Innovative Control Systems IGWT-662008 S-TAD User Manual Install Manual v2 36 ES IS BR July 2007

Innovative Control Systems Inc S-TAD Install Manual v2 36 ES IS BR July 2007

User Manual 3 of 4

17-6 the Multiplexer Installation Manual To GDP To connect a Multiplexer to a GDP, refer to Figure 17.4 and use the following instructions: 1. On the Multiplexer, jumper P12-pin 1 (+12V) to P6-pin 1 (C1) to provide power to that output. 2. Connect P6-pin2 (ST-1) of the Multiplexer to P2-pin 1 (1) of the GDP. The GDP will now receive and display data from Zone 1. For additional GDPs, connect the ST-(#) outputs of the Multiplexer to the (#) inputs of the GDPs. For example ST-1 to 1 will be Zone 1, ST-2 to 2 will be Zone 2, and so on. Figure 17.4 Connecting a Multiplexer to a GDP(s)
Installation Manual the Multiplexer 17-7 To PC To connect a Multiplexer to a PC, refer to Figure 17.5 -17.6 and use the following instructions: 1. Using CAT5 and a DB9 connector, connect the Multiplexer to a serial port of the PC (serial port #1 recommended). NOTE: Depending on the distance between the Multiplexer and the PC, you may want to use RJ45 wall plates for simplicity. Figure 17.5 Connecting a Multiplexer to a PC
17-8 the Multiplexer Installation Manual Figure 17.6 DB9 to RJ45 connector
Installation Manual the Multiplexer 17-9 To other Multiplexers To connect two more or Multiplexers, parallel all RS485 connections, one to the next in cascading method. (see Figures 17.7 and 17.8). Figure 17.7 Connecting Multiplexers within a case
17-10 the Multiplexer Installation Manual Figure 17.8 Connecting Multiplexer cases
Installation Manual the Multiplexer 17-11 Multiplexer board settings Use the board settings below (Table 17.1 and Figure 17.9) for Dip Switch S2 on the Multiplexer. NOTE: Only board 1 (Address 0000) should be plugged into the PC. Table 17.1 Multiplexer Board Settings Board Number Dip Switch Setting 1234 1 0000 2 0001 3 0010 4 0011 5 0100 6 0101 7 0110 8 0111 9 1000 10 1001 11 1010 12 1011 13 1100 14 1101 15 1110 16 1111 Figure 17.9 Multiplexer Switch Settings
Installation Manual Chapter 18: Power Supply
Installation Manual Power Supply 18-1 Power Supply  Power Supply Specifications  Positioning the Power Supply  Mounting the Power Supply  Connecting the Power Supply Some installations of the Accutech System peripherals require more power than the Controller can provide. In these cases, a Power Supply (Figure 18-1) is added to the system to meet the additional power requirements. Power Supply Specifications  Power  Temperature  Weight Power 120V AC, 2 amp Temperature A Power Supply operates best in an ambient temperature between 35 and 90 degrees Fahrenheit. Operation outside of this range may cause unexpected or undesirable results, including premature failure. Weight A Power Supply weighs approximately 12 pounds. Positioning the Power Supply The Power Supply is located above the drop ceiling or remotely in a utility closet near a 120V AC dedicated power outlet. Mounting the Power Supply Use appropriate hardware for the weight and mounting surface. Connecting a Power Supply For all connections to the Power Supply, use 18-gauge, 2-conductor wire. To connect a Power Supply, refer to Figure 18.1 and the respective component:  To a GDP  To a FPI  To a BR 4200 Receiver  To a Multiplexer To a GDP Using RED and BLACK wire, connect the +12V and Ground between the Power Supply terminal strip and GDP. To a FPI Using RED and BLACK wire, connect the +12V and Ground between the Power Supply terminal strip and FPI. To a BR 4200 Receiver NOTE: Connections between the BR 4200 Receiver(s) and Multiplexer should be completed first (see pages 17-3 - 17-5). Using RED and BLACK wire, connect the +12V and Ground between the Power Supply terminal strip and FPI. To a Multiplexer NOTE: Connections between the Multiplexer and BR 4200 Receiver(s) should be completed first (see pages 17-3 and 17-5). Using RED and BLACK wire, connect the +12V and Ground between the Power Supply terminal strip and Multiplexer.
18-2 Power Supply Installation Manual Figure 18.1 Power Supply connections
Installation Manual Chapter 19: The Accutech Software
Installation Manual the Accutech Software 19-1 The Accutech Software  Minimum System Requirements  Recommended System Components  Installing the Accutech Software  Uninstalling the Accutech Software  Example System Configuration The Accutech Software (v4.10 or greater) displays incoming event information via the Multiplexer from monitored zones. The PC screen will display events in real-time using the facility’s floor plan as the background. The Accutech Software is separate from and does not affect or control the physical Accutech security system. Minimum System Requirements  Intel Celeron 400mHz  17” Monitor (capable of displaying 1024x768 pixels in 16-bit high color  8.4 GB Hard Drive  64MB PC-100 SDRAM  8MB AGP Video Card  Sound Card  Speakers  3 ½ “ Floppy Drive  24x CD-ROM Drive (minimum available)  Motherboard w/Intel BX or VIA 133 Chipset (should be expandable, i.e., 3 PCI, 1 ISA, 1 ASP. 2 Serial, 2 USB, 1 parallel  Keyboard  Mouse  Mouse Pad  Windows NT, Me, 2000 or XP  If this is a Networked System, you will need a Network Interface Card (NIC). Accutech recommends a 3Com PCI NIC.  1 Serial 9pin COM PORT Recommended System Components  Pentium 4 Processor 1.8 GHz  128 MB PC-133 SDRAM  16 MB Video Card  16-bit PCI Sound Card  Windows 2000  Windows Service Pack 2 or higher Installing the Software NOTE: Windows 2000 users will need Administrator privileges to install the software. 1. Close all other applications before installing the Accutech Software. 2. Place the Accutech CD in your CD-ROM drive. 3. If Autoplay is enabled, the installation program will begin. 4. If Autoplay is not enabled: a. From the Start menu, Settings, select Control Panel. b. Double-click “Add/Remove Programs”. c. Click “Add New Programs”. NOTE: Windows Me users, click “Install”. d. Click “CD or Floppy”. e. Click “Next”. f. Click “Finish”. 5. In the Accutech installer, follow the on-screen instructions to accept all default settings. 6. When prompted, reboot your computer to complete installation.
19-2 the Accutech Software Installation Manual Uninstalling the Accutech Software 1. From the Start menu, Programs, Accutech, select “Remove Accutech Patient Security System”. A confirmation message box appears. 2. Click “Yes”. 3. Click “Close” to exit the uninstaller program. 4. From the Start menu, Programs, Accessories, select “Windows Explorer”. 5. Select the ICS folder (C:\ics) and delete it. 6. Reboot the PC. Example System Configuration A facility’s system configuration will depend on its particular needs. However, as an example, Figures 19.1 and 19.2 show an 8-zone BR 4200 System Hospital with software configuration. NOTE: When connecting Receivers to the Multiplexer, their input positions on the Multiplexer are determined by (and must match) the software configuration. Example Hospital floor example zone 1 sardoorst “OB Stairwell” 868 525 reader 2 sanurse “Tag Test Station” 790 425 zone 3 saddoor “Center Stairwell” 638 312 zone 4 sabr “Band Removal 6” 880 388 zone 5 sabr “Band Removal 5” 631 499 zone 6 sabr “Band Removal 3 Nursery” 380 410 zone 7 sabr “Band Removal 4” 540 390 zone 8 saelevator “Public Elevator” 608 263 title “Example Hospital” 2200 2200 Figure 19.1 Example Software configuration
Installation Manual the Accutech Software 19-3 Figure 19.2 Example Software configuration - connections
Installation Manual Chapter 20: Tag Test Station
Installation Manual Tag Test Station 20-1 Tag Test Station Positioning and Mounting a TTS  TTS Specifications Tag Test Stations are typically located at staff stations near a computer with the Accutech Software and are secured by four mounting screws.  Positioning and Mounting a TTS  Connecting a TTS The Tag Test Station (TTS) is used for Tag assignments. In a similar fashion to a Tx wand antenna, the TTS emits a small Tx Activation Field that activates Tags. Once activated a Tag sends a signal to the Receiver. The Receiver sends this information to the Multiplexer, which sends it to the computer with the Accutech Software. The Tag Reader Status dialog box appears on the PC screen where it can be assigned or unassigned. Connecting a TTS To connect a TTS, refer to Figures 20.1 - 20.3 and use the following instructions: 1. Connect P1-pin1 (“UNREG”) from the Controller to the connector strip of the TTS. 2. Connect P1-pin2 (“X”) from the Controller to the connector strip of the TTS. TTS Specifications  Power Requirements  Temperature  Weight 3. Note that TTS zones are for Tag assignment purposes only; you do not wire the other positions of the Receiver to the Controller. Disconnect any signal not shown (see Figure 20.2). Power Requirements Dependant upon Controller. Temperature A TTS operates best in an ambient temperature between 35 and 90 degrees Fahrenheit. Operation outside of this range may cause unexpected or undesirable results, including premature failure. Weight A TTS weighs approximately 10 ounces. Figure 20.1 Inside a TTS
20-2 Tag Test Station Installation Manual Figure 20.2 Connecting a TTS – Part 1/2
Installation Manual Tag Test Station 20-3 Figure 20.3 Connecting a TTS – Part 2/2
Installation Manual Chapter 21: Band Removal Lockdown
Installation Manual Band Removal Lockdown 21-1 Band Removal Lockdown Band Removal Lockdown engages all facility Magnetic Locks when a Band Removal alarm occurs. The Multiplexer controls a 12V DC signal that can be sent to the Relay board. The Relay controls a 12V DC signal from each Controller to the Lock(s) at each zone. When a Band Removal alarm occurs, the Multiplexer sends 12V DC to the Relay Board. The Relay Board then sends 12V DC to P6-pin 1 (Per Lock) of each Controller (up to 8) connected to it. This engages the Magnetic Locks at all zones equipped with Locks. A Keypad Reset at any zone is required to end the lockdown. For Multiplexers that are connected in series, use Board 1 only to provide a dry contact (P15 - C./N.O.) that closes upon a Band Removal alarm. Please use an external 12V DC relay between 8-zone relay board and Multiplexer BR alarm relay (P15). Wiring Band Removal Lockdown To wire the Controller for Band Removal Lockdown, refer to Figure 21.1 and use the following instructions: 1. For these connections, use Multiplexer Board 1 only. 2. Connect P15-3 ( C ) on the Multiplexer to +12v on the external 12V DC relay. 3. Connect +12V DC of Power Supply to: a. P12-1 (+12v) position of Multiplexer b. P15-4 (N.O.) position of the Multiplexer c. +12V position of 8-zone relay board (J5) d. (N.O.) position of external 12V DC relay 4. Connect GND of Power Supply to: a. P12-2 (GND) position of Multiplexer b. GND position of 8-zone relay board (J5) c. GND position of external 12V DC relay 5. Tie pins B1 through B8 to one common point together on the 8-zone Relay Board and connect that common point to the external 12V DC relay at COM position.
21-2 Band Removal Lockdown Installation Manual 6. For each Controller (Lock) you must pick a set of contacts to work with on the Relay Board. The example in Figure 21.1 shows Relay K1 being used: a. Connect P8-3 (+12V) on the Controller to J1 at (K1-Com) on the 8-zone Relay Board. b. Connect P6-1 (Per. Lock) on the Controller to J1 at (K1-NO) on the 8-zone Relay Board. 7. Do the same for contact K2 through K8. 8. If more than 8 zones are being locked, then additional Relay boards will need to be connected. a. Connect +12V and GND of the each Relay Board in parallel to +12V and GND of the first Relay Board. b. Tie pins B1 through B8 of each Relay Board to one common point together on that Relay Board and connect the common point of each Relay Board to the external 12V DC relay at COM position. 9. Repeat step 7 for each Controller (Lock) choosing a different set of contacts (K1-K8) of the Relay Board for each zone to be locked down when a Band Removal alarm occurs.
Installation Manual Band Removal Lockdown 21-3 Figure 21.1 Wiring Band Removal Lockdown
Installation Manual Chapter 22: User-Defined Settings
Installation Manual User-Defined Settings 22-1 User-Defined Settings  Door Ajar  Door Ajar Reset  Loiter  Loiter Reset  System Supervise  Power Loss Supervise NOTE: The following settings are up to the facility’s discretion. All times are approximate. Door Ajar A Door Ajar alarm occurs when a door is open for longer than the preset time. By setting a delay using R97 and JP11, you can adjust the time (from 10 to 110 seconds) necessary before a Door Ajar alarm occurs preventing nuisance Door Ajar alarms from air flow or slight bumps to the door. R97 (Door Ajar Delay)  Factory Set to 15 seconds Set mid scale or as desired to delay onset of Door Ajar alarm. JP11 (Door Timer Extend Disable)  Factory Default IN This jumper determines the timing range of the Door Ajar Time potentiometer (R97). Table 22.1 JP11 Position Time Range In 10-60 seconds Out 65-110 seconds Door Ajar Reset JP16 determines if the Door Ajar automatically resets once the door is fully closed. Table 22.2 JP16 Position Door Ajar Automatically Resets?In Yes Out No Loiter A Loiter alarm occurs when a Tag lingers in the Tx Activation Field for longer than the preset allotted time. By setting a delay using R110 and JP12, you can adjust the time necessary (from 10 to 110 seconds) before a Loiter alarm occurs preventing nuisance Loiter alarms from normal resident movement or passersby. R110 (Loiter Delay)  Factory Set to 15 seconds Set mid scale or as desired to delay onset of Loiter alarm. JP12 (Loiter Time Extend Disable)  Factory Default IN This jumper determines the timing range of the Loiter Timer potentiometer (R110) Table 22.3 JP12 Position Time Range In 10-60 seconds Out 65-110 seconds
22-2 User-Defined Settings Installation Manual Loiter Reset JP10 determines if the Loiter alarm automatically resets once the Tag leaves the zone. Table 22.4 JP10 Position Alarm Automatically Resets? In Yes Out No System Supervise JP5 determines how often the System Supervisor checks the Accutech System. For more information about the System Supervisor, see page 3-6. Table 22.5 JP5 Positions and Results Position Result (Check system Once/Time Interval) 1 Test (testing purposes only) 2 Demo; Once/min (demonstration purposes only) 3 Once/ 2 Hours 4 Once/ 4 Hours 5 Once/ 8 Hours 6 Once/16 Hours 7 Disable Power Loss Supervise The Controller has a Power Loss Supervise function that will indicate that the system power has been lost. For complete information about this function, see page 3-7.
Installation Manual Appendix A: Discontinued Components
Installation Manual Appendix A: Discontinued Components A-1 Appendix A: Discontinued Components From time to time, system components may become discontinued due to revisions, improvements, or unavailability from the manufacturer.  ES 2100 Receiver  Composite Cable (Part #200355)  Tag styles (gray and yellow colored) ES 2100 Receiver  Receiver Specifications  Internal vs. External Receivers  Receiver Mounting Options  Receiver Positioning/Stagger Tuning  Connecting the Receiver  Adjusting the Receiver NOTE: The ES 2100 Receiver is a special order item only; it is no longer in production and is replaced with an IS 3200 Receiver. The ES 2100 Receiver (Figures A.1-A.2) located at the monitored zone, picks up the signal from an activated Tag and relays it to the Controller. Zone Receivers can be internally or externally mounted near a monitored zone. Receiver Specifications  Power Requirements  Temperature  Weight Power Requirements 6V DC Temperature Receivers operate best in an ambient temperature between 35 and 90 degrees Fahrenheit. Operation outside of this range may cause unexpected or undesirable results, including premature failure. Weight Internal and External Receivers weigh approximately 5.0 oz. and 1 lb. 5.0 oz. U.S. respectively, which should be considered when choosing mounting hardware. Figure A.1 Internally mounted ES 2100 Receiver Figure A.2 Externally mounted ES 2100 Receiver
A-2 Appendix A: Discontinued Components Installation Manual Internal vs. External Receivers When the Controller is positioned near the monitored zone, the Receiver is mounted internally in the Controller housing. When the Controller is positioned away from the monitored zone, the Receiver is mounted at the zone in a 4”x4”x2” electrical box. Figure A.3 4”x4”2” electrical box Keep in mind when the Controller is remotely located, at least two 4”x4”x2” electrical boxes are needed at the zone. One box is used to mount the Receiver near the door as mentioned above and the second box is used as a junction box for the composite cable (where connections are made to wires that “branch” to the individual system components). Receiver Mounting Options If you receive your system equipment and determine that the Receiver needs to be changed from an Internal to External mounting or visa versa, contact your Accutech Representative about acquiring the proper faceplate. Receiver Positioning/Stagger Tuning Position the Receiver within approximately 6 feet of the center of the monitored zone or door opening. It is permissible to mount it beyond 6 feet, but do not exceed 15 feet from the center of the zone or door opening. The recommended location for the Receiver unit is up and out of the way such as above the doorframe or above drop ceiling panels if possible. Receivers monitor 40 feet outward in every direction; therefore, they should be positioned approximately 70 feet apart. If the Receivers of adjacent zones need to be closer than 70 feet (Figure A.4), implement Stagger Tuning (page 4-6) to avoid crosstalk (activated Tag from one zone being detected in another zone). Figure A.4 ES 2100 Zone Receiver spacing Connecting the Receiver Whether internally or externally mounted, the wire connections from the Receiver to the Controller are the same (see Figure A.5). NOTE: The internally mounted Receiver is provided with a factory-installed interconnect cable. There should be no reason to ever disassemble it. If however it should need replacement for any reason use an 18-inch piece of 22-gauge 4-conductor non-shielded cable.
Installation Manual Appendix A: Discontinued Components A-3 Figure A.5 Connecting the ES 2100 Receiver to the Controller
A-4 Appendix A: Discontinued Components Installation Manual Adjusting the Receiver The Receiver is factory set for optimum performance, and as such, it should not be necessary for you to make any adjustments to it. However, there are some exceptions:  When protecting a wide hallway, it may be desirable to increase the Receiver sensitivity to assure optimum detection.  When two or more zones are located in close proximity (less than about 40 feet apart), it may be desirable to decrease the Receiver sensitivity to eliminate the effects of crosstalk (activated Tags from one zone being detected in another zone). To adjust a Receiver, refer to Figure A.1 or A.2 and use the following instructions: 1. Around the access hole for potentiometer R11 on a Receiver, a decal marks the minimum and maximum settings. The factory setting is approximately halfway between the minimum and maximum marks. The Receiver will not work outside these marks. When adjusting, it is best to stay within 1/16” of a turn of the factory setting. 2. As you adjust, remember to verify that there is adequate coverage (but no crosstalk) in the zone and adjacent zones. 3. To decrease the Receiver’s sensitivity, slowly turn potentiometer R11 clockwise toward the minimum setting on the R11 decal. 4. To increase the Receiver’s sensitivity, slowly turn potentiometer R11 counterclockwise toward the maximum setting on the R11 decal.
Installation Manual Appendix A: Discontinued Components A-5 Composite Cable (Part #200355)  Lock Cable  Technical Specifications NOTE: For easier installation, Accutech Composite Cable (Part # 200355) was replaced with Composite Cable (Part # 200371) on June 1st, 2004 and is no longer in production. For information on the new composite cable (Part # 200371), see page 2-2. Accutech offers a “composite” cable (Figure A.7; Part # 200355) for wire runs from the Controller to a Junction Box when the Controller is mounted away from the zone. At the zone, use the cable kits supplied with the system to run from the Junction Box to the individual components at the zone. When wiring composite cable, use the same color code throughout the Accutech System (Figure A.7). Lock Cable If your installation includes a Lock, but it does not have to comply with NFPA101, run 18-gauge, 2-conductor from the Controller to the Lock. If your installation includes NFPA101 compliant Locks, use 22-gauge, 12 conductor cable to make the connection between the Controller and the Lock (see Figure A.6 and Chapter 11). Figure A.6 Lock Cable Color Code
A-6 Appendix A: Discontinued Components Installation Manual Technical Specifications The technical specification for Composite Cable (Part # 200355) 2 Pair of AWG x 7/.0152 T.C., 0.012 Teflon Color Code: black/red; green/white 0.001 polyester tape binder over each pair, 18 AWG x 7/.0152 T.C. drain, 0.0015 aluminum/polyester shield, foil and drain.  2-Conductor 18 AWG x 7/.0152 T.C., 0.008 Kynar, Color Code: brown, blue.  10 Conductor 24 AWG x 7/32 T.C., 0.008 Kynar, Color Code: red, green, brown, blue, orange, yellow, violet, gray, white, and black.  polyester binder over core  Nylon rip cord  0.020 black smoke guard jacket, 0.370 nominal O.D.  UL Type CL Figure A.7 Composite Cable (Part # 200355) Conductor Uses and Color Code
Installation Manual Appendix A: Discontinued Components A-7 Tag styles (gray and/or yellow colored)  ES 2200 System Tags  IS 3200 System Tags  BR 4200 System Tags NOTE: Gray and/or yellow Tag case styles are no longer in production and are replaced with bar-coded Tag case styles. For more information, see Chapter 6. ES 2200 System Tags ES 2200 System Tags (Figure A.8) are small wristwatch-sized devices worn by a resident or attached to an asset. When a resident or patient enters a Tx Activation Field, the Tag sends a signal to the zone Controller, via the Receiver. The zone Controller processes this information for appropriate control action or response (e.g. sounding alarms, locking doors, etc.). The ES 2200 System Tag band is made of nylon-reinforced vinyl with nylon mesh. The band is designed to resist tearing caused by pulling or chewing on the band. However, if the band becomes frayed or torn it will need to be replaced. In long-term applications, the band should be replaced periodically for cleanliness. or LT22/LT32 SB22/SB32 Figure A.8 The ES 2200 and IS 3200 System Tags (bands not shown) IS 3200 System Tags In addition to the look and functionality of an ES 2200 System Tag, IS 3200 System Tags (Figure A.8) are assigned to a specific resident or asset (via the Tag Test Station and Accutech Software). Once assigned, the computer associates a name, room number and any other pertinent information about the resident/asset with that Tag. BR 4200 System Tags In addition to the functionality of an IS 3200 System Tag, BR 4200 System Tags (Figure A.9) will alarm if the band is removed or tampered with in any way. BR 4200 System Tags are attached to infants with a conductive- fiber-striped cloth band. BR42 Figure A.9 The BR 4200 System Tag (band not shown) Testing Tags For maximum protection of residents or assets, Accutech recommends Tags be tested on a weekly basis. There are 4 ways that you can test a Tag: enter a monitored zone, a TAD (Part #660021), a Tag Test Station (TTS), and/or the Keypad’s Auxiliary LED (yellow) will light when a Tag is detected (optional, additional wire required).
A-8 Appendix A: Discontinued Components Installation Manual Activating/Deactivating Tags NOTE: The “Tag Signal Strength” LEDs of the TAD (see Figure A.10) indicate the current state of a Tag. Illuminated indicates the Tag is on; dormant indicates the Tag is off or is not functioning. 1. With no Tag in the TAD, slide the Power switch to the On position The TAD Power LED illuminates. If not, replace the TAD 9-volt battery and turn on the TAD. NOTE: If a Tag is in the receptacle and the power to the TAD is cycled, the Tag may be turned on or off unintentionally. 2. Place the Tag into the tag receptacle on the back of the TAD unit in proper orientation for the Tag type (see Figure A.11) NOTE: If the “Tag Signal Strength” LEDs illuminate, the Tag is on. If the “Tag Signal Strength” LEDs do not illuminate, the Tag is off. 3. To change the state of a Tag (from either on to off or off to on), press and release the TAD button The WAIT LED will illuminate for about a second. The “Tag Signal Strength” LEDs will change according to the state change (illuminating for on, dormant for off). Figure A.10: The TAD front label NOTE: The Power switch for your TAD may be located on the left side or top of the unit. Figure A.11: Proper Tag Orientation
Installation Manual Appendix B: Jumpers, LEDs, Pots, Switches & Fuses

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