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Model 1996R
MegaPower II
Central Processing Unit
Installation and Operating Instructions
This manual describes the installation, setup, and operating procedures for the American Dynamics model 1996R MegaPower II
Central Processing Unit. The 1996R CPU is the Central Processing Unit for the 2050 MegaPower II Matrix Switching and
Control System, a CCTV surveillance system having multiple video inputs, outputs, and control stations. The 1996R CPU is
capable of controlling a maximum of 1,024 video input sources and 128 video outputs from 40 keyboards. A menu-driven
program is provided by the 1996R for all system setup functions. Non-menu setup of on-screen display arrangement, system date
and time, alarm arming/disarming, camera presets, and individual Monitor Tours is also provided.
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Summary of Contents for American Dynamics MegaPower II AD1996R
- Page 1 Installation and Operating Instructions This manual describes the installation, setup, and operating procedures for the American Dynamics model 1996R MegaPower II Central Processing Unit. The 1996R CPU is the Central Processing Unit for the 2050 MegaPower II Matrix Switching and Control System, a CCTV surveillance system having multiple video inputs, outputs, and control stations.
- Page 2 This software/firmware is confidential to and is copyrighted by SENSORMATIC ELECTRONICS CORPORATION. It is not to be copied or disclosed in any manner without the express written consent of SENSORMATIC. The software is furnished to the purchaser under a license for use on a single system. NOTE: Information furnished by SENSORMATIC is believed to be accurate and reliable.
- Page 3 The installation of this product should be made by qualified service personnel and should conform to all local codes. CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN CAUTION: TO REDUCE THE RISK OF ELECTRIC SHOCK, DO NOT REMOVE COVERS (OR BACK) . NO USER-SERVICEABLE PARTS INSIDE.
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Page 5: Table Of Contents
CONTENTS 1996R CPU DESCRIPTION ... 1 System Features ... 1 INSTALLATION... 1-1 Power Sources ... 1-2 Mounting ... 1-2 1985A Standby Switch ... 1-2 External Interfaces... 1-2 Connections ... 1-3 Data Line ... 1-3 Programming Monitor ... 1-3 Control Ports... 1-3 RS-232 Connections ... - Page 6 Monitor Arming Code ... A-4 Alarm Arming Notes ... A-5 Arming Codes - Arm Types... A-6 On-Screen Status Line Displays ... A-8 American Dynamics Keyboards ... A-9 Computer Control ... A-10 Keyboard Auxiliary Key Functions... A-11 TYPICAL SYSTEM CONNECTIONS SPECIFICATIONS ... back page...
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Page 7: 1996R Cpu Description
OWER 1996R CPU DESCRIPTION The 1996R CPU is the Central Processing Unit for the 2050 MegaPower II Matrix Switching and Control System. The 2050 MegaPower II is a CCTV surveillance system having multiple video inputs, multiple video outputs, and multiple control stations. - Page 8 The 2091 Code Generator is used to convert this data to Control Code or RS-232 code for American Dynamics Receivers. Switcher Follower Action: When equipped with the optional 2031 Switcher Follower units, the system can be used to switch audio circuits, activate graphic display boards, etc., for assistance in system control.
- Page 9 This section of the manual describes the system installation, connection, and powering up procedures for the 2050 MegaPower II 1996R CPU. INSTALLATION ....... . . 1-2 Power Sources .
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Page 10: Installation
Power Sources The AD1996R CPU is configured for use with a 120 VAC, 60 Hz primary power source. The ADS1996RX is configured for a 230 VAC, 50/60 Hz power source. The 120 VAC units are supplied with a pendant 3-wire cord and plug for mating to the primary source outlet. -
Page 11: Control Ports
The 2091 Code Generator can be used to convert this data to Control Code or RS-232 code for control of American Dynamics Receivers. Data Lines are looped through the 2091 units in a similar manner as the 2050 switching bays. -
Page 12: Rs-232 Connections
DTE (Data Terminal Equipment) or DCE (Data Control Equipment) configuration of each connected RS-232 device must be observed. All American Dynamics equipment, including the 1996R CPU, are configured as DTE devices. For DTE-to-DTE communications between an RS-232 device... -
Page 13: Powering Up
If the CPU still does not properly operate, contact American Dynamics for further assistance (see notice on below). Operating System Verification When calling American Dynamics for assistance, the revision level of the 1996R CPU software may require verification. To verify the 1996R operating system software, enter “70” on the keyboard, then press the “F2”... -
Page 14: System Operation
Keyboard Control (Section 2) Standard 2050 system operating capabilities are provided from any American Dynamics keyboard. These system operations are “monitor oriented” in that a keyboard controls only those functions associated with the monitor and camera under control of the keyboard. Keyboard control functions are: •... -
Page 15: Keyboard Control
This section of the manual describes the standard 2050 system operating capabilities that are provided from any American Dynamics keyboard. These system operations are “monitor oriented” in that a keyboard controls only those functions associated with the monitor and camera under control of the keyboard. -
Page 16: Calling A Monitor To A Keyboard
KEYBOARD CONTROL KEYBOARD CONTROL Keyboard Passcode Entry Passcode entry is used as a security procedure to allow only authorized personnel to operate the system. When USER IDS is enabled (see User Identification, page 4-27), 1676 and 1677 keyboards are logged off and cannot access the system. In this situation the user must have a user number and a passcode to gain control of the system through a 1678CM or 2078 keyboard. -
Page 17: Controlling Camera Site Functions
Status line (may show alarm information, dwell time, or camera status) Camera Camera Number Title Time 0 0 0 1 AMERICAN HOLD DYNAMICS Figure 2-1 - On-Screen Display Controlling Camera Site Functions Camera site control functions (pan/tilt, lens, presets, and auxiliaries) are available at the keyboard after the desired camera is called to a monitor. -
Page 18: Running A Tour
KEYBOARD CONTROL Running a Tour A Tour sequentially displays a selected series of camera video inputs on one monitor. Monitor Tours are temporary tours defined by non-menu programming, page 3-4. System Tours are defined and saved by menu programming, page 4-5. To start a Monitor Tour: - Press the keyboard RUN button following programming of the tour (see page 3-4). -
Page 19: Non-Menu Programming
Non-Menu Programming This section of the manual describes the 2050 system non-menu setup programming capabilities. These system operations are accessed only from 1678CM or 2078 keyboards. As a security feature, these keyboards have a keyswitch for disabling these programming functions. System Reset... -
Page 20: System Reset
NON-MENU PROGRAMMING NON-MENU PROGRAMMING The following non-menu setup programming functions are accessible from AD full-function system keyboards. NOTE: The keyswitch must be in the Program (PROG) position for the non-menu programming functions. System Reset It may be necessary to clear all programmed information from the 1996R CPU, and reset the system to factory defaults. -
Page 21: Programming Preset Scenes
Programming Preset Scenes Motorized camera pan/tilt and lens units with preset capability (feedback potentiometers) can be controlled from AD 1680 or 1640 Series Receivers. A suitably equipped camera Receiver can store 72 preset scenes (71 scenes for certain AD Receivers configured for Autopan) for subsequent keyboard recall (see Calling a Preset Scene, page 2-3). -
Page 22: Monitor Tour Programming
NON-MENU PROGRAMMING Monitor Tour Programming A Tour (Sequence) sequentially displays a selected series of camera video inputs on any monitor. Each camera is displayed for a set period of time (the “Dwell Time”). A tour may repeat continuously or may stop (“Hold”) on a selected camera. A Monitor Tour is a temporary sequence of cameras programmed for the called monitor. -
Page 23: Arming Monitors
Arming Monitors Alarm contacts are armed for a monitor using a Monitor Arming Code which identifies the alarm Display method (Single, Block, or Dual monitors), Queuing method (Sequence or Hold), and the Clearance method (Instant, Auto, or Manual clear). The Monitor Arming Codes available in the 1996R CPU are listed at the right, and are described in Appendix, page A-4. -
Page 24: Arming Alarm Contacts To Monitors
NON-MENU PROGRAMMING Arming Alarm Contacts to Monitors Note: The following procedures are for 1678CM keyboards only. With other keyboards, use the Monitor/Contact Access menu, page 4-26. To arm an alarm contact to a monitor: 1. Call the desired monitor for arming. 2. -
Page 25: Menu Programming
This section of the manual describes the 2050 system menu programming capabilities. These are accessed only from 1678CM or 2078 keyboards. Main Selection Menu... 4-2 Cursor Positioning/Paging... 4-3 System Menus... 4-3 Set Time and Date ... 4-4 Set System Tours ... 4-5 Set System Salvos... -
Page 26: Main Selection Menu
MENU PROGRAMMING All the features of the 1996R are programmable through on- screen menus. The menus are displayed via a separate video output, labeled PROG MON, on the rear of the 1996R CPU. This video output may be connected to a separate monitor, or connect back into the video switching system for display on any system monitor. -
Page 27: System Menus
Cursor Positioning/Paging The following cursor instructions apply to all menus. To position the cursor to a desired location on the menu: • Use the joystick to move the cursor to the desired selection. • Press the NEXT button until the cursor is placed at the desired selection. -
Page 28: Set Time And Date
1996R MENU PROGRAMMING SET TIME AND DATE Use the SET TIME AND DATE menu, below, to set the date format, date, time, and day of the week for on-screen displays. SET TIME AND DATE DATE FORMAT - MM-DD-YY DATE - 09-20-91 TIME - 16:57:26 DAY OF WEEK - TUE PREVIOUS MENU... -
Page 29: Set System Tours
SET SYSTEM TOURS A System Tour is a programmable sequence of cameras that can be called to be displayed on the called monitor, or called by Event Timers. The SET SYSTEM TOURS menu permits programming of 64 System tours. The tour being programmed is identified in the TOUR line of the menu. - Page 30 1996R MENU PROGRAMMING To operate a System Tour from a keyboard : 1. Select (Call) the monitor to run a tour on. 2. Enter a System Tour number (1-64) on the keypad. 3. Press the RUN key. 4. Press the ACK key within three seconds. The keyboard HOLD is used to stop (Hold) the tour on the current camera.
- Page 31 PRE (Preset) If presets are required for a tour entry: 1. Move the cursor to the PRE column and desired entry line. 2. Enter the preset number (from 1 to 72). Zero represents no preset call for this entry. 3. Press the ACK key. The preset number will appear under the PRE heading.
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Page 32: Set System Salvos
1996R MENU PROGRAMMING SET SYSTEM SALVOS A System Salvo is a group of cameras that can be called simultaneously to a contiguous group of monitors. A salvo can be called manually via keyboard commands, automatically when included in a System Tour or another System Salvo, or on alarm when included in an Alarm Contact setup. - Page 33 PROGRAMMING A SALVO To select a System Salvo for programming: 1. Position cursor to the SALVO number line in the SET SYSTEM SALVOS menu. 2. Enter the desired salvo number (1 - 64). 3. Press the ACK key. See page 4-3 for cursor movement instructions. CAM (Camera) To add or change a camera in a salvo: 1.
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Page 34: Set Event Timers
1996R MENU PROGRAMMING SET EVENT TIMERS Event Timers permits automatic callup of System Tours and/or Alarm Monitor/Contact Tables. (See pages 4-5 and 4-26 respectively for System Tour and Monitor/Contact Table programming.) Each one of the automatic callups is referred to as an Event. The EVENT TIMER menu is used to identify each Event and to program each Event for automatic callups. - Page 35 Alarm Monitor/Contact (ALM ) callup Five Monitor/Contact Tables can be programmed to define which alarm contacts are armed for each monitor in the system (see page 4-26 for Monitor/Contact Table programming). The first table, Table 0, defines the current (active) system monitor/contact arming state.
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Page 36: Set Alarm Contacts
1996R MENU PROGRAMMING SET ALARM CONTACTS The SET ALARM CONTACTS menu is used to associate cameras to alarm contacts (see Alarms, Appendix pages A-3 to A-7). A maximum of 1024 entries are allowed. Each Alarm Contact Number (ACN) is associated with a camera number, dwell time, and optional preset, auxiliary, and connect next for salvo call on alarm. - Page 37 PROGRAMMING THE ALARM CONTACTS To select an Alarm Contact for programming: - Move the cursor to the desired Alarm Contact Number (ACN) line of the menu (from 1 to1024). See page 4-3 for cursor movement and paging instructions. CAM (Camera) To associate a specific camera with an ACN: 1.
- Page 38 1996R MENU PROGRAMMING AUX (Auxiliary) If an auxiliary action is desired for an ACN entry: 1. Move the cursor to the AUX column and desired ACN. 2. Press the ACK key to cycle through the available auxiliaries actions. Press the NEXT key to accept the displayed selection.
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Page 39: Monitor Status
MONITOR STATUS The MONITOR STATUS display provides information about the 128 monitors connected to the system. This menu has eight pages with 16 monitors displayed per page. See page 4-3 for menu paging instructions. M O N I TO R S TAT U S M O N C A M S T S TO U R... -
Page 40: Monitor Menu
1996R MENU PROGRAMMING MONITOR The MONITOR menu is used to review and change each monitor's setup programming. To select a Monitor for review or programming: 1. Place the cursor on the MONITOR line. 2. Enter the monitor number on the keypad and press the ACK key to move to the ARM TYPE field. -
Page 41: Monitor Menu
ACK - Enable/disable Manual Clear (Acknowledge). Enables or disables the Manual Clear feature for Instant and Auto Clear arming codes (see Alarm Clearance, Appendix page A-4). Press the ACK key to toggle between YES (Enable) or NO (Disable) (cannot be set to NO when a Manual Clear code is selected). -
Page 42: Camera Menus
1996R MENU PROGRAMMING CAMERA MENU The CAMERA menu is used to re-assign camera numbers, to program camera titles, and to setup camera Video Loss Detection modes. Each entry of the Camera menu brings up another menu, as shown below and on page 4-19. The RETURN MAIN line of the Camera menu returns to the Main Selection menu, page 4-2. -
Page 43: Previous Menu
TITLE The Camera Title menu permits programming a 16-character alphanumeric title for each camera for its on-screen display. This menu also allows selection of the video loss detection mode for each camera input, if a Video Loss Detector module is present and setup for a port (see Ports menu, page 4-20). CAMERA - 0001 VIDEO LOSS - OFF TITLE -... -
Page 44: Port Menu
1996R MENU PROGRAMMING PORTS The PORT menu is used to configure baud rates, data bits, parity, stop bits, and port use for each of the ten RS-232 ports. Note: Once the connections and selections for the port have been made, do not change the settings, i.e., baud rate, parity, or port use, unless the connected devices (baud rate, parity) are changed as well. - Page 45 ALARM - Used for an Alarm Interface Unit connection for input of alarm codes to the 1996R CPU. Each alarm event message sent to this port generates an output message to a serial printer via the PRINTER port (see below). KEYBOARD - Enables keyboard (or computer) control inputs to the port.
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Page 46: Access Menus
1996R MENU PROGRAMMING ACCESS The ACCESS menus define system partitioning which controls operator keyboard access to monitors, cameras, pan/tilts, and alarms. System partitioning is used to segment the Matrix Switching System for the individual installation. All Access menus are displayed in multiple pages, both vertically and horizontally. -
Page 47: Keyboard/Camera View
KEYBOARD/CAMERA VIEW This menu defines the Keyboard-to-Camera viewing access, which prevents selected keyboards from calling up selected cameras for viewing on any monitor. (If you can't view the camera you also can't control it.) In this menu it is the keyboard which controls what can be viewed on a monitor. -
Page 48: Keyboard/Camera Control
1996R MENU PROGRAMMING KEYBOARD/CAMERA CONTROL This defines the Keyboard-to-Camera control access which prevents selected keyboards from controlling remote functions on selected cameras. This feature only prevents control, it does not prevent camera viewing. (Any camera that is locked from a keyboard viewing access, page 4-23, would also be locked from that keyboard for control.) In this menu it is the keyboard which controls which camera can be controlled. -
Page 49: Monitor/Camera Access
MONITOR/CAMERA ACCESS This defines the Monitor/Camera access which prevents selected monitors from viewing selected cameras. In this menu it is the monitor which controls what can be seen on itself. If access is denied, that camera can not be called to that monitor from a keyboard. -
Page 50: Monitor/Contact Access
1996R MENU PROGRAMMING MONITOR/CONTACT ACCESS This menu defines which alarm contacts are armed for each monitor in the system. Refer to Alarms, Appendix page A-3, for information on alarm contact arming and programming. Five Monitor/Contact Tables can be programmed. The first table, Table 0, is the current (active) system Monitor/Contact arming status. -
Page 51: Priority Menus
PRIORITY MENU The Priority menu is used to: • Enable (or disable) user identification for passcode entry into the system. • Set priority levels for keyboards or users. • Set user passcodes. • Configure each of the eight priority levels. Note: If USER IDS is enabled, the #2 entry in the Priority Menu indicates “SET USER”... -
Page 52: Set Keyboard
1996R MENU PROGRAMMING P R I O R I T Y 1 . U S E R I D E N T I F I C AT I O N 2 . S E T K E Y B O A R D 3 . -
Page 53: Set Priority Level
SET PRIORITY The SET PRIORITY menu is used to define the configuration for each of the eight priority levels. All levels default to the same configuration. Each priority level can be configured as desired. Once the levels have been defined, the desired priority level may be applied to individual users and/or keyboards. - Page 54 4-30...
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Page 55: Appendix
Auxiliary and Preset Alarm Callups ... A-5 Wired Alarm Contact Sets ... A-5 Monitor Arming Codes - Arm Types... A-6 On-Screen Status Displays ... A-8 American Dynamics Keyboards ... A-9 Computer Control of 1996R CPU ... A-10 Keyboard Auxiliary Key Code Functions ... A-11 Appendix... -
Page 57: Programming Overview
ALARMS - PROGRAMMING OVERVIEW An ALARM is a signal generated by an external device that is connected to an AD Matrix Switching System, either directly or through an Alarm Interface Unit. External alarm signals can be generated in different manners, such as opening a locked door or window, or detecting a moving object. -
Page 58: Appendix Alarms
APPENDIX ALARMS - MONITOR ARMING CODE The Monitor Arming Code identifies the alarm Display, Queuing, and Clearance methods for the monitor. Alarm Display Methods The Alarm Display method specifies the way that video armed for an alarm is displayed on multiple armed monitors. There are three Alarm Display methods: Single, Block, or Dual. -
Page 59: Alarm Arming Notes
ALARMS - ARMING NOTES Associating Alarms with Camera Salvos Each alarm contact may be associated with a camera salvo for callup when the alarm is received. Camera salvos can be defined either by the System Salvo menu, page 4-8, or by the Connect Next feature of the Alarm Contacts menu, page 4-12. -
Page 60: Arming Codes - Arm Types
APPENDIX ALARMS - MONITOR ARMING CODES - ARM TYPES The following are the available Monitor Arming Codes for the 1996R CPU. Each is identified by the code number, in parentheses, and the ARM TYPE letter codes that are displayed in the Monitor menu, page 4-16. SINGLE Display, SEQUENCE Queuing (1) SSI - Single alarm monitor, all armed/alarmed contacts are queued and sequenced on the monitor. - Page 61 BLOCK Display, HOLD Queuing (10) BHI - Multiple monitor alarm block, all armed/alarmed contacts are queued and displayed on monitors with no existing alarms. Monitors display and hold the first alarmed contacts. The alarmed contacts are removed from the queue when the alarm closure is restored. (10) BHI A - Multiple monitor alarm block, all armed/alarmed contacts are queued and displayed on monitors with no existing alarms.
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Page 62: On-Screen Status Line Displays
APPENDIX ON-SCREEN STATUS LINE DISPLAYS Setup/Programming The following messages appear in the monitor on-screen Status Line during certain non-menu programming functions. SUN, MON, TUE, WED, THR, FRI, SAT - displayed during setup of Day of the Week, page 3-2. The appropriate code is displayed after the day selection is made. -
Page 63: American Dynamics Keyboards
1 In systems with appropriate Alarm Software 2 Requires appropriate On-Site Receivers 3 Wall-type transformer supplied 4 For rack mount models add suffix R to the model number; (5.25" H) * Vector Solving Joystick AMERICAN DYNAMICS KEYBOARDS 2078, 1678CM 1678CME 1677... -
Page 64: Computer Control
1996R setup programming commands are not provided via these codes. The optional software package 2050SW13 is available for external setup programming from a PC. Contact American Dynamics Applications Department for a more detailed Applications note on ASCII remote control. ASCII/HEX Codes for System Control... -
Page 65: Keyboard Auxiliary Key Functions
KEYBOARD AUXILIARY KEY CODE FUNCTIONS F1 - Special function key: 1-F1 - Unlocks the current camera 2-F1 - Locks the current camera 99-F1 - Logoff from passcode Logon F2 - Special function key*: 1-F2 - Sets on-screen Time and Date display ON 2-F2 - Sets on-screen Time and Date display OFF 3-F2 - Sets Camera Title, Number, &... -
Page 67: Typical System Connections
Typical System Connections 1676 Operator Keyboard 1678CM System Keyboard 2078 System Keyboard 1981 Port Expander 1696 Alarm Interface Unit 2096 Alarm Interface Unit 1985A Standby Hot Switch 2050 Switching Bay 2091 Code Generator... - Page 68 THREE-WIRE, 18 AWG, SHIELDED CABLE XMIT HP0047 JJ0007 DATA LINE NOTE : THESE CONNECTIONS ARE TYPICAL OF ONE KEYBOARD. EACH RS232 PORT IS PROGRAMMABLE. TYPICAL SYSTEM CONNECTIONS 1676 Operator Keyboard to 1996R 1676 HP0047 JJ0007 PORTS DO NOT CONNECT TO TELEPHONE CIRCUITS Transformer PROG MON 120V...
- Page 69 XMIT HP0047 JJ0007 DATA LINE NOTE : THESE CONNECTIONS ARE TYPICAL OF ONE SYSTEM KEYBOARD. EACH RS232 PORT IS PROGRAMMABLE. TYPICAL SYSTEM CONNECTIONS 1678CM System Keyboard to 1996R THREE-WIRE, 18 AWG, SHIELDED CABLE DATA XMIT PORTS DO NOT CONNECT TO TELEPHONE CIRCUITS 1678CM Transformer 1678TB...
- Page 70 JJ0007 DATA LINE DO NOT CONNECT TO TELEPHONE CIRCUITS TYPICAL SYSTEM CONNECTIONS 2078 System Keyboard to 1996R Connection shown where distances between keyboard and 1996R controller are less than seven feet 2078 XMIT PORTS Jumper wires HP0082 TERMINAL BLOCK Transformer JJ0007 PROG MON 120V...
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Page 71: Terminal Block
JJ0007 Transformer DATA LINE 2078 XMIT HP0082 TERMINAL BLOCK JJ0007 PORTS DO NOT CONNECT TO TELEPHONE CIRCUITS TYPICAL SYSTEM CONNECTIONS 2078 System Keyboard to 1996R Connection shown where distances between keyboard and 1996R are over seven feet THREE-WIRE, 18 AWG, SHIELDED CABLE HP0047 PROG MON... - Page 72 DO NOT CONNECT TO TELEPHONE CIRCUITS 1981 NOTE : KBD a - KBD d ARE INPUT PORTS WHICH MAY BE USED WITH ANY AMERICAN DYNAMICS RS232 KEYBOARD. 1996A NOTE : THESE CONNECTIONS ARE TYPICAL OF ONE 1981 PORT EXPANDER . EACH RS232 PORT IS PROGRAMMABLE.
- Page 73 XMIT DATA LINE NOTE: THESE CONNECTIONS ARE TYPICAL OF ONE ALARM INTERFACE UNIT. TYPICAL SYSTEM CONNECTIONS 1696 Alarm Interface Unit to 1996R THREE-WIRE, 18 AWG, SHIELDED, CABLE PORTS DO NOT CONNECT TO TELEPHONE CIRCUITS EACH RS232 PORT IS PROGRAMABLE. S W B AC AC AUX START RELAY OUTPUT PROG MON...
- Page 74 SELECT ABCDEFGH POWER 25 26 27 28 29 30 ALARM ABCDEFGH 49 50 51 52 53 54 INPUT OUTPUT DATA LINE TYPICAL SYSTEM CONNECTIONS 2096 Alarm Interface to 1996R DRAWING ILLUSTRATES CONNECTIONS BETWEEN UNITS THAT ARE LESS THAN SEVEN FEET (7') APART 9 10 11 12 13 14 15 16 17 18 31 32 33 34 35 36...
- Page 75 SELECT ABCDEFGH POWER 25 26 27 28 29 30 ALARM ABCDEFGH 49 50 51 52 53 54 INPUT OUTPUT HP0047 TERMINAL BOX JJ0007 DATA LINE TYPICAL SYSTEM CONNECTIONS 9 10 11 12 13 14 15 16 17 18 31 32 33 34 35 36 37 38 39 40 41 42 55 56 57 58 59 60 61 62 63 64...
- Page 76 HP0047 HP0047 PORT CPU1 CPU2 1985A JJ0007 DATA LINE DO NOT CONNECT TO TELEPHONE CIRCUITS JJ0007 DATA LINE DO NOT CONNECT TO TELEPHONE CIRCUITS TYPICAL SYSTEM CONNECTIONS 1985A CPU Standby Hot Switch to 1996R 1676 JJ0007 CODE ALARM PORTS 1996R CPU 1 PORTS 1996R CPU 2 Data Line connections to Switching Bays...
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Page 77: Typical System Connection
DATA LINE TYPICAL SYSTEM CONNECTION 2050 Switching Bay from 1996R Data Line 1 PORTS DO NOT CONNECT TO TELEPHONE CIRCUITS NOTE: PROG MON SHOWN CONNECTED TO SWITCHING SYSTEM, ALTERNATELY, A SEPARATE MONITOR COULD BE USED NOTE: SINGLE 2050 BAY SHOWN FOR ILLUSTRATION; ADDITIONAL BAYS CONNECTED TO DATA LINE OUT FROM FIRST BAY, IN PLACE OF 75-OHM TERMINATION PROG MON... -
Page 78: Data Line
DATA LINE DO NOT CONNECT TO TELEPHONE CIRCUITS SELECT CODE ABCDEF B W S B W S B W S B W S ABCDEF B W S B W S B W S B W S ABCDEF B W S B W S B W S B W S ABCDEF B W S B W S B W S B W S B S W... -
Page 79: Declaration Of Conformity
Declaration of Conformity Manufacturer: Sensormatic CCTV Systems Division Manufacturer’s Address: Sensormatic CCTV Systems Division 1 Blue Hill Plaza Pearl River, New York, 10965 USA Sensormatic Electronics Corporation State Rd. 110 Km 5.8 Poblado San Antonio Aguadilla P.R. 00690 Declares, that the product(s) listed below: Name/Type: Model Number: comply with the EMC Standards EN55022 (Class B), EN50082-1, and also comply with the... -
Page 80: Specifications
SPECIFICATIONS Electrical Ratings: AD1996R: 120 VAC, 50/60 Hz, 4 W ADS1996RX 230 VAC, 50/60 Hz, 125 mA Size: 1.75" H x 19" W x 10.25" D (45 x 483 x 260 mm) Weight: 10 lbs (4.5 kg) 8000-1739-01 December, 1996...
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