crx-501 crx-510 crx-502 crx-520 control receiver installation and
Contents
1. 2 E ON SONDMIOS 00800 Rm M 1 2 PIN LER Q 2 Y a mU 3 gt us T 1 a MEM 190 du 8 am nit nr nl 0 NH X 0 0 m 0 11 1 k lt Aij UT 0 X DO B b sue NOOZ 57004 t N org m a 9 0 Z 0 m 819 jaf 610 00 su 9 F 2 0 9 2 5 K2 NO NC E 3l 4 al ef 0 al m4 K1 we s s s oe a 41 AR J1 1 a 1 808 D 12 wees Qs Q4 Q5 e E J gt c Wai 95 151858 0 NZ 004 NOD 10H QUOND C J2 Figure 3 1 Mother Board Indicators2. Lens Functions Speed Control DIP Switch S1 Receiver Camera Address 1 250 Slee ES 1 04 i 51 3r T ui 5 mo g 48 1 con He 8 co Jumper W4 LL 5 8 eo E US EQ s a IN Terminate Receive n OUT Unterminate Receive a Ei d 15 8 8 8 1 5 asZe6 E B Ze 2 1 ape 13 wi2 42 gt 415071 2 i s 82 52 n a lt 0 5 58 5 104 BBBBHBHB x aal 0 2 INTGonnects Shield UE 8 cs to Ground 28
3. 2 32 Installation CRX 510 220 X Pan amp Tilt Receiver NEMA 4 Outdoor 220 Vac Input 220 Vac Pan amp Tilt D N 517584 9440 2 33 Installation CRX 502 Pan amp Tilt Receiver NEMA 1 Indoor DIN 517588 1440 2 34 Installation CRX 502 220 X Pan amp Tilt Receiver NEMA 1 Indoor DN 517 588 944 2 2255 rr 2 35 Installation CRX 520 Pan amp Tilt Receiver NEMA 4 Outdoor D N 517588 5440 2 36 2 29 2 30 RONICS T DIAM ELEC DIAMOND ELECTRONICS DIAMOND ELECTRONICS
4. 3 2 Figure 3 2 Expansion Board Indicators 3 4 Figure A 1 TYPICAL INSTALLATION FOR CRX 500 SERIES RECEIVER WITH OPTION B1 OR B2 INSTALLED A 2 Figure A 2 OPTION B1 OR B2 A 4 LIST OF DRAWINGS Installation CRX 501 Pan amp Tilt Receiver NEMA 1 Indoor D N 517584 1440 2 31 Installation CRX 510 Pan amp Tilt Receiver NEMA 4 Outdoor D N 517584 5440 2 32 Installation CRX 510 220 X Pan amp Tilt Receiver NEMA 4 Outdoor 220 Vac Input 220 Vac Pan 8 Tilt D N 517584 9440 2 33 Installation CRX 502 amp Tilt Receiver NEMA 1 Indoor D N 517588 1440 2 34 Installation CRX 502 220 X Pan amp Tilt Receiver NEMA 1 Indoor D N 517598 9440 a 2 35 Installation CRX 520 Pan amp Tilt Receiver NEMA 4 Outdoor D N 517588 5440 2 36 LIST OF TABLES Table 2 1 CAMERA NUMBERS eene eene nnne 2 11 Table 2 2 CRX 500 RECEIVER TO PAN AND TILT 2 24 1 1 SECTION 1 INTRODUCTION GENERAL The Model CRX 500 Series Control Receivers are microprocessor based receivers for driving conventional pan and tilt units These units are ideal for CCTV surveillance systems having multiple cameras multiple monitors and multiple control stations These units al
5. F1 F2 n n te S r C IRIS OUT ZM FOCCOM CAMERA LEFT UP RT DWN COM 365 4 6 o RV2 RV5 3 a 01 i 52 51 A ge m z o 1 R16 9 5 Oo U6 ooo 817 x K2 X K5 nn US 2 2 5 2627 ood SINS e 9 T T L sa E parl 013 3 013 4 EE 18 C16 C17 uz e R9 w6 n LR8 5 s 1 C15 Ex jcsb 404 c22 87 IRIS R11 R14 10 ZOOM FOCUS 13 2 4 6 2 07 014 C13 m U3 U4 Seok aks Ti O ele U12 PX 8 4 09 U11 B 1 D3 GROUND x 7 3 T MADE IN USA ALL RIGHTS RESERVED COPYRIGHT DIAMOND ELECTRONICS INC CIRCUIT PAN amp TILT J1 n ASSEMBLY NO 517482 1040 Figure 3 2 Expansion Board Indicators 3 4 G EXPANSION BOARD INDICATORS Part Number 517482 1040 LED D1 This LED is lit when good control data is being received Note The mother board only sends data to the expansion board if the data contains the address of the expansion board LED 014 This LED flashes when the TILT DOWN function is activated LED D13 This LED flashes when the PAN RIGHT function is a
6. 501 50 502 520 CONTROL RECEIVER INSTALLATION AND OPERATION MANUAL MANUAL NUMBER 517584 1960 Ultrak Inc 4465 Coonpath Road Carroll OH 43112 740 756 9222e 800 443 6681eFAX 740 756 4237 ULTRAK 1999 BY ULTRAK INC ALL RIGHTS RESERVED PRINTED IN THE UNITED STATES OF AMERICA ULTRAK INCORPORATED 4465 COONPATH ROAD CARROLL OHIO 43112 740 756 9222 ALL RIGHTS RESERVED NO PART OF THIS PUBLICATION MAY BE REPRODUCED BY ANY MEANS WITHOUT WRITTEN PERMISSION FROM ULTRAK INCORPORATED THE INFORMATION IN THIS PUBLICATION IS BELIEVED TO BE ACCURATE IN ALL RESPECTS HOWEVER ULTRAK INCORPORATED CANNOT ASSUME RESPONSIBILITY FOR ANY CONSEQUENCES RESULTING FROM THE USE THEREOF THE INFORMATION CONTAINED HEREIN IS SUBJECT TO CHANGE WITHOUT NOTICE REVISIONS OR NEW EDITIONS TO THIS PUBLICATION MAY BE ISSUED TO INCORPORATE SUCH CHANGES Issue 1 Revision A April 1995 Added Appendix A for installing a CRX 500 Series Receiver with Option B1 or Option B2 installed Issue 1 Revision B October 1995 Added data and drawings for CRX 502 220 X Control Receivers for 220 Vac pan and tilts Issue 1 Revision C November 1995 Corrected LED indicators for the expansion board Issue 1 Revision D November 1995 Corrected Figure 3 2 to match changed text in Revision C Issue 1 Revision E February 1996 Added table for lens zoom focus and common connections changed Table 2 1 on page 2
7. DIAMOND ELECTRONICS 3 1 3 2 SECTION 3 OPERATION GENERAL This section describes the controls and indicators on the receiver and the operation of the CRX 501 and CRX 502 receiver CONTROLS AND INDICATORS The only controls on the receivers are described in the setup procedures in Section 2 The operational indicators are shown in Figures 3 1 and 3 2 A description of each indicator follows the figures Figure 3 1 shows the mother board assembly and Figure 3 2 shows the expansion board assembly 3 1 87 1187 3 E 0 s 9 n 7 m 0 5 Dl m 2 0 0 w 1 gt 5 DOWN fia 2 9 0 0 tz Y 0 m 1 9 a 4 PAN RIGHT 3 0 5 JE 4 E M 1 p lx 4 0 0 E 3 E 2 ro 3 TILT UP 18118 ON 1808897 98 5 8 mam 7 lt RES i 010 0 Y
8. VIDEO SIGNAL 1 VIDEO SIGNAL MONITOR 1 CATS VIDEO SWITCHER mili MONITOR 2 RS4e2 DATA ZOOM 598 CAMERA 1 CRX 50 TRANSMITTER RECEIV O MONITOR 3 0 0 MONITOR 4 120 OR 220 VAC RS422 DATA y CAMERA POWER PAN amp TILT FUNCTIONS pan amp TILT LENS FUNCTIONS RECEIV CRX 502 ER 200 120 OR 220 VAC CAMERA POWER CAMERA 2 PAN amp TILT n PAN amp TILT LENS FUNCTIONS ZOOM CAMERA POWER uss CAMERA 3 amp PAN amp TILT FUNCTIONS LENS FUNCTIONS Figure 2 5 SYSTEM WITH MULTIPLE RECEIVERS AND VIDEO SWITCHER 2 7 1 RS 422 Communication Connections The CRX 500 Series Control Receivers can receive control data from any of Diamond Electronics control equipment that outputs RS 422 control data at 9600 baud The communications wiring is the same for all models of the Control Receivers e Model CTX 800 Transmitter e Model JAD 832 Joystick Controller e Model JPD 101 Joystick Controller e CATS Video Switcher e MUX 05 Multiplexer required for multiple JAD 832 control st
9. LL ul uu uu ua Letitia 2 10 2 5 4 TERMINATE RECEIVE COMMUNICATIONS 2 13 2 5 5 LENS ZOOM FOCUS AND IRIS SPEED CONTROL SETUP 2 13 255 AUXILIARY CONTACT SETUP a i ps 2 14 257 IRIS DRIVE VOLTAGE muu p nee ha 2 15 26 CABLING REQUIREMENTS 2 15 2 6 1 RS422 COMMUNICATION CABLE nnne 2 15 2 6 2 POWER INPUT PAN AND TILT CONTROL LENS CONTROL AND CAMERA POWER CABLE tie daz asua aun etude icd bad ne dieu eid eee eee tl 2 15 2 INSTALLATION Zur uei nunus a eee ees 2 16 2 7 1 RS 422 COMMUNICATION CONNECTIONS 2 20 TABLE OF CONTENTS CONT Page 2 7 1 1 Daisy Chain Wiring 2 21 24 2 POWERCONNEGTION S u iris irr bi b 2 22 2 7 3 PAN AND TILT CONNECTIONS 2 22 CAMERA POWER xoc n DEO DN a asas A 2 24 2 7 5 LENS CONNECTIONS coke ano ees 2 25 5 2 26 2 7 5 2 Motorized Manual Iris Lens 2 26 2 7 5 3 Selectable Auto Manualllris 2 27 2 7 6 AUXILIARY
10. 11 x RNZ amp 15 T a 106 8 fue 5 TT 03 ug E20 B T Q4 wH RE F e RTSH H zs LRZ 2 07 Q p 12 amp 3 26 pe Jora Jor 14 p8 06 Camera Power 09 L wo we I aA Ja 17 1 12 vde 3 5 1243 GND 010 519 15 ea SP 2 n2 08 1 24 Vac 1 s 24V s 1 24 lt Rise at 11 Alc 2111 RE u2 ole ou Input z mL Power Fuse F1 120V Ta n nn 220V 1 2 ix Uis AUX o CIRCUIT BD 5 Pal EXP 1 jo H LI 6 6 OW 900 Input Fuse F2 t B d B Power w o w HTR 8 Oeo D17 D16 D15 014 120V 1 1 1 2 D D 1 1 1 1 E lio ko e 220V 1 2A 1 1 4 wid NT 8 LB 1 4 1 1 2z T ka jmi TRS m Tk gt E 2 LE ERU aL RV2 RVS RV4 RVS IN Supplies 120 220 ta AUX 1 NO NC C NO NC C AC COM LEFT UP RT DWN COM AUX GROUND TB3 PAN amp TILT TB2 6V_ to 12V Focus Zoom Iris R11 R5 Jumper W11 IN Supplies 120 220 Vac to AUX 2 Figure 2 1 MOTHER BOARD PART NUMBER 517484 X040 2 6 Lens Functions Speed Control 6V to 12V MODELS CRX 502 AND C
11. 23 to Table 2 2 Issue 1 Revision F April 1996 Added Model CRX 510 220 X Issue 1 Revision G April 1996 Added CE Warning and Declaration Note As of 1 1 97 this product does not meet CE requirements Issue 1 Revision H August 1996 updated installationd drawings 517584 1440 and 517588 1440 Issue 1 Revision July 1997 added note for addressing unit for controlling auxiliary contacts and updated controller manual numbers Issue 1 Revision J July 1997 added cross reference for current model numbers Issue 1 Revision K August 1998 added note for ground connection for pan and tilt unit ECR 11478 and changed coaxial cable distance for UCT option from lt 1500 feet to lt 800 feet WARNING THIS IS A CLASS A PRODUCT IN A DOMESTIC ENVIRONMENT THIS PRODUCT MAY CAUSE RADIO INTERFERENCE IN WHICH CASE THE USER MAY BE REQUIRED TO TAKE ADEQUATE MEASURES NOTE 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 Is Likely To C
12. 5 24 24 Input Power F2 120V TA 220V 1 2A o 8 010 Oe T I Lit zm 9 x 2 TTL 9 FTD X n DIA s W7 218 req RZE fol Ale gt 05 DA 101 RIS 5 2 E a pal 5 all a Po ARIF Ba EI a 1818 m cist aj 2 5 5 SN ARH z R20 feist 2 5 a N ARA 4 4 2 b a 420 2 8 241 lez 2 2 9 amp Om 5 5 3 K ER 5 M 2 7 Figure 2 2 EXPANSION BOARD PART NUMBER 517482 1040 2 5 1 120 Vac or 220 Vac Input Power The input power for the control receiver is configured at the factory There is no setup on the mother board for input power However Model CRX 502 and CRX 520 Receivers have an expansion board that has jumpers that must be in the correct positions for 120 Vac or 220 Vac input power WARNING ENSURE POWER IS DISCONNECTED FROM THE CONTROL RECEIVER PERSONNEL INJURY COULD RESULT FROM ELECTRICAL SHOCK Model CRX 502 Expansion Board and CRX 520 Jumpers 120 Vac 220 Vac Out 2 8 2 5 2 Camera Power Setup The Control Receivers provide camera power for 12 Vdc or 24 Vac 0 5 Amp max cameras The camera power is setup on the mother board for the CRX 501 and CRX 510 If Model CRX 502 or CRX 520 Receivers are ins
13. FUNCTIONS 2 27 2 8 INSTALLATION DRAWINGS 2 29 SECTION 3 OPERATION 3 1 MEME CI lo c 3 1 3 2 CONTROLS AND INDICATORS 3 1 375 OPERATINGPROGCEDURES Jaana Apu une tu e Ar ect Ep ds 3 6 SECTION 4 MAINTENANCE 1 u 4 1 41 2 lt lt aedis e 4 1 42 MAINTENANCE PROCEDURES 4 1 APPENDIX A DATA RECEIVER BOARD A 1 Ad GENERAU 1 AZ ANSTALENTION Sunqu u n u aa A 1 LIST OF FIGURES Page Figure 2 1 MOTHER BOARD PART NUMBER 517484 X040 2 6 Figure 2 2 EXPANSION BOARD PART NUMBER 517482 1040 2 7 Figure 2 3 MODEL CRX 501 BASIC SYSTEM BLOCK 2 17 Figure 2 4 MODEL CRX 502 BASIC SYSTEM BLOCK 2 18 LIST OF FIGURES CONT Page Figure 2 5 SYSTEM WITH MULTIPLE RECEIVERS AND VIDEO SWITCHER 2 19 Figure 3 1 Mother Board Indicators
14. IRIS Drive side of the lens iris motor Terminal 6 LENS Drive side of the lens ALC output Terminal 7 LENS OUT side of the lens ALC output Auxiliary Functions All models of receivers have two contact outputs for controlling auxiliary devices The contact outputs are latched contacts that can be configured as normally open or normally closed 2 27 CAUTION When using the control receiver to provide power through the auxiliary contacts the maximum current available is 0 25 Amp per auxiliary contact Run site specific cabling from terminal strip TB3 to auxiliary equipment as follows NOTE The Form C Relays for the auxiliary contacts are rated at 6 amps AUX 1 TB3 terminal 1 AUX 1 NO Normally open relay contact TB3 terminal 2 AUX 1 NC Normally closed relay contact TB3 terminal 3 AUX 1 C Common TB3 terminal 7 AC Common AUX 2 TB3 terminal 4 AUX 2 NO Normally open relay contact TB3 terminal 5 AUX 2 NC Normally closed relay contact TB3 terminal 6 AUX 2 C Common TB3 terminal 8 AC Common 2 28 INSTALLATION DRAWINGS The following drawings show installation data for each configuration of the Control Receiver Drawing Page Installation CRX 501 Pan amp Tilt Receiver NEMA 1 Indoor DIN 517584 1440 2 31 Installation CRX 510 Pan amp Tilt Receiver NEMA 4 Outdoor D N 517584 5440
15. MOTHER BOARD INDICATORS Part Number 517484 1 LED D1 This LED flashes differently to show the status of the data being received No of Flashes 1 No data being received 2 Bad data error or Good data received but does not contain the address of the mother board 3 Good data received with the address of the mother board LED 017 This LED flashes when pan left function is activated LED 016 This LED flashes when the tilt up function is activated LED D15 This LED flashes when the pan right function is activated LED D14 This LED flashes when the tilt down function is activated 3 3 LJP WN PAN RIGHI TILT
16. between the pan and tilt unit and the receiver TB2 terminal 1 Pan Left TB2 terminal 2 Tilt Up TB2 terminal 3 Pan Right TB2 terminal 4 Tilt Down TB2 terminal 5 Pan amp Tilt Common NOTE ground connection is required for the pan and tilt unit the mounting screw on the board next to terminal strip TB2 may be used as a ground connection The only models that can drive a 220 Vac pan and tilt are the CRX 510 220 X and 502 220 2 23 Pan Tilt Voltage Table 2 2 CRX 500 RECEIVER TO PAN AND TILT UNIT Start Current Run Current 20 AWG Distance 18 AWG Distance 16 AWG Distance 120 Vac 0 27 0 18 1300 Ft 2200 Ft 3500 Ft 24 Vac 1 35A 0 90 A 275 Ft 440 Ft 700 Ft 220 Vac 0 13 0 09A 2600 Ft 4400 Ft 7000 Ft 2 7 4 Camera Power The CRX 500 Series Receivers provide selectable 12 Vdc or 24 Vac camera power at 0 5 Amp max Models CRX 501 and CRX 510 Models CRX 502 and CRX 520 provide power for two cameras Model CRX 502 and CRX 520 Receivers have two boards in the chassis a mother board and an expansion board Both boards have terminal block TB1 Connect one camera to TB1 on the mother board and the other camera to TB1 on the expansion board provide power for one camera NOTE Make sure the camera lens and pan and tilt for each unit are all connected to the same board in the CRX 502 or CRX 520 Receiver The camera power is connected at termi
17. is discussed in the UCT 100 Data Transmitter manual A 4
18. labeled for the required power The power connections are the same for all models of control receivers CAUTION Make Sure the Power Source And The CRX 500 Receiver Power Requirements Are The Same Or Equipment Damage May Occur Run site specific cabling from an AC source to terminal strip TB4 Power Source CRX 500 Receiver 120 220 Vac Hot to TB4 Terminal 1 HOT Ground TB4 Terminal 2 GND 120 220 Vac NEUT TB4 Terminal 3 NEUT 2 7 3 Pan and Tilt Connections CAUTION Verify The Pan And Tilt Output Voltage Of The CRX 500 Unit And The Input Voltage Required For The Pan And Tilt Unit Are The Same Before Making Connections The CRX 500 Control Receiver units are for either 120 Vac pan and tilt units 220 Vac pan and tilt units or 24 Vac pan and tilt units Check the label on the inside cover of the CRX 500 unit for the pan and tilt output voltage Models CRX 501 and CRX 510 Receivers control one pan and tilt unit The pan and tilt connections are made at terminal block TB2 Models CRX 502 and CRX 520 Receivers control two pan and tilt units These models have two boards in the chassis a mother board and an expansion board Both boards have terminal block TB2 Connect one pan and tilt to TB2 on the mother board and the other pan and tilt to TB2 on the expansion board Run site specific cabling from terminal strip TB2 to the pan and tilt unit Use Table 2 1 to determine the gauge wire required for the distance
19. 2 6 1 RG 59 Coaxial Cable P N 849518 0054 with BNC connectors on both ends is required from each CRX 500 Series Unit to the UCT 100 Data Transmitter RG 59 Coaxial Cable is for runs less than 800 feet 2 The RS 422 Communication Connections described in paragraph 2 7 1 are not done The RS 422 control data is transmitted over the coaxial cable Perform the following procedure to connect the video coaxial cables Refer to Figure A 2 1 Connect the video from the camera to the Video Input on the CRX 500 Series Unit using RG 59 cable with BNC connectors on both ends NOTE Ifthe CRX 502 or CRX 520 units are installed make sure the camera and the pan and tilt unit are connected to the same board A 3 Camera CRX 510 with Option B1 RG 59 COAX CABLE WITH BNC CONNECTORS BOTH ENDS 9600000990000202909 14 12 10 POWER 000000068 ie VIDEO OUTPUTS UCT 100 DATA TRANSMITTER UNIT Figure A 2 OPTION B1 OR B2 INSTALLATION Connect the VIDEO OUT on the CRX 500 Unit to the Video Input on the UCT 100 Data Transmitter Unit If the CRX 500 unit is addressed 1 connect to video input 1 if the CRX 500 unit is addressed 5 connect to video input 5 etc Refer to the UCT 100 Data Transmitter Manual for installing the UCT 100 Data Transmitter Note The CRX 500 Units can be placed wherever a dome
20. 517584 1040 CRX 501 A and Tilt Indoor Applications CRX 501 24 or 120 Vac Power Input 24 Vac Pan 517584 2040 CRX 501 B and Tilt Indoor Applications CRX 501 X or 220 Vac Power Input 120 Vac Pan 517584 3040 CRX 501 A X and Tilt Indoor Applications CRX 501 24 X 220 Vac Power 24 Vac Pan and 517584 4040 CRX 501 B X Indoor Applications The only models that can drive a 220 Vac pan and tilt unit are CRX 510 220 X and CRX 502 220 X 1 2 Model Description Part Number CRX 510 or 120 Vac Power Input 120 Vac Pan 517584 5040 CRX 510A and Tilt Outdoor Applications CRX 510 24 or 120 Vac Power Input 24 Vac Pan 517584 6040 CRX 510 B and Tilt Outdoor Applications CRX 510 X or 220 Vac Power Input 120 Vac Pan 517584 7040 CRX 510 A X and Tilt Outdoor Applications CRX 510 24 X 220 Vac Power Input 24 Vac Pan 517584 8040 or CRX 510 B X and Tilt Outdoor Applications CRX 510 220 X 220 Vac Power Input 220 Vac Pan 517584 9040 an d Tilt Outdoor Applications CRX 502 or 120 Vac Power Input 120 Vac Pan 517588 1040 CRX 502 A and Tilt Indoor Applications CRX 502 24 or 120 Vac Power Input 24 Vac Pan 517588 2040 CRX 502 B and Tilt Indoor Applications CRX 502 X or 220 Vac Power Input 120 Vac Pan 517588 3040 CRX 502 A X and Tilt Indoor Applications CRX 502 24 X 220 Vac Power Input 24 Vac Pan 517588 4040 or CRX 502 B X and Tilt Indoor Applications CRX 502 220 X 220 Vac Power Input 220 Vac P
21. NEMA 1 15 Ibs 6 8 kgs Model CRX 510 NEMA 4 17 lbs 7 7 kgs Model CRX 502 NEMA 1 24 Ibs 10 9 kgs Model CRX 520 NEMA 4 28 Ibs 12 7 kgs Outdoor NEMA 4 14 Gauge Steel Indoor NEMA 1 16 Gauge Steel Gray 1 6 SECTION 2 SETUP AND INSTALLATION 21 GENERAL This section describes the handling procedures customer cabling requirements setup procedures and the installation procedures for the CRX 500 Series Control Receivers 22 SITE PREPARATION 2 2 1 Operating Environment Considerations The control receiver is designed to operate within a computer oriented environment Maintain the environmental conditions as described in paragraph 1 4 2 2 2 Power and Grounding Requirements a Power Requirements The CRX 500 Series Control Receivers require either a 120 Vac or 220 Vac 50 60 Hz 180 Watts b Grounding Requirements The control receiver must be connected to a true earth ground This is very important for two reasons 1 In the event of internal electrical faults such as shorts the entire fault current is carried to ground This protects operating personnel from hazardous shock 2 1 2 2 3 2 This ground connection provides a true ground reference for analog and digital circuits All ground circuits must be treated with care The system s safety ground should via the shortest route provide a dedicated safety logic ground path for termination only to an earth ground stake or
22. RX 520 ONLY ANNOYS YSA NI JAYA decor zn 42 en 03443538 SLHO TIY vn Seok n L m t en o DIP Switch S2 cor lo fo EON cor 75 1 cor Eno En ELE En on 15 ONI 9 cal Focus Iris R14 R7 Input Jumpers Power 5 120 220 8416 0 01 Factory Setting 214 6 OFF OFF OFF DIP Switch 51 Receiver Camera Address 1 250 CAMERA POWER W4 GND 3 5 12vDC 29 24VAC 1
23. _ 15 conductor 18 AWG Belden 8468 or equivalent Diamond Electronics part number 849518 0154 _ 12 conductor 18 AWG Belden 8466 or equivalent Diamond Electronics part number 849518 0058 _ 9 conductor 20 AWG Belden 9455 or equivalent Diamond Electronics part number 849518 0153 INSTALLATION The following paragraphs describe the installation procedures for the CRX 500 Series Receivers Before beginning these procedures it is necessary to become familiar with the installation data on the unit itself Refer to the drawings at the end of this section for overall installation of the enclosures Review the following system block diagrams for typical installations 2 16 21 m O MONITOR TRANSMITTE VIDEO SIGNAL CAMERA POWER CRX 501 PAN amp TILT FUNCTIONS ER RS422 DATA RECEIVER LENS FUNCTIONS OR 220 vac Figure 2 3 MODEL CRX 501 BASIC SYSTEM BLOCK DIAGRAM 81 2 200 LENS VIDEO SIGNAL MONITOR CAMERA POWER RX 502 PAN amp TILT FUNCTIONS PAN amp TILT AO ECEIVER TRANSMITTER ua DATA LENS FUNCTIONS ENS FUNCTI 120 OR 220 VAC VIDEO SIGNAL CAMERA POWER PAN amp TILT FUNCTIONS Figure 2 4 MODEL CRX 502 BASIC SYSTEM BLOCK DIAGRAM 61 2 0 07 1 16 3 2
24. a user s level for the Model CRX 501 and Model CRX 502 Control Receivers MAINTENANCE PROCEDURES a Preventive Maintenance Use of preventive maintenance allows detection and correction of minor faults before they become serious enough to cause equipment failure As a result major repairs can be avoided and the equipment can be maintained in an operable condition with a minimum of maintenance Every 3 months perform the following 1 Inspect all interface connecting cabling for deterioration or other damage 2 Clean the enclosure with a soft cloth using any mild commercial cleaner b Troubleshooting If problems occur at the initial installation phase they are probably due to improper installation set up 4 1 1 Check fuses F1 and F2 on the mother board and the expansion board Models CRX 502 and CRX 520 only F1 fuses the circuit board and the auxiliary contacts F2 fuses the pan and tilt and optional heater See Figures 2 1 and 2 2 in Section 2 for location of the fuses 2 Verify that the switches and jumpers are set up properly See the setup procedures and Figures 2 1 and 2 2 in Section 2 3 Verify that the receiver is getting communication from the transmitter LED D1 on the mother board flashes in response to data being received Refer to the table in Section 3 for the meanings of the D1 flash patterns on the mother board Model CRX 502 and CRX 520 receivers have an expansion board LED D1 on the expansion
25. an 517588 9040 and Tilt Indoor Applications CRX 520 or 120 Vac Power Input 120 Vac Pan 517588 5040 CRX 520 A and Tilt Outdoor Applications CRX 520 24 or 120 Vac Power Input 24 Vac Pan 517588 6040 CRX 520 B and Tilt Outdoor Applications CRX 520 X or 220 Vac Power Input 120 Vac Pan 517588 7040 CRX 520 A X and Tilt Outdoor Applications CRX 520 24 X 220 Vac Power Input 24 Vac Pan 517588 8040 or CRX 520 B X and Tilt Outdoor Applications 1 3 1 3 OPTIONS The following options are available for the CRX 500 Series Control Receivers These options must be factory installed HEATER OPTION CRX 500 HTR 120 Vac Heater CRX 500 HTR X 220 Vac Heater The heater option increases the low end temperature limit to 8 F 22 DATA RECEIVER BOARD OPTION NEMA 4 Outdoor control receiver NEMA 1 Indoor control receiver The data receiver board is used when the control data is sent across the video coax This option requires the UCT 100 Data Transmitter Unit Use Option B1 for indoor units Use Option B2 for outdoor units The outdoor option provides sealed BNC connectors AUTOMATIC MANUAL IRIS CONTROL CRX 500 MIO The automatic manual iris control option provides the operator manual control of the lens iris 1 4 14 SPECIFICATIONS Power Input Requirements Pan and Tilt Power Output Fuse F1 Circuit Board and Auxiliaries Fuse F2 Pan and Tilt Heater Camera Power Output Lens Power Output A
26. ations e CCU 100 Central Control Unit required for multiple JPD 100 control stations Using the recommended cable the maximum distance from the control output port to the control receiver is 4000 feet Models CRX 501 and CRX 510 control one pan and tilt unit Models CRX 502 and CRX 520 control two pan and tilt units Data Output Port CRX 500 Receiver TB1 Terminal 1 RX to T to TB1 Terminal 3 RX to Shield TB1 Terminal 2 Shield 2 20 NOTE The receive communications should be terminated when only one receiver is installed in a system Jumper W4 is installed to terminate receive communications Jumper W4 is removed to leave the receive communications open 2 7 1 1 Daisy Chain Wiring The CRX 500 Series Receivers can be daisy chained so multiple receivers can be controlled from one control point Ten receivers can be daisy chain wired from each output port The total distance of the chain is 4000 feet NOTE Terminate the receive communication on the last receiver in the chain Install Jumper W4 Leave the receive communication open on all intermediate receivers Remove Jumper W4 DAISY CHAIN WIRING CRX 500 Receiver CRX 500 Receiver TB1 Terminal 1 RX TB1 Terminal 1 RX TB1 Terminal 3 RX TB1 Terminal 3 RX TB1 Terminal 2 Shield TB1 Terminal 2 Shield 2 7 2 Power Connections The control receivers require 120 Vac or 220 Vac 50 60 Hz power The unit is
27. ause Harmful Interference In Which Case The User Will Be Required To Correct The Interference At His Own Expense TABLE OF CONTENTS Page SECTION 1 INTRODUCTION 1 1 doe DISENERAL zu n dtes ti at ka nuan aaah a aaa ate 1 1 1 2 MODELS uui a oie er i bee ne dae hd ated omo 1 2 OPTIONS ua u 1 4 1 4 SPECIFICATIONS uu ul teo ede 1 5 SECTION 2 SETUP AND INSTALLATION 2 1 22 GENERAL aaa am ON OMe eons 2 1 22 SITE PREPARATION exco Ln Sum t cot asec os doa d dta 2 1 2 2 1 OPERATING ENVIRONMENT CONSIDERATIONS 2 1 222 POWER AND GROUNDING REQUIREMENTS 2 1 2 223 STORAGE PROCEDURES J 2 2 23 HANDLING PROCEDURES IURE D aa aa eee 2 3 24 PERSONNEL SAFETY 2 4 25 SETUP PROCEDURES z tente teet id Za 2 5 2 5 1 120 VAC OR 220 VAC INPUT POWER portis 2 8 2 5 2 CAMERA POWER SETUP 2 9 2 5 3 JRECEWER ADDRESS
28. board should be lit when data from the controller is sent with the address of the expansion board See Figures 3 1 and 3 2 in Section 3 for location of LED D1 on the boards 4 Check the pan and tilt functions by verifying the LED for each function lights on the mother board or the expansion board if applicable when the function is performed at the transmitter See Figures 3 1 and 3 2 and the indicators in Section 3 for the function associated with each LED If the problem has been isolated to the receiver then it must be removed for servicing THERE ARE NO USER SERVICEABLE PARTS IN THE CONTROL RECEIVERS REFER SERVICING TO QUALIFIED SERVICE PERSONNEL ONLY 4 2 Any equipment returned to Diamond Electronics for warranty or service repair must have a prior written Authorization to Return Material ARM form completed for its repair Contact Ultrak Inc Service Department 4465 Coonpath Road Carroll Ohio 43112 740 756 9222 Toll Free 800 443 6681 4 3 This page left blank intentionally 4 4 2 APPENDIX A DATA RECEIVER BOARD OPTION GENERAL This appendix provides the installation procedures for the Model CRX 500 Series units that have the Option B1 or Option B2 Data Receiver Board installed Option 1 is installed in outdoor units Option B2 is installed in indoor units The Data Receiver Board Option must be used with a UCT 100 Data Transmitter Unit The RS 422 control data to control the pan and ti
29. connected to the receiver is adjustable from 6 to 12V 6V is the slowest speed and 12V is the fastest speed There are three thumb adjustable potentiometers on the mother board If Model CRX 502 or CRX 520 is installed the expansion board has three thumb adjustable potentiometers for setting the speed of the lens functions for the lens connected to the expansion board Mother Board RB 2 13 2 5 6 Lens Functions Speed Control Cont Model CRX 502 and CRX 520 Only Expansion Board Zoom Auxiliary Contact Setup The auxiliary contacts are two Form C relays NO NC C rated at 6 Amps maximum The mother board can be set up to provide 120 Vac at 0 25 Amp max or 220 Vac at 0 125 Amp max as applicable on the contact outputs for powering the auxiliary devices connected to Auxiliary Contact 1 and Auxiliary Contact 2 If the power input is 120 Vac the power to the auxiliaries is 120 Vac if the power input is 220 Vac the power to the auxiliaries is 220 Vac Install W10 to provide AC power on Auxiliary Contact 1 Install W11 to provide AC power on Auxiliary Contact 2 CAUTION When using the receiver to provide power through the auxiliary contacts the maximum current available is 0 25 Amp per auxiliary contact for 120 Vac power input and 0 125 Amp per auxiliary contact for 220 Vac power input An external power source can be used for powering the auxiliary devices Remove jumper W10 for Auxiliary Contact 1 a
30. contact is configured as normally closed ON command from the transmitter opens the contact The contact remains open until an OFF command is sent to close the contact Normally open contact If an auxiliary contact is configured as normally open an ON command from the transmitter closes the contact The contact remains closed until an OFF command is sent to open the contact lris Open Close If a motorized manual iris lens or a lens that has been modified for selectable manual automatic iris is installed the iris open close feature of the controller can be used to control the iris of the lens Manual iris has to be selected on the controller Refer to the controller user s manual for selecting manual iris NOTE Option C must be installed in the receiver for selectable automatic manual iris Refer to the transmitter operator s manual for the procedures to perform the functions of the control receiver The following is a list of Diamond Electronics standard transmitters and their manual number 3 7 Transmitter Manual Number JAD 832 Joystick Controller 515616 1960 JPD 100 Joystick Controller 518007 1960 JPD 101 Joystick Controller 518007 2960 CTX 800 Control Transmitter 515829 1913 Must be used with a CCU 100 Central Control Unit or SSI 100 Small System Interface 4 1 4 2 SECTION 4 MAINTENANCE GENERAL This section contains the information on preventive maintenance troubleshooting at
31. ctivated LED 012 This LED flashes when the TILT UP function is activated LED D11 This LED flashes when the PAN LEFT function is activated 3 5 3 3 OPERATING PROCEDURE The control receivers receive control data from the transmitter i e JPD 101 CTX 800 CCU 100 When the transmitter sends control data with the address of the receiver the receiver processes the data and applies the required voltage to perform the function For example when the receiver gets control data with its address to tilt up the receiver applies the required voltage on terminal block TB2 position 2 to energize the motors on the pan and tilt unit to tilt up The Model CRX 502 receivers have an expansion board for an additional pan and tilt unit If the mother board receives control data with the address of the expansion board the mother board sends the data to the expansion board The expansion board only receives data if the data contains its address The receiver can process the following functions from a transmitter e Pan Left Pan Right Tilt Up Tilt Down e Zoom In Zoom Out e Focus Near Focus Far e Control On Off Auxiliary Equipment AUX 1 and AUX 2 NOTE To control the auxiliaries in a receiver the address of the mother board must be the control camera on the transmitter The auxiliary contacts on the control receiver can be configured as normally open or normally closed 3 6 Normally closed contact If an auxiliary
32. dedicated ground grid If possible the ground circuit should not be terminated 1 anywhere into the mainline AC neutral because very large hostile currents such as RF and large AC neutral leakage noise spikes lightning strike currents etc are possible 2 into any shared grounds such as star grounds and ground farms because of possible hostile currents RF spikes noise etc which are electrical pollutants from host systems using such grounds and 3 into any grounding media of questionable quality such as water pipes building beams or conduit pipes The ultimate goal of any equipment grounding is to ensure personnel safety without sacrificing the stability of reference To be effective grounding must be low impedance at all frequencies This is the foundation for obtaining reliable interference free equipment operation An ideal ground plane would be a zero potential zero impedance system that could be used as a reference for all signals in the associated circuitry This would allow all undesirable signals and ambient radiation to be transferred to it for elimination Ideally it should be able to absorb all signals and radiation while remaining stable Storage Procedures All Diamond Electronics equipment should be stored in its original shipping container These containers facilitate storage for indefinite periods of time providing that the external environment can be kept within the general environmental limits of th
33. e equipment itself The equipment should be stored in an indoor environment with a temperature range not exceeding 55 C 67 F to 85 C 185 F Humidity must not exceed 95 Equipment 2 2 must be inspected once yearly to ensure that no degradation of packing material or external equipment surfaces is taking place Humidity requirements may be exceeded for short periods of time providing that the equipment is packaged in a manner suitable for export i e with an asphaltic barrier paper seal in a wooden container For a storage period extending up to 5 years the storage environment must be inside heated environment with a visual inspection performed annually a Receiving Inspection Procedures to be performed on the equipment to be stored include inspection of the packaging and enclosed equipment for damage inventory of the equipment for completeness One copy of the appropriate damage or shortage report is to be transmitted to Diamond Electronics immediately b An inspection log is to be maintained with this equipment with all inspection log entries signed and dated by the inspector The inspection logs should also contain the date the equipment is required to be shipped A separate inspection log must be maintained for each different type of equipment and purchase order HANDLING PROCEDURES Most Diamond Electronics equipment is packaged with the protection of foamed in place polyurethane dunnage T
34. he lens No connections are made between an auto iris lens and the control receiver 2 7 5 2 Motorized Manual Iris Lens To use a motorized manual iris lens with the control receiver Resistors R16 and R17 must be installed on the board the lens is connected to Option C for Automatic Manual Iris Relay K1 cannot be installed on the board The following connections are made between a motorized manual iris lens and the control receiver CONTROL RECEIVER TB1 MOTORIZED IRIS LENS Terminal 5 LENS Ground same as LENS COMMON connected to common side of iris motor if it is separate from LENS COMMON Terminal 4 IRIS and output to lens iris motor Iris is variable between 12 Vdc to 3 5 Vdc It is adjustable at R7 2 26 2 7 6 2 7 5 3 Selectable Auto Manual Iris To be able to select between auto and manual iris Option C must be installed in the control receiver and the lens must be modified to use this option Since each lens is configured differently you must consult with the factory before using this option The lens ALC output that normally is connected internally to the lens iris motor must be disconnected Then both the ALC output and the iris motor input must be brought out to the control receiver board This includes both sides of the ALC outputs and the motor inputs CONTROL RECEIVER SELECTABLE AUTO MANUAL IRIS 1 LENS Terminal 5 LENS Common side of the lens iris motor Terminal 4
35. he polyurethane molds itself around each object to provide an upper and lower enclosure Each container and its plastic covered polyurethane enclosures should be stored for reuse in the event that shipment of any item becomes necessary No item should be removed from its shipping container for any prolonged period of time until it is ready for permanent installation All handling of equipment 2 3 2 4 outside of its protective packaging must be performed with utmost care Any installation of equipment not accomplished by Diamond Electronics personnel must be accomplished in strict accordance with these procedures so as not to void any warranty provisions PERSONNEL SAFETY All electrically operated equipment poses a potential hazard for operating or maintenance personnel because of the possibility of electrical shock No person should attempt to operate or repair any systems equipment without having consulted equipment instructions to become aware of specific electrical hazards In general the main hazard posed by the control receiver is in the 120 220 Vac supply line power a Never work on electronic equipment unless there is another person nearby who is familiar with the operation and hazards of the equipment and who is competent in administering first aid When the technician is aided by operators he must warn them about dangerous areas b Whenever possible the power supply to the equipment must be shut off before beginning wo
36. ition depressed corresponds to a 0 3 4 5 z her D a I O 6 2 11 Procedure for Setting the Switches Subtract 1 from the camera number and then subtract the highest Power of 2 possible from the remaining number to determine which switches are OFF DIP Switch 6 6 9 4 3 2 Powerof2 128 64 32 16 8 4 2 1 Example 1 Camera Number 63 Subtract1 1 62 Subtract 32 32 Switch 6 OFF 30 Subtract 16 16 Switch 5 OFF 14 Subtract8 8 Switch 4 OFF 6 4 Switch 3 OFF 2 2 Switch 2 OFF 0 Switches 1 7 and 8 are ON Example 2 Camera Number 26 Subtract 1 1 25 Subtract 16 16 Switch 5 OFF 9 Subtract8 8 Switch 4 OFF 1 Subtract 1 1 Switch 1 OFF 0 Switches 2 3 6 7 8 are ON 2 12 2 5 4 2 5 5 Terminate Receive Communications The receive communications must be setup to stop communications at the receiver or pass communication through to another receiver If there is only one receiver installed in system the receive communications in the receiver should be terminated If daisy chain wiring is used the receive communications on the last receiver in the chain should be terminated All intermediate receivers should be unterminated Mother Board Jumper W4 IN Terminate Receive Communications Unterminate Receive Communications Lens Zoom Focus And Iris Speed Control Setup The speed of the lens functions for the lens
37. low a system to have a mixture of conventional pan and tilt devices and Diamond Electronics FastScan SmartScan units It may also be used as a single digital control system using one transmitter and one receiver The Control Receiver performs the following functions in response to data sent from a Diamond Electronics controller such as the Model CTX 800 Control Transmitter JAD 832 Joystick Controller or JPD 100 Series Joystick Controllers e Pan left right e Tilt up down e Zoom in out e Focus near far e Auxiliary equipment control lights gates etc on off 1 1 1 2 MODELS There are four basic models available CRX 501 CRX 510 CRX 502 and CRX 520 Models CRX 501 and CRX 510 control one pan and tilt unit Models CRX 502 and CRX 520 can control two pan and tilt units The pan and tilts have to have the same power requirements 120 Vac 220 Vac or 24 Vac 1 Amp but the camera power requirements can be different either 12 Vdc or 24 Vac 0 5 Amp Models CRX 501 and CRX 502 are for indoor installations The indoor control receivers are housed in a NEMA 1 enclosure Models CRX 510 and CRX 520 are for outdoor installations The outdoor control receivers are housed in a NEMA 4 enclosure Each model provides two auxiliary contacts The auxiliary contacts are latched contacts that can be normally open or normally closed Model Description Part Number CRX 501 or 120 Vac Power Input 120 Vac Pan
38. lt is transmitted from the UCT 100 Data Transmitter over the video coaxial cable from the CRX 500 Series Receiver INSTALLATION Refer to Figure A 1 for a typical system installation with Option B1 or B2 installed A 1 CN VIDEO IN VIDEO OUT CRX 501 CAMERA 1 ZOOM VIDEO SIGNAL CAMERA POWER NOI 2 RECEIVER PAN amp TILT FUNCTIONS rd 16 TILT 120 OR 220 VAC VIDEO IN VIDEO OUT 1 1 16 VIDEO INPUTS 1 16 VIDEO HUTPUTS 1 CRX 501 LENS FUNCTIONS CAMERA POWER RECEIVER 1 16 VIDEO INPUTS CATS VIDEO SWITCHER RS422 DATA TRANSMITTER Figure A 1 TYPICAL INSTALLATION FOR CRX 500 SERIES RECEIVER WITH OPTION B1 OR B2 INSTALLED 120 OR 220 VAC 0 MONITOR 1 0 2 0 MONITOR 2 CTET MONITOR 3 Qin MONITOR 4 PAN amp TILT FUNCTIONS amp TILT LENS FUNCTIONS 200 VIDED SIGNAL CAMERA 2 The CRX 500 Series Control Receivers with Option B1 or B2 are installed the same as outlined in Section 2 with the following exceptions Exceptions 1 RS 422 Communication Cable is not required as described in paragraph
39. nal block TB1 on both the mother board and the expansion board CAUTION Make Sure Each Board Is Setup For The Correct Voltage For The Camera Connected To It Or Equipment Damage May Occur Refer To Paragraph 2 5 2 Camera Power Setup Run site specific cabling from the camera to terminal block TB1 CRX 500 Series Receiver 24 Vac TB1 Terminal 11 24 Vac TB1 Terminal 12 24 Vac 12 TB1 Terminal 11 Ground TB1 Terminal 12 12 Vdc 2 7 5 Lens Connections Model CRX 501 and CRX 510 Receivers provide control for one pan and tilt with camera and lens Model CRX 502 and CRX 520 Receivers provide control for two pan and tilts with cameras and lenses Model CRX 502 and CRX 520 Receivers have two boards in the chassis a mother board and an expansion board Both boards have terminal block TB1 If a CRX 501 or CRX 510 Receiver is installed connect the lens to TB1 on the mother board If a CRX 502 or CRX 520 is installed connect one lens to TB1 on the mother board and the other lens to TB1 on the expansion board NOTE Make sure the camera lens and pan and tilt for each unit are all connected to the same board in the Receiver Terminal Block TB1 8 ZM Focus TB1 9 FOC Common LensCommon 1 1 1 10 COM Iris s CO yet War paragraphs 2 7 5 1 through 2 1 5 3 2 25 2 7 5 1 Auto Iris Lens The lens iris control in an auto iris lens is completely internal to t
40. nd W11 for Auxiliary Contact 2 The external power source is connected to the AC COM and C Terminals on Terminal Block TB3 2 14 2 5 7 Iris Drive Voltage The iris drive voltage on each board is a factory setting that should not be changed Factory Setting Mother Board Expansion Board Jumper W7 Out Jumper W6 JumperW6 Pos 1 amp 2 Jumper W7 Pos 1 amp 2 26 CABLING REQUIREMENTS 2 6 1 RS422 Communication Cable Diamond Electronics recommends using 24 gauge UL2919 twisted pair shielded cable Carol CO841 or equivalent Diamond Electronics number 849518 0334 to from terminal strip TB1 for RS 422 control data 2 6 2 Power Input Pan and Tilt Control Lens Control and Camera Power Cable The input power pan tilt functions camera power lens functions and auxiliary functions require site specific cable Use the following specifications to determine cabling requirements Input Power 120 220 Vac 10 50 60 Hz 1 5 amps max Output Power Pan Tilt 120 220 24 Vac 1 amps max Camera 24 Vac 12 Vdc 0 5 Amp max 2 15 2 7 Lens Output Zoom Focus lris internally variable from 6 to 12 Auxiliary Controls These are relay contact closures with a contact rating of 6 amps For typical applications Diamond Electronics recommends the following cable types between the camera pan and tilt and the receiver Determine which cable type to use based on site specific requirements
41. rk on the equipment Take particular care to ground every capacitor likely to hold a dangerous potential When working inside the equipment after the power has been turned off always ground every part before touching it c Whenever the nature of the operation permits keep one hand away from the equipment to reduce the hazard of current flowing through vital organs of the body d No cover shield insulator connector or other protective device should ever be removed from an operating piece of equipment by other than a thoroughly trained and experienced repair technician 2 4 2 5 SETUP PROCEDURES Figures 2 1 and 2 2 show the location of various components on the mother board part number 517484 all models and the expansion board part number 517482 1040 Model CRX 502 and CRX 520 only that may or may not need to be setup prior to power up of the system CAUTION Make Sure That The Power Input Is Correct For The Receiver Unit Make Sure That The Camera Power Is Setup Correctly If Either Of The Above Are Not Configured Correctly Equipment Damage May Occur 2 5 ALL MODELS
42. talled there are two boards in the enclosure for powering two cameras The camera power must be setup for each camera The camera power is setup on the board the camera is connected to WARNING ENSURE POWER IS DISCONNECTED FROM THE CONTROL RECEIVER PERSONNEL INJURY COULD RESULT DUE ELECTRICAL SHOCK All Models Camera Jumpers Model CRX 502 and CRX 520 Only Power W4 and W5 2 9 2 5 3 Receiver Address Each pan and tilt unit must have a unique address for control purposes The address is set on the board the pan and tilt is connected to The address of the pan and tilt connected to the mother board is set using DIP Switch S1 on the mother board The pan and tilt connected to the expansion board in Models CRX 502 and CRX 520 Receivers is set using DIP Switch 51 on the expansion board All eight positions define the address The switch can be set for addresses 1 through 256 Addresses 1 through 250 can be used by the customer Addresses 251 to 256 are not available for customer use they are for special purposes used by the factory The address is called the camera number and is used by the operator to control the pan and tilt unit the lens on the pan and tilt unit and the auxiliary contacts in the receivers NOTE To control the auxiliary contacts in the receivers the control receiver must addressed 2 or higher 2 10 Table 2 1 CAMERA NUMBERS The OFF position depressed corresponds to a 1 The ON pos
43. uxiliary Contacts Communication Interface Operating Distance Operating Temperature Storage Temperature Humidity Limits Dimensions 120 220 Vac 10 50 60 Hz 1 5 Amps max 120 Vac 220 Vac or 24 Vac 1 Amp max 120 Vac Power Input F1 1 250V 220 Vac Power Input F1 1 2 Amp 250V 3AG 120 Vac Power Input 1 Amp 250V 3AG 120 Vac With heater option 1 5 Amp 250V 3AG 220 Vac Power Input 1 2 Amp 250V 3AG With optional heater 1 Amp 250V 3AG 24 Vac or 12 Vdc 0 5 Amp max Manual Iris requires motorized iris lens or Option C installed in receiver and a lens modified for auto manual iris 6 to 12 Vdc 100 mA adjustable Zoom 6 to 12 Vdc 100 mA adjustable Focus 6 to 12 Vdc 100 mA adjustable Form C Relay NO NC C 6 Amp rating RS 422 9600 baud 4000 ft with recommended cable 32 F to 122 F 0 C to 50 C With optional heaters 8 F to 122 F 22 C to 50 C 40 F to 158 F 40 C to 70 C 0 to 95 non condensing CRX 501 NEMA 1 Indoor 8 0 W x 10 0 H x 6 06 D 203mm W x 254mm H x 154mm D CRX 510 NEMA 4 Outdoor 8 0 W x 11 50 H x 6 18 D 203mm W x 292mm H x 157mm D CRX 502 NEMA 1 Indoor 12 0 W x 12 0 H x 6 06 D 305mm W x 305mm H x 154mm D 1 5 Dimensions cont d Weight Material Finish CRX 520 NEMA 4 Outdoor 12 0 W x 13 50 H x 6 18 D 305mm W x 343mm H x 157mm D Model CRX 501
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