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Nisqually Cut Sheets AINSTALLATION AND MAINTENANCE INSTRUCTIONS SK -Mon -10 Ten Input Monitor Module SPECIFICATIONS Normal Operating Voltage: IS -32 VDC Stand -By Current: 3.5 mR Alarm Current: Temperature Range: Humidity: Dimensions: Accessories: Wire Gauge: Maximum IDC Wiring Resistance: 1500 Ohms Maximum IDC Voltage: 10.2 VDC Maximum IDC Current: 240 pA (each circuit) 55 tnA (assume; all ten LEDs solid nn) 32'F to 120ap {0'C to 49'C) [0 to 43°6 1+Ion condensing 6.$" H x 5.8" ZV x Lz5" D IDF ACB Cabinet and Chassis 12-18 AWG BEFORE INSTALLING if the modules W-11 be installed in an existing operational system, inform the operator and local authority that the system jvdl be temporarily out of service - Disconnect the power to the control panel before installing the modules- This system contains static sensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are re- moved from the bodv. The housing cabinet should be metallic and suitably grounded. thi NOTICE: This manual should be left with the owner/user of s equipment. GENERAL DESCRIPTION The SK -Mon -10 Ten Input Monitor Module is intended for use in an intelligent alarm system. Each monitor module is intended to interface between a control panel and normally open contact devices, such as pull stations. A common SLC input is used for all modules, and the initiating device loops share a common supervisory supply and ground. Otherwise, each monitor operates independently from the others- Each module has its awn unique address_ A pair of rotary code switches is used to set the address of the first mod- ule from 01 to 150 ('01 to 90 on panels that support up to 99 addresses). The remaining modules are automatically assigned to the next trine higher addresses. Provisions are included for disabling a maximum of two unused modules to release the addresses to be used elsewhere. Each module also has panel controlled green LED indicators. The panel can cause the LEDs to blink, latch on, or latch off. SNIPPED ON BOARD: (1) shunt in Class A/S position (Shipped in CIass 13 position, remove shunt fair Class A) INCLUDED: (6) 1 x 4 Terminal Blocks t21 11/.1" (32mm) Stand offs •940,— M Machine screws (3) Shunts 1101 47k Ohm End of Line Resistors (2) Nuts CO202-Oe SK -460-009 SILENT iZ319 KNIGHT by Honeywell 7550 Meridian Circle, Maple Grove, MN S5369-4927 763_493.6455,800.328.0103; Fax: 763.493.6475 http-//www.sil enti,night.com COMPATIBILITY REQUIREMENTS To ensure proper operation, this module shall be connected to a compatible Silent Kinght system control panel. COMPONENTS The following is a description of the sK-Mon-lo mounting trameuork: • One ar ttvn SK-Mnn-10 modules can be installed in an lDP-ACB cabi- net. The 1DP-ACS cabinet has a built-in chassis that will accommodate one or two SK -Mon -10 modules. FIGURE i; IDP-ACB CABINET CO234-OS The front SK -Mon -10 module positions of each chassis are offset below the rear SK -Mon -10 module positions so that all of the status indicators are visible. For cabinet dimensions refer to the IDP-ACB instruction manual. 156-3443-000 FIGURE 1- TYPICAL MOUNTING HOLE LOCATlnlue 00235-00 INSTALLATION STEPS I . Cabinet Mounting In a clean, dry area, mount the backbox using the four holes pro- vided in the back surface of the cabinet (Figure 2). 2. Module Tnstallation There are two methods for installing a module in the rear position of a chassis. Method one is for installation of a rear module only, when no module will be installed in front of it. Refer to Figure 3 for instructions. Method two is for installation of a rear module when another module will be installed in the chassis position in front of it. Refer to Figures 4a and 4b for method two. All necessary screws and standoffs are supplied with the modules. FIGURE 3- INSTALLATION OF REAR MODULE ONLY, METHOD ONE I © /X O 00237-00 Step 1: Insert the bottom of the SK -Mon -10 module down into a rear slot on the chassis - Step 2: Carefully swing the upper edge of the board back towards the back at the chassis until it touches the two standoffs - Step 3: Align two 4-40 screws with the tiva standoffs and tighten. Step 4: Address and wire the modules according to the instructions in this manual. The steps in Figures 4a and 4b describe and illustrate module in- stallation when the rear chassis position and the position in front of it will be filled- Front position installation is possible only if the rear position is tilled with a module - FIGURE 4A- INSTALLATION OF SK -MON -10 MODULE IN A REAR CHAS- SIS POSITION, METHOD TWO -o CO225-00 Step 1: Insert the bottom edge of the SK -Mon -10 module down into a rear slot of the chassis. Step 2: Carefully swing the upper edge of the hoard towards the back of the chassis until it touches the short standoff attached to the chassis. Step 3: Align the long standoff with the short stand off and tighten. SK -460-009 FIGURE 48- INSTALLATION OF SK -MON -10 MODULE IN FRONT CHAS- SIS POSITION � o CO226-00 Step 1: Insert the bottom edge of the SK-klon-10 module down into a front slot of the chassis. Step 2: Carefoy swing the upper edge of the board towards the back of the Chassis until it touches the 11/4" f31.75mm) standoffs installed on the rear module - Step 3: Align two 4 40 screws with the two standoffs and tighten. Step 4: Address and wire the modules according to the instructions in this manual. WIRING NOTE: All wiring most conform to applicable local codes, ordinances, and regulations. 1. Install module wiring in accordance with the job drawings and appropri- ate wiring diagrams. 2. All wiring to the SK -Mon- to is done via terminal blocks. In order to prop- erly make electrical connections strip approximately 1/4- of insulation from the end of wire, sliding the bare end of the wire under the clamping plate screw. 3. Set the address on the modules per the job drawing. Use the rotary code switches to set the address of the first module between 01 and 90 (or 0l and 150 for panels that support 159 addresses). In Class B operation, the remaining modules are automati tally assigned to the next nine higher addresses. For example, if the base ad- dress switch is set to 28, the next nine modules will be addressed to 29, 30, 31, 32, 33, 34, 35, 36, and 37. The module is shipped in Class S position, remove shunt for Mass A - When operating in Class A, alternate modules are paired together (+0/+1, +2/+3, +4/+5, +6/+7, +8i1+9), resulting in a total of five modules. For example, if the base address switch is set to 28, then 30, 32, 34 and 36 will be automatically assigned to the modules while 29, 31, 33, 35 and 37 are avail- able to be used for other modules on the SLC. For Class A and B operation, DO NOT set the lowest address above 90 (or 150 for panels that support 159 addresses), as the ether modules will be assigned to nonexistent addresses. NOTE: The SK -Mon -1.0 must have power cycled for shunt changes to take et- fect. 4. A shunt is provided to disable a maximum of two unused modules in Class B operation and one unused module in Class A operation. Modules are disabled from the highest address and work downward. If two mod- ules are disabled, the lowest eight addresses will be functional, while the highest two will be disabled. For example, in Class B operation, if the shunt for Address Disable is placed on "two" and the base switch is set to 28, the modules will be assigned to 28, 29, 30, 31, 32, 33, 34 and 35 while disabling the highest two positions. S. A communications loss feature is available on some panels. Upon a com- munication loss, due to a microprocessor failure at the control unit, the SK -Man -lo will send a signal to the control unit to activate the notifica- tion device circuits upon initiating of an alarm on the SK -Mon -M1- A sin- gle shunt is used to enable (shunt on) or disable (shunt off) this feature for all modules on the board. NOTE: Place unused shunts on single pin to store on board for future use_ WIRING NOTES • Power -limited circuits must employ type FPL, FPLA, or FPLP cable as required by Article 760 of the NEC. PROGRAMMING The modules are programmed as devices io each system according to the pro- gramming instructions in the appropriate FRCP manual. 156-3443-o00 FIGURE 5: TYPICAL INITIATING DEVICE CIRCUIT CONFIGURATION — CLASS ,"STYLE @. CONNECT MODULES To LISTED COMPATIBLE SILENT KNIGHT CONTROL PANELS ONLY 47K EOL RESISTOR ELR-47K CLASS B IDG (TYPICAL) POWER LIMITED AND SUPERVISED FROM PANEL OR ♦ ' PREVIOUS DEVICE TO NEXT �- DEVICE BASEADDRESS weQ 00 A9 xcr M C00A LOn 3'SA LE 1 D@9LE2 SIGNAL LINE CIRCUIT (SLG) s2 VDC MAK SEE PANELINSTRUCTiON MANUAL FOR WIRE REQUIREMENTS. NOTE: Any number of UL listed contact closure devices may be used. DO NOT mix fire alarm initiating and supervisCe-Y devices on the same initiating device circuit. install contact closure devices per manufacturer's installation instructions. FIGURE 6: TYPICAL FAULT TOLERANT INITIATING DEVICE CIRCUIT CONFIGURATION — CLASS A, STYLE D CONNECT MODULES TO LISTED COMPA71RLE SILENT KNIGHT CONTROL SASE AOORESS PANELS ONLY a GLASS A I➢G (TYPICAL) FROM PANEL OR PREVIOUs DEVICE TO NEXT DEVICE POWER LIMITED AND SUPERVISED 00, 00 .-X1 STATUS INDICATORS 00 CD810-03 i e Sfi7B9 56789 �I * 4 I❑ 4 L7 2 3 } 2 � D 5743 2 IDC 2 � o t o jl 00 loc a 00 IDG4 IOCS o CAIS: Es BIELE t CIS�BLE 2 00, SIGNAL LINE CIRCU}I (SLGI 32 VDC MAX. SEE PANEL INSTRUCTION MANUAL FOR WIRE REQUIREMENTS. NOTE: Any number of UL listed contact closure devices may be used. DO NOT mix fire alarm initiating and supervisory devices on the same initiating device circuit_ Install contact closure devices per manu- facturer's installation instmetions- 0 00 RFr,AOVE SHUNT FoR CLASS A_ STATUS INOiCATCRS C0811 -02 FCC STATEMENT This device complies with part 15 of the FCC Rules_ Operation is subject To the following two conditions: 1 f) This device may not cause harmiul int accept any interference received, including interference That maty cause undesired operation. eTierence, and (zJ this device must NOTES This equipment ha; been tested and found to comply with the limits fora Class 6 digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications- Ho%vever, there is no guarantee that interference will not occur in a particular installa- tion. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: - Reorient or relocate the receiving antenna. - Increase the separation benveen the equipment and receiver- - Connect the equipment into an outlet on a circuit different from that to which the receiver is connect - Consnit the dealer or an experienced radio/TV technician Tor helped._ SK -460 )09 3 156-3443-0110 ®2009 Silent Knight