Tyco Safety Sensormatic AMS9050 ANTI-PILFERAGE DEVICE User Manual

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AMS-9050 CONTROLLER 8200-0537-02, REV. B INSTALLATION AND SERVICE GUIDE 1 of 31 AMS-9050 Controller Installation and Service Guide ZE9050 Contents To the Installer....................................................... 1 About the Product.................................................. 2 Device Connections ........................................... 3 Installation Features........................................... 7 Service Features ................................................ 8 Installation Requirements...................................... 9 Controller Installation........................................... 11 Troubleshooting................................................... 13 Fuse Replacement .............................................. 15 Specifications ...................................................... 15 Declarations ........................................................ 16 © 2006 Sensormatic Electronics Corp. To the Installer This installation and service guide explains how to install, setup, and service the AMS-9050 controller. Parts required to install this system are: - AMS-9050 controller - AMS-1100/1101 exit antenna(s) or AMS-1080 aisle antenna(s) Other documents that may be required for installation are: - AMS-9050 Planning Guide, 8200-0537-01. Note: There may be installation restrictions on antennas in certain countries. See antenna installation guides for restrictions, if any. Regulatory Restriction: This device is only intended to be installed as described in the installation guide. - Because customer requirements dictate the placement of system components, your Sensormatic representative will supply this information separately. - If this product was installed in a European Union or European Free Trade Association member state, please give the Declaration of Conformity included with this product to the manager or user. By law, this information must be provided to the user. - Because of the number of antennas and accessories that can connect to this controller, methodically install this system to avoid problems. See “System Setup” in this guide for guidance on how to setup antennas.

About the Product The AMS-9050 controller is part of an EAS system that: - Includes pedestal type antennas. - Deters theft by activating an alarm when it detects the unique response of an active Ultra•Max hard plastic tag or disposable label when its signal is picked up by an antenna. Installation Features - Built-in mounting flange enables the controller to mount to a wall or inside a checkout counter. The controller can also rest on a shelf or attach to a ceiling. - Six knockouts receive exposed cables or cables in conduit. Knockouts are available for Class 2 wiring from antennas and low voltage devices. Setup Features - Supports various pedestal antennas used to detect tags/labels at exits or in food store checkout aisles. - Supports up to four AMS-1100/-1101 unicoil transceiver exit pedestals, or up to four AMS-1080 aisle pedestals, each with separate transmit and receive coils. - Antennas can be set up as four transceivers, or four transmit/receive pairs, or combina-tions of both using a laptop computer and ADS 4 service configurator software. Two receivers can be noise canceling coils. Automatic configuration is available for the commonly used system configurations. - Antenna coils can be set for phase flipping (default), aiding, or figure-8 operation. Note: Phase flipping is unavailable when noise canceling coils are used. - Supports auto synchronization - Supports the following alarm devices: - Built-in alarm in the antenna (if used) - Up to two externally-powered remote alarms - Externally-powered Sensormatic alarm management or traffic flow device - Up to two relays for devices such as security cameras. - Connection for hardwired sync and transmit inhibit function. - Supports RS-232 (local diagnostics) and RS-485 (remote diagnostics). - Supports RS-485 network communication to antennas (if supported by antenna). Service Features - The controller detaches from its cable access panel to facilitate servicing. - System status LED on controller displays error codes used for troubleshooting. Basic Operation and Setup To detect a tag: - Antenna(s) connected to the controller emit a 58kHz magnetic field close to the tag/label’s natural frequency causing it to vibrate or “ring” at the frequency of the field. When the field is removed, energy in the tag/label dissipates causing an exponential ring down. - The controller processes signal inputs picked up by the antennas to determine if they are indicative of a tag/label signal. - If the controller detects a tag/label signal, it activates audio-visual indicators on each antenna that picked up the signal and/or activates remote alarm devices, if used. ADS 4 service configurator software enables the field technician to: - Adjust the system - Synchronize the controller to other EAS systems using the ac line, or wired synchronization - Monitor and adjust for noise interference and use of a 58kHz jammer device - Download software application updates - Monitor internal temperature of the controller - Perform diagnostic tests and read error codes. AMS-9050 CONTROLLER 8200-0537-02, REV. B INSTALLATION AND SERVICE GUIDE 2 of 31

Device Connections Device Connections RS-232 SERVICE (J2) Pin 1 - Rx Pin 2 - Tx Pin 3 - Ground Pin 4 - Ground AC IN (120Vac/ 240Vac) System Status LED RS-485 NETWORK (P8) Pin 1 - Black Pin 2 - Red Pin 3 - X (Shield) WIRED Tx SYNC (P2) Pin 1 - Black (Tx Burst High) Pin 2 - Red (Tx Burst Low) Pin 3 - Green (Arm High) Pin 4 - White (Arm Low) Pin 5 - 'X' (Shield) RMT ALARM 1 (P64) Pin 1 - Orange Pin 2 - Violet Pin 3 - X (Shield) RMT ALARM 2 (P63) Pin 1 - Orange Pin 2 - Violet Pin 3 - X (Shield) RELAYS (P54) Pin 1 - Common 1 Pin 2 - NC 1 Pin 3 - NO 1 Pin 4 - ‘X’ (shield) Pin 5 - Common 2 Pin 6 - NC 2 Pin 7 - NO 2 Pin 8 - ‘X’ (shield) Tx A TRANSMIT ANTENNA (P58) Pin 1 - Black (Figure-8 return) Pin 2 - Red (Antenna A2) Pin 3 - Silver (Shield) Pin 4 - Green (Aiding return) Pin 5 - White (Antenna A1) Tx B TRANSMIT ANTENNA (P59) Pin 1 - Black (Figure-8 return) Pin 2 - Red (Antenna B2) Pin 3 - Silver (Shield) Pin 4 - Green (Aiding return) Pin 5 - White (Antenna B1) Tx C TRANSMIT ANTENNA (P88) Pin 1 - Black (Figure-8 return) Pin 2 - Red (Antenna C2) Pin 3 - Silver (Shield) Pin 4 - Green (Aiding return) Pin 5 - White (Antenna C1) Tx D TRANSMIT ANTENNA (P91) Pin 1 - Black (Figure-8 return) Pin 2 - Red (Antenna D2) Pin 3 - Silver (Shield) Pin 4 - Green (Aiding return) Pin 5 - White (Antenna D1) PEDESTAL ALARM C (P93) Pin 1 - White with an 'X' (Shield) Pin 2 - Yellow (Audio 3) Pin 3 - Orange (Alarm 3) Pin 4 - Blue (N/A) Pin 5 - Brown (12V) Pin 6 - Black (PED485_LO) Pin 7 - Red (PED485_HI) Pin 8 - Green (TX_INHIBIT 1) PEDESTAL ALARM D (P100) Pin 1 - White with an 'X' (Shield) Pin 2 - Yellow (Audio 4) Pin 3 - Orange (Alarm 4) Pin 4 - Blue (N/A) Pin 5 - Brown (12V) Pin 6 - Black (PED485_LO) Pin 7 - Red (PED485_HI) Pin 8 - Green (TX_INHIBIT 1) Rx C RECEIVE ANT (P99) Pin 1 - Black (Ant C1) Pin 2 - Red (Ant C1 return) Pin 3 - Green (Ant C2) Pin 4 - Gray or White (Ant C2 return) Pin 5 - Violet / 'X' (Shield) Rx D RECEIVE ANT (P103) Pin 1 - Black (Ant D1) Pin 2 - Red (Ant D1 return) Pin 3 - Green (Ant D2) Pin 4 - Gray or White (Ant D2 return) Pin 5 - Violet / 'X' (Shield) PEDESTAL ALARM A (P92) Pin 1 - White with an 'X' (Shield) Pin 2 - Yellow (Audio 1) Pin 3 - Orange (Alarm 1B) Pin 4 - Blue (Alarm 1A) Pin 5 - Brown (12V) Pin 6 - Black (PED485_LO) Pin 7 - Red (PED485_HI) Pin 8 - Green (TX_INHIBIT 1) PEDESTAL ALARM B (P97) Pin 1 - White with an 'X' (Shield) Pin 2 - Yellow (Audio 2) Pin 3 - Orange (Alarm 2B) Pin 4 - Blue (Alarm 2A) Pin 5 - Brown (12V) Pin 6 - Black (PED485_LO) Pin 7 - Red (PED485_HI) Pin 8 - Green (TX_INHIBIT 1) Rx A RECEIVE ANTENNA (P98) Pin 1 - Black (Ant A1) Pin 2 - Red (Ant A1 return) Pin 3 - Green (Ant A2) Pin 4 - Gray or White (Ant A2 return) Pin 5 - Violet / 'X' (Shield) Rx B RECEIVE ANTENNA (P101) Pin 1 - Black (Ant B1) Pin 2 - Red (Ant B1 return) Pin 3 - Green (Ant B2) Pin 4 - Gray or White (Ant B2 return) Pin 5 - Violet / 'X' (Shield) AMS-9050 CONTROLLER 8200-0537-02, REV. B INSTALLATION AND SERVICE GUIDE 3 of 31

Device connections consist of: - Transceiver connectors - Antenna alarm/Communication connectors - Receiver connectors - Relay connectors - Remote alarm connectors - RS-485 network connector - Wired Tx sync connector - Wireless AC sync connector - RS-232 service connector. Transceiver connectors (P58, P59, P88, P91). These four connectors support Tx/Rx antennas designated A, B, C, and D. The tables below show connections for various antenna configurations. If “auto configuration” is enabled, the system automatically attempts to configure itself based on the number of antennas detected. Only the most commonly used configurations are auto configured. Note: DIP switches S1 and S2 in controller need to be set for antenna operation. See explanation on next page. Table 1. Aisle System AISLE SYSTEM Aisle A Aisle B Aisle C Aisle D MODE RX A TX A RX C RX B TX B RX D RX C TX C RX D TX D Auto Configuration None Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled YES Transceiver Ped Rx Ped Tx N/A Ped Rx Ped Tx N/A Ped Rx Ped Tx Ped Rx Ped Tx YES Transceiver – Ferrite* Ped Rx Ped Tx Ferrite Ped Rx Ped Tx Ferrite N/A N/A N/A N/A NO Backfield Ferrite Ped Tx N/A Ferrite Ped Tx N/A Ferrite Ped Tx Ferrite Ped Tx NO Zone Detect* Ferrite Ped Tx Ferrite Ferrite Ped Tx Ferrite N/A N/A N/A N/A NO * If Aisle A is in this mode, Aisle C is disabled. If Aisle B is in this mode, Aisle D is disabled. Table 2. Exit System Note: Numbers 1, 2, 3, and 4 under mode column indicate the pedestals used. 1-2_3-4 indicates that 1 and 2 pedestals are in one exit, and 3 and 4 pedestals are in another. 1-2-3-4 indicates all pedestals are in one exit. Note: Disregard receiver settings when using antennas as transceivers. EXIT SYSTEM Exit 1 Exit 2 MODE PED 1 Connections PED 2 Connections PED 3 Connections PED 4 Connections Auto Config.* None Disabled Disabled Disabled Disabled Disabled Disabled Disabled Disabled NO 1-2_3-4 Dual RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B RX D / Alrm D TX D NO 1-2_3-4 Alternating RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B RX D / Alrm D TX D NO 1-2-3 Split RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B NA NA YES 1-2-3-4 Quad RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B RX D / Alrm D TX D YES 1-2_3-4 Backfield RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B RX D / Alrm D TX D NO Single Transceiver RX A / Alrm A TX A NA NA NA NA NA NA YES 1_2_3_4 Single** RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B RX D / Alrm D TX D NO 1-2 Dual RX A / Alrm A TX A RX C / Alrm C TX C NA NA NA NA YES 1-2 Dual 3-4 Bfield RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B RX D / Alrm D TX D NO 1-2 Dual 3 Single RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B NA NA NO 1-2 Bfield 3 Single RX A / Alrm A TX A RX C / Alrm C TX C RX B / Alrm B TX B NA NA NO 1-2 Backfield RX A / Alrm A TX A RX C / Alrm C TX C NA NA NA NA NO 1-2 Alternating RX A / Alrm A TX A RX C / Alrm C TX C NA NA NA NA NO * Only applies to AMS-1100 and AMS-1101 antennas. ** In 1_2_ 3_ 4 Single Mode (where each antenna protects an exit), each antenna alarms independently.AMS-9050 CONTROLLER 8200-0537-02, REV. B INSTALLATION AND SERVICE GUIDE 4 of 31

Preliminary IMPORTANT! DIP S1 and DIP S2 are located on the circuit board of the controller. When connecting antennas, set switches 1–8 of each DIP according to the number and type of antennas used. Table 1. Rules for using DIP switches Antenna Controller Input DIP S1 DIP S2 AMS-1100/1101 Transceiver TXA 1–4 On, rest don’t care Don’t Care TXB 5–8 On, rest don’t care Don’t Care TXC Don’t Care 1–4 On, rest don’t care TXD Don’t Care 5–8 On, rest don’t care AMS-1080 Tx/Rx TXA–D 1–8 Off 1–8 Off Rx Only RXA 1–4 Off, rest don’t care Don’t Care RXB 5–8 Off, rest don’t care Don’t Care RXC Don’t Care 1–4 Off, rest don’t care RXD Don’t Care 5–8 Off, rest don’t care Noise Coil 1 RXC (top coil) Don’t Care 1–2 Off, rest don’t care Noise Coil 2 RXD (top coil) Don’t Care 5–6 Off, rest don’t care For example, if using a: - 1-2 dual pedestal exit system using two AMS-1101 alarm antennas as transceivers: - Set S1 switches 1–4 and S2 switches 1–4 to “on” (switches 5–8 of S1 and S2 can be left either on or off). - Also ensure no receive antennas such as noise coils are connected to the controller when using transceivers. - 1-2_3-4 dual pedestal exit system or 1-2-3-4 quad system using four AMS-1101 alarm antennas as transceivers: - Set S1 switches 1–8 and S2 switches 1–8 to “on”. - Also ensure no receive antennas such as noise coils are connected to the controller when using transceivers. - Dual pedestal aisle system using two AMS-1080 aisle antennas, one a transmitter, the other a receiver: Set S1 switches 1–8 and S2 switches 1–8 to “off”. - Noise coils: If using noise coils, turn off S1 switches 1–2 for RxC and/or S2 switches 5–6 for RxD. Antenna alarm/Communication connectors (P92, P93, P97, P100): Four connectors support the antennas audio/visual alarms, transmitter/ alarms inhibit function, and peripheral RS-485 network communication. Note: Transmitter/Alarms inhibit function and peripheral RS-485 network communications are only available in AMS-1101 antennas. Receiver Connectors (P98, P99, P101, P103): Four connectors accept up to four receive antennas. Top coils use the Coil 1 connections; bottom coils use the Coil 2 connections. Noise canceling coils can also share two of these connectors (P99, P103), with each coil using the top coil (Coil 1) connection. If connecting a noise canceling coil and a receive antenna into the same connector, the top and bottom coils of the receive antenna must share the Coil 2 connection (done in the field by the technician switching the antenna wire connections). Thus phase flipping is unavailable when noise canceling coils are used. Antennas/coils connected to receiver inputs are designated A, B, C, and D. These connectors default to receive function with no auto detection. ABOUT NOISE CANCELING COILS: Noise canceling coils, such as a Ranger antenna or the top coil of a pedestal antenna, are used to cancel noise that interferes with detector operation. - Noise canceling coils only connect to the Coil 1 input. - To accept a noise canceling coil, the auxiliary input must be in noise canceling mode (set using service configurator software). Save adjustments to default settings if they are to be used on the next power cycle or system reset. - Move the noise canceling coil around while monitoring power levels on a laptop computer to find where noise cancellation is best. This is where the coil should be installed. - The location for the noise canceling coil must be practical as well as yield satisfactory results. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 5 OF 31

Preliminary Relay connectors (P54): The controller has two double-pole, double-throw (DPDT) relays, each configurable using service configurator software. Each relay: - Triggers devices such as externally powered remote alarms, time-lapse VCRs, and security cameras; one device per detection zone. - Accepts three wires and a shield. Cable shields share one pin on the connector. Remote alarm connectors (P63, P64): This connector can control up to two externally- powered digital remote alarms, such as an AMS-1060. RS-485 network connector (P8): This connector supports RS-485 communication for remote diagnostics. Wired Tx sync connector (P2): This connector is used to wire two or more AMS-9050 controllers together to synchronize them to avoid cross interference. RS-232 service connection: Protected by a cover plate on the controller, the RJ-22 connector receives the cable from a laptop computer that is used to locally setup and diagnose the detection system. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 6 OF 31

Preliminary Installation Features The AMS-9050 controller provides the following installation features: - Auto Synchronization - Wired Synchronization - Transmitter Current Control - Controller Mounting. Auto Synchronization Auto synchronization occurs during power up or system reset. Auto sync can have different outcomes depending on whether or not nearby EAS transmitters are detected, they are properly aligned to the ac-derived timing of the controller, or too much ambient noise exists. No transmitters detected. During initialization, the controller determines if EAS transmitters are nearby. If none are found, transmitter delay is set to zero if this is the initial power on, or set to the value stored in the controller if not the initial power on. Transmitters detected: - Transmitters detected and aligned. If transmitters are correctly aligned, the transmitter delay is calculated and stored in the controller for reference. - Transmitters detected and not aligned. If transmitters are not aligned, the transmitter delay is set to zero if this is the first power on of the controller, or set according to the value stored the controller if not the initial power on. Too much ambient noise. During initialization, the controller locates other nearby EAS transmitters. - If ambient noise prevents the controller from locating nearby EAS controllers and if this is the first power on of the controller, transmitter delay is set to zero. - If this is not the first power on of the controller, the zero crossing delay stored in the controller is used. Note: The controller stores the zero crossing delay for when the controller could not determine a reliable lock during subsequent power cycles. Instead of using zero for the delay, the controller uses the stored zero crossing delay. Wired Synchronization If a wired Tx sync device is connected to the controller, the controller automatically uses its signal as the timing reference instead of the ac line. The service configurator indicates that wired sync is active. Transmitter Current Control This function enables you to inhibit the transmitter and/or alarms of the desired pedestal using the Tx/Alarms inhibit switch located in the top of antennas that support this function. Controller Mounting The controller has a built-in flange used to attach the controller to a wall or ceiling using suitable hardware. - Ceiling attachment requires plywood be first attached to the ceiling and then the controller attached to the plywood. - Structure and mounting hardware must support 25.6kg (56.5 lbs) or four times the weight of the controller assembly. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 7 OF 31

Preliminary Service Features The AMS-9050 controller provides the following service features: - “Tag Too Close” function - Service configurator software - Internal diagnostics - LED system status indicator - Remote diagnostics via an Ethernet or RS-485 network - Transmit/Alarm Inhibit function - Detachable cable access panel. “Tag Too Close” function: Using the service configurator, you can select the “tag-too-close” function to help prevent false alarms. With this function selected, the red lamp on top of the antenna blinks twice every four seconds for one minute when the system detects one or more stationary tags or labels are too close to it. The lamp goes out when these tags/labels are moved away from the system. Tagged items must be kept at least 1.5m (5ft) away from all sides of the antenna. Service configurator software: Operating software required: Windows® 95, 98, NT, 2000, or XP. Service configurator software downloaded to a laptop computer is required to setup and troubleshoot the controller. The service configurator enables you to: - Set antenna configurations - Customize detection for each antenna - Monitor transmit and noise levels from each antenna - Monitor transmit current from each antenna - Customize alarm setup - Turn off transmitters - Monitor temperature inside the controller - Download new software features/updates to flash memory - Provide a system error report. Note: Special tools are not required when installing the controller as long as the antennas are installed in a reasonable noise environment and local transmitters are properly adjusted. Note: If default settings are changed, you do not need to turn the controller off and on to store them. Internal diagnostics: - The service configurator displays the operating current for each antenna. Operating current is 15A peak for all countries. - The service configurator displays ambient temperature within the controller. - The hardware supports software with a remote command to reset the system. - Hardware within the controller protects it from runaway software. LED system status indicator: An LED system status indicator on the controller indicates the following: - Green flashing (system on and okay) - Yellow flashing (performance downgraded; service recommended) - Red flashing in a particular sequence (fault detected, call for service) The number of red flashes identifies a digit in a two-digit alert code (for example, four flashes is the number four). The start of an alert code is indicated by a long LED interval. Then the first digit of the code occurs, followed by a short delay, followed by the second digit. Alert codes are listed on page 13. Remote diagnostics via an Ethernet or RS-485 network: Using a service laptop, service personnel can dial-up and connect to a network of controllers to troubleshoot problems and change controller parameters (see page 14). Transmit/Alarm Inhibit function: This function enables you to inhibit the transmitter and/or alarms of the desired pedestal using the Tx/Alarms inhibit switch located in the top of antennas supporting this function. Detachable cable access panel: By removing six screws from the perimeter of the cable access panel and disconnecting cables, the electronics can be removed for easy servicing or replacement without disturbing cabling. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 8 OF 31

Preliminary Installation Requirements Verifying Equipment and Unpacking - Verify that all equipment has arrived. Ensure the system configuration is correct for the site. - Unpack major components in a back room. At the install site, lay out parts in the order used. Do not clutter the aisle or cause a trip hazard. Installer/Contractor - Have electrical work comply with the latest national electrical code, national fire code, and all applicable local codes and ordinances. - Coordinate work with other trades to avoid interference. - Verify existing site conditions and coordinate with the owner’s representative and appropriate utilities as required. - Obtain copies of all related plans, specifications, shop drawings and addenda to schedule and coordinate related work. - Thoroughly review the project to ensure that all work meets or exceeds the above requirements. Bring alleged discrepancies to the attention of Sensormatic Electronics. Mounting Requirements - The controller has a built-in flange used to attach the controller to a wall or ceiling using suitable hardware. Structure and hardware must support 25.6kg (56.4 lbs) or four times the weight of the controller assembly. - Do not mount controller with its fan facing up. AC Requirements WARNING—RISK OF ELECTRIC SHOCK! During installation, if the antenna must be left unattended, turn off power or cover high voltage components to prevent unauthorized access to hazardous voltages. WARNING—RISK OF ELECTRIC SHOCK! The ac power cord could be carrying 120Vac or 240Vac. WARNING! Do not install this device where highly combustible or explosive products are stored or used. WARNING! The ac source must be a 2-wire type with ground. It also must be a 24-hour, unswitched outlet with less than 0.5Vac between neutral and ground. WARNING! This device is not suitable for an IT power distribution system where impedance exists between neutral and protective earth contacts. CAUTION: When using a power cord, install a socket-outlet near the controller in an easily accessible location. The appliance coupler or plug on the power supply cord are the specified disconnect devices. CAUTION: DO NOT share the ac source with neon signs, motors, computers, cash registers, terminals, or data communications equipment. CAUTION: DO NOT use orange-colored outlets dedicated for computer equipment. CAUTION: Select the appropriate power cord based on the country of use. !!AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 9 OF 31

Preliminary Mounting the Controller WARNING! Do not mount controller with its fan or cable tray face up. The controller can be mounted as follows: - On a shelf. - On a wall. DO NOT mount the controller with its fan facing up! - To a ceiling. Plywood with a surface larger than the controller is secured to the ceiling studs that hold the drywall. The controller then attaches with suitable hardware to the plywood. Equipment Required Basic setup requires the following equipment: • AMS-9050 controller • Pedestal antennas • Hard tag (non-deactivateable Ultra•Max tag) • Ultra•Max low energy labels. Advanced setup requires the following additional equipment: • Laptop with Windows® 95, 98, NT, 2000, or XP operating software • RS-232 Ultra•Max programming cable • ADS 4 service configurator software. People with Implanted Medical Devices Although this anti-theft system meets standards for interaction with implanted medical devices, place the system in such a way that customers: - do not linger near or lean on its antenna(s) while making their purchase - are only directly in front of the antenna(s) while exiting the checkout area. !!AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 10 OF 31

Preliminary Controller Installation Tools required: - Tape measure - Pencil or marker - Electric drill - Phillips-head screwdriver or bit - Hand vacuum or broom Parts required: Install Kit 0352-0203-01 Screw, self-drilling, M4, 8x25, PHP 4 5899-0031-01 Install Kit 0352-0286-01 Clamp, conduit 6 6010-0107-01 PROCEDURE CAUTION: Keep 22.9cm (9in) of free space to the right of the controller for screwdriver access (to facilitate detachment of controller electronics). 1. Detach the top cover from the controller. 2. Remove knockouts closest to the connectors to be used, then reattach the side plate. 3. Set the controller on a shelf, or using suitable anchors and hardware, mount it to a wall (fan facing down) or to a ceiling. WARNING! Both the anchor system and the wall or ceiling must be able to support 25.6kg (56.4 lbs). 4. Run cables through the appropriate knockouts and secure them using cable clamps provided. AC Hookup 1. Choose a power cord for the country of use. USA-IEC 320, 18/3, 125V, 10A, 7.5ft. 0351-0547-01 Schuko-IEC 320, 1mm sq., 250V, 10A, 2.5m 0351-0547-02 UK-IEC 320, 1mm sq., 250V, 10A, 2.5m 0351-0547-03 Japan-IEC 320, 2mm sq., 250V, 15A, 2.5m 0351-0547-04 US-Filter, Line, 125V, 6A, Plug-in 0351-0547-05 Australia to IEC 320, 2.5m, 250V, 10A 0351-0547-07 2. Plug in the power cord. The controller automatically senses the voltage (100-120Vac or 200-240Vac). No adjustments are required. WARNING—RISK OF ELECTRIC SHOCK! The ac power cord may carry 120Vac or 240Vac. CAUTION: When using a power cord, a socket-outlet must be installed near the controller and in an easily accessible location. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 11 OF 31

Preliminary System Setup 1. Ensure controller power is off. 2. Connect antenna cables to the controller according to how the antennas are intended to perform. Refer to diagrams and tables on pages 3 and 4 of this guide. See examples of pedestal installations in the antenna installation guide. 3. Set DIP switches S1 and S2 in the controller for the pedestal type, number of pedestals, and the antenna configuration used (see page 5). 4. Turn on the laptop computer and launch the ADS 4 service configurator. Note: For instructions on how to use configurator settings, click Help on the configurator. IMPORTANT! Ensure the controller power is off. Never restart or boot up a computer connected to an active controller. Doing so disables the mouse function on the computer. 5. Turn on the controller and connect the laptop computer to the service port. 6. Using the “Setup” page on the configurator: a. Check that antenna selections match antennas physically installed. If not, check antenna connections to the controller. b. Setup parameters for lamps, audio, relays, and remote alarms. 7. Using the “Tx Configuration” page, set Tx current for each antenna and enable/disable transmitters, if necessary. 8. Pass an active security tag by each antenna to verify antenna performance. Refer to Help if monitoring or adjustments are necessary. Verifying Operation Check that the antenna alarm lamp lights when a tag/label is passed through the checkout aisle, or if the system is covering adjacent aisles, that the lamp lights only in the aisle the tag/label was in. If the pick rate is acceptable, installation is complete. Reattach the top cover. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 12 OF 31

Preliminary Troubleshooting Note: Should the electronics require servicing or replacement, detach the electronics from the cable access panel as follows: 1. Loosen the four top screws and detach the cover from the controller. 2. Unplug all cable connectors and the ac power cord. 3. Remove six screws securing the cable access panel to the controller. 4. On the left side of the controller, loosen the two screws holding the controller to the wall. 5. Lift the electronics enclosure up and off the wall. System Status Alert Codes The System Status LED on the controller displays system status alert codes. When an alert code occurs, the LED changes color and pattern. Red is for serious alerts while yellow is for those less serious. a. The number of red flashes identifies a digit in a two-digit alert code (for example, four flashes is the number four). The start of an alert code is indicated by a long LED interval. Then the first digit of a two-digit error code occurs, followed by a short delay, followed by the second digit. b. See the table opposite for the significance of the alert code. Most alert codes are automatically resolved. c. Some codes can only be accessed using the service configurator. They are not displayed by the Status LED. d. Alert codes are lost when the controller is reset. Code storage has a time stamp in days, hours, minutes, seconds, milliseconds/ ticks of when the system alert occurred. The following critical faults are backed with hardware support and provide the necessary action when encountered. - Current fault 1 per channel - Temperature fault - Primary current fault - Secondary current fault - Last resort current fault to maintain Class 2 wiring requirements. Alert codes repeat until the condition is resolved or a timer resets the system. Alert Codes Alert Code Significance 11 Illegal Instruction Return controller 12 Unimplemented Interrupt Return controller 13 NVM Write Failed Return controller 14 Invalid Device Return controller 15 Sequence Table Error Return controller 16 Out of Memory Return controller 17 Undecided: No Split N/A 18 Watchdog: Task Reset Return controller 21 AntA S/W Current Fault Recoverable 22 AntB S/W Current Fault Recoverable 23 AntC S/W Current Fault Recoverable 24 AntD S/W Current Fault Recoverable 25 H/W Current Fault Recoverable 26 AntA Current Sense Fault Recoverable 27 AntB Current Sense Fault Recoverable 28 AntC Current Sense Fault Recoverable 29 AntD Current Sense Fault Recoverable 39 Sequence Table Mismatch Recoverable 41 Missing Zero Crossing Return controller 42 Wired Sync: Missing Signal Recoverable 43 Temperature Fault Recoverable 44 S/W Temperature Fault Recoverable 45 PWM Fault Return controller 46 Fan Fault Recoverable 49 Realtime Error Return controller 51 Autosetup Owner Timeout Recoverable 52 Autosetup Release W/O Lock Recoverable 53 Autosetup Buffer Overrun Recoverable 54 Autosetup Mailbox Full Recoverable 56 Notch Select Timeout Recoverable 57 Window Select Timeout Recoverable 58 Autosetup Illegal Owner Recoverable 61 Detector Overrun Recoverable 62 Alarm Mailbox Full Recoverable 63 Host Comm Mailbox Full Recoverable 64 Host Comm Mailbox Full Recoverable 71 Host Comm Mailbox Full Recoverable AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 13 OF 31

Preliminary Local Diagnostics The AMS-9050 controller enables you to troubleshoot and change controller parameters using your laptop computer and the ADS 4 service configurator. The following hardware is required: • Laptop computer • Service cable with a male RJ-10/22 phone connector on one end and a male RJ-11/12 connector on the other • DB-9-to-RJ-11/12 connector. How to Connect Cables 1. Connect the DB-9-to-RJ-11/12 connector to the DB-9 serial port on your laptop computer. Only pins 2, 3, and 5 are used. 2. Connect the RJ-11/12 connector of the service cable to the DB-9 connector and the RJ-10/22 connector on its other end to the RS-232 port (RJ-10/22) on the controller. Remote Diagnostics The AMS-9050 controller enables you to use an RS-485 network to troubleshoot and change controller parameters from a remote site. To connect to the network, connect the laptop, modem and accessories as shown below. The cables connect to the RS-485 connector inside the controller using a T adapter. Modem DB-25 male to DB-9 male adapter DB-9 RJ-11/12 RJ-10/22 to RS-232 port on controller Null modem adapter RS-232/RS-485 converter Controller RS-485 port (inside controller) Laptop AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 14 OF 31

Preliminary Fuse Replacement The controller has two 2.5A, 250V slow-blow fuses in the IE320 ac receptacle. 1. Pry the rectangular cover plate from the ac receptacle using a small slotted screwdriver. Two spring-loaded fuses should pop out. 2. Replace the blown fuse (or fuses) with 2.5A, 250V slow-blow fuses (P/N 5111-0028-08). Specifications Electrical POWER SUPPLY Primary input............................ 100-120Vac or 200-240Vac @ 50–60Hz Fuses (2) Primary power fuse .................. 2.5A, 250V, slo-blow, hi-breaking Current draw (120V)................. <1.5Arms Current draw (240V)................. <1Arms Input power (120V)................... <130W Input power (240V)................... <123W TRANSMITTER Operating frequency................. 58kHz (±200Hz) Transmit burst duration ............ 1.6ms Transmit current maximum ...... 15A peak Burst Repetition Rate: Based on 50Hz ac.................... 75Hz or 37.5Hz Based on 60Hz ac.................... 90Hz or 45Hz RECEIVER Center frequency...................... 58kHz Environmental Ambient temperature................ 0°C to 50°C (32°F to 122°F) Relative humidity...................... 0 to 90% non-condensing Mechanical Length ...................................... 44.6cm (17.6in) Width........................................ 33.5cm (13.2in) Height....................................... 9.2cm (3.6in) Weight...................................... 6.4kg (14.1 lbs) AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 15 OF 31

Preliminary Declarations TYPE: AMS-9050 Regulatory Compliance EMC...............................47 CFR, Part 15 EN 61000-3-2 EN 61000-3-3 ETSI EN 300 330-2 ETSI EN 301 489-3 ETSI EN 301 489-1 RSS-310 Safety ............................UL 60950-1 CSA C22.2 No 60950-1 EN 60950-1 FCC COMPLIANCE: This equipment complies with Part 15 of the FCC rules for intentional radiators and Class A digital devices when installed and used in accordance with the instruction manual. Following these rules provides reasonable protection against harmful interference from equipment operated in a commercial area. This equipment should not be installed in a residential area as it can radiate radio frequency energy that could interfere with radio communications, a situation the user would have to fix at their own expense. EQUIPMENT MODIFICATION CAUTION: Equipment changes or modifications not expressly approved by Sensormatic Electronics Corporation, the party responsible for FCC compliance, could void the user's authority to operate the equipment and could create a hazardous condition. Other Declarations WARRANTY DISCLAIMER: Sensormatic Electronics Corporation makes no representation or warranty with respect to the contents hereof and specifically disclaims any implied warranties of merchantability or fitness for any particular purpose. Further, Sensormatic Electronics Corporation reserves the right to revise this publication and make changes from time to time in the content hereof without obligation of Sensormatic Electronics Corporation to notify any person of such revision or changes. LIMITED RIGHTS NOTICE: For units of the Department of Defense, all documentation and manuals were developed at private expense and no part of it was developed using Government Funds. The restrictions governing the use and disclosure of technical data marked with this legend are set forth in the definition of “limited rights” in paragraph (a) (15) of the clause of DFARS 252.227.7013. Unpublished - rights reserved under the Copyright Laws of the United States. TRADEMARK NOTICE: Sensormatic is a registered trademark of Sensormatic Electronics Corporation. Other product names mentioned herein may be trademarks or registered trademarks of Sensormatic or other companies. No part of this guide may be reproduced in any form without written permission from Sensormatic Electronics Corporation. MDR 1/2006 AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 16 OF 31

Preliminary AMC-7000 Integrated Metal Foil Detection Installation Guide ZPMETAL-DET About this Guide This installation guide explains how to install the AMC-7000 Integrated Metal Foil Detection kit (ZPMETAL-DET). The AMC-7000 is an option for AMS-9050 controllers connected to dual 2m Ultra•Exit antennas (ZS1090, ZS1091, and ZS1102) with the Integrated Traffic Flow option (ZPUE-TRAFFICNTR). Other related documents are: • Installation and Service Guide, AMS-9050 Controller, 8200-0537-02 • Installation Guide, Ultra•Exit Transceiver Antennas, 8200-0537-16 Note: Because customer requirements dictate the placement of system components, your Sensormatic representative will supply this information separately. About the Product The AMC-7000 Integrated Metal Foil Detection kit (ZPMETAL-DET) is an AMS-9050 option that detects metal with a large surface area, such as aluminum foil, when it passes between the pedestals of a system. It is designed to not detect metal objects with small continuous surfaces, such as keys and shopping carts. The kit can only be used with AMS-9050 controllers and only for dual-pedestal 2m systems. AMC-7000 The AMC-7000 consists of the following: • a circuit board housed in a metal enclosure • cabling and associated connectors • mounting brackets and associated hardware AMS-9050 Controller Features • Automatic Detection Adjustment – the system adjusts itself to changes in the amount of metal in the environment. • Enclosure is suitable for use in environmental air handling space other than ducts or plenums. • Directional Inhibit support – using the People Counter option, system can be set to alarm for incoming metal only, out-going metal only, or both. • Multiple alarm methods – the system can indicate the presence of metal by several methods: a visual alarm at the pedestal, an audio alarm at the pedestal, the triggering of a relay that connects to another device (such as a paging system), or an alarm at a digital remote alarm. • Metal foil detection counts – the number of metal foil detections can be displayed on an optional Local Device Manager (LDM). • Low power requirements – can be powered by Alarm output of AMS-9050 controller. • Large coverage area – detects metal between two 2m (6.5ft) antennas up to 1.5m (5ft) high. • Wired synchronization – wired synchronization of controller with other controllers must use Universal Synchronization because the Wired Synch port is needed for Metal Foil Detection. © 2008 Sensormatic Electronics Corp. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 17 OF 31

Preliminary Installation The AMC-7000 Metal Foil Detection kit (ZPMETAL-DET) consists of the following: Part Qty. Part Number Metal detection enclosure 1 0304-3048-01 Mounting bracket, Left 1 0505-4642-01 Mounting bracket, Right 1 0505-4642-02 Tx/Rx cable 2 0652-0467-02 Power supply/RS-485 cable 2 0652-0468-01 Wired Sync 1 0652-0467-01 Connector assy, Aux/WS (5-pin) 2 0304-2887-01 Connector assy, Alarm/comm (8-pin) 1 0304-2952-01 Romex conduit connector 4 6010-0107-01 Nut 4 5828-0400-011 For Pre-existing Systems If you are installing an AMC-7000 on a Ultra•Exit system that is already installed and working, do the following before turning off the system and starting the installation process. 1. Perform a tag-pick test so that you can compare system performance afterwards. 2. Use a tag or label to determine which pedestal is A and which is C. Use the noise screen on the configurator to determine which is which. 3. Save the system settings to a file. Wiring the AMC-7000 Connect the following cables to the AMC-7000 Metal Foil Detection Board. Use the four Romex conduit connectors when connecting the cables to the AMC-7000 enclosure. Refer to Figure 1 and Figure 2. AMC-7000 Connector Cable P/N and Name P2 (Ant. 1 OUT) 0652-0242-01 (AMS-9050 Tx/Rx) P1 (Ant. 1 IN) 0652-0467-02 (AMC-7000 Tx/Rx) P8 (+12V DC GND) 0652-0468-01 (AMC-7000 Power Cable) P14 (Network RS485) 0652-0468-01 (AMC-7000 Power/RS-485) P5 (Wired Sync) 0652-0467-01 (AMC-7000 Wired Sync) P3 (Ant. 2 IN) 0652-0467-02 (AMC-7000 Tx/Rx) P4 (Ant. 2 OUT) 0652-0242-01 (AMS-9050 Tx/Rx) P6/P71 (Peripheral RS-485) RS-485 P92 (Relay) Relay 1 This connector is cabled only when the AMC-7000 is connected to an RS-485 network. 2 This connector is cabled only when the AMC-7000 is connected to an optional relay-activated device (such as a security camera or paging device). Wiring the Ultra•Exit Antennas Connect the following cables to the Ultra•Exit antennas. Refer to Figure 1. Connector Cable P/N and Name P5 on Ant. A (Alarm/Com) 0652-0243-01 (AMS-9050 Com) from P92 on AMS-9050 P1 on Ant. A (Tx/Rx) 0652-0242-01 (AMS-9050 Tx/Rx) from P2 on AMC-7000 P5 on Ant. C (Alarm/Com) 0652-0243-01 (AMS-9050 Com) from P93 on AMS-9050 P1 on Ant. C (Tx/Rx) 0652-0242-01 (AMS-9050 Tx/Rx) from P4 on AMC-7000 AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 18 OF 31

Preliminary Wiring the AMS-9050 Controller Connect the following cables to the AMS-9050 controller. Refer to Figure 1and Figure 2. Connector Cable P/N and Name P92 (Ant A Alarms) 0652-0243-01 (AMS-9050 Com) from P5 on Antenna A P58 (Ant A Tx) 0652-0467-02 (AMC-7000 Tx/Rx) from P1 on AMC-7000 P97 or P1001 (Ant B/D Alarms) 0652-0468-01 (AMC-7000 Power) from P8 on AMC-7000 P63 or P64 (Remote Alarm) 0652-0468-01 (AMC-7000 Power) from P14 on AMC-7000 P22 Wired Sync 0652-0467-01 (AMC-7000 Wired Sync) from P5 on AMC-7000 P88 Ant C Tx 0652-0467-02 (AMC-7000 Tx/Rx) from P3 on AMC-7000 P93 Ant C Alarms 0652-0243-01 (AMS-9050 Com) from P5 on Antenna C 1 The eight-pin Alarm/comm connector is supplied to connect the AMC-7000 Power and AMC-7000 Com cables to P97 or P100 on the AMS-9050. The AMS-9050 controller should already have this connector, so this connector should not be needed. 2 Use one of the two five-pin Aux/Wired Sync connectors to connect the wired sync cable to P2 on the AMS-9050. Connecting Relay-activated Devices The Metal Foil Detection enclosure can connect to relay-activated devices such as camera switchers or pager systems. You can then program the device to perform some function, such as switching cameras or sending a message to a pager. These devices are connected to P9 on the Metal Detection Board. Two relays are available on P9: Relay A (1) and Relay B (2). (Refer to Figure 2 for a pinout of P9.) Both of these relays are activated for one second when a metal event is detected. These relays are not configurable. If additional relays are needed, you can use the relays on the AMS-9050 controller; they are configurable on the Setup screen of the ADS4 Platform configurator. Refer to “Configuring the Alarm Settings” on page 29 for more information. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 19 OF 31

Preliminary Figure 1. Cabling diagram for Metal Foil Detection, AMS-9050, and Ultra•Exit antennas Ant C Alarms Ant C Tx Ant A Alarms Ant A Tx P8 AMS-9050 Controller Ultra•Exit Antenna C (Tx)** Ultra•Exit Antenna A (Rx)** AMC-7000 Metal Foil Detection Board P2 P1 0652-0468-01 0652-0242-01 P93 P88 P92 P58 P6/Peripheral RS-485 P7 Relay Peripheral Network Device Relay-activated device (e.g. Intellex, pager system)P5 P1 P5 P1 0652-0243-01 0652-0243-01 0652-0467-02 AMC-7000 Power cable AMS-9050 Tx/Rx cable * AMS-9050 Com cable * AMC-7000 Tx/Rx cable AMS-9050 Com cable * * Cables marked with asterisk are not supplied with Metal Foil Detection Kit. P9 0652-0242-01 AMS-9050 Tx/Rx cable * Green P4 White P3 1 AMC-7000 Tx/Rx cable 2 0652-0467-02 3 Ant B/D Alarms 4 P97 or P100 5 ** Ultra•Exit pedestals in this diagram are marked TX and RX but that is just how they operate during the slices of time that the system is performing metal detection. For tag detection, the pedestals can be configured to operate in any configuration (Tx/Rx, Tx-Rx, or Alternating Tx-Rx). 2-conductor cable * Tx/Rx Tx/Rx Alarm/Com 1 2 3 4 5 6 7 8 Shield Yellow Orange Blue Violet Black Red Green 1 2 3 4 5 Black Red Shield Green White 12345BlackRedShieldGreenWhiteBlack Red Shield Green White 1 2 3 4 5 12345BlackRedShieldGreenWhite1 2 3 4 5 6 7 8 Shield Yellow Orange Blue Violet Black Red Green P2 Wired Sync Remote Alarm P63 or P64 Black Red Shield Ant. 1 IN Ant. 1 OUT +12V DC GND Ant. 2 OUT Ant. 2 IN Shield Yellow 12312345BlackRed ShieldGreenWhite123BlackRed Shield12345BlackRedGreenWhiteShieldRedBlackShield12345BlackRedShieldGreenWhiteAMC-7000 Wired Sync cable 0652-0467-01 P5 Wired Sync AMC-7000 Power/RS-485 cable P14Network RS-485 0652-0468-01 Orange Blue Violet 1 2 3 4 5 Black Red Green 6 7 8 Black Red Shield 1 2 3 4 5 Black Red Green White Shield 1 2 3 Black Red Shield 5 1 Black Shield Red 1 2 3 4 5 Green White Shield Yellow Orange Blue Violet Black Red Green 1 2 3 4 5 6 7 8 Alarm/Com AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 20 OF 31

Preliminary Figure 2. Metal Foil Detection board pinout Pin 1 - Black (Per. 485 Lo) Pin 2 – Red (Per. 485 Hi) Pin 3 - Shield (Ground) P7 (Peripheral RS-485)Pin 1 - Black (Per. 485 Lo) Pin 2 – Red (Per. 485 Hi) Pin 3 – Shield (Ground) P6 (Peripheral RS-485) Pin 1 - … (Relay A Common) Pin 2 - … (Relay A NC) Pin 3 - … (Relay A NO) Pin 4 - … (Ground) Pin 5 - … (Relay B Common) Pin 6 –… (Relay B NC) Pin 7 –… (Relay B NO) Pin 8 – … (Ground) P9 (Relays)Pin 1 - Black (Tx Burst High) Pin 2 – Red (Tx Burst Low) Pin 3 - Green (Arm High) Pin 4 - White (Arm Low) Pi 5'X'(Shi ld)P5 (Wired Tx Sync) Pin 1 – Red (+12VDC Input) Pin 2 - Black (Ground Input) Pi 3Shild(GdIt)P8 (+12VDC Power Supply)P8 P9 P7 P6 P5 J1 P14 P4 (Ant. 2 OUT) P3 (Ant. 2 IN)P2 Pinout same as P1 Pinout same as P2 Pin 1 – Black (Net. 485 Lo) Pin 2 – Red (Net. 485 P14 (Network RS-485) Pin 1 - Black (Figure-8 return) Pin 2 – Red (Antenna B2) Pin 3 - Shield (Shield) Pin 4 - Green (Aiding return)P2 (Antenna 1 OUT)Pin 1 - Rx Pin 2 - Tx Pin 3 - Ground Pin 4 - Ground J1 (RS-232 SERVICE)P1Pin 1 - Black (Figure-8 return) Pin 2 – Red (Antenna A2) Pin 3 - Shield (Shield) Pin 4 - Green (Aiding return)P1 (Antenna 1 IN) AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 21 OF 31

Preliminary Figure 3. Photograph of connections on Metal Foil Detection board and AMS-9050 Controller P5 P14 P8 P4 P3 P2 P1 P2 (WIRED SYNC) P64 (DIGITAL REM. ALARM) P97 (ALARMS B) P92(ALARMS A) P93(ALARMS C) P58 (TX A) P88(TX C) * Dashed lines above indicate connectors that are connected by cable. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 22 OF 31

Preliminary Mounting the AMC-7000 3. Mount the AMS-9050 to the wall or ceiling. See Figure 5. The controller has a built-in flange used to attach the controller to a wall or ceiling using suitable hardware. Because the metal foil detection box mounts to the AMS-9050 controller, the controller must be mounted to the wall or ceiling securely enough to support four times the combined weight of the controller (6.5kg) and metal foil detection box (2.4kg). Therefore, the mounting method must support 35.4kg (79lbs). The AMC-7000 enclosure can be mounted either on top of the AMS-9050 controller or next to it. Mounting next to the controller The AMC-7000 enclosure can be mounted next to the controller. See Figure 4. • To ensure the cables can reach from the enclosure to the controller, do not mount the enclosure more than 15cm (6in) from the controller. • Drywall attachment – Use four 23kg (50lb) drywall anchors and four #8 screws at least 32mm (1-1/4in) long or their equivalents to attach the AMS-9050/AMC-7000 combo to the drywall. • Ensure the enclosure is mounted in the same orientation as shown in Figure 4 so that the cables will be able to reach the connectors in the controller. • Ceiling attachment – Use a sheet of 16mm (5/8in) plywood and four #8 screws at least 32mm (1-1/4in) long to attach the controller to the plywood. Mounting on top of the controller 1. Attach the two mounting brackets to the top of the AMS-9050 controller. 2. Attach the AMC-7000 enclosure to the two mounting brackets. Ensure the enclosure is oriented correctly relative to the controller, as shown in Figure 4. Figure 4. Mounting the AMC-7000 next to an AMS-9050 controller 15cm (6in)max. separation (due to cable lengths) screw Ensure the AMC-7000 enclosure is oriented in relation to the AMC-7000 as shown in the figure or some cables may not reach the controller. anchor AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 23 OF 31

Preliminary Figure 5. Mounting the AMC-7000 on an AMS-9050 controller Plywood sheet (for ceiling-mounted installations) For drywall mount–Use 23kg (50lb) drywall anchors (not supplied) and 32mm (1-1/4in) #8 screws (not supplied) For ceiling mount–Use 32mm (1-1/4in) #8 screws (not supplied) Mounting brackets AMC-7000 enclosure AMS-9050 cover screws (supplied with controller) Nuts AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 24 OF 31

Preliminary b. Click on the button label Metal Connect. Downloading Files You must download the appropriate hex files for the Metal Detection option. 1. Connect your service laptop to the system at a service port on the AMS-9050 controller, the antenna, or the Metal Detection enclosure. Note: if you connect to the antenna or controller, the system will not be able to alarm because of metal or alarms while the laptop is connected. 2. Find the directory that has the following files: File Name File Description AdsCeConfig.exe ADS4 Platform Configurator AMS-9050.hex AMS-9050 hex file, ver. 19052 or later MetalDetect.hex Metal Detection hex file c. Download the Metal Detection firmware file (MetalDetect.hex) into the Metal Detection board. This can be done while the laptop is connected to the Service connector on either the controller or the Metal Detection enclosure. 3. Start the ADS4 Platform configurator (ver. 4.00). 4. In the Configuration section of the Setup screen, do the following: • Set the Configuration to 1-2 Dual • Set the Configuration to Exit • Put a check in the Metal Detection box 5. Ensure the AMS-9050 controller has the latest hex file (version 19052 or later). 6. Ensure the AMC-7000 has the latest Metal Detection hex file. If it doesn’t, download the Metal Detection hex file into the AMC-7000. a. On the System drop-down menu, select Metal Detection. AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 25 OF 31

Preliminary Figure 6. Metal Detection configuration screen Configuring the Metal Detection Settings On the Metal Detection screen in the configurator, you read the level indicators and then configure the appropriate settings for the site. 1. Configure the environment as it will be when the store is open. Move any racks to their normal place, open doors if they are open during the day, etc. 2. Click on the Metal Detection tab. The Metal Detection configuration screen appears. See Figure 6. 3. Wait until the system calibrates. This occurs when the Instantaneous Ref levels (green bars) settle to near 0, the Epot values stop changing, and the Rx Sum stops decreasing. This usually takes less than a minute. 4. Test the system with the Foil Bag Simulator, which is a 30cm x 30cm (1ftx1ft) sheet of aluminum that simulates a foil-lined bag. (The instructions for using the Foil Bag Simulator are printed on it and are also described in the section on page 27 entitled Testing the System.) When you walk the Foil Bag Simulator between the pedestals, does the Rx Sum rise above the dynamic Alarm Threshold (Black AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 26 OF 31

Preliminary AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 27 OF 31 Arrow) and cause a metal detection alarm but not exceed the Inhibit Threshold (Blue Arrow)? • Yes. Go to Step 5. No. Go to Testing the System To test a system for its ability to detect foil-lined bags, use the Foil Bag Simulator. 1. Hold the Foil Bag Simulator vertically when t Simulator midwaywalking between the pedestals. Do not lay it flaor turn it sideways. 2. Walk with the Foil Bag normalbetween the pedestals at a pace. Do not going IN only, OUT only, or 5. imulator in the detection to detect foil-lined ator. llyhold the Simulator closer to one pedestal. 3. A system can alarmboth; test in both directions if needed. 4. Repeat this procedure for any other pedestal pairs that have metal detection. • Trouble-Shooting and then return to Step5. Without the Foil Bag Sarea, does the Rx Sum get close to the Alarm Threshold or cause a false alarm? Yes. Raise the Min Threshold. If this does not work, go to Testing the System To test a system for its abilitybags, use the Foil Bag Simul6. Hold the Foil Bag Simulator vertica when walking between the pedestals. Do not lay it flat or turn it sideways. 7. Walk with the Foil Bag Simulator midway between the pedestals at a normal pace. Do nohold the Simulator closer to one pedestal. t going IN only, OUT only, or e Cart Inhibit feature. Run a tween the pedestals and note ibia value below8. A system can alarm both; test in both directions if needed. 9. Repeat this procedure for any other pedestal pairs that have metal detection. • Trouble-Shooting. • No. Go to Step 10. 10. Does the site have shopping carts that pass through this exit? • Yes. Enable thcart midway behow high the Rx Sum gets. Adjust the InhThreshold to t the high point to ensure that the alarms will be inhibited. losed at night ld . during the day at alarms at night. To solve . button. ed? • No. Go to Step 11. 11. Does the site have doors with metal in them that permanently open into the detection zone during the day and remain c(or vice versa)? • Yes. Go to the Setting the Smart Threshoprocedure. • No. You are finishedSetting the Smart Threshold If exit doors with metal are opened(placing them close to the antennas) and closednight, this can lead to either insufficient sensitivity during the day or false this problem, use the Smart Threshold feature1. Open all the doors. 2. Wait for the system to finish calibrating andbecome stable. 3. Adjust the system for proper operation. 4. Enable the Smart Threshold. 5. Press the Set Offset 6. Note the value for the Alarm Threshold (the black arrow). 7. Close the doors. 8. Wait for the system to finish calibrating and become stable. 9. Note the value for the Alarm Threshold and Inhibit Threshold. Did the thresholds increase enough so that the system is not close to false alarming with the doors clos• Yes. You are done. • No. Increase the Smart Thr Gain and go back to Step 5. Testing the System To test a system for its ability to detect foil-lined bags, use the Foil Bag Simulator. 10. Hold the Foil Bag Simulator vertically when walking between the pedestals. Do not lay it flaor turn it sideways. t Bag Simulator midway11. Walk with the Foil rmalbetween the pedestals at a no pace. Do not estal. hold the Simulator closer to one ped12. A system can alarm going IN only, OUT only, or both; test in both directions if needed.

Preliminary AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 28 OF 31 13. Repeat this procedure for any other pedestal pairs that have metal detection. Trouble-Shooting If the system is either failing to detect metal or false ine op, ill be indicated by a se Ref ) changes too fast. er, il Weights, if necessary. Lower level for a t Attenuator to -6dB. tor to 0dB. 4. When the Foil Bag Simulator goes through the field, does the Rx Sum fail to rise above the dynamic Alarm Threshold? a. Adjust the Scale setting, if necessary to view the low-value Sum. b. Adjust Min Thr. Lower it if the system doesn’t alarm with the Foil Bag Simulator and Analog Gain and Attenuator are already maxed. Raise it if the system false alarms or nearly false alarms. e Enable Cart Inhibit and raise Inhibit t ly if rt when a cart goes through the field and when a Foil Bag Simulator goes through the field, so that the system has a hard time discriminating between the two. 6. Does the Rx Sum rise near or above the dynamic Threshold when the Foil Bag Simulator is not near the system? • Raise the Min Thr. setting. alarming, use the following procedure to determthe cause and correct it. 1. Is the Rx sum stable? If it isn’t, check the TBot, and Diff receiver levels for stability. Sometimes an unstable receiver level can be caused by 58kHz interference from an adjacentin-phase transmitter. This wred Interference Indicator. a. Adjust the Coil Filters if necessary. Increathe value in steps of 2 units if the meanvalue (Green ArrowsIncreasing Coil Filters too much, howevcan make the system sluggish. b. Adjust the Cothe weight for a coil if the receivercoil is still unstable after adjusting the Coil Filter. 2. Are the instantaneous receiver levels for each of the coils between -500 and +500? • Yes. Go to Step 3. • No. Click on Epot Nulling. 3. Are any of the Epot values near 0 or 255? • If Epot is near 255, se• If Epot is near 0, set Attenua5. When the Foil Bag Simulator goes through thfield, does the Rx Sum rise above the Inhibit Threshold (Blue Arrow), which causes the system to fail to alarm? a. Threshold to a value above the high point of the Rx Sum. b. Adjust the Analog Gain setting, if necessary. The Analog Gain default is seto the maximum; you should lower it onthe Rx Sum is at or near the top of the cha

Preliminary AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 29 OF 31 Configuring the Alarm Settings On the Setup screen, configure the Lamps, Relays, and Audio settings to the appropriate values for the grs a s M at the r h ae relays at P9 on the Detection Board activate only for metal for on d and are not configurable. site. Note: the relparametecontrollerays you confire the relayP54, not ure with the Relays in the Aelays on tS-9050e Met l Detection BoMetal ard at P9. Thevents e secon The detector can be configured to alarm on three vents: a metal foil detection event, a jammer etection event, and an EAS tag detection event. It can signify any of these events in three ways: trigger a relay, flash an alarm lamp, or emit an audio alarm. The following table shows how to configure the Relay parameters for what you want; the Audio and Lamps parameters are configured similarly. Table 1. Configuring relays Then set the following… edIf Relay 1 is for a ___ event … And Relay 2 is for a ___ event… Relay Number Metal Event Jammer Event Metal Metal All Metal EAS 1 EAS Metal 2 Jammer Jammer All Jammer EAS 1 EAS Jammer 2 Metal and Jammer Metal and Jammer All Metal and Jammer EAS 1 EAS Metal and Jammer 2 EAS EAS All EAS Not Used 1 Not Used EAS 2 Note: if a customer does not want the audio alarm to go off for metal foil detection events, set the Duration and Volume to 0 (zero).

Preliminary AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 30 OF 31 Specifications Electrical Power Supply Primary Input: ............................. 12V DC (-4V;+8V) Power Req. ..................................................... < 3W Relays Contact Form:.................................................DPDT Rated Load:............ 0.5A at 125VAC; 1A at 30VDC Max. Operating Voltage:............. 125VAC; 110VDC Max. Switching Capacity: ................... 62VA or 33W Min. Permissible Load ..................... 10μA;10mVDC Tx/Rx Input Vinp (max):.....................................................120Vo-p Iinp(max): ............................................... 18Ao-p;5Arms Environmental Operating Temperature:.. 0° to 50°C (32° to 122°F) Non-operating Temperature....-40° to 70°C (-40° to 158°F) Relative Humidity: .......... 0 to 90% non-condensing Enclosure Rating ..............................................IPX0 Mechanical Metal Foil Detection Enclosure Length............................................ 28.3cm (11 1/8”) Width ............................................... 17.5cm (6 7/8”) Height ................................................ 8.6cm (3 3/8”) Weight ..........................................1.8kg (3bs. 14oz) Declarations Regulatory Compliance EMC ...............................................47 CFR, Part 15 Safety.................................................... UL 60950-1 CSA C22.2. 60950-1 EN 60950-1 REGULATORY PRODUCT NAME: AMC-7000 = TYPE: AMC-7000 EQUIPMENT MODIFICATION CAUTION: Equipment changes or modifications not expressly approved by Sensormatic Electronics Corporation, the party responsible for FCC compliance, could void the user's authority to operate the equipment and could create a hazardous condition. See “Note: There may be installation restrictions on antennas in certain countries. See antenna installation guides for r, r restrictions, if any. Regulatory Restriction: This device isonly intended to be installed as described in the installation guide. - Because customer requirements dictate the placement of system components, your Sensormatic representative will supply this information separately. - If this product was installed in a European Union or European Free Trade Association member state, please give the Declaration of Conformity included with this product to the manager or user. By law, this information mustbe provided to the user. - Because of the number of antennas and accessories that can connect to this controllemethodically install this system to avoid problems. See “System Setup” in this guide foguidance on how to setup antennas.

Preliminary AMC-7000 INTEGRATED METAL Foil DETECTION 8200-2609-01, REV. 3a INSTALLATION GUIDE 31 OF 31 XAbout the ProductX” on page X1X. Other Declarations WARRANTY DISCLAIMER: Sensormatic Electronics Corporation makes no representation or warranty with respect to the contents hereof and specifically disclaims any implied warranties of merchantability or fitness for any particular purpose. Further, Sensormatic Electronics Corporation reserves the right to revise this publication and make changes from time to time in the content hereof without obligation of Sensormatic Electronics Corporation to notify any person of such revision or changes. LIMITED RIGHTS NOTICE: For units of the Department of Defense, all documentation and manuals were developed at private expense and no part of it was developed using Government Funds. The restrictions governing the use and disclosure of technical data marked with this legend are set forth in the definition of “limited rights” in paragraph (a) (15) of the clause of DFARS 252.227.7013. Unpublished - rights reserved under the Copyright Laws of the United States. TRADEMARK NOTICE: Sensormatic is a registered trademarks of Sensormatic Electronics Corporation. Other product names mentioned herein may be trademarks or registered trademarks of Sensormatic or other companies. No part of this guide may be reproduced in any form without written permission from Sensormatic Electronics Corporation. RH 10/2008