Operation mode TCPSewerMoce ME vi TCP alive check time i ko 99 min Inactivity time 10 65535 ms Max connection 4 P Ignore jammed IP Q Yes Allow driver control No Yes Data Packing Packing length 0 1024 oum ELI LUE T Delimiter 1
93. ty cs NER Esa RENI EUN ose 72 6 4 2 Connector specification rhe rer erre ERA Era aa Ea E Rd eas 73 vi Table of Contents VIS CAM System Dome OSOON RUN CO CO CO AWN cl ooo BO Pale See the possibilities Connector signal 73 Connector physical Interface sccccccccenceseeeeneceeecscenessaeesaeeesessccesescaeeaneas 73 tro PER 73 X4 Lane Controller Signal to J Panel 2 73 FUNCHIONALILY M 74 Connector specification eorr rr st ono naa eee VE FREE ERR 74 Connector signal 5 74 Connector physical Interface 74 X5 Lane Controller Signal from J Panel 1 74 Functionality MT I M 74 Connector speci
94. ullSize Half Size QuadSize FocusBar Measuring Box Freeze Snap Live One All Last Settings s 10 0 0 100 10 0 0 101 04 07 2005 14 04 33 486 g 1000101 W 1000102 W 1000103 Sc 93 693 Tilt Line 2343 Roll Bar Row 344 FocusBarRow 163 Measuring Box 304 400 Width 160 Height 50 The camera mount and lens are now ready for final adjustment 4 1 10 Finalize Lens Adjustments and Camera Aiming 4 1 10 a Reposition the License Plate Stand at the Nominal Trigger Line Use your portable plate stand to position the license plate 1 at the normally expected nominal trigger distance from the camera 2 at the nominal plate height above the road 3 at the location along the trigger line where the center of the horizontal field of view of this camera is desired Rotate the plate on the stand until the top and bottom edges are perfectly level with the vehicle parked behind the trigger line Secure the plate on the plate stand so that the adjustments you have just made do not change 4 1 10 b Perform Final Camera Mount and Lens Adjustments The final focus adjustment is facilitated using the Focus Bar display on the Video Window Press the Focus Bar button on the toolbar This displays a Focus Bar marker on the Video Window that will open a separate Focus Bar window where the pixel values taken from the focus bar marker is displayed The Focus Bar marker
95. um plate heights and nominal plate heights 34 Optimal Illumination Distance Between Camera and 43 WANING OS PRAESES ERA AF S PME WR HS 51 Physical interface pinouts cence eene nenne nhe eese ehe 55 Connector keep P FEAR FEES ER 59 Signal parameters and conditions 66 Physical interface table te pose alere e n o I ARR ERR gn 67 LEDAINGICACOMS fe 68 egre 68 SPENCER 70 Ethernet physical eene hh hehe then 71 LED INGICALOMS mE Mm 72 Connector ilc M ORm 72 Physical interface connections 73 LED physical indicators e RR E Re eR es ini 73 Physical connector table for J panel 2 eene eene enne 74 Physical pin connections J panel 1 nee nhe nnn 75 Physical connection for pins ce cece eee e eee e cence ence eee e ence eee eeee sees test eene 76 RS485 physical CONNECTIONS icr treten ccna te chewed Eyre nde eae eee m ERE Yn E EE 77 Physical connect
96. ure 58 Figure 59 Figure 60 Figure 61 Figure 62 Figure 63 Figure 64 Figure 65 Figure 66 Figure 67 Figure 68 Figure 69 Figure 70 Figure 71 Figure 72 Figure 73 Figure 74 Figure 75 Figure 76 Figure 77 Figure 78 Figure 79 Figure 80 Figure 81 Figure 82 Figure 83 Figure 84 Figure 85 Figure 86 Figure 87 Figure 88 Figure 89 Figure 90 Figure 91 Figure 92 Figure 93 Figure 94 Figure 95 Figure 96 Wiring a second DC flash from the flash power supply 55 Connecting to a 2nd DC Flash unit with the I O Board electronics internally powered 56 Connecting the second AC flashi 56 Connecting to the night light TNC 100 57 Detection Board ecc 57 EVD HaT eios aere 58 Electrical interface the 1 0 58 Ethernet PEE PANE ER 59 EN network test configuration setup 60 Test setup unter vs tae ADU FEE 61 Auxiliary power enr nnne dhe ede ease eaa Ee ie nn oa aa A EVE 62 EN CAM component layout ccccncscneensesncceseeccesaeeeaeeeasesseeccesaeenaensneneees 65 C
97. uses standard Ethernet wire colors 6 3 3 d Power output Voltage 24VDC from power supply connected to X6 or X7 Current 2A fused 70 Appendix B J Panel Functional amp Connector Description 6 3 4 Connector physical Interface VIS CAM System See the possibilities Table 22 Ethernet physical connections Pin Signal Description Remarks 1 Ethernet Ethernet signal to gigabit switch pin 1 Cat5e 6 cable white orange 2 Ethernet A Ethernet signal to gigabit switch Pin 2 Cat5e 6 cable orange 3 Ethernet Ethernet signal to gigabit switch Pin 3 Cat5e 6 cable white green 4 Ethernet B Ethernet signal to gigabit switch Pin 4 Cat5e 6 cable green 5 Ethernet C Ethernet signal to gigabit switch Pin 5 Cat5e 6 cable white blue 6 Ethernet C Ethernet signal to gigabit switch Pin 6 Cat5e 6 cable blue 7 Ethernet D Ethernet signal to gigabit switch Pin 7 Cat5e 6 cable white brown 8 Ethernet D Ethernet signal to gigabit switch Pin 8 Cat5e 6 cable brown 9 Gnd Power ground Pin 9 Black wire in Red Black pair 10 24V dc Supply voltage Pin 10 Red wire in Red Black pair 11 Vinit Balanced trigger pulse positive Pin 11 White wire in Brown White pair 12 Vinit Balance tripper pulse negative Pin 12 Brown wire in Brown White pair 13 RS485D RS485 Data for Lane Controller Pin 13 White wire in Red White pair 14 RS485D RS485 Data for Lane Controller Pin 14 Red wire in Red White
98. uto report function will be automatically be forwarded to IP address specified in this field Auto report to TCP Port Specify the TCP port number for the auto report function The default port is 4002 Auto report period Time interval for error reporting Figure 88 Standard configuration of Network Settings etwork Settings 192 168 127 254 IP address Netmask 255 255 255 0 cateway O configuration 7 DNS server 1 DNS server 2 773 7 OEnable O Disable Community name pubic Contact T M M Location p m n uPpaddedisrepon Auto report to IP Auto report to TCP port auto report period iseconds 88 Appendix E Moxa N Port 5232 Configuration VIS CAM System Ey Serial port 1 settings Port alias Baud rate Data bits Stop bits Parity Flow control Fifo Interface See the possibilities D1 enter desired name of this specific serial port 9600 specify the desired baud rate of the serial port the TLS200 light sensor requires 9600 as standard 8 specify the desired size of the data bits used the TLS200 light sensor requires 8 as standard 2 Specify the desired size of the stop bits used the TLS200 light sensor requir
99. wedge of recommended values 5 If several locations are suitable choose the one that yields the greatest overall slant range between camera and trigger location The standard VISCAM unit is equipped with a 25 75 mm zoom lens This lens provides the full range of camera height and trigger distance listed in the installation charts Preparing for Installation 7 VIS CAM System Figure 5 VIS 300 U S Camera options chart 44 eweg dai N N gt 0 GOES RERO MEAE HEUTE 0 LLL LEE LL Le JO ayos saed sf suonisod pue amp JeuJe 7 suond o ty E Preparing for Installation VIS CAM System See the possibilities VIS 350 U S Camera options chart yn 06 yn 92 14 02 34 5 JO SUJPIM 5 sn suonisod eJouie pue 104 suondo O O U QO O P AN 4966111 e uejsiq Preparing for Installation 10 VIS CAM System VIS 400 U S Camera options chart US plates with character stroke widths of Recommended Options for Trigger and Overhead Camera positions o u
100. y CAV 1 Y pou A m X o Test trig 4 Trig indicator Trig indicator Ye Balanced Balanced driver driver 1 ETHERNET ETHERNET hoo ooon oe 5 FS los o o e oe EE E 55 a 6 11 2 Connector specification Connector type 4 pole WAGO pluggable terminal block Connector on board WAGO 734 234 Cable part WAGO 734 204 6 11 3 Connector signal specifications 6 11 3 a Signal levels Input signal amplitude 3 24 V Input current app 1 20 mA 6 11 3 b Trigger 0 Electrical interface on the J Panel Figure 81 Trigger 0 Ut TLP181 R5 TRIGO 1k TRIGO DI BAV70 6 11 3 c Trigger 1 Electrical interface on the J Panel Figure 82 Trigger 1 ug RI TRIGI Ik TRIGI D4 BAV70 80 Appendix B J Panel Functional amp Connector Description VIS CAM System EU See the possibilities 6 11 4 Connector physical Interface Table 33 Connector table Pin Signal Description Connection to 1 Trig0 Positive trigger input to camera 0 2 Trig0 Negative trigger input to camera 0 3 Trig1 Positive trigger input to camera 1 4 Trig1 Negative trigger input to camera 1 6 12 X15 Lane Controller interface 6 12 1 Functionality The signal path for the Lane Controller is shown in Figure 83 The signal lines symbolizes the two balanced
Download Pdf Manuals
Related Search