Marshall operation manual
Contents
1. INPLACE DEER WARNING SIGN aa F amp I U CHANNEL F amp I 1 2 LIQUIDTIGHT FLEXIBLE NOK el p IG CONDUIT INSTA ha EAL THMENT ENCLOSURE ITH 1 4 18 F amp I 2 LIQUIDTIGHT FITTINGS 2 REDUCING WASHERS 3 4 X 1 2 REAR VIEW CONDUIT ROUTNG SIDE VIEW CONDUIT ROUTNC BRIAN L SCOTT STATE PROJECT NO Se PETERSEN CHE VE DEER WARNING SYSTEM COUNTY PROJECT M CALLACHER ROUP NC ACTI DIEM 22046 CONDUIT AND L BRACKET DETAIL eee N5781N Tt plan 5781 dd02 dgn Date License CITY PROJECT NO COMM NO 5781 was prepared by me or under my direct suservision ane 1 PROUECT NO ee MINNESOTA DEPT OF TRANSPORTATION SHEET the laws of the State of Minnesota Se under AX DESIGNED BY CONSULTING 3 SIGN DETAIL OF 5 hiNproJ ectss5781N 1 t plans5781 4802 dgn 3 01 13 PM 5 14 2008 3101117 5 14 2009 ectsS5781 NI typ 9903 99 INSTALL WAVELOG AS DIRECTED BY THE ENGINEER BAND TO POLE WITH 1 2 STAINLESS STEEL BANDING F amp I 1 2 LIQUIDTIGHT FLEXIBLE NON METALLIC CONDUIT FROM SOLAR PANEL TO WAVELOG REMOVE EXISTING CONDUIT 1 2 U BOLTS N57B1 p 1 _ddd3 dgn I hereby that this plan specification or report was prepared by or un duly Licensed Professio ed2. PROJECT LOCATION THIS PLAN CONTAINS PLAN REVISIONS SHEET NO APPROVED BY CONSULTING GROUP INC HEREBY CERTIFY THAT THIS PLAN WAS PREPARED BY ME OR UNDER MY DIRECT SUPERVISION AND THAT I AM A DULY LICENSED PROFESSIONAL ENGINEER UNDER THE LAWS QF THE STATE OF MINNESOTA SIGNATURE DATE 2 20 2007 LIC 22046 PRINT NAME BRIAN L SCOTT PROJECT LOCATION COUNTY LYON DISTRICT 2222822 FOR PLANS AND UTILITIES SYMBOLS SEE TECHNICAL MANUAL STATE PROJ NO CHARGE IDENTIFIER HEREBY CERTIFY THAT THE FINAL FIELD CHANGES IF ANY OF THIS PLAN WERE MADE BY ME OR UNDER MY DIRECT SUPERVISION AND THAT I AM DULY LICENSED PROFESSIONAL ENGINEER UNDER THE LAWS OF THE STATE OF MINNESOTA SIGNATLIRE DATE PRINT NAME THIS PLAN AND OR SPECIFICATION WAS PREPARED SPECIFICALLY FOR THIS PROJECT AND ANY RE USE OF DETAILS THE SUBSURFACE UTILITY INFORMATION IN THIS PLAN IS UTILITY Q
3. Print Nome that I Date BRIAN L direct supervision and Engineer under SCOTT License 22046 INSTALL SOLAR PANEL AND MOUNT TYPE B E SOUTH ORIENT DU EGREES FROM HORIZONT MOUNT AT 67 D CONDUIT FITTINGS 3 4 AL F amp I 2 1 2 KNOCKOUT LEXIBLE ITH 1 4 18 1 2 LIQUIDTIGHT FLEXIBLE NON METALLIC CONDUIT WITH 2 4 C_ 18 FROM ENCLOSURE TO DETECTOR wee MINNESOTA DEPT OF TRANSPORTATION DETECTOR DETAIL ACTIVE DEER WARNING SYSTEM STATE AID PROJECT NO ORAWN BY x S PETERSEN DESIGNED BY CONSULTING Group INc S PETERSEN STATE PROJECT NO x CHECKED BY Cow NO 5781 SHEET 4 OF 5 8 5781 11 1 5781 _ 0 dgn 3101121 5 14 2008 SALVAGE SIGN INSTALL SOLAR PANEL EQUIPMENT ENCLOSURE AND OTHER COMPONENTS INSTALL SOLAR PANEL TYPE EQUIPMENT ENCLOSURE B AND OTHER COMPONENTS F amp I DETECTOR POLE Ve EU ACT Woe riod ke MINNESOTA DEPT OF TRANSPORTATION SHEET TE Daler Olde icoteas oral Engineer under X DESIGNED BY C pon SPETERSEN ONSULTING SCHEMATIC PLAN VIEW OF DETECTION SITE 5 CHECKED BY ACTIVE DEER WARNING SYSTEM OF COUNTY PROJECT NO DATE BY REVISION GALLAGHER GROUP 5 5781 Hp LanN5781 dgn ______ L eense _ 22045 _ N
4. 6 7BU UK Berkshire SL 733 2 Existing System Retrofit System Operations doc
5. 95 max 10 Vertical 90 Horizontal Alarm Memory Environmental Disqualification Circuit Mounting Wall or Pole LED indicates memory status Selectable Negative amp Positive Form C relay operates when beam energy has been gradually reduced to abnormal level Weight 95 2 02 2700g Transmitter and Receiver 98 8 oz 2800g Transmitter and Receiver Specifications and design are subject to change without prior notice 9 DIMENSIONS 4 1 104 M LUJCULO V SIL M UOI amp IJ INCL UJUNI YOLCITL CT ULUUTLO UC 10 5 267 Dimensions inches mm 10 Trouble Shooting Check Sheet for AX 250PLUS 500PLUS 350MK 650 I Check to see that power cables are properly connected and polarity is correct NG z Correct terminal connection and or polarity OK Check to see that input power is within the product s requirements AX 250PLUS SOOPLUS 10 5 30VDC AX 350MK 1 650MK I 10 5 30VDC NG Does the power supply output more than 12VDC YES There is a possibility that NO Action on the TRANSMITTER or RECEIVER after power has been applied Disconnect power cable from the power supply and the 4 Photoelectric beam and test for short or open circuit Also test for short circuit to ground Repair as required Call Technical Support Power ca
6. AX 250PLUS S00PLUS 5 0 VDC or more meter 5 the Alarm Indicator 350 I 650 1 55 VOC or LED on the RECEIVER more illuminated A Re align the beams using When using the LED alignment indicator yg volt meter to insure proper of the AX 350MK 1 650MK 1 monitor jack Output voltage make sure the LED shows EXCEL Does the value satisfy the beams requirement NO NO Y 4 Go to page 1 see trouble shooting procedure number 1 Check alignment There is frost or snow on the unit s cover Is the LED indicator on the TRANSMITTER on voltage from Monitor Jack Does it satisfy the minimum requirement 5 Very heavy rain occurred at the same time as the activation NG Re align the beams There are plants trees or debris that may block the beam Refer to the Beam during windy conditions Alignment Procedure The unit may be detecting a large bird Are the beams mounted on a stable footing with little movement of the mounting structure OK 1 The RECEIVER is facing directly at the rising or setting sun range poe or There are reflective objects within 3 feets of beams path stable mounting cars glass surfaces with high gloss paints etc surface Bad wiring or corroded splices Check for shorts opens grounds and high resistance on the alarm circuit wires 1 The covers are very dirty or dusty N
7. 2 beam stacking 2 beam long distance stacking TRANSMITTER RECEIVER RECEIVER TRANSMITTER TRANSMITTER RECEIVER gt gt lt gt lt gt Chi RECEIVER 1 2 Ch2 gt gt lt TRANSMITTER gt gt gt TRANSMITTER Ch3 RECEIVER b Ch3 Cn3 gt lt gt gt TRANSMITTER RECEIVER RECEIVER TRANSMITTER TRANSMITTER RECEIVER Long distance TRANSMITTER RECEIVER RECEIVER TRANSMITTER TRANSMITTER RECEIVER IE dE 7 2 ALARM MEMORY 1 Wiring Connect control voltage signal terminal System arming status voltage output terminal of control panel to A M terminal A M Select Switch Model AX 350MK 1 AX 650MK I c3 Type NEGATIVE POSITIVE Position System armed o __0 1VDC grounded OPEN 5 30VDC _ System disarmed OPEN or 5 30VDC 07 1VDC grounded RECEIVER 2 Operation of Alarm Memory If the units is triggered during an armed period when the system is disarmed its LED will remain lit to confirm that it reported the alarm Alarm Memory will not latch while system is disarmed LED operation and alarm output are not affected by alarm memory when system is armed 3 Reset Alarm memory resets automatically when system is re armed Optical compatible control panel required 7 3 DQ CIRCUIT
8. and then fine tune Tool on the lower mirror of both the optical alignment Transmitter and the Receiver 5 econdly adjust the s Lower Mirror Fine Tower horn Adjustment After the final adjustment are made on the upper mirrors Carefully without Blocking Too from the mirrors and on the upper mirrors of both the Transmi Check the voltage using the Receiver monitor jack and make any fine Be carefull when removing the Beam Blocking adjustments the lower mirror Tool from the mirror Don t move mirrors them AD MI 4 Final checking after ud S removing the Beam lt Blocking Tool from the mirror mE 7 al 1 Confirmation of k wiring See Sec 4 3 Action front of the Transmitter Gin front of the Receiver Upper Mirror Fine Adjust the optical alignment for Transmitter and Receiver one at a Adjustment time C I NE gt XN A 1 Connect the volt meter to monitor jack input Receiver s Put the attached Beam Blocking Looking through the view finder locate the other detector in the center of the sights by adjusting vertically and horizontally Vertical Adjustment Horizontal Adjustment 2 gt ik 2 f SK A p 2 Course Adjustment Fine Horizontal Adjustment Vertical Adjustment 2 Horizontal Adjustment a Ho
9. DQ and ALARM MEMORY CONTROL PANEL TRANSMITTER RECEIVER 5 3 OPTICAL ALIGNMENT When using two or more units on wire the maximum length is obtainted by dividing the maximum wire length listed below of units used Power wires should not exceed the following lengths Beam Frequencies Selection chil 3 Match the frequency settings See Sec 7 1 SELECTABLE BEAM 2 FREQUENCIES IMPORTANT Always align upper mirrors first When stacking beams or installing more than one set in the same area make 3 sure t put the front covers on all of the detectors except for the one being aligned The cover automatically stops optical transmissions of the alignment level this will prevent the alignment level transmission from nearby units from interfering with the unit being aligned ch3 Select the beam frequencies switch Horizontal amp Vertical Adjustment Looking into view finder of the Transmitter and adjustment the so that the Receiver can be seen in the center of the sight Looking into the view finder of Receiver and make fine adjustments horizontally and vertically nn y 777744 1 TRASMITTON if FOR ALIGNMENT 1 H TRANSMITTER RECEIVER The alignment status of the Receiver is optically transferred to the Transmitter The Transmitter has the same alignment level indicator as the Receiver this feature makes one man alignmen
10. Detector or U shaped Connector TRANSMITTER Switch TRANSMITTER CAUTION 2 Make sure you connect jumper shaped connector when the retransmitting circuit is not in use Output of the detector or switch must be N C N O is not acceptable M LUJCULO V SIL M UOI amp IJ INCL UJUNI YOLCITL CT ULUUTLO UC 8 SPECIFICATIONS Power Input 10 5 30VDC Normal operation MODEL AX 250PLUS AX 500PLUS AX 350MK I AX 650MK I Detection Method Infrared Photoelectric Outdoor 250ft 75m 500ft 150m 350ft 100m _ 650 200 __ Indoor 500ft 150m 1000ft 300m 700 200 1300ft 400m Maximum Arrival Distance 2500ft 750m 5000ft 1500m _ 3500ft 1000m 6500ft 2000m Beam Characteristics Pulsed Infrared 4 channel Selectable Beam Frequency Automatic Synchronization Interruption Period 50 500 msec Selectable Alarm Output Form C Relay 28VDC 0 2A max Tamper Switch N C opens when cover is removed RECEIVER only Current Draw Normal operation L 75mA max transmitter receiver 50 mA max During optical alignment 145mA max Alarm Period 2sec 1 nominal N C opens when cover is removed Operating Temperature 13 F 131 F 25 C 55 Environment Humidity Alignment Angle L 30 F 131 F 35 55 C
11. NOTE Pole Mount Back Cover GO Electric Box Mounting Pitch 3 28 83 5mm Back cover 1 Optional For connections to single gang electric boxes follow intructions for wall mounting b Installation Method Lossen the cover lock screw and remove the front cover And loosen the unit base mounting screw and remove mounting plate by sliding it down against the unit base Two unit installation back to back Wall mounting Pole mounting Wiring Holes it Place U Shape brackets the top of pole And pul out the wire through the Pull out the wire through the wiring hole of the mounting Fix two U shape brackets in wiring hole on the mounting piate attach the mounting pla layers a pole two units plate and attach the plate to te to the U Shape bracket be installed back to back the wall with the screw with screw on a pole at the same height After checking optical alignment and operation check See Sec 4 3 5 3 OPTICAL ALIGNMENT replace the cover and fasten the cover lock screw tightly Connect wire to the terminals See Sec 4 1 5 1 Terminal G Conduit Installtion de Jo Conduit can be installed directly into the bottom of the unit by removing the knockout on the bottom of the cover 4 1 TERMINAL Receiver Transmitter POWER INPUT POWER INPUT t l 10 5 30VDC 10 5 30VDC s 5 COM 3 3 ALARM OUTPUT amp 4 OSARE
12. _ 4 Form 28VDC 0 2A max N C 5 SPARE 6 SPARE 7 3 8 N C m 8 Wiring Distance When using two or more units wire the maximum length is obtained dividing the wire length listed below by the number of units used Power wires should not exceed the following length MODEL 250 500 PLUS WIRE SIZE 12V DC 24V DC AWG22 0 33inm 1300 400m 7500 2300m AWG2O 0 52mr 2000 600m 12000 3600m AWGI8 0 83nr 3300 1000m 19000 5800 AWG16 1 31mm 5000 1500m 30000 9200m UL requires AX 250PLUS 500PLUS to be connected to a UL listed power supply capable of providing a norminal input of 12VDC 10 5 30VDC 50mA and battery standby time of 4 hours 4 2 WIRING 1 Set 2 Sets in the line CONTROL PANEL CONTROL PANEL T t rower T T 1 2 D 2 8 4 1 234 2 i3 TRANSMITTER RECEIVER RECEIVER TRANSMITTER TRANSMITTER RECEIVER 4 3 OPTICAL ALIGNMENT When using two or more units on wire the maximum length is obtained by dividing the maximum wire length listed below of units used Power wires should not exceed the following lengths Rough alignment by view finder gt C A Looking through the view finder locate the other detector in the center of the sights by adjusting vertically and horizontally
13. an alarm signal is generated The beam interruption time is set too long _ The intended target does not block both upper and lower beams completely OK NG muon the E VERUM wire OK 15 the control panel zone s ok The control panel may be from the and Loop Response Time set to malfunctioning the control check for short circuits on the within 1 second panel manufacturer wires NG NG NG Re wiring of the alarm circuit wire is required Replace or repair as necessary Call Technical Support Re program the Zone s Loop Response Time appropriately the lay out of the beams or call Technical Support for further advice Are there any other outdoor YES Remove power from all other beams near the installation TRANSMITTERS and conduct Site walk test 250PLUS 500PLUS y NO ____veg P Check other items Doss Beam y Which AX is used NO Y AX 350MK 1 650MK I Check other items Y AX 350MK I 650 I beams are used at the installation site select different Frequency Channels for the beams causing the interference Are there any surface between the TRANSMITTER and RECEIVER that are reflecting the beam YES Adjust vertical and or horizontal alignment in order to move the IR gt energy off the reflective surface Monitor the bea
14. Memory CONTENTS 1 PARTS IDENTIFICATION 6 BEAM INTERRUPTION 2 INSTALLATION HINTS mm Rm TIME ADJUSTMENT gt 3 INSTALLATION METHOD 7 AX 350 650MK I 4 AX 250 500PLUS 7 1 SELECTABLE BEAM FREQUENCIES 4 1 TERMINAL eene n euro nnne 7 2 MEMORY 4 2 WIRING 4 7T 3 DQ CIRCUIT 4 ALIGNMENT 7 4 RE TRANSMITTING CIRCUIT m 5 AX 350 650MK I 8 SPECIFICATIONS 5 1 nnne reru nennen 9 DIMENSIONS 5 2 WIRING 8 940 60000066000000000600000000000660006006000000 66 10 TROUBLE SHOOTING 5 3 OPTICAL ALIGNMENT me CHECK SHEET nm 1 PARTS IDENTIFICATION Mounting Plate Unit Base Front Cover Cover Lock Screw STANDARD ACCESSORIES Screws 4 20 Self tapping 8 Screws M4 30 x 8 4 Beam Blocking Tool x2 U Shaped brackets 2 INSTALLATION HINTS 1 A S C Lens AX 350 650MK I only Horizontal Alignment Screw Terminals See P4 P6 Beam Interruption Time Adjustment See P8 A M Select Switch AX 350 650MK I only Unit Base Mounting Screw Reflective Mirror View Finder Vertical Alignment S
15. a walk test at a minimum of three points the middle point between Transmitter and Receiver steps of alignment slow flicker Set the volt meter range to 5 VERTICAL ADJUSTMENT p 2 2 L 1 Vertical Adjustment Screw AS lt lt oD Turn vertical adjustment screw to get highest level ADJUST THE LOWER MIRROR After the final adjustments are made on the upper mirrors carefully do not move mirror remove the shielding tools from the lower mirrors and place them on the upper mirrors of both the transmitter and receiver Make the horizontal and vertical adjustments to the lower mirrors Excel reading on the indicator is sufficient have 5 LEDs each LED represents the level of alignment okay fast flicker better Best TRANSMITTER CONDITION LED ON TRANSMITTING BEAM OFF RETRANSMITTING CIRCUIT 15 OPERATING OR POWER 15 NOT SUPPLIED TRANSMITTER Confirm the beam alignment level by setting your volt meter to the 5 10V DC range cover either the upper or lower beam and compare the voltage reading with the following chart Check the alignment levels of the upper and lower beams separate from one another and ensure that both reach excellent as stated in the chart MONITOR JACK OUTPUT ALIGNMENT LEVEL 5 5V Over Excel 35V 55V Good 2 5V 3 5V 1 Fair _1 0V 2 5V Realign 10V Under Poor Optical Alignment for Indoor Use Obtain maximum voltage from the monit
16. receiver 2 If signal strength reads Excellent with a steady indication no further action is needed 3 If the reading is other than Excellent or fluctuates align the detectors using the procedure described in the System Setup section H Projects 7332 Task 2 Existing System Retrofit System Operations doc Page 5 Power System Lifetime expectance of the solar panels and charge controllers is 15 years and neither should require any maintenance Should the panels become dirty rinsing with water is all that is required for cleaning System battery life will vary with environmental conditions Typical life for the battery is expected to be three years However annual checks should be made using the test procedure described in the System Setup section Communications The communications system is based on the Coronis Wavelog device Wavelogs are sealed devices and no service other than replacement is possible Annual checks using the RSSI check on Main tab of Index manager should be made to ensure continued operation EF IndexManager 3 0 4 42 9 28 Using the on screen keyboard enter the device ID in the RF box Tap the RSSI button to read the signal strength from the device This value will typically range from 70 to 109 dB for een proper operation Status Connected Waveport Radio address 031a0 Quit E Reset Button As noted in the introduction reset functionality was added in June 2011
17. to avoid perching birds within the 5 path Adjust the interruption time change the installation height or move the beams in order to avoid small animals crossing the beam s path Move the beams to avoid the rising or setting sun Or swap TRANSMITTER and RECEIVER locations Call Technical Support for other options gt Remove the objects causing the reflection or move the beams Call Technical Support for other options Check for shorts opens grounds and high resistance values or the alarm circuit wires If everything looks to be OK call Technical Sup port for further testing measures Clean covers both inside and outside using a dry soft cloth or mild soap and water only Do not use any oil or alcohol based solvents to clean the covers doing so will cloud or etch the cover and reduce its efficiency Important The majority of false activations can be attributed to poor beam alignment When aligning outdoor beams accept no less than an EXCEL value for the most stable and trouble free system Refer to the installation manual for acceptable Monitor Jack Voltage Values co OPTEX CO LTD so 9001 Certified by LRQA 4 7 5 Nionohama Otsu 520 0801 0771524 6047 FAX 077 522 OPTEX AMERICA INC 1845W 205th St Torrance CA 90501 1510 TEL 310 533 1500 FAX 310 533 591 OPTEX EUROPE LTD uso Clivemont Road Cordwallis Park 628431000 FAX USA 02 Certified by
18. DEER WARNING SYSTEM OPERATING DOCUMENTATION AND SETUP June 2011 H Projects 7332 Task 2 Existing System Retrofit System Operations doc TABLE CONTENTS jo c 1 2 1 Solar Panel Oftentatlon 1 lb ceni ME 2 Sion osc se rr ncaa eee ae 2 lt SEERE 3 Power System 3 checks 4 4 Maintenance 4 JA PTS SIS 4 cu dd 4 Power SYSIEL 5 Comiti ru cud Pa a 5 5 Design Drawings and Documentation Appendices 6 A SIGN AND DETECTOR PLAN SHEETS 7 B SYSTEM PHYSICAL EOCATIONS cr be 14 PROGRAMMING KEY 16 D DETECTOR USER MANUAL 19 H Projects 7332 Task 2 Existing System Retrofit System Operations doc Page 1 1 Overview This document describes the setup and maintenance procedures for the Active Deer Warning System near Mar
19. E1060002C Zone A 091E10600023 091E1060000E 091E10600012 091E10600016 091E1060001E 091E1060001A 091E1060001D 091E10600023 091E1060000E 091E10600012 091E10600016 091E1060001E 091E1060001A 091E1060001D 091E10600006 091E10600023 091E1060000E 091E10600012 091E10600016 091E1060001E 091E1060001A 091E10600021 H Projects 7332 Task 2 Existing System Retrofit System Operations doc 091 10600006 091 10600023 091 1060000 091 10600012 091 10600016 091E1060001E 091E1060001A 091 10600021 091 10600011 091 10600006 091 10600023 091 10600021 091 10600016 190 Avenue Detector Q Zone 1 091 1060001 1 Zone 2 oste10600021 Zone 12 091 10600006 Zone 4 V Zone 13 091 10600016 091e10600023 a A Zone 6 Zone 15 091 1060001 Zone7 57 091e1060001A 091e1060000E Zone 16 Zone 8 9 9 Zone 17 091 1060001 0 Zone 10 x Active Deer Warning System Layout June 2011 H Projects 7332 Task 2 Existing System Retrofit System Operations doc APPENDIX D DETECTOR USER MANUAL H Projects 7332 Task 2 Existing System Retrofit System Operations doc INSTALLATION INSUTRUCTIONS PHOTOELECTRIC DETECTOR AX 250PLUS AX 500PLUS AX 350MK 1 AX 650MK I Please read intsructions completely before beginning installation Photoelectoric detectors detect intruders when both the upper and lower inv
20. ENVIRONMENTAL DISQUALIFICATION D Q will send a trouble signal when the beam strength is below an acceptable level due to heavy fog rain snow or other changes in the installation site The trouble signal output continues as long as the beam strength is below an acceptable level It will reset when the environmental conditions clear lt EXAMPLE gt A Trouble Output Alarm Output CONTROL PANEL oa c k cm m TRANSMITTER RECEIVER B Bypasses Alarm CONTROL PANEL De POWER 2 POWER 12 0 3 ALARM 1 ALARM NC 4 NC ri 5 qene COM 7 NC 8 Wl TRANSMITTER RECEIVER C Bypasses Alarm Trouble Output 4 CONTROL PANEL POWER 12VDC ALARM 1 NC ALARM 2 l NC trouble we wow gt x MN TRANSMITTER NOTE If the control panel s input terminals have the same common the alarm output sleep and trouble output can be triggered simultaneously 7 4 Re Transmitting Circuit The advantage of this method is elimination of wiring from a detector or switch back to the control panel NC ALARM pw CONTROL PANEL D 2 d 3 ALARM COM 3 INI PUT TRANSMITTER RECEIVER No wiring Remove the jumper shaped connector from the transmitters alarm imput terminals 3 8 and connect the N C output of the detector or switch 3 NC 3 lt ALARM INPUT AC ALARM INPUT 4 4
21. M S7BL TH plan S781 4401 dan License 22046 COMM NO 5781 FRONT AND REAR DETAILS nae prepared bj CIE MINNESOTA DEPT OF TRANSPORTATION SHEET Ir Ir X BRIAN L SCOTT PE PETERSEN SRE CONSULTING SIGN DETAIL d 5 F amp I 1 4 X 1 BOLT LOCK WASHER AND NUT INSTALL 1 1 2 NIPPLE F amp I 1 2 LIQUIDTIGHT FLEXIBLE NON METALLIC CONDUIT WITH SET da INSTALL BALL ENCLOSURE SOCKET MOUNT F amp I STAINLESS STEEL F amp I STAINLESS STEEL PIPE CLAMP CLAMP i y PIPE CLAMP CLAMP CONDUIT TO U CHANNEL CONDUIT U CHANNEL Na INSTALL 1 1 2 NIPPLE WITH 1 4 C 918 F amp I 1 2 LIQUIDTIGHT FLEXIBLE NON METALLIC CONDUIT WITH i 1 4 C 18 INSIDE NIPPLE FROM CONDUIT RUNS BETWEEN BEACON EQUIPMENT ENCLOSURE AND SIGN ENCLOSURE F amp I PEAD SCREWS F amp I 1 2 LIQUIDTIGHT FLEXIBLE b 2 HM NON METALLIC CONDUIT AND NUTS ERA s 3 EE ON F amp I 2 LIQUIDTIGHT FITTINGS e MT REDUCING WASHERS ims AND EQUIPMENT ENCLOSURE RESET BUTTON uni Fel 1 4 X 1 BOLT F amp I STAINLESS STEEL STATNLESE STEEL LOCK WASHER AND NUT CONDUIT U CHANNEL
22. O 5781 This page intentionally left blank H Projects 7332 Task 2 Existing System Retrofit System Operations doc APPENDIX SYSTEM PHYSICAL LOCATIONS H Projects 7332 Task 2 Existing System Retrofit System Operations doc Signs Shown BLUE Detectors Shown in F SRF Marshall Area Deer Warning System Layout Marshall MN H Projects 7332 Task 2 Existing System Retrofit System Operations doc CONSULTING Group Inc APPENDIX SIGN PROGRAMMING KEY H Projects 7332 Task 2 Existing System Retrofit System Operations doc Marshall Active Deer Warning System Wavelog Addresses June 1 2011 Sign 1 SB 091E10600025 Zone A Sign 2 SB 091E10600026 Zone A Sign 3 SB 091E10600028 Zone B Sign 4 SB 091E10600029 Zone B Sign 5 SB 091E1060002B Zone C 091E1060001 1 091E10600006 091E10600023 091E10600021 091E10600016 Sign 1 NB 091E10600035 Zone C 091 10600011 091 10600006 091 10600023 091 10600021 091 10600016 Sign 2 091 10600033 091 10600006 091 10600023 091 1060000 091 10600012 091 10600016 091E1060001E 091E1060001A 091E10600021 Sign 3 NB 091E10600030 Zone B 091 10600006 091 10600023 091 1060000 091 10600012 091 10600016 091E1060001E 091E1060001A 091 10600021 Sign 4 091 1060002 Zone B 091E10600023 091E1060000E 091 10600012 091 10600016 091 1060001 091 1060001 091E1060001D Sign 5 NB 091
23. TPUT Form C 28VDC 0 2A max indi NC N O SPARE COM DQ Environmental Disqualification NC Form C 28VDC 0 2A max ALARM MEMORY SPARE TAMPER N C wiring Distance Transmitter POWER INPUT 10 5 30VDC ALARM INPUT Re Transmitting SPARE U Shaped Connector CAUTION Make sure to connect the jumper U shaped connector when not using the retransimitting circuit If the jumper is not connected the Transmitter will not transmit beam Alarm condition SPARE 6 TAMPER t N C 8 When using two more units wire the maximum length is obtained dividing the wire length listed below by the number of units used Power wires should not exceed the following length MODEL WIRE SIZE AWG22 0 33mm AWG20 0 52mm AWG18 0 83mm AWG16 1 31mm AX 350 650MK I 12V DC 24V DC 650 200 5200 1600m 980 300 7800 2400 1640 500 _ 12000 3800 2600 800m 20000 6200m UL requires AX 350MK II 650MK II to be connected to a UL listed power supply capable of providing a norminal input of 12VDC 10 57 30VDC 75 and battery standby time of 4 hours 5 2 WIRING 1 set CONTROL PANEL POWER ALARM Se TRANSMITTER RECEIVER 2 Sets in the line CONTROL PANEL POWER ALARM TRANSMITTER RECEIVER RECEIVER TRANSMITTER 2 Sets Stacking PANEL gt HA
24. There are three situations where the reset button can be used to maintain the system Immediately after replacing the battery and connecting power After the system has been dormant for a period of time non operational e Ifthe PDA cannot connect to the Wavelog To use the reset function press and hold the reset button for five seconds and release No additional actions are needed and the Wavelog device will re boot in roughly ten seconds HNProjects 7332 Task 2 Existing System Retrofit System Operations doc 5 Design Drawings Documentation Appendices The following three appendices provide detailed system layout design programming and detector operation information H Projects 7332 Task 2 Existing System Retrofit System Operations doc APPENDIX SIGN AND DETECTOR PLAN SHEETS H Projects 7332 Task 2 Existing System Retrofit System Operations doc 3 00 58 PM 5 14 2009 MARIOLA ALL TRAFFIC CONTROL DEVICES SHALL CONFORM BE INSTALLED IN ACCORDANCE TO THE MINNESOTA MANUAL ON UNIFORM TRAFFIC CONTROL DEVICES MN MUTCD ACTIVE DEER WARNING SYSTEM AND PART VI FIELD MANUAL FOR TEMPORARY TRAFFIC CONTROL ZONE LAYOUTS CONSTRUCTION PLAN FOR SIGNALS AND DETECTION SYSTEM INDEX SHEET NO SHEET DESCRIPTION LOCATED ON 823 TITLE SHEET MISCELLANEOUS DETAILS CONSTRUCTION PLAN
25. UALITY LEVEL D S A P OR SPECIFICATIONS ON OTHER PROJECTS IS NOT INTENDED OR AUTHORIZED BY THE DESIGNER LIABILITY FOR THIS QUALITY LEVEL WAS DETERMINED ACCORDING TO GUIDELINES OF CI ASCE 38 02 re AE RAE UE En ER ER UR EU t n ANY RE USE ON OTHER PROJECTS IS THE RESPONSIBILITY OF THE PERSON AGENCY OR CORPORATION USING ENTITLED STANDARD GUIDELINES FOR THE COLLECTION AND DEPICTION OF EXISTING PLAN OR SPECIFICATION DATA FROM THIS PROJECT SUBSURFACE UTILITY DATA STATE PROJ mm SHEET gt mE m SHEETS h pro ects 5781 1t plan 5781 _tsh0 dgn hiSpro ectssS781 Tsplans5781 4401 dan 3 01 10 PM 5 14 2008 INSTALL SOLAR PANEL AND MOUNT TYPE A ORIENT DUE SOUTH F amp I U CHANNEL MOUNT AT 67 DEGREES 1 HOLE SPACING FROM HORIZONTAL MOUNTING HARDWARE PROVIDED INSTALL BALL AND E SOCKET MOUNT 36 DEER SIGN INSTALL L BRACKET INSTALL EQUIPMENT ENCLOSURE TYPE A 4 1 4 X 1 BOLTS LOCK WASHERS AND NUTS RESET BUTTON HEE PR F amp I 2 U BOLTS AND LOCK NUTS INSTALL 1 8 ALUMNIUM STOCK F amp I 4 3 8 X 1 BOLTS LOCK WASHERS AND NUTS F amp I U CHANNEL 1 HOLE SPACING oo0000000000000000000009 IX INPLACE U CHANNEL POST EE E E E E E E E E E E E E E E E E E E E E E E E E E E REMOVE INPLACE U CHANNEL U CHANNEL HOLE SPACING FRONT VIEW REAR VIEW EQUIPMENT INSTALLATION CHECKED BY Group Inc ACTIVE DEER WARNING SYSTE
26. an be viewed by tapping the See Events button A table will be displayed on screen with the date and time of the events This table is recorded in a first in first out fashion so that the oldest events are overwritten NOTE Due to the low data transmission rates of the Wavelog retrieving this table may take several minutes Although similar controls are presented on the Detector Tab only the on off control is functional in this version of the system This may be used to prevent detector or sign Wavelogs from accepting inputs or producing outputs 3 Testing Power System Checks Once installed the power system should be checked for proper operation To confirm that all components are operating verify the following 1 With direct sunlight measure voltage on the solar panel leads This should be 17 volts or greater 2 Measure voltage at the battery leads this should be 13 volts or greater 3 Measure voltage at the load leads on the charge controller This should be 12 14 Volts Annual checks of battery condition should also be made Disconnect the battery from the charge controller and connect a battery load tester to the battery terminals Verify that the battery reads good on the tester in the appropriate load range H Projects 7332 Task 2 Existing System Retrofit System Operations doc Page 4 Activation Checks System activation can be checked by interrupting the beam between detector station
27. bles may be too long for the gauge being used This will cause the voltage to drop Use heavier cable or use additional power supplies closer to the farthest units you are unsure of the Proper wire gauge call Technical Support the power line has been cut Remove the power wires from Power supply s output 4 terminals Measure the voltage Does the power now satisfy the requirement YES The power line is short circuited or grounded Repair as required The power supply may be malfunctioning repair is required or call power supply manufacturer 2 No Action on alarm zone even though the beams are completely blocked r 3 Alarm Indicator LED lights but control panel does not recognize the alarm signal When the RECEIVER S cover is removed and the beams are blocked the Alarm Indicator LED does not light Remove the alarm circuit wires from the RECEIVER p Check the action of the alarm output relay Does the relay open when the LED Indicator activates If the beam is interrupted at a location far from the RECEIVER no alarm signal is generated but when the beam is interrupted at a location near the RECEIVER an alarm signal generated v The RECEIVER be affected by other beam TRANSMITTERS the beams being reflected off of a shiny surface a When the mirrors of the RECEIVER are completely covered
28. but does not clear its internal memory so programming remains intact Push buttons were added to the enclosures that activate the Wavelog s reset feature 2 System Setup Solar Panel Orientation devices in the system are powered by 12 volt batteries recharged by solar panels Other than connecting the leads for batteries and panels to the charge controller the only adjustment to be made is panel orientation Panels should always face south to maximize the amount of solar radiation absorbed by the panel Because of the latitude of the system near Marshall panels should be angled so that they are perpendicular to the sun s rays when it is at its seasonal low in late December In Marshall MN the proper angle is approximately 62 degrees below horizontal This orientation is shown in Figure 1 Horizontal 62 degrees South H Projects 7332 Task 2 Existing System Retrofit System Operations doc Page 2 Detectors Proper alignment of detectors is critical for two reasons First poorly aligned detectors are more prone to false positive activations which undermine the credibility of the system and if excessive may cause failures in other system components Second as signal conditions between the detectors deteriorate the system will attempt to compensate by increasing the transmission power If this occurs during low power input times during winter overcast days for example th
29. crew LED Indicator See P7 AX 350 650MK only Beam Frequency Select Switch See 350 650 I only Monitor Jack See P5 P7 Unit Base Mounting Screw Unit Base Do not install the unit where falling leaves or seasonal growth of branches will block the beam i Prevent direct sunlight from entering into internal optics The mounting pole should solid footing with little movement at the top of the pole Avoid aerial wiring For indoor applications wiring is similar to the installation of a telephone or intercom For outdoor wiring apply Wire Conduit as far as possible Some sites will require shielded cables or underground wiring work 3 INSTALLATION METHOD H a General 1 Detection range and installation height Maximum distances between Receiver and Transmitter are listed below AX 250PLUS 250ft 75m Max AX 500PLUS 008 150m AX 350MK 1 350ft 100m AX 650MK I 650ft 200m and the installation height should at 27 40 0 7 1 D Alignment angle Horizontally Vertically 180 90 20 10 3 Pole mounting Pole size should be as follows 13 8 1 7 8 O D 34 48mm Standard U S 1 1 4 or 1 1 2 pipe The length of the wiring cable out of the pole should be within 20 inches 60cm Face transmitter and receiver towards each other when pole mounting
30. e battery reserves may be depleted resulting in erratic system behavior The alignment process for the detectors is described in the device manual provided in Appendix D The following points should be considered when reviewing this material 1 The process will generally require two people to complete one at the transmit detector and one at the receiver 2 Since signal strength can only be measured at the receiver site a method of communication such as walkie talkies should be used by the alignment team 3 Transmitter alignment should be performed first first upper then lower beams 4 Although beam blocking cut outs are provided in the manuals to isolate the upper and lower beams for alignment consider using these as a template to make a cut out of a more durable material such as cardboard or foam core The paper cut outs tend to tear and have difficulty staying attached to the emitter 5 When securing the covers DO NOT over tighten the small screw at the bottom Use a precision type screwdriver to tighten the screw enough to keep the cover in place Over tightening will result in stripped screw heads and make servicing more difficult 6 Annual checks should be made of detector alignment Sign Programming AJ 3 04 22 4 9 30 Programming of the sign is accomplished s s through the IndexManager application This software is designed to run on an associated Detector ID HP Compaq IPaq or c
31. isible infrared beams are simultaneously broken Maximum detection range between Transmitter and Receiver for the AX 250PLUS is 250ft 75m the AX 500PLUS is 500ft 150m and for the 350 MK I is 350ft 100m the AX 650MK I is 650ft 200m FEATURES Beam interruption time adjustment This function allows you to select the suitable beam interruption time for any environment Anti Frost Structure Prevents fog and condensation from blocking the beams Alignment level monitor jack Can easily obtain maximum optical alignment by checking the voltage from this jack Form C relay Form C relay for more applications Tamper N C Opens when cover is removed Option Heating unit HU 1 Back cover BC 1 AX Beam Tower AX BT UL Listed AX 350MK 1 AX 650MK 1 ONLY LED indicator for fine beam alignment level The optical alignment level can be checked at both the Receiver and Trasmitter One man beam alignment is easily achieved Selectable beam frequencies Crosstalk is eliminated with 4 channel selectable beam frequencies Used when stacking beams or for long range applications Re Transmit Circuit The advantage of this method is the elimination of wiring from a detector or switch back to the control panel D QCircuit Environmental Disqualification The environmental compensation circuit is designed to eliminate false alarms caused snow fog heavy rain ice and misalignment Alarm
32. m strength Monitor Jack while adjusting beam to insure stable alignment NO 4 Check other items Remove the alarm circuit wire from the RECEIVER place your volt gt meter on resistance and measure the alarm output relay Does the relay open when power is removed NO Map Call Technical rt i YES The unit may be affected by electrical noise May need to use shielded wire and or metalic conduit pipe Call Technical Support if you are unsure of the proper shielding techniques gt Turn the interruption time adjustment dial counter clockwise graduation Does the RECEIVER work when both upper and lower beams are completely blocked If so the installation height is not proper Adjust the installation height 11 M LUJCULO V SIL M UDN amp IJ INCL UJUNI YOLCITL UCT ULUUTLO UC 12 3 Alarm signal is being generated though beams are not blocked Refer to the following Monitor Jack Remove the alarm circuit 1 Output is in alarm condition Call Technical Support Check the alarm circuit wires for gt Shorts opens or grounds Also check the control panel for proper function Output is in the normal condition NG YES OK Does the Unit work properly H Completed 4 Call Technical Support Output valnes to insure the beams OK wire from the RECEIVER properly aligned then check the alarm output relay with volt r
33. ompatible device not 091 06680025 Oor supplied part of the system Done WavePort Compact Flash card must sitos inserted into the IPaq s CF slot or into the Beacon Duration slot on a compatible IPaq sleeve with an appropriate slot To access the sign s Wavelog scroll to the Sion Dataloggi Detector Si Sign tab on the bottom of the 22228 ign Status Connected E Quit HNProjects 7332 Task 2 Existing System Retrofit System Operations doc Page 3 Index Manager interface The sign programming tab is shown in Figure 2 Input the sign Wavelog s ID into the box at the upper left using the on screen keyboard tap the icon at the lower right to access the keyboard Once you have entered the ID tap Read Config to verify that you can communicate to the device To add a detector to the sign s Associated Detector list enter the ID into the box below the list and tap Add Detectors may be removed from the list by selecting them and tapping Remove No changes will be written to the Wavelog s memory until Set Config it tapped Once programming changes are made the Set Values OK dialog will appear The duration of the sign s flashing is set using the Beacon Duration box Enter the value in seconds into this box using the on screen keyboard and tap Set Values to save the change The most recent 100 activations of the sign c
34. or at least more than 3 4V 6 BEAM INTERRUPTION TIME ADJUSTMENT The beam interruption time adjustment is on Receiver unit This function allows you to match the units sensitivity to its surroundings Slower settings reduce sensitivity gt gt A res x Kazi E Lan T NN sec 100m sec 200m sec 350m sec 500m gt n sec AG CAUTION Speeds shown above the maximum detectable speeds for each setting Faster speeds will not be detected Where birds newspapers or flying debris can occasionally interrupt the beam adjust setting to a slower speed longer interruption period Beam interruption times exceeding 70 msec do not comply with the requirements in UL639 Intrusion Detection Units 7 350 650MK I 7 1 SELECTABLE BEAM FREQUENCIES BEAM FREQUENCY The selectable beam frequencies can be used to avoid unwanted crosstalk that can occur when using multiple photobeams for long SELECT SWITCH distance or beam stacking applications select between 4 separate beam frequencies use the switch provided 1234 Make sure the receiver and transmitter that are facing each other are set to the same code IMPORTANT Always switch the frequencies TWO channels apart when stacking units on top of one another See following example The upper unit is set on channel 1 while the lower is channel 3 channel 2 and 4 could have also been used
35. ote Beam Alignment Procedure When aligning dual or twin beams you must cover both bottom receiver mirror and transmitter mirror with blocking shields than adjust the top attempting to maximize the Monitor Jack Voltage see below When maximum voltage is obtained place the blocking shields on both upper receiver mirror and transmitter mirror and adjust lower for maximum Monitor Jack Voltage Do not align both beams simultaneously AX 250PLUS 500PLUS 5 0VDC or more AX 350MK 1 650MK I 5 5VDC or more When using LED INDICATOR of AX 350MK I 650MK I align to get at least EXCEL NOTE This unit is designed to detect an intruder and activate an alarm control panel Being only a part of a complete system we cannot accept resposibility for any damages or other consequences resulting from an intrusion No 0711 9603 17 00 01 59 0711 4 1 The units may be detecting small animals dog cat deer etc OK Double check to see that there are no objects that may be blocking the beams Remove any objects or move the gt beams NG Go to page 1 see trouble shooting procedure number 1 3 YES 4 False activations Use the HU 1 heater unit the beam s interruption adjustment clockwise one graduation gt Cut off branches now grass or secure debris to avoid unnecessary activation Or move the beams Adjust the interruption time change the installation height or move the beams in order
36. rizontal Alignment Screw 2 R 3 Vertical Alignment x Screw X LS LE gt Adjust the vertical alignment Adjust the vertical alignment screw to obtain the maximum screw to obtain the maximum voltage from the monitor jack voitage from the monitor jack After the vertical and horizontal adjustment are made recheck the voltage from monitor jack is over 5 0V If not adjust the optical alignment again SENSITIVITY CHART ALIGNMENT T LEVEL Realign Fair GOOD EXCELLENT rr JACK 2 C sov t Optical Alignment for Indoor Use Obtain maximum voltage from the monitor jack at least than 2 2V Carefully remove the Beam Blocking Tool from the upper mirror of both Transmitter and Receiver also check the voltage from the monitor jack again Then check again that the voltage from monitor jack is more than about 5 0 V If not adjust the optical alignment again Check that the operation indicator ALARM CONDITION LED light is OFF If the indicator light is ON even though the beams are not blocked re adjust the optical alignment and check After alignment is achieved and the units work properly conduct a walk test at a minimum of three points the middle point between Transmitter and Receiver 5 AX 350 650MK I 5 1 TERMINAL 1 POWER INPUT t 10 5 30VDC COM ALARM OU
37. s If a comprehensive check of all detectors and signs is to be performed the following procedure is recommended 1 Position one person at each end of the system 2 Access the Wavelog for each of the signs and set its beacon duration to 5 seconds to minimize the time needed between testing each detection zone 3 Interrupt the beam at each detector site 4 Observe the operation of each sign 5 When complete reset the beacon duration at each sign to the desired flash duration 4 Maintenance Environment The area between detectors must be kept free of obstructions for the system to operate properly The primary concern will be grass or other vegetation growth that may interfere with the infrared beams The installation area should be monitored on a monthly basis during the growing season The need for mowing will vary based on weather vegetation type and other conditions but mowing will generally be needed every six to eight weeks Proper exposure of the solar panels is also important to system operation Tree growth should be monitored in the area and where possible trimmed to maximize the hours of sunlight that the system will receive Detector Alignment Wind induced vibration or other debris impacts may cause detector alignment to drift over time requiring periodic adjustment While this should not be needed in most cases annual checks are recommended using the following procedure 1 Remove the outer cover of the detector
38. shall MN In some cases it is necessary to refer to the documentation provided by individual device manufacturers for specific procedures Manuals for these devices have been provided to Mn DOT District personnel The detector manual is also included in this document as it requires periodic maintenance checks The Deer Warning System consists of two subsystems detector stations and signs The detector stations are placed along the roadside at distances of approximately 150 to 400 feet depending on terrain conditions Pairs of infrared beams are emitted by the detectors and both must be broken for a detection event to occur When an animal is detected a communications device connected to the detector receiver broadcasts a unique identifier over a 915 MHz radio network The sign subsystems receive the identifier and then search a programmable list stored on another communications device If the identifier is found it will then output a voltage to a 12 volt relay which directs power to the LED beacon The duration of beacon flash and the list of associated detectors for each sign is user programmable through a software application Note in June 2011 all the system s communication devices called Wavelogs were replaced with a version that draws power from the system s large 12 volt battery rather than a battery internal to the Wavelog These new Wavelogs also added the capability to soft reset the device This reset restarts the device
39. t easy Checking From The Monitor Jack i LY After adjusting with the LED indicators check the voltage at the monitor jack output using your meter This will insure proper beam alignment Confirmation Gin front of the Transmitter Gin front of the Receiver HORIZONTAL ADJUSTMENT Fine Adjustment Screw lens holizontally and vertically Turn mirror base by hand to obtain the highest alignment level Make fine adjustment by turning Fine Adjustment Screw ADJUST THE UPPER MIRROR i gt uU Aa t 0 D Attach the Beam Blocking to the lower mirror on both the transmitter and receiver Adjust the upper mirror Excel reading on the LED indicator is sufficient alignment level indicato ranging from poor Each LED will indicat tinuously be Providing 15 graduated stages t S F ALARM C ON LED ALARM CONDITION OFF RECEIVING BEAM OR POWER IS NOT SUPPLIED ALARAM MEMORY RECEIVER ER RN TU Connect the volt meter probes to monitor jack and volt meter probes to monitor jack 10 VDC Check that the operation indicator ALARM CONDITION LED light is OFF the indicator light is ON even thought the beams are not blocked re adjust the optical alignment and check wiring See Sec 5 3 O Atter alignment is achieved and the units work properly conduct
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