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1365 & 70 FSH 3668-5e

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64 views171 pages

1365 & 70 FSH 3668-5e

Uploaded by

Angel Gomez
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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3M Model 1365/1370 Detection System Field Service Handbook ZX WARNING THIS EQUIPMENT CONTAINS LETHAL VOLTAGE AND SHOULD BE SERVICED ONLY BY 3M FACTORY TRAINED TECHNICIANS. THIS SERVICE DOCUMENTATION IS INTENDED ONLY AS A SUPPLEMENT TO 3M FACTORY TRAINING. Printed in USA © 9M 1998 June 78-6970-3668-5/Rev. E ity \ding 225-4N-14 144-1000 Revision History Model 1365 The original issue of this manual and subsequent revisions are identified as follows: Issue date (Rev. A): 9/01, Rev. B: 5/92, Rev. : 8/93, Rev. D: 12/94, Rev. E: 6/98 All pages should be dated 9/91, except for the following Rev. B, C, D and E added and revised pages: Page Date Page Date a 6/98 30 12104 ii i 12/94 341 thu 34 12104 1 5/92 4-0 12194 4-1 thru 4-7 12194 2:4 it, i 12/94 244 thru 2-3 12/04 7A e198 24 5/92 28 5192 14 12194 210 5/92 244 12/04 2148 12104 24143 12/94 215 thru 247 12/94 2-28 thru 2-25 12/94 2-26 5/92 2-31 3/98 2-32 12/94 2-36 3/93 2-60 12/04 2-60A 12/04 2-60B 12104 261 thru264 12/04 2-648 12/94 2-643 12/04 2-65 thru 2-67 12/94 2-68 5/92 2-73 5192 2-74 12/94 2-76 5192 2-79 3/93 2-80 5/02 287 3/93 2-100 12/04 2-405 thru 2-112 42/94 This manual was developed for the Model 1365, The information in this manual also applies to the Model 1370 unless noted otherwise. Technical Bulletin 1-8/94 announced the introduction of the Model 1370. a aM 1608 June Safety Summary \ DANGER Operator Warning Gervies Personnel Warning Fisk of sacra! shook, leconnect power before sarvicing. System Bonet remove covers or panel, ‘Thi equlpment conta igh watage slecteal drut Not oper ervenabe. Fete al ering to 3 actor Wales service preonnel Z\WARNING ere AWARNING eer pera. AXCAUTION Se eo pers eees AXCAUTION ‘WARNING! een ELEOTRENL svoCK Azan pea ets 5 Proprietary Notice This document contains information of the 3M Company and is intended to be used by authorized 3M service personnel only. Other uses or disclosures are forbidden. No portion of this publication may be reproduced without written permission of the Safety and Security Systems Division, 3M Center, Bldg. 225-4N-14, St, Paul, MN 55144. 9M Safety and Security Systems Division 9M Center Bldg. 225-4N-14 St. Paul, MN 55144-1000 Your safety is your responsibility. Before working on equipment, protect yourself from electrical shock hazard. © All of our equipment is potentially lethal. @ Your body is an electrical conductor. @ Remove watches, rings, large belt buckles and key rings. If they contact live parts, serious shocks, burns and arcing are possible. @ Use the one hand only rule when working on energized equipment. Do not give current a path to ground. @ Unless necessary for maintenance procedures or static control, unplug the equipment from the electrical source. Never work alone on energized equipment. Ensure that all protective devices and covers are in place before energizing equipment. All extension cords used with grounding-type equipment must be of the correct type, un- altered to interrupt proper grounding, and inspected before each use. @ No altered adapter for such extension cords may be used that interferes with, blocks, or interrupts the grounding conductor. @ Inspect all meters, scopes, test equipment. soldering irons, hand drills and power tools before each use. Be especially certain to check for frayed or damaged power cords, test leads and cables. @ Make sure that you have a good flashlight or other illumination when working on energized equipment. @ If you are not trained on it, do not work on it @ |f you are working in a flooded area, make sure that the equipment is properiy double- insulated and/or GFI (Ground Fault Interrupter) protected. @ Make sure that your hands are dry when you connect equipment. © Do not use flammable solvents or materials near energized equipment. © Do not leave energized equipment unattended without posting easily visible hazard signs. The only sure way to determine if exposed parts are live is to use a meter or test light. Determine nominal voltage by referencing the wiring diagram and verifying with a meter. Do not clean up near energized equipment without proper safeguards. If you are required to work in proximity to energized and exposed power panels or equipment, make sure that proper clearances are maintained or that protective barriers are in place. (See the clearance table below.) Read and heed all safety warnings and signs. At all times, correct all deficiencies before you proceed. Voltage Range Phase-to-Phase Minimum Clearance’ 300v Avoid contact Over 300V but not over 750V 1 foot, 0 inches Over 750V but not over 2kV 1 foot, 6 inches Over 2kV but not over 15kV 2 feat, 0 inches Over 15ky but not over 37kV 8 feet, 0 inches * Clearances relate to items such as open breaker panels. You should know that: Voltages above 25 VAC or 50 VDC with a relatively small amount of current can be very dangerous. As noted in the following table, as little as 21 mA with 115 VAC can start muscular inhibition (the inability to release yourself from the electrical conductor). As little as 100 mA at 115 VAC can be fatal. Even DC voltages with a small amount of current can be dangerous. Probable Effects of Electrical Shock (External Contact) AC (60 Hz) pc Effects O-1mA O-4mA Perception 4-4ma 4-15 mA Surprise 4-21 mA 15-80 mA Retlex action (freezing starts) 21-40 mA 80 - 160 ma Muscular inhibition 40-100 mA 180 - 300 mA Respiratory block Over 100 ma Over 300 mA Ventricular fibrillation (usually fatal) Model 1365 Table of Contents 1 Specifications 141. Specifications 14 4-2. Supplies 12 4-8. Accessories 12 2 Installation With Base Plate 2-1, System Installation (With Base Plate) a4 2-1-1. Tools Required 24 2-2. Pre-installation Requirements 22 2-2-1. Site Inspection 22 22:2. _ Power - Voltage Specifications 22 2-3. Model 1365 Installation Procedure (With Base Plate) 23 23-1. Unpacking 23 28-2. System Positioning 23 2.33. Wire Routing 25 2-3-4. Power Connection 25 2-35. Base Securing 28 2-3-6. Gate and Turnstile Installation 28 28-7. System Checkout 28 2-3-8. Install Carpet and Covers 2-40 23-9. Operational Checks ant 23-10. Final Assembly of System 244 2-4, Additional Information at 2-4-1. CPG Connections 2 24-2. Gate Timing Chart 242 2-4-3. TB2 Connections 242 2-4-4. Diagnostic Indicator Chart 212 2-4-5. Photocell Alignment Procedure 213 2-4-6. Antenna Null Verification 244 2-4-7. Model 1370 Null Adjustment 2148 25, System Layout Checklist 245 2-5-1. System Placement Relative to Interfering Objects 2415 25-2. System Accessories 247 Direct Mount Buried Wiring - Without Base Plate 2-10. System Installation 228 Installation Overview 2.23 . Tools Required 2:24 2-11. Pre-Installation Requirements 2.25 241-1, Site Inspection 2.25 2-11-2. Power - Voltage Specifications 2-26 (Continued) Tan ieer December Table of Contents Model 1365 2 Installation (cont.) Direct Mount Buried Wiring - Without Base Plate (cont.) 2-12, Model 1965 Installation (Without Base Plate) 2:28 2-121. Unpacking 2:29 Site Preparation 2-80 System Positioning 231 Mounting Panel Bases to Floor 2:34 Installing Mounting Feet 2.37 Instaling Lattice/Pedestal 2-39 Vertical Alignment of Lattices 2-43 Id Coil Wire Connections 244 Antenna Wire Connections 2-46 |. JA Cable Connections 2-47 - Ground Wire Connections 2-47 . AC Power Wiring 2-48 . Power Cord Connections 2-50 . Setting the Operating Voltage 2-52 Remote Alarm Switch (Optional) 2-52 Gates 2-58 2-12-17. Installing Pedestal Covers 2-53 213, System Checkout 254 2-1-1. System Operation and Strip Detection 2-54 2-18-2. Operational Checks 2-56 213-8. Final Assembly of System 257 2:14. Additional Information 2-58 2:14-1, CPG Connections 2-58 244-2. TB2 Connections 2-58 2.14.8. Photocall Alignment Procedure 2-59 2-14-4, Antenna Null Verification 2-60 2:14-5. Model 1870 Null Adjustment 2-608 2:15. System Layout Checklist 261 2-161. System Placement Relative To Interfering Objects 261 2-152. System Accessories 2-63 2-15-3. 93 1/2 inch Contractor Template 2-64 2-1-4. 96 inch Corridor Layout Plan 2-648 Direct Mount - Without Baseplate 2:16. System Installation 2-65 2-16-1. Installation Overview 2-65 2-162. Tools Required 2-66 2:17. Pre-installation Requirements 267 2447-1. Site Inspection 267 217-2. Power-Voltage Specitications 2-68 2-18. Model 1965 Installation 2-70 218-1, Unpacking 27 218-2. Site Preparation 272 2-8-3, System Positioning 2-73 2-18-4. Mounting Panel Bases to the Floor 2-76 2-18-5. Install Wiremold Base 2-79 (continued) BN To0e December Model 1365 Table of Contents 2 Installation (cont.) Direct Mount - Without Baseplate (cont) 2:18-6. Installing Mounting Feet 281 2-18-7. Installing Lattice/Pedestal 2-83 2-188. Vertical Alignment of Lattices 287 218-9, Field Coil Wire Connections 2-88 2-18-10, Antenna Wire Connections 2-90 2-18-11, JA Cable Connections 291 2-18-12, Wiremold Ground Wire Connections 291 218-18, AC Power Wiring 2-92 2-18-14, Power Cord Connections 2-94 2-18-15, Setting the Operating Voltage 2.97 2-18-16, Remote Alarm Switch (Optional) 2.97 2-18-17. Gates 2-98 2-18-18. Installing Pedestal Covers 2-98 2-19. System Checkout 2-99 ‘System Operation and Strip Detection 2-99 Operational Checks 2-401 2-19-3. Final Assembly of System 2-102 2:20. Additional Information 2-108 2:20-1. CPG Connections 2-403 2-202. TB2 Connections 2103 2-20-38. Photocell Alignment Procedures 2104 2-20-4. Antenna Null Verification 2405 2-20-5. Model 1870 Null Adjustment 2106 2-21. System Layout Checkiist 2-108 2-21-1. System Placement Relative to Interfering Objects 2-108 2:21-2. System Accessories 2410 2-21-3, 98 1/2 inch Contractor Template 2At 2:21-4, 86 inch Corridor Layout Pian 2412 3 Adjustment 3-1. Model 1385 34 3-2. Model 1970 Antenna Null 32 4 Disassembly/Reassembly 4-1, Format 4 4-2. CPG Assembly at 4-3. Microprocessor PCB 43 4-4. CPG Transformer Assembly 44 45. SOR PCB 44 46. SCR Assembly 45 4-7. Interlock Switch 46 4-8. Power Supply Capacitor 46 aM 1994 December Table of Contents Model 1365 5 5-4. LED Codes 54 5-1-1. Introduction al Power Up/Reset Diagnostic Routine 5A ‘SWM (Photocell) Diagnostic Routine 52 Continuous Interrogation Diagnostic Routine 52 6 Theory of Operation 6-1. System Description e1 6-1-1. General Description 64 6-4-2. Operation et 6-1-3. Subsystems et 6-2. Sequence of Operation 6s 62:1, Basic Operation 63 7 Diagrams 7-1, Functional Schematic TA 7-2. Service Summary 72 W ON 1997 September Model 1365 Table of Contents 8 Troubleshooting 8-1, Introduction at 8-2, What To Do On A Service Call a2 8-3. Problem Identification 83 8-4, Diagnostic Code Explanation 84 8-5. Synchronous Noise Troubleshooting 85 85-1. Identification 85 85-2. Locating Sync Noise 85 85-3. Sources (Internal) 8s 845-4. Locating External Noise Sources 85 85-5. Possible External Noise Sources 86 85-6. Solutions 86 8-6. __Nonsynchronous Noise Troubleshooting 86 8-6-1. Identification 86 8-6-2. Locating - Internal or External 87 8-6-3. Sources of Internal Noise 87 8-6-4. Locating External Noise Sources 87 8-6-5. Sources of External Noise 87 8-6-6. _ Solving Nonsynchronous Noise Problems 87 8-7, Internal Failure 88 8-7-1. Identification - Power Up/Reset, ‘SWM (Photocetl) Mode 88 8-7-2. Diagnostic Codes 88 8-7-3. Additional Information 89 8-7-4. Solutions 89 8-8. CPU-Processor Lock-up 89 8-6-1. Identification 88 8-6-2. Symptoms 8 88-3. Solution 89 8-9. Operator Error 8-40 8-9-1. Identification 8-40 8-9-2. Locating - No Alarms 8-40 8-8-3. Solving - No Alarms 8-40 89-4. Locating - False Alarms 8-10 8-95. Solving - False Alarms 8-10 8-10, Troubleshooting Tool List 8-40 8-11, Functional Block Diagram att 8-12. Microprocessor PCB Layout 8-12 8-13. Strip Switching/Ramp Signal Oscilloscope Settings 8-13 8-14. Spare Parts 814 8-15. Testing an SCR 814 Saw 18ST — September v Mode! 1365 Specifications Contents Contents Page 1-1. Specifications 14 4-2. Supplies 42 1-3. Accessories 1-2 Su TeST —Septaniber od Model 1365 Specifications 1-4. Specifications Machine Specifications: Name: Detection Computer Model: 1365 75-0299-8011-9 Model: 1365 Direct Mount 75-0299-8014-3 Physical Specifications: Height: 65 in. (1.65 m} Width: 83-172" corridor 44- 36" corridor 47-1/2 Depth: 38 in. [96 m] Weight: 200 Ibs. [118.8 kg] System only Lattice Thickness: 4-1/2 in. [120 mm} Construction: The system is designed to be mounted on a baseplate. The baseplate is constructed of 1/8 inch ‘aluminum with the base threshold composed of rigid PVC plastic. The lattices are assembled from rigid PVC extrusions welded together with the same ‘material. Systems which are installed without a baseplate are anchored directly to the floor. Power Source: Votage: 105, 120, 210, 240VAC. 50/60HZ The system performs as required when normal line variations are experienced. This fluctuation is nominally +/- 10% of the stated line vottage in a particular country. Amperes: 0.2 amps - 120VAG standby state 0.1A amps - 240VAC standby state 0.8A amps - 120VAC CPG pulsing with optional gates locked 0.44 amps - 240VAC CPG pulsing with optional gates locked Outlet Type: Three wire, isolated ground, dedicated line. Do not connect to a receptacle that is controlled by a switch. Power Requirements: 24 Watts - standby state 96 Watts - CPG pulsing, with optional gates locked. Direct Mount systems are not designed to accommodate gates Environment Operation: ‘Temperature: 50°F [10°C] to 104°F [40°C] Humidity: 0 to 85% (non-condensing) Storage: ‘Temperature: -40°F [-40°C] to 131°F [55°C] Humidity: 0 to 85% (non-condensing) Alarm Outputs ‘Aural: Alarms are sounded by an internal 3-1/2 in. speaker. Relay contacts on TB2 terminal strip. Indicators: ‘An LED readout, viewable through an opening in the base pedestal on the microprocessor PCB side, provides an indication of the operational status of the system. Controls: Internal: (Service Only) Mode Switch - Selects photocell (SWM) or continuous (Cont) operation. Interlock Switch - Automatically discharges the storage capacitor when the access cover is Temoved. Pulling the switch out will defeat the interlock. Microprocessor Reset - Resets system operation. Options: 1865 Detection Computer - With Baseplate 1365 Detection Computer - Direct Mount 1965 Detection Computer - Direct Mount/Buried Cable San 195 May Specifications Model 1365 1-1. Specifications (cont.) External: (Customer) Remote Alarm Box Switch (Optional) - Three position 1. Center position - Normal operation, 2, Alarm- Causes the alarm to sound and the exit gate to lock. 8. Disable - Causes the alarm not to sound and the exit gate not to lock. 4. Power Circuit breaker reset button located Reset - on the lattice base. Electronic interference: The system will not false alarm in the presence of large amounts of external electronic noise. The system has intemal capablities to automatically adjust the detection threshold level. Therefore, excessive electronic noise will cause the system coverage to degrade. False Alarms: ‘The system will not respond to phantom signals. However, the system will alarm if an item plated with a material similar to that used in the strips is carried through the system, VO Connections: All system/acoessory interconnections are made on a 12 position barrier strip located in the processor pedestal base. items connected to the barrier strip include the speaker, any gates or turnstiles (allowed on baseplate mounted systems only), emote alarm box, and other external low voltage devices of the customer's choice. 1-2. Supplies tem Strip, Programmable ‘Adhesive one side, DS-BI-N Strip, Programmable Adhesive two sides, DS-B2.N Bayonets (10/tox) Cassette Markers CAS-1 (300/b0x) Audio Cassette Markers DAC+t Compact Disk Markers DeD-1 (100/b0x) Video Cassette Markers DVM-t (200/0x) 1-3. Accessories Model 955B Bookcheck Sensitizer/Desensitizer Model 930 Book Desensitizer Model 2001 Desensitizer Model 2011 Resensitizer Model 810 Bookholder Model 951 Sensitizer Hand held Model 452 Gate Gate Arm Standard Oneae Power Line Conditioner CL1102 Stock Number 75-0299-2649-2 75-0289-2648-4 78-8014-4969-1 78-8014-4924-6 75-0299-7522-6 75-0299-6637-3 75-0299-6185-3, ‘Stock Number 78-8064-2414-5 78-8021-8782-9 78-8022-5385-2 78-8054-3085-3 78-8021-8893-4 78-8054-2516-8 78-8021-8756-3 78-8054-3130-7 78-8054-3258-6 Padded Sleeve for Gate Arm —_78-8064-2294-1 aM 1881 Saptembar Model 1365 Installation Contents Contents Page With Base Plate 2:1. System Installation (With Base Plate) 24 21-1, Tools Required 24 2:2. Pre-installation Requirements 22 2-2-1, — Site Inspection 22 2-2-2. _ Power - Voltage Specifications 22 2-8. Model 1365 Installation Procedure (With Base Plate) 28 Unpacking 23 System Positioning 23 Wire Routing 25 Power Connection 25 Base Securing 28 Gate and Turnstile Installation 28 System Checkout 28 Install Carpet and Covers 2-10 Operational Checks 2at Final Assembly of System 241 2-4, Additional Information at 2-4-1. CPG Connections 24t Gate Timing Chart 242 ‘TB2 Connections 242 Diagnostic Indicator Chart 212 Photocell Alignment Procedure 243 Antenna Null Verification 244 Model 1370 Null Adjustment 2148 2-5. System Layout Checklist 245 2-5-1. System Placement Relative to Interfering Objects 215 2-5-2. System Accessories 247 Direct Mount Buried Wiring - Without Base Plate 2-10, System Installation 2.28 2-10-1. Installation Overview 2-23 2-10-2. Tools Required 2-24 2-11. Pre-Installation Requirements 2:25 2-111. Site Inspection 2:25 2-11-2. Power - Voltage Specifications 2-28 2:12, Model 1365 Installation (Without Base Plate) 2:28 212-4. Unpacking 2:29 2-12-2. Site Preparation 2-90 2:12-3. System Positioning 231 2-124. Mounting Panel Bases to Floor 2:34 2:12-5. ~ Installing Mounting Feet 287 2-12-6. _ Installing Lattice/Pedestal 2:39 212-7. Vertical Alignment of Lattices 2-43 2-128. Field Coll Wire Connections 2-44 2-12-98, Antenna Wire Connections 2-48 2-12-10. JA Cable Connections 2-47 (Continued) ‘3M 1994 December EI Installation Contents Model 1365 Contents (cont,) Page Direct Mount Buried Wiring - Without Base Plate (cont.) 242-11. Ground Wire Connections 247 2-12-12. AC Power Wiring 248 2-12-13. Power Cord Connections 2-50 2-12-14, Setting the Operating Voltage 2-52 2-12-15. Remote Alarm Switch (Optional) 2-52 2-12-16. Gates 2-53 2-12-17. Installing Pedestal Covers 2-53 2-13, System Checkout 2-54 ‘System Operation and Strip Detection 2-54 Operational Checks 2-56 . Final Assembly of System 287 2-14, Additional information 258 2-14-1. CPG Connections 2-58 2-14-2. TB2 Connections 2-58 2-14-3. Photocell Alignment Procedure 2-59 2-14-4. Antenna Null Verification 2-60 2-14-5. Model 1370 Null Adjustment 2-80A 2-15, System Layout Checklist 2-61 ‘System Placement Relative To Interfering Objects 2-61 ‘System Accessories 2-63 33 1/2 inch Contractor Template 2-64 2-164. 36 inch Corridor Layout Plan 264A, Direct Mount - Without Baseplate 2-16. System Installation 2-65 Installation Overview 2-65 Tools Required 2-66 2-17. Pre-installation Requirements 2-67 2-17-1. Site Inspection 2-67 2-17-2. Power-Voltage Specifications 2-68 2-18, Model 1365 Installation 2-70 2-18-1. Unpacking 2-71 2-182. Site Preparation 272 2-18-3. System Positioning 2-73 2-18-4. Mounting Panel Bases to the Floor 2-76 2-18-5. Install Wiremold Base 2-79 2-18-6. installing Mounting Feet 281 2-18-7. _ Installing Lattice/Pedestal 2-83 2-18-8, Vertical Alignment of Lattices 2-87 Field Coil Wire Connections 2-88 1. Antenna Wire Connections 2-90 |. JA Cable Connections 2.01 2. Wiremold Ground Wire Connections 2-91 3. AC Power Wiring 2-92 Power Cord Connections 204 . Setting the Operating Voltage 2-97 3. Remote Alarm Switch (Optional) 2-97 Gates 2-98 Installing Pedestal Covers 2-98 (continued) a aM 1094 December Model 1365 Installation Contents Contents (cont.) Page Direct Mount - Without Baseplate {cont,) 2-19, System Checkout 2-89 2-19-1. System Operation and Strip Detection 2-98 2:19-2. Operational Checks 2101 2-193, Final Assembly of System 2-102 2-20, Additional information 2.103 2-20-1. CPG Connections 2-108 2:20-2, TB2 Connections 2-108 220-8, Photocell Alignment Procedure 2-104 2-20-4, Antenna Null Verification 2-105 2-20-5. Model 1870 Null Adjustment 2-106 2-21, System Layout Checklist 2108 2-21-1, System Placement Relative to Interfering Objects 2-108 2:21-2. System Accessories 2110 2-21-38. 83 1/2 inch Contractor Template aan 2-21-4, 36 inch Corridor Layout Plan 2112 3M 1994 December Bali Model 1365. Installation (with Base Plate) 2-1. System Installation (with Base Plate) 2-1-1. Tools Required 1. In addition to standard technicians too! kit the following tools are required for a system installation. Item Technician Tool Number Dual Trace Oscilloscope 8100 Oscilloscope Probes (2) 334TE028 Metric Sockets 322WRO250 Ratchet 3/8-inch drive 322WwR107 Metric Allen Wrenches 2048C048 Item 3M Part Number Calibrated Strip 78-8021-8842-1 Die Punch (10/pkg) 26-1006-6851-9 A DANGER Cres ieee Peers ‘Operator Warning Do not remove covers or panel This equipment contains high voltage electrical circuits. Not operator serviceable. Refer all servicing to 3M factory trained service personnel. Saw 104 December a Installation (with Base Plate) Model 1365 2-2. Pre-Installation Requirements 2-2-4. Site Inspection Using the Pre-Installation Drawing as a reference, inspect the area for interfering objects both physical and electronic. Interfering items and the required distance from the system are specified in paragraph 2.5, "System Layout Checklist’. Maintaining minimum distances from interfering ‘objects is critical to proper system operation and ‘can generally be accomplished by moving the interfering object or changing the location of the system. If the system placement is more than one foot from what is described in the pre-installation diagram then approval must be obtained from the Field Service Manager as well as the customer. 2-2-2. Power - Voltage Specifications Verify that electrical power is according to the "installation Drawing" and meets the system power requirements specified below. Magnetic EAS System Power Requirements 3M Tattle-Tape™ Systems are sophisticated computer-based devices which require high quality, surge and noise free electrical power for optimum performance. 3M Tattle-Tape™ Systems are classified as ‘Security Systems and, as such, U.L. requires that these systems be connected to an electrical outlet not controlled by switches (e.g. light switches). 2. Options: 3M recommended Power Line Conditioner A minimum current of two amperes must be Continuously available to meet the power requirements of the line conditioner and the Tattle-Tape™ system for up to two systems. ‘Three systems will require at least three amperes of current be continuously available, ‘The Oneac CL1102 power line conditioner is. recommended for use with the system and will power one or two systems. Three systems require the larger Oneac CP1103 power line coneitioner. or A DEDICATED, ISOLATED GROUND CIRCUIT OF AT LEAST 15 AMPERE CAPACITY AT 100-120 VOLTS OR 200-240 VOLTS. This circuit may have no other outlets or devices ‘drawing power from it. It must have an insulated grounding wire directly run from the system service box to an isolated ground receptacle (orange) in which the grounding terminalis purposely insulated from the mounting box (NEMA 5-15 isolated ground), This circuit is defined in section 250-74 exception No. 4 in the National Electric Code Handbook. See figure 2-1. Hot Conduit Equipment Ground Main Servico Entrance Panel + oj Special Isolated Ground Receptacle Neutral Green Wire Ground Isolated (dedicates) Figue?t ——SS 8. Dual and triple system installations can be powered from a single power source located at either side of the installation by running power from one system to the other. Special knockouts are provided in the system pedestals to allow for wire routing. A kit is available to provide items needed for this type of installation. ‘The wiring to the second and third system is protected by a fuse which is provided in the ki 22 aM 1994 December Model 1365 Installation (with Base Plate) 2 . Model 1365 Installation (with Base Plate) Verity the baseplate, system, caret, and accessories are on hand. Read the entire installation procedure before beginning the installation. A DANGER coer Not operator ‘Operator Warning Risk of lectrical shook. Do not reve covers or pane, ‘fer all arcing to M factory tralned service parsoane 2-3-1. Unpacking 1. Before removing packaging, the system must be moved to the installation location. DO NOT remove the outer packaging material by iting over the top of the system as the system will easily overturn. 2, Remove banding, outer top cover, and outer side corrugated material. The packaging material MUST be removed by slitting the comer tape seam. See figure 2-2, 3. Remove baseplate from packaging. 2-3-2, System Positioning 4. Place the baseplate in position as shown in the installation drawing + The system may have been shipped with the standard 36 in. [914 mm] corridor width baseplate or the optional 33-1/2 in. [850 mm] corridor width baseplate. + Verity the placement meets the requirements detailed in the Model 1365 System Layout Checklist, paragraph 2-5. 2, Do not remove the liner from the non-skid tape ‘on the bottom of the baseplate at this time. Note In dual systems the baseplates must be placed a minimum of 12-inches [80 em] apart. If three or more systems are being installed, a minimum of 18-inches [46 om] is required between systems. 8, Remove packaging spacers from under the lattices and from the top of the lattices. 4, Determine which lattice is to be positioned on each side of the baseplate. ‘The CPG pedestal/attice assembly must be located near the AC power source. LAWARNING] Do not connect to ower source. 5. Do not remove the safety tag from the power ccord until all unattached wires have been properly connected. AWARNING! ELECTRICAL SHOCK HAZARD Read and complet installation Inatructions before connecting to eletrval power source Failure to do 0 6 equipment damage rious Inury uy Figure 22 aw 1964 December 23 Installation (with Base Plate) Model 1365 2-3-2. System Positioning (Cont.) 9. Verify CPG chassis is correctly posiioned on ‘studs and there are no pinched wires, 6. On dual system installations the CPG pedestallattice assembly is positioned toward *+ The system may have a baseplate for the the AC power source. The CPG of the second standard 83-1/2 in. (860 mm] corridor width system is located next to the detector side of of for an optional 36 in. [914 mm] corridor the first uni, See figure 2-3 width. + Remove and aiscard the foam packing ‘Tadnohes | material from the CPG assembly. wiTwo Units 10. Install two Mé/t x 20 mm flat head, sorews through each baseplate side rail into the = pedestal. Tighten at this time. See figure 2-4 PG PG ASIN = =] Note ie ic = ‘Al fasteners used in this system are metric. = 11, Install two MB/1.25 mm locking nuts and Le» washers on the baseplate mounting studs in ac cee or) each pedestal. Tighten all four nuts at this Poteau time, ‘See figure 2-4 Cord Figure 23 oe 7. Set each pedestalfattice assembly on baseplate mounting studs. See figure 2-4. (4), Both 8. Remove both pedestal covers by loosening (4) screws on each cover, and lifting cover up and out. Note + The CPG safety shield panel must not be removed. + The safety shield panel may be raised and taped open to allow service access to the CPG assembly. + The safety shield panel must be lowered ee any time you are not working in the CPG assembly, + Do not leave the system unattended with the pedestal covers removed. Figure 2 zy ‘Mr Te92 Way Model 1365 Installation (with Base Plate) 2-3-3, Wire Routing 1, Connect the orange/white antenna leads from the CPG lattice to the antenna terminal block "BS" on the MPU board. Connect wire #15 to. terminal 3, wire #1 to terminal 4. 2. Connect connector JA to the MPU board. 3. Connect the detector lattice field coil leads to TBI in the CPG pedestal + Wire #4 to TBI-1 + Wire #11 to T81-3. 4. Place the orange/white twisted antenna cable and the gray data cable in the center cable run. See figure 2-5. + Secure in place using tape. + Place the large twisted interrogation cable between the edge of the cable run and the channel. Secure in place using tape to avoid interference with the plastic threshold. See figure 2-5 for cable position. 2-3-4. Power Connection 1, The Model 1365 Is shipped from the factory set for 240 VAC operation. A pair of switches mounted in the CPG pedestal select the desired operating voltage; 105, 120, 210, or 240 VAC. See figure 2-6 for switch operation. 2. For single systems select the voltage and go to step 5, for dual systems continue with step 3. Line Voltage Left Switch Right Switch 1000 110 110 to 130 O 200 to 225 Ww Orange Twisted 225 to 250 Antenna Cable, Gray Data Cabie Figure 2-5 Figure 25 5. Verify that all wires and cables are routed away from the photocell assembly. 6. Install the remote switch (optional) and cable using appropriate mounting methods. Connect remote switch wiring to TB-2 in the microprocessor panel: 782-5 Green TB-2-6 Black 7B-27 Red Saw 19a September oS Installation (with Base Plate) Model 1365 2-3-4, Power Connection (Cont.) Maintain at least 18-inch [46 em] spacing for three system installations. 3. Multiple System installations: ©. Remove the knockout in the back side of + Two 1365 systems can be installed side by the detector pedestal of unit 1. side with a 12-inch (80 cm] separation between baseplates. D. Remove the knockout in the back side of the CPG pedestal of unit 2 + Three Model 1365 systems can be installed side by side with an 18-inch [46 em] E. Route the power cord of unit 2 separation between baseplates. 1. Cut off the plug from the power cord of Power can be located between or on either unit 2. side of the systems. If power is coming from the side, it can be run from the CPG side of 2. Route the power cord through the the first system, through the system baseplate, knockout in the detector pedestal of out the detector side and into the CPG side of unit 4 the second unit. 8. Route the power cord through the There are knockouts in both the CPG and baseplate cable run section that is not detector pedestals for power entry and exit. A used for other wires. See figure 2-7. Power Interconnect Kit is availabie to complete power interconnection between systems. The 4. Route the power cable up to terminal part number of the Power Interconnect Kit is block TB4 above the voltage select 78-8064-2689-2. The kit contains the following switches in the CPG in unit 1 arts: : F. Install the Heyco strain relief where the + 78-8072-0187-7 Fuse assembly power cord enters the detector pedestal of + 26-1001-7030-2 clip unit 1. Allow approximately 6-inches + 26-1003-5704-0 Screw, panhead [15 cm] extra cord between systems for MAL7 x 8 mm some system movement, + 26-1007-2190-6 Hole plug, Heyco, 718-inch G. Secure the power cable in the baseplate + 26-1004-9140-7 Strain relief, Heyco, cable run of unit 1 using tape. See figure 7/8-inch 27. + 78-8064-2690-0 Fuse label 26-02-6286 Seren, paneed Asee: + 26-1004-4659-5 Nut M5/8 ae + 26-1008-6566-1 Washer, lock M5 + 78-8002-3128-0 Terminal (Ring tongue) 16-14 ga. PG PG PG 4, Power interconnection procedure: =n. = | DET) 7 I DE DET} ‘A. Place the OPG side of one system (unit 1) J toward the power source. This system will [Y~ supply power to the second system (unit 2), ee 18.inchos eee Power y/three Units B. Place the CPG side of unit 2 next to unt 1, com maintaining a minimum of 12-inch [30 em] spacing for dual system installations. Figure 27 re ‘aM TeeT September Model 1365 2-3-4. Power Connection (Cont.) H. Make power connections in unit 1 CPG: ‘The Power Interconnect Kit contains a 4A-250V Slo-Blo fuse, a fuse block, a label, and @ mounting screw for the fuse block. a. Mount the fuse block as indicated in figure 2-8 a using M3/.5 x 6 mm screw. b. Install the fuse. |. Connect one lead of the fuse block to TB4-2A. See figure 28. Connect the second lead of the fuse block to TB4-18, J. Route the power cord up to the strain reliot above the voltage select switches, a. Cut and strip the power cord for connection to TE-4 and the grounding stud. See figure 2-8. . Crimp the connector supplied in the kit to the green ground wire from the unit 2 power cord and attach to the ground stud using the nut and washer supplied. c. Connect the white wire to TB-4-38, d. Connect the black wire to TB4-28. Ground stud Figure 7-5 Installation (with Base Plate) K. Secure the power cable in the second P-clip strain relief using a M4/.7 x 8 mm screw. L. Apply fuse label above fuse block. M. Set the voltage select switches in unit 4 and unit 2 to the correct setting. See figure 29, Line Voltage Left Switch Right Switch J 100 to 110 110 to 130 20010 225 0 0 225 to 250 WARNING->REPLACE ONLY WITH RATED FUSE. FUSE-SLOW BLOW, 4AMP, 250 VOLT Oa 1901 September 27 Installation (with Base Plate) 2-3-4. Power Connection (Cont.) 5. Position the plastic threshold between the pedestals. See figure 2-10. A\CAUTION aU Ley Bt aie el) oo Model 1365 2, Disconnect the system power cord before instaling gates or turnstiles. Z\WARNING Petey cord from power ENTRANCE GATE | Sey Gee Oe Lea Figure 2-10 Figure 2-17 2-3-5, Base Securing Remove the liner from the non-skid tape on the bottom of the base. 2-3-6, Gate and Turnstile Installation EXIT GATE 4. Ifthe system requires gates or turnstiles, pee connect them at this time. All gate intalation, e (FR adjustments and electrical wiring instructions “onions | me | = | tam t | Se | & | cms um | em | & | abee g | ts Figure 2-16 Figure 2-79 2-4-4. Diagnostic Indicator Chart Ta pane | eens Ee PEE [Bete eae |Seerawameme | ssid. Samo gpatan 0. a | Bar w nen ne intone * omen se ne Spl ft es Sees, jes : Brewster [mune ica cmrent : Becgeneanecses |e 5 Feeracony et aktn: | PlhecsryChock ot | Ae Ud * Femettese rt enrtenn, | Foal boned retn atc | Retosbwoen ip pus eae i percha sotet ion “Fars tno he dip oreo Webern oe NTE coe @ hain Ba crue expen te mpc ms NOTE 2: Totypate rena ot 8p ‘Sorin sme open ino ope Figure 2-20 ze OM 1891 September Model 1365 Installation (with Base Plate) 2-4-5. Photocell Alignment Procedure 1 ‘The photocell is factory aligned and should not require further adjustment. If the photocell is not functioning, alignment should be checked. Note Verily T8-2 connections. See paragraph 2-4-3, Verily the photocell relector isin place, centered on underside of the upper horizontal member of the CPG lattice. The reflector should be flush with the inside edge of the lattice, Verity the photocell is emitting a light beam by visual check. red glow should be visible in the lens. If no light is visible see troubleshooting procedures. Remove the detector pedestal cover exposing the photocell and mounting hardware. + On the bottom right of the photocell there is a small red LED which will be on when the photocell is aligned on the target material and off when the beam is interrupted. + Vertical alignment of the photocell is controlled by a flat head allen screw on top of the pedestal next to the lattice. See figure 2-22. + Clockwise rotation lowers the beam. + Counterclockwise rotation raises the beam, + Final alignment should place the beam 1-1/2 - inches [3,8 om] in from the corridor side of the reflector and centered on the length of the retlector. + Verity the photocell alignment is corract by slowly covering the reflector from each edge with a sheet of paper. The system will interrogate when the part of the reflector the photocell is aligned to is covered. + Horizontal alignment changes are made by adjusting locknuts on the photocell mounting studs located inside the pedestal. See figure 221 Figure 2-27 Adjustment Screw os Taw 08 ‘September Big Installation (with Base Plate) Model 1365 2-4-6, Antenna Null Verification 1. Place switch $2 in the "Cont." position. 2. Connect the oscilloscope to TP20. + Volts/Div - 50 millivolts + Coupling - AC + External Trigger - TP12 3, Measure the Null voltage as shown in figure 2-23, If the sense coil null is less than 300 mmllivolts, proceed to paragraph 2-3-7, step 5 of the installation instructions. If the sense coll null is greater than 200 milivolts, proceed to step 4 of this procedure. See figure 2-23. Measure 300 mV Max tt bon | 1 wre Figure 2-23 4, Rotate the system 90° while checking the sense coil null. 5. If the null reduces to 300 milvolts or less, place the system back in its original position Reposition the system until the null drops to 00 millivolts or less. Return to paragraph 23-7, step 5 of the installation instructions. 6. Ifthe null remains the same, no change, proceed to step 7 of this procedure, 10. 12, 13, 14, 15. Only use this procedure, steps 8 through 15, to correct null problems within a lattice. DO NOT renull a lattice in an attempt to solve null problems caused by the environment. This is usually ineffective, ime consuming, and may lead to future problems. ‘Steps 8 through 15 apply to Model 1365. For Model 1970, go to paragraph 2-4-7. Connect one twisted pair of sense coil wires at a time to pins 1 and 4 of the BS terminal strip. Check for a null greater than 150 millivolts. If the nulls greater than 150 milivolts, remove the diagonal inserts from the lattice. Remove the glue from one diagonal iength of wire. Note ‘A diagonal length is one from one comer of the lattice, through the cross section, to the other corner of the lattice If one diagonal length of wire has red markings, begin with that wire Move that diagonal wire up and down to produce a null of less than 150 millivolts, Glue the wire in piace. If necessary, repeat the procedure for the other diagonal wire. Replace the inserts and check the null. Reconnect the sense coil wires to the BS terminal strip. + Wire 14 - pin 1 + Wire 16 - pins 2 and 3 + Wire 1- pin 4 Recheck the null and system coverage. Return to paragraph 2+ installation instructions. step 9 of the ze GaN 1984 December Model 1365 Installation (with Base Plate) 2-4-7. Model 1370 Null Adjustment For Model 1370, use the following steps instead of steps 8 through 16 of paragraph 2-4-6. 1. Disconnect the CPG lattice sense coil wires 1 and 15 from terminals BS4 and BS3. CPG Lattice Detector Lattice Microprocessor PCB a Move detector lattice sense coil wire 16 from terminal BS2 to terminal BS4. If the null voltage is > 150 mV, adjust as follows: a. Using a 5/64 inch ballpoint hex wrench, rotate an adjusting screw for minimum voltage. + Eight adjusting screws are located on the underside of the detector lattice X. ‘+ The screws can be adjusted in any order. bf adjusting the first screw does not bring the null voltage under 150 mV, adjust the other screws for minimum voltage until the null voltage is under 150 mV. Disconnect the detector lattice sense coll wires 14 and 15 from terminals BS1 and BS4, Connect the GPG lattice sense coil to terminal strip BS: a, Connect wire 15 to terminal BS1, b. Connect wire 1 to terminal BS4. If the null voltage is > 150 mV, adjust as follows: Using a 5/64 inch ballpoint hex wrench, rotate an adjusting screw for minimum voltage. ‘+ Eight adjusting screws are located on the underside of the CPG lattice X. ‘+The screws can be adjusted in any order. b. If adjusting the first screw does not bring the null voltage under 150 mV, adjust the ‘other screws for minimum voltage until the null voltage is under 150 mV. 7. Move the CPG lattice sense coil wire 15 from terminal BSt to BS3, ‘aM 1994 December DAA Installation (with Base Plate) Model 1365 8. Connect the detector lattice sense coil to terminal strip BS: a. Connect wire 15 to terminal BS2, b. Connect wire 14 to terminal BS. 8, Recheck the null voltage and system coverage. 10, Return to paragraph 2-3-7, step 9 of the installation instructions. 28 ah 1994 December Model 1365 Installation (with Base Plate) 2-5, System Layout Checklist 2-5-1. System Placement Relative To Interfering Objects Cash Registers - For optimum performance, cash registers should be placed at least ‘four feet [1,2 m] from the closest lattice. If necessary, the cash register may be located between three [1 m] and four feet [1,2 m] from the lattice; however, the cash register would require a metal shield which is available at an additional cost. Any distance less than three feet [1 m] from the closest lattice is not allowed. Computers (CRT) = For optimum performance, computer terminals should be placed at least six feet [1,9 m] from the closest lattice. If necessary, the ‘computer terminal may be located between four [1,2 m] and six feet [1,9 m] from the closest lattice; however, the CRT would require a metal shield which is available at an additional cost. Any distance less than four feet [1,2 m] from the closest lattice is not allowed. Multiple CRT’s may require additional distance. Copy Machines ~ Copy machines are not allowed within ten feet [8 m] of the closest latice. Energy Management - Heating, Ventilation and Air Conditioning Energy Management System Systems may generate high levels of electronic noise which can reduce the performance level of the detection system. Please contact EAS Technical Service for more information. Fluorescent Light = Fluorescent lights using electronic ballasts and their associated Ballast wiring must be located at least twenty feet (6 ml from the closest point of the detection system. - Magnetic ballasts [60 Hz] may be used within 5 feet (1,6 m] of the detection system, - Fluorescent lighting dimming controls and their associated wiring must be at least thirty feet from the closest point of the detection system. Large Metal Objects = Large Metal objects are not allowed within 3 feet [1 m] of a detection panel. Examples include: Large metal shelves, refrigerator, heavy Support beams, heating/air conditioning duct work. Metal Framed Doors, = ADA (Americans with Disabilities Act) requires a 4-foot [1,2 m] Windows and Counters setback and clear space at exit doors for wheelchair maneuvé space. This is the recommended system placement. = The closest lattice of the detection system should be located at least three feet [1 m] from a metal door frame. If necessary, the distance ‘can be shortened to two feet [0,6 m]; however, the door frame will require electrical strapping (metal connectors) at all joints to achieve this distance. There is an additional charge for electrical strapping. Any distance less than two feet [0,6 m] is not allowed. = Adatection system with an exit gate requires @ 48 inch [1,2 m] setback from a door to allow clearance for gate arm swing. aw 1904 — December 2B installa in (with Base Plate) Model 1365 2-5. System Layout Checklist (Cont.) 2-5-1. System Placement Relative To Interfering Objects (Cont.) Power Panel Boxes Protected Material S.C.R. Light Dimmers Stereo Components Telephones Walls (Stee! Stud) Power distribution boxes must be at least 8 feet [2,5 m] from detection panels. Books and other protected articles should be located at least three feet [1 m] from the closest point of the security system. Silicon controlled rectifier tight dimmers and wiring must be located at least ten feet [3 m] from the closest point of the detection system. Dimmers may require manufacturer's fiters to reduce electronic interference. ‘Stereo components including turntables and audio tape players are Not allowed within two feet [0,6 m] of the closest lattice, Telephones must be located at least two feet [0,6 m] from the closest lattice Walls with steel studs are not allowed within three feet [1 m] of the closest latice. We recommend the use of wood 2 x 4's for wall studs within three feet [1 m] of the system. 26 aM 1994 December Model 1365 Installation (with Base Plate) 2-5, System Layout Checklist (Cont) 2-5-2. System Accessories AlarmDisable Box = The optional alarmidisable box is wired to the lattice base. Our standard installation includes 27 feet [8,3 m] of 1/4" [6 mm] diameter wire. Additional wire length can be purchased at an upcharge for time and material. Use wire mold or 1* [25 mm] diameter conduit to protect the wiring. Deactivator/ = The Model 930 desensitizer should be located at least 6" (152 mm] Reactivator from all magnetic media and 12" [304 mm] from computer terminals. = The Mode! 955/966 bookcheck unit shail be located at least 6° [152 mm] from all magnetic media and 3 feet [1 m] from computer terminals. Closer placement to computer terminals will result in “twitching’ on the display, however, no damage will occur to either device. Do not place closer than 12" [304 mr] from CRT. = The Model 951 reactivator should be located at least 6° [152 mm] from all magnetic media and computer terminals. - Model 2001 deactivator and Model 2011 reactivator are designed to ‘work with audio and video tapes. Floppy disks should not come within 1" [26 mm] of these units. = The Model 763 deactivator is designed to work with audio and video tapes. Floppy disks should not come within 1" [25 mm} of these units, Distance Between Systems - Minimum distance is 1 ft [804 mm] when two systems are parallel to each other. Three or more parallel systems require a minimum separation of 18 in. {0.5 m}. Multiple systems can be butted with lattices end-to end in a "staggered configuration. Exit Control Hardware - All metal exit control hardware should be located a minimum of 12" [304 mm] from each lattice. If a metal rail is placed parallel to the lattice, it must be placed at least two feet [0,6 m] away from the lattice Gates - Entrance and exit gates are available. Remote Entrance Gates require 110V power to be located within four feet [1,2 ml of the gate box. Power may also be brought directly into the gate box. See installation specification sheet for details. 3M 1904 December Pa Model 1365 Installation (without Base Plate) 2:10. System Installation - Direct Mount Buried Wiring (Without Base Plate) 2-10-1. Installation Overview ‘There are two types of "Direct Mount" installations: + Direct Mount. System panel to panel wiring is on the surface of the finished floor, enclosed in 1500 Wiremold. Use the Direct Mount Kit for systems with surface wiring, 78-8072-0344-9. + Direct Mount Buried Wiring. System wiring which is below the finished flooring must be enclosed in PVC conduit, usually done in new construction. Use the Direct Mount Kit/Buried cable for buried system wiring, 78-8054-2618-1. ‘Two system layout templates are available to help contractors prepare for system installations. + 33+1/2 in, [850 mm] corridor template kit (Get of two) 78-8072-0234-2. + 86 in. [914 mm] corridor template kit (sot of two) 78-8072-0351-4. Baseplates are not used for either type of direct ‘mount installation. The pedestals are mounted on ‘metal mounting feet which facilitate mounting and anchoring to the floor. In both types of installation, AC power can be supplied by the standard power cord or by hardwiring. Hardwiring is accomplished by running power in through the bottom of the CPG pedestal, In elther case, power must meet the requirements defined in paragraph 2-11-2. Muttiple system installations, whether surface wiring or buried wiring must receive electrical power via the power cord or hardwired through the floor. The Power Interconnect Kit, which is used with the base plate mounted system, cannot be used with direct mounted systems. Hardwired power through the floor to each system is preferred. (Once a direct mounted system is installed, itis not easily relocated to solve synchronous and non-synchronous noise problems. For this reason, compliance to EAS Design Pack requirements is extremely important in order to avoid system performance problems due to the environment. If the site is questionable, correct the problem or contact your Field Service Manager. In any questionable site, the system can be set up and checked for performance before anchoring. Use the direct mount templates to correctly position lattices for performance testing. ‘The CPG pedestal of the system must be on the side where AC power is located. Saw 1994 December Pax) Installat in (without Base Plate) Model 1365 2-10-2. Tools Required fe {In addition to standard technicians too! kit the following tools are required for a system installation. Deser ion Hammer Drill VSR 3/4-inch (AEG) Standard Drill Bit Adapter Chuck (AEG) Goggles, Flex, Protective 38-inch Hammer Drill Masonry Bit (AEG) 3/16-inch Hammer Drill Masonry Bit (AEG) Center Punch 1/8-inch x 4 Wiremold Removal Tool Coax 25', BNC connectors Torpedo Level - 9-inch Tape Measure 12 feet 1/2-inch Hex Socket 3/8-inch Drive, 6 pt. Pomona Test Lead, BNC Female to Test Clips Hammer knife, Utility, Metal Hacksaw Metric sockets 3/8-inch drive Ratchet 3/8-inch drive Metric Allen Wrenches Green Lee Punch 7/8-inch Crimper/stripper, metric bolt cutter Dual Trace Oscilloscope (withree probes) Calibrated Strip Die Punch Techni-Too! Number 103F1016 10880107 soamioz2 103FI903 sosscse2 400SA036 758PRO56 758CO5825 400GA839 272GA8312 322WR019 458TE2631 175SA016 732PR020 148sA014 322WR0250 322WR107 20480054 4148A040 826PLO14 8100 (available through In-Co Service) 78-8021-8842-1 (through SP&LC) 26-1006-8951-9 pay ‘aM 1994 December Model 1365 Installation (without Base Plate) 2-11. Pre-Installation Requirements 2-11-1. Site Inspection Using the Pre-Installation Drawing as a reference, inspect the area for interfering objects both physical and electronic. The minimum distances for interfering items from the system are specified in the System Layout Checkiist, paragraph 2-15. Maintaining minimum distances from interfering objects is critical to proper system operation. The minimum distances can generally be achieved by moving the interfering object or changing the location of the system. If the system placement is more than one foot from ‘what is described in the preinstallation diagram then approval must be obtained from the Field Service Manager as well as the customer. Inspect the floor surface in the area where the mounting feet will be placed. The floor surtace must be level and flat to within + 1/16 inch [1,6 mm} where the perimeter of the mounting foot wil contact the floor. Ifthe floor is not fat, the mounting feet will not rest securely on the surface of the floor. Also, the lattices will not be vertical when installed, It the floor surface is not acceptable discuss the situation with the contractor or customer to get this resolved before beginning the installation. If the floor surface cannot be corrected immediately, determine when it will be corrected and return to complete the installation. @ to computer Ae 12" (dual system) 18" (three or more) 8' to ower distribution box. swes-c2.010 3M 1994 December 225 Installation (without Base Plate) Model 1365 2-11-2. Power - Voltage Specifications Magnetic EAS System Power Requirements 9M Tattie-Tape™ Systems are sophisticated computer-based devices which require high quality, surge and noise free electrical power for optimum performance. 9M Tattle-Tape™ Systems are classified as Security Systems and, as such, U.L. requires that these systems be connected to an electrical outlet ‘not controlled by switches (e.g. light switches). 1. Verify that electrical power is installed according to the "Installation Drawing" and meets the system power requirements. 2. Verity the AC power conduit, panel to panel conduit and the remote alarm switch (optional) conduit (f applicable) are located correctly. + Verify both the AC power and the optional Remote Alarm Switch conduits are 41/2 Inch [12,7 mm] metal conduit. + Use the 83-1/2 in, [850 mm] or the 36 in. [914 mm] template as a guide to verify the conduit locations are correct. 3. Power Options: 3M recommended Power Line Conditioner ‘A minimum current of two amperes must be continuously available to meet the power requirements of the line conditioner and the Tattle-Tape™ system. The Oneac CL1102 power line conditioner is recommended for use with the Model 1865 and will power one or two systems. Three system installations powered from one line conditioner requite the larger Oneac CP 1103, power line conditioner. Three systems will require at least three amperes of current. Line conditioners can only be used with systems which connect to the power source using the standard plug in power cord. Line conditioners ‘cannot be used with systems which are hardwired to the power source. Panel to panel buried PVC conduit Optional remote alarm switch 4/2 In metal conduit ‘AC power 12 In metat conduit 33 1/2 In [850 mm] Template 78-8072-0148-4 36 In [914 mm] ‘Template 78-8072-0372-0 226 OOM 1002 May Model 1365 Installation (without Base Plate) 2-114 . Power - Voltage Specifications (Cont.) 3. Power Options (Cont.): Dedicated Power Option A DEDICATED, ISOLATED GROUND CIRCUIT OF ATLEAST 15 AMPERE CAPACITY AT 100-120 VOLTS OF 200-240 VOLTS. This circuit may have no other outlets or devices drawing power from it. it must have an insulated grounding wire directly run from the system service box to an isolated ground receptacle (orange) in which the grounding terminal is purposely insulated from the mounting box (NEMA 5-15 isolated ground). This circuit is defined in section 250-74 exception No. 4 in the National Electric Code Handbook. Hardwired systems have power directly connected to an internal terminal board which eliminates the need for the isolated ground orange receptacle, However, the isolated ground wire is still required and must be connected directly to the system, 4. Hardwired systems must meet the requirements for power, voltage, dedicated line, and isolated ground as defined in this section, 5. Several power cord options are available for muttiple system installations. Power may be located in two locations, one on each side of the systems. Power may also be located between the two systems. 6. When system power andlor panel to panel wiring is below the finished floor, verify the conduit locations are correct using the direct mount templates, Contractors must use the contractors templates to property locate the conduits. Muttiple system installations which have hardwired power may have two power conduits through each lattice mounting foot, Power may be "daisey-chained" from one system to another. ‘The last system in the chain will have only one power conduit Main service entrance panel Hot Conduit equipment ground poe) Special Isolated ground receptacle Neutral Green wire ground Isolated (dedicated) Saw Tee September 2a Installation (without Base Plate) Model 1365, 2-12. Model 1365 Installation (Without Base Plate) ey power source. Note Read the entire installation procedure before beginning the installation. For multiple system installations, repeat the instructions for each system to be installed. Do not remove the safety tag from the power cord unti all unattached wires have been properly connected. A WARNING! aa ELECTRICAL SHOCK HAZARD Feta and compete instalation . Instructions betore connecting to electcal power source. Failure to 40.20 could esuitin ‘equipment damage and ‘serious injury. ADANGER eed Rod ai Operator Warning ‘servicing te 3a factory talned service personnal. 226 aM 10oT September Model 1365 Installation (without Base Plate) 2-121, Unpacking 1. The system must be moved to the installation location before removing the packaging material. 2. Verify that all necessary components are at the installation location. + System(s) + Accessories + Templates + Direct Mount Kits), Buried wiring 3. Removing packaging material. CAUTION Do not attempt to separate the Model 1365 shipping carton from the pallet. They are bolted together. To keep the lattices from overturning while being unpacked the CPG lattice is anchored to the pallet. The two lattices are held together by the top retainer cap, Do not remove the anchor or top retainer cap until you are ready to mount the lattice assemblies onto the mounting feet 4, Cut and remove the banding, 5. Remove the outer top cover. 6. Slit the outer box at the corner tape seam, ‘The outer box material MUST be removed by slitting the corner tape seam. Note DO NOT remove the outer packaging material by lifting it over the top of the system, as the system will easily overturn. aM TesT September Installation (without Base Plate) Model 1365 2-12-2, Site Preparation 1, Place the electrical cover-up box in the CPG pedestal mounting foot 2. Place the mounting foot over the power conduitis). 3. Ifthe floor is carpeted, press on the box to compress the carpet. 4. Mark the conduit flush with the top of the ‘cover-up box. 5. Cut off the power conduit at the mark. 6. Cut the alarm switch conduit (optional), on the processor side of the system, approximately 2 inches [50,8 mm above the floor surface. 7. Cut the 1-1/2 - 2 inch [38 mm - 0,8 mm] diameter PVC conduit approximately 4/4 - 1/2 inch [6,4 mm - 12,7 mm] above the floor surface. Note It is important that the conduit is not more than 1/2 inch [12,7 mm] above the floor surtace, as ‘this will interfere with the mounting foot. 8. Verify all conduits are free of all debris and obstructions. Processor side \ Condult 230 aM 1987 ‘September Model 1365 Installation (without Base Plate) 2-12-3. System Positioning Positioning the system for function and appearance is critical to the success of the entire installation. Attention to system placement and detail at this stage of the installation is extremely important. it may be difficult to correct a problem later, should ‘one be discovered. During muttiple system placements all panels must be aligned for proper spacing between panels and systems. ‘That is, the spacing between systems, between lattices and the lateral positions of the lattices must be acourate to achieve proper appearance and alignment. ‘The movement of direct mounted systems is limited by conduit placement and building obstructions. ‘The system position is also defined in the Pre- Installation drawing. 1, The templates are shipped separately from the system. Locate and unpack the templates. Use the 33-1/2 inch [850 mm] corridor Template #1 (78-8072-0148-4) or Use the 36 inch [914 mm] corridor Template #1 (78-8072-0872-0), to locate the: ‘Anchor holes for the mounting feet. Panel-to-panel conduit. Power conduit. Optional remote alarm switch conduit Use the 33-1/2 inch [850 mm] corridor ‘Template #2 (78-8072-0149-2) or Use the 86 inch [914 mm] corridor Template #2 (78-8072-0373-8) to correctly position the mounting feet prior to tightening the anchors. 39-1/2 Inch [850 mm] Template #2 78-8072-0149-2 36 Inch [914 mm} Template #2 78-8072-0373-8 33-1/2 Inch [850 mm} Template #1 78-8072-0148-4 36 Inch [914 mm) ‘Template #1 78-8072-0372-0 aM 1993 March Eat Installation (without Base Plate) Model 1365, 2-12-3. System Positioning (Cont.) 2. Position template #1 as indicated in the pre~ installation drawing. Position the template with the CPG end in the direction from which power will enter. ‘The CPG end of template #1 has the 2-4/2 inch x 2-1/2 inch (64 mm x 64 mm] ‘opening for the power conduit 3. Verify the power conduit, the panel-to-pane! ‘conduit, and the remote switch conduit (optional) line up with the template openings. 4. Verify the template is centered on the entrancelexit doors. 5. Verify the system will be set back at least 48 inches [1,2 m] from the door as specified in the EAS Design Pack. The template does not represent the size, length or depth, of the 1365 system. Verify the set-back distance from the door to the edge of the template is at least 54 inches [1,37 m]. This will ensure the system is at least 48 inches [1,2 ml from the door. 6. Square the template to the walls, doors, counters, and tile or floor patterns, etc. 7. Align the leading edge of the template with string, a straight edge board or line inthe floor tile. Mark the location of the edge of the template on the floor with masking tape. 32 aM 1994 December Model 1365, Installation (without Base Plate) 2 8 12. . System Positioning (Cont.) Muttiple corridor systems require a minimum spacing between systems. Side-By-Side System installations 12 inches [305 mm] between systems 18 inches [457 mm] between systems for three or more systems Staggered System Installations The lattices of each system must be directly in line with each other. If the lattices are not directly in line then the systems must be separated by the distances indicated above. ‘Mark the edge of the template with masking tape. The template extends two inches [60,8 mm] beyond each side of the system. For muttiple system installations, verity system spacings, positions and alignment are correct. 10. Very all System Layout Checklist 1" requirements have been met, Use masking tape to locate the four corners of the template. 42" witwo [305 mm} 7 iat Li mo 18" whthree 1457 mm} In tine BM 1987 September Installation (without Base Plate) Model 1365 2-12-4, Mounting Panel Bases To Floor 1. Ifthe system is on carpeted floors continue with step 2. if on non-carpeted floors go to step 8, 2, Remove template #1 3. Align the comers of template #2 to the masking tape. 4, Align the mounting feet to the template. 5. Use a marking pen to mark the carpet at each mounting foot anchor hole (4). 6. Temporarily set the template aside. 7. Cut a 1-inch [25,4 mm] hole in the carpet for each mounting foot anchor (4) using the die punch. Peay rend erties + Remove all carpet fibers. SM T98T ‘September Model 1365 Installation (without Base Plate) 2-12-4, Mounting Panel Bases To Floor (Cont.) 8. Realign template #4 to the masking tape. 9. Select a 9/8 inch [9,5 mm] hammer drill masonry bit. Set the depth gage on the dil to 4 inches {102 mm}. cornet 10. Stand on the template to keep it from moving. 11. Use the holes in the template as a drilling guide. + Mark the center of each anchor hole using a center punch. 12. Drill anchor holes (4) for the lattice mounting feet. Note Recheck the template position before driling each hole 13. Remove the dust from the holes (9) by vacuuming or using compressed air. ‘SM 1987 September Installation (without Base Plate) Model 1365 2-12-4, Mounting Panel Bases To Floor (Cont.) 14, Verity the mounting foot holes are at least 9-1/2 inches [89 mm] deep. 15. Place the 1/2 inch [12,7 mm] EMT conduit bushing on each power conduit. Push it flush with the top of the conduit. Note if the contractor supplied 3/4 inch [19 mm] ‘conduit, obtain 3/4 inch [19 mm conduit bushings from the contractor on site or obtain them locally. 16. Tighten the set screw on the conduit bushing securely. 17. Cut the caterpillar grommets to length and insert in the mounting foot opening. 18. Arrange the panel-to-panel cables with the ‘ends of the cables, as indicated below, on the CPG side of the system. Note ‘The system interpanel cables are 92 inches [2,84 m] long. These cables are capable of being buried in conduit up to 20 inches [508 mm] beneath the surface of the floor. + Male end of the JA cable + Terminal ends of the field coil wires #4, #11 + Unterminated ends of the antenna wires + Pigtail end of the green panel-to-panel ground cable, CPG side 236 OSM 1985 March Model 1365 Installation (without Base Plate) 2-124, Mounting Panel Bases To Floor (Cont,) 19. Pull the wires through the panel-to-panel conduit. Leave an equal amount of wire in each panel. Note It may be necessary to remove the connector strain relief to pull the wires through the conduit. 2-12-5. Installing Mounting Feet 1. Position template #2 on the masking tape comer markers. 2, Insert an electrical cover-up box into the ‘mounting foot for the CPG side of the system. 3. Route the system cables and AC power leads (i applicable) through openings in each system mounting foot. 4, Position the mounting feet (2) in the template cut-outs with the back-plates toward the ‘outside of the corridor. 5. Using a hammer, insert the 3-inch [76 mm] anchors (4) flush with the surface of each mounting foot. + Verify the mounting feet are properly positioned in the template. + Verity the template is still properly aligned to the masking tape. 6. Use a 1/2 inch [12,7 mm socket to tighten the anchor screws to approximately 35 Ibs. [16 kg] of torque. 7. Remove the template and masking tape. ‘3M 1031 September 237 Installation (without Base Plate) Model 1365 2-12-5, Installing Mounting Feet (Cont.) 8. Set the conduit-mount cover plate on the power conduit(s). + Verity the cover plate is aligned to the cover-up box. 8. Mark the exact center of each power conduit on the cover plate. 10. Drill a 6/16 inch [8 mm] pllot hole for each power conduit. AXCAUTION ce Pests ocd eos 11. Use a 7/8 inch [22 mm} "Green Lee" chassis punch to cut an opening for each conduit. 42. Slip the conduit-mount cover plate over the conduit bushings. 18. Secure the cover plate to the cover-up box using two thread forming screws. 14, Install the conduit bushing nuts and tighten. 15. Ifthe AC power wires are not already in the power conduit they may be pulled at any time from this point on. 38 3M 1981 September Model 1365 2-12-6. Installing Lattice/Pedestal 1. Place a box shim over the mounting studs on each of the mounting feet. 2. Removing the remaining packaging. CAUTION Use caution when removing the remaining packaging from the system. When the top retaining cover Is removed the processor lattice will easily overturn, 3. Remove the processor lattice/pedestal assembly from the pallet and set it where it wil not fall over. Installation (without Base Plate) GM 1961 September Installation (without Base Plate) Model 1365 2-12-6, Installing Lattice/Pedestal (Cont.) 4. Do not attempt to remove the CPG pedestal because itis attached the pallet. + Remove the cover from the CPG padestal assembly. 5. Loosen the two bottom pedestal cover screws enough to release the safety shield 6. Remove the wing nut in the pedestal base which secures the pedestal to the pallet 7. Remove the OPG lattice/pedestal assembly ‘from the pallet. Place the CPG pedestallattice assembly on the CPG mounting foot. ‘+ Feed all signal wires through the slot in the pedestal + Feed all AC power wires through the 2-4/2 inch [64 mm] square opening. CAUTION Do not pinch wires or damage leads 20 OaM 190T september Model 1365 Installation (without Base Plate) 2-12-6. installing Lattice/Pedestal (Cont.) 9. Align the holes in the pedestal with the mounting studs on the mounting foot 10. Install two Mé/1 x 20 mm flat head screws through the back of the mounting foot and into the pedestal. Tighten securely. 11. Lift the CPG assembly and insert the CPG standoffs. +The CPG standoffs mount on the studs that protrude through the pedestal from the mounting foot. 12. Install two M5 screws and washers to attach the CPG to the CPG standott 18. Install two M8/1.25 nuts and locking star washers on the studs in each pedestal. Orxr4 1 14, Push and hold the CPG assembly to the back of the CPG pedestal + Tighten the screws securely. + Tighten the nuts securely. Saw iest September ea Installation (without Base Plate) Model 1365 2-12-6. Installing Lattice/Pedestal (Cont.) 15. Loosen the processor pedestal cover sorews and remove the cover. + Carefully disconnect the wires to the processor pedestal cover. 16. Install the processor pedestallattice assembly on the remaining mounting foot. CAUTION Do not pinch or damage leads 47. Align the holes in the pedestal with the mounting studs on the mounting foot. 18. Install two M6/1 x 20 mm flat head screws through the back of the mounting foot and into the pedestal. + Tighten securely 19, Install two M8/1.25 nuts and locking star ‘washers on the studs in the pedestal + Tighten the nuts securely. Par SoM 1997 ‘September Model 1365 2-12-7. Vertical Alignment of Lattices ‘The vertical alignment of a lattice is adjusted by placing lattice shims between a lattice and pedestal box. Lattioe shims are placed under one side of the lattice base to cause a small shift in position. Each lattice should be vertical within 1/4 inch 16,4 mm]. Shims under one side of a lattice will adjust the vertical alignment approximately 1/4 inch {6.4 mm. 1. Loosen the cap screws under the lattice as necessary. 2. Place shims under one side of a lattice as necessary to ensure each lattice is vertical. Lattice shims may also be placed under the ‘ends of lattices to make end-to-end adjustments. 4. Tighten the cap screws to secure the lattice. Installation (without Base Plate) 114" max enn) [ | rb. 1/4" max (6,4mm)] Saw 1803 March 23 Installation (without Base Plate) Model 1365 212-8. Field Coil Wire Connections 1. The field coil wires connect to TB-1 in the CPG pedestal CPG pedestal + Connect wire #4 to TB-1-1 + Connect wire #11 to TB-1-3 + Pull the excess wire into the processor pedestal. 2. Mark the processor field coil wires 12 inches [805 mm from the processor lattice. + Untwist the wires to this point. 3. Place a wire marker, which is included in the direct mount kit, on each wire 11 inches [280 mm] from the lattice, CAUTION Verify wire #4 and #11 are correctly labeled before cutting. 4, Cut and strip wire #4 and #11 at the 12 inch [305 mm] mark. 5. Connect wires #4 and #11 to the two position terminal block, which is included in the direct mount installation kit. Tighten securely. rae OGM 1881 September Model 1365 Installation (without Base Plate) 2-12-8. Field Coil Wire Connections (Cont.) 6. The field wires trom the CPG come through, Processor the processor lattice mounting foot. 7. Mark the field coil wire 12 inches [305 mm] from where it enters the processor pedestal 8, Mark wire #4 and wire #11 with a wire marker at approximately 10 inches {254 mm]. CAUTION Verity wite #4 and #11 are correctly labeled before cutting. 9. Cut each wire at the 12 inch [305 mm] mark. + Strip the end of each wire. 10. Connect field wire #4 from the CPG to the terminal block matching field wire #4 from the processor lattice. Tighten securely. 11. Connect field wire #11 from the CPG to the terminal block matching field wire #11 from the processor lattice. Tighten securely. 12. Verify wire #4 connects to wire #4, and wire #11 connects to wire #11 19. Mount the two position terminal block to the processor pedestal using a M4/.7 x 20 mm screw in the lower left comer of the processor pedestal. ‘SM TT September a Installation (without Base Plate) Model 1365 2-12-9, Antenna Wire Connections 1. Locate the terminal block “BS" on the processor board 2. Connect wire #15, black, to BS-3, 3. Connect wire #1, red, to BS-4, + Pull most of the excess wire into the CPG pedestal 4. Mark the CPG antenna wires 22 inches [558 mm] from the CPG lattice. + Untwist the wires to this point 5. Place wire markers on wires #1 and #15 approximately 21 inches [583 mm] from the lattice. 6 Cut and strip wires #1 and #15 at the 22 inch [568 mm] mark 7. Connect the CPG antenna wires to the three position terminal block, which is included in the direct mount kit. 8. Connect wire #1, red, to position #1 8 Connect wire #15, black, to position #3. 10. Cut the processor antenna cable 9 inches [228 mm] from where it passes through the CPG mounting foot. 11. Strip 1 inch [25,4 mm} of the outer covering from the antenna cable, + Remove the foil and braided shields. + Strip the black and red wires 1/4 inch (6,4 mm} 12. Connect the processor antenna cable to the three position terminal biock in the CPG pedestal. 19. Connect wire #1, red, to position #1 14, Connect wire #15, black, to position #3. 15. Place the three position terminal block below the circuit breaker in the CPG pedestal. 22 inches 246 OSM SST ~ September Model 1365 Installation (without Base Plate) 2-12-10. JA Cable Connections 1. Connect the JA cable to the JA connector on the processor board. 2. Connect the JA cable, from the processor pedestal, to the mating cable in the CPG pedestal. + Pull most of the excess cable into the CPG pedestal. 3. Coil the excess JA cable and store it in the area under the CPG. 2-12-11. Ground Wire Connections 4. Use an MB nut and lock washer to attach the green ground wire to the processor pedestal ‘mounting stud which is to the right of the panel to panel conduit. Tighten securaly. CaN SST September EF Installation (without Base Plate) 212-12, AC Power Wiring (See Pre-Installation Requirements) ‘The system can be powered by the standard power cord plugged into a receptacle or the system may bbe hardwired to the power source. Power for hardwired systems can only enter the system through the CPG mounting foot. Electrical connections to the power source, for hardwired systems, can only be completed by a licensed electrician, For systems which are powered by standard plug in power cords go to section 2-12-13. ‘Systems which have hardwired power connections. continue with step 1 below. rents Ponies Hardwired Power Connections 4. Disconnect the power cord from TB-4-1A, TB-4-3A, and the CPG pedestal ground stud. 2. Remove the Heyco strain relief and the power cord from the CPG pedestal 3. Insert the Heyco plug in the back of the CPG pedestal 4. Electrical connections to the system can only be completed by a licensed electrician, as described in steps § through & 5. Cut and strip the end of the green ground wire from the power source. + Crimp a 14/12 ga. ring tongue terminal to the green wire. Model 1365 CPG pedestal .

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