Johnson Controls Metasys IFC-200 Installation Procedures Manual
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IFC-200 Hardware Installation Procedures
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© 1993 Johnson Controls, Inc.
Order No. 444-040
IFC-200 Technical Manual 444
Hardware Installation Section
Technical Bulletin
Issue Date 1293
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Summary of Contents for Johnson Controls Metasys IFC-200
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Page 1: Table Of Contents
Keltron Printer Option CRT-1 Configuration Function Key Programming Wiring the Signaling Line Circuit Isolator Modules Monitor Modules Control Modules Intelligent Detectors Device Capacity SLC Resistance Measurement Isolator Module Operation SLC Shield Termination © 1993 Johnson Controls, Inc. Order No. 444-040... - Page 2 Isolator Module M500MJ Monitor Module SLC Connections NFPA Style B Initiating Device Circuit NFPA Style D Initiating Device Circuit Test Switch M501MJ Monitor Module NFPA Style B Initiating Device Circuit M502MJ SLC Connections NFPA Style B Initiating Device Circuit NFPA Style D Initiating Device Circuit Control Module SLC Connections NFPA Style Y Indicating Appliance Circuit...
- Page 3 Supply Calculations Page AC Branch Circuit Main Power Supply Smoke Detectors Standby Current Load on Batteries Four-Wire Detectors Alarm Current Load on Batteries Calculating Necessary Battery Size Wire Requirements Hardware Installation—IFC-200 Hardware Installation Procedures...
- Page 4 4 Hardware Installation—IFC-200 Hardware Installation Procedures...
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Page 5: Hardware Installation Procedures
Hardware Installation Procedures This IFC-200 Hardware Installation Procedures Technical Bulletin is divided into three major sections. The Hardware Installation Procedures section contains step-by-step instructions to help you install the hardware related to the IFC-200 Fire Control System. The Supply Calculations section helps you determine the required current, current loads, and power to support the IFC-200. -
Page 6: Power Supplies
14.5 Low Voltage 1.00 Wiring 12.5 16.0 Mounting Holes Primary Power 120 VAC 200bckbx Figure 1: IFC-200 Backbox Mounting Note: Insert all cables from the side of the cabinet. Do not insert wiring from the back of the cabinet. Note the entry locations of primary 120 VAC power and low voltage wiring above. -
Page 7: Dc Power Output Connections
DC Power Output All DC power outputs are power-limited. Connections High Ripple Regulated Power Non-resettable Power 4-wire Smoke Detector Power 24 VDC power for indicating appliances 24 VDC filtered, regulated, 24 VDC filtered, regulated, TB1 Terminal 1 (+) and 2 (-). non-resettable power can be resettable power for 4-wire smoke Note: This power is unsuitable for all... -
Page 8: Output Circuits
Output Circuits Indicating The IFC-200 provides four indicating appliance circuits (Style Y only). Appliance Each circuit is capable of producing 2.25 amps of current at 24 VDC. Circuits Total current drawn from these, as well as any other panel DC power outputs, cannot exceed 5.0 amps. -
Page 9: Standard Relays
The IFC-200 provides a set of Form-C alarm contacts and a set of Form-C Standard trouble contacts rated for 2.0 amps at 30 VDC (resistive). The panel also Relays provides a Form-A supervisory contact rated for 2.0 amps at 30 VDC (resistive). -
Page 10: Installation
Note: The RS-232 printer interface may also be used with EDP-listed equipment, such as personal computers, to monitor the IFC-200 for supplementary purposes. Installation Since the IFC-200 is not the receiving unit in a proprietary system, its use is optional from a standards compliance standpoint. Remote printers require 120 VAC, 50/60 Hz primary power. -
Page 11: Prn-3 Setup Paper Feed Advance
Under the Technical Listing Area: (Cont.) Line Overflow CR+LF Paper Handling Autoview 3 Sec. No Autoquicktear Communication Setup Buffer Large Data Bits Parity Even Stop Bit 1 Stop Baud Rate 2400 Protocol XON/XOFF Wake Up Mode On Line: Yes Menu Concealed: Yes Emulation Mode 3 (ANSI + EPSON FX-105) Escape Character... -
Page 12: Keltron Printer Option
6. Press the Set key (third key from the left). All printer parameters list automatically at this point. 7. At the “Technical” heading, use the left/right arrow keys to move the print head over the “Menu” heading. 8. Press the Set key. 9. - Page 13 Setup SHIFT Hold 1. Enter Setup Mode on the CRT-1 by pressing simultaneously. 2. Notice that the SET 0 setup menu displays on the bottom line of the CRT-1 screen. In setup mode, there are six setup menus (numbered 0-5). Each setup menu is divided into parameter blocks containing user-selectable values.
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Page 14: Function Key Programming
Function Key 1. Enter Menu SET 1 Mode. Programming 2. Position cursor to the field keys: 3. Program the function keys by entering the keys illustrated in Table 2 below. Note: A first entry of 1 transmits keyboard data to the host only. SHIFT 4. -
Page 15: Monitor Modules
Monitor Modules M500MJ and M501MJ addressable monitor modules allow the IFC-200 to monitor entire circuits of conventional normally open contacts, alarm initiating devices, manual pull stations, normally open alarm contacts of 4- wire smoke detectors, heat detectors, waterflow, and supervisory devices (Figures 18 and 19). -
Page 16: Slc Resistance Measurement
SLC Resistance Style 4 Measurement Complete the following steps to determine branch resistance on a Style 4 SLC. 1. Short the termination point of one branch at a time and measure DC resistance from the beginning of the SLC to the end of that particular branch as shown in Figure 8. - Page 17 Style 6 Total length of the SLC loop pair cannot exceed 10,000 feet (12 AWG). DC resistance of the loop pair cannot exceed 40 ohms. Measure the loop pair by completing the following steps: 1. Disconnect Loop Out and Return at the control panel. 2.
- Page 18 B5 01BJ Ba se For use with 1551J, 2551J, and 5551J Intelligent Detectors BG X-101 L 2 (+) 1 (-) L o o p A d d re s s T y p e PHO TO THERM M 510CJ M 500M J Seperate T-Tap to other Loop Devices M 500XJ...
- Page 19 B501BJ B ase For use with 1551J, 2551J, and 5551J Intelligent Detectors BG X-101 L 2(+) 1(-) Loop Address Type PHOTO THERM M 510CJ M 500M J M 500XJ M 500XJ Note: M500XJ devices not required to meet NFPA Style 6. FIG2-7 Connect SLC + OUT to TB6 B+ and SLC - OUT to TB6 B- Connect SLC + OUT to TB6 A+ and SLC - OUT to TB6 A-...
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Page 20: Isolator Module Operation
M500XJ M500XJ Isolator Module Isolator Module Protected Premises Area "2" Optional Optional Protected Protected Premises Premises Area "1" Area "3" M500XJ M500XJ Isolator Module Isolator Module Optional Optional 4wcl_2 IFC-200 6 A B B+ A+ B- A- Connect SLC + OUT to TB6 B+ and SLC - OUT to TB6 B- Connect SLC + OUT to TB6 A+ and SLC - OUT to TB6 A- Figure 12: Four-Wire, Style 7 Communications Loop Isolator Module... -
Page 21: Slc Shield Termination
SLC Shield Shield Termination in No Conduit (Figure 13) Termination Do not allow the SLC shield drain wire to enter the system cabinet. Connect the drain wire to the outside of the cabinet via a BX-type connector. Shield Drain Wire BX Connector IFC-200 Cabinet Shield... - Page 22 Shield Termination in Partial Conduit (Figure 15) Do not allow the shield drain wire to enter the system cabinet or the conduit. Connect the drain wire to the termination point of the conduit run (such as a single-gang box as illustrated above). The conduit cannot be longer than 20 feet.
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Page 23: Isolator Module
The M500XJ SLC Isolator Module is used to protect critical elements of Isolator Module the SLC from faults on other branches or sections of the SLC. The M500XJ continuously monitors the circuit connected to terminals 3 (-) and M500XJ 4 (+). Upon power-up, an integral relay is latched on. The M500XJ SLC In (-) SLC In (+) SLC Out (-) -
Page 24: Nfpa Style B Initiating Device Circuit
NFPA Style B This circuit cannot be T-tapped or branched in any fashion. Initiating Device 1. Connect the normally open contacts of the alarm initiating devices to Circuit a single two-wire circuit. 2. Terminate across the last device by a listed 47K, 1/2 watt ELR (part number R-47K, supplied with module). -
Page 25: Nfpa Style B Initiating Device Circuit
NFPA Style B Terminate with an R-47K ELR (N-ELR in Canada). Initiating Device The following notes concern M500MJ and M501MJ Monitor Modules: Circuit Initiating device circuit is supervised and current-limited to 210 microamps at 24 VDC (nominal). Initiating device circuit provides the following services (do not mix): a) fire alarm service b) automatic/manual waterflow alarm service with normally open contact devices... -
Page 26: Nfpa Style D Initiating Device Circuit
NFPA Style D Do not mix fire alarm initiating, supervisory, or security devices on the Initiating Device same module IDC. No external ELR is required for Style D wiring. See Circuit Figure 21. 1. Connect the Style D IDC to M502MJ terminals 6 (-) and 9 (-), then 7 (+) and 8 (+). - Page 27 A77-716B Power Supervision Relay IF C -20 0 TB 1 End-of-Line Resistor 24V(+) TB 1-5 24V(-) TB1-6 Four-Wire 24 VDC Four-Wire TB 2 Detector Power Smoke Detector TB 3 Manual Pull Station To Next Device Heat on SLC Detector TB 4 R E F M500MJ R E F...
- Page 28 A77-716B Power Supervision Relay IFC -20 0 TB 1 24V(+) TB 1-5 24V(-) TB1-6 Four-Wire 24 VDC Four-Wire TB 2 Detector Power Smoke Detector TB 3 Manual Pull Station To Next Device Heat on SLC Detector TB 4 R E F M 5 00M J R E F TB 5...
- Page 29 To Next Device On SLC Interface Module M502MJ S L C 3.9 K ELR Resistor (Included) Two-Wire Smoke Detectors 24 VDC Filtered, Regulated Resettable Power Observe Polarity N C C N O N C C N O N C C B + B + B + B + B + B + B + B - TX R E F R X RE F B - A +...
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Page 30: Control Module
The M510CJ control module is an addressable module that supervises and Control Module switches power to an indicating appliance circuit. The M510CJ circuit can be wired as an NFPA Style Y or Style Z indicating appliance circuit. Alternately, the M510CJ can be employed as a Form-C control relay. Style D Style D M510CJ... -
Page 31: Indicating Appliance Power
Indicating Connect indicating appliance power to M510CJ terminal 3 (common) and Appliance Power terminal 4 (+ 24 VDC). This power must be supervised by a Power Supervision Relay (part number A77-716B), wired as shown in Figures 24 and 25. Test Switch The M510CJ includes a magnetic test switch located near the center front of the module. - Page 32 A77-716B Part R-47K Power Supervision (J-ELR in Canada) Relay End-of-Line Resistor 47K 2-watt IFC -2 00 Note: If more than one M510CJ Indicating Appliance is provided, TB 1 install the power supervision relay after the last M510CJ. 24 V (+) TB 1-5 24V (-) TB 1-6 TB 2 TB 3...
- Page 33 IF C -2 0 0 UL Listed 24 VDC Indicating Appliances System Sensor MA-12/240 Electronic Sounder System Sensor SS-24 Strobe System Sensor MA/SS-240 Electronic Sounder/Strobe 24V(+) TB1-5 Wheelock 7002T-24 Horn with Strobe 24V(-) TB 1-6 Wheelock Series WM Strobes Wheelock Series EH Electronic Strobe Horns Wheelock Series AES Multi-Tone Signals Wheelock Series MIZ Mini-Horns To Next Device...
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Page 34: Addressable Manual Pull Station
The BGX-101L is an addressable manual pull station with a key-lock reset Addressable feature. Manual Pull Station BGX-101L 1. Connect the SLC to terminal screws (+) and (-) using wire nuts. Installation 2. The BGX-101L is factory preset with address 00. Set the SLC address for the pull station by using a screwdriver to turn the rotary address switches on the back of the unit to the appropriate settings. -
Page 35: Intelligent Detectors
The B501BJ/B50BH bases provide the connection between the IFC-200 Intelligent SLC and 2551J, 1551J, and 5551J intelligent detectors. Detectors Installation 1. Connect the SLC to terminal 1 (-) and terminal 2 (+) on the B501BJ. 2. If employing an RA-400Z Remote LED Annunciator, connect the RA-400Z positive terminal to B501BJ terminal 3 and the negative terminal to B50BH terminal 1. -
Page 36: Optional Modules
The IFC-200 has an optional module slot, using locations J6, J7, and J8 on Optional the system board. There are two optional modules available for the Modules IFC-200, the 4XTM Transmitter Module and the RTM-8 Relay Module. Jumper JP5 must be cut before installation of an optional module to enable module supervision. - Page 37 Insert screw here. S ta n d o ffs S ta n d o ffs Use metal screw and FIG2-22 standoff here. Figure 29: Optional Module Installation 4XTM R e m o te A la rm R e m o te T r o u b le M u n ic ip a l B o x T B L Ju m p e r D isc o n n e c t S w itc h...
- Page 38 T yp ica l F o rm -C Z o n e R e la y C o n fig u r atio n Z o n e 1 Local Energy Municpal Box (yellow) JP 1 Z o n e 2 T ra n sm itte r M o d u le S e le ct- JP 2 J u m p er S e ttin g s Z o n e 3...
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Page 39: Nr45-24 Remote Battery Charger
The NR45-24 remote battery charger is capable of charging NR45-24 20 to 55 amp-hour batteries. This unit is required in a control panel Remote Battery system using 25 amp-hour or larger batteries. The batteries and charger Charger are housed in the NR45-24 cabinet, which can be mounted up to 20 feet away from the control panel. - Page 40 Operation 1. Connect 120 VAC to terminals 1 and 2. The AC pilot light comes on. The voltmeter indicates the charger output. 2. Connect the battery, positive to terminal 3, negative to terminal 4. Charging current starts automatically when the battery voltage is sensed below the output voltage.
- Page 41 IMPORTANT: Do not apply AC power or batteries until the system is completely wired and ready for testing. 120 V A C , 5 0/60 H z P rim ary P ow er S ourc e Hot N eutral Cut JP2 to disable internal charger.
- Page 42 42 Hardware Installation—IFC-200 Hardware Installation Procedures...
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Page 43: Supply Calculations
Supply Calculations The IFC-200 requires connection to a separate dedicated AC branch circuit AC Branch (120 VAC), which must be labeled FIRE ALARM. This branch circuit Circuit must connect to the line side of the main power feed of the protected premises. - Page 44 Table 6: Regulated Load in Standby @24 VDC (External Devices Connected to TB-1 Only) Source Device No. of Current Total Type Devices (amps) Current/ Type TB-1 Terminals 1 and 2 TB-1 Terminals 3 and 4 TB-1 Terminals 5 and 6 Sum Column for Regulator Standby Load amps Notes: TB-1, Terminals 1 and 2: Regulated, Filtered 24 VDC +/- 10%...
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Page 45: Standby Current Load On Batteries
Standby Current Table 8 allows you to determine the current requirements of the secondary Load on Batteries power source (batteries) during standby conditions. The current ratings in Table 8 account for the continuous activation of trouble signals and indications. The total obtained in Table 8 will be used in Table 10 to determine the size of the batteries needed to support 24 or 60 hours of standby operation. - Page 46 Table 10: Total Secondary Power Requirements (@24 VDC) Secondary Standby Required Standby Time Load (24 or 60 hours) Secondary Alarm Load Required Alarm Time (For 5 min., enter 0.084) Sum Column for Ampere Hours = Multiply the derating factor x 1.2 Total Ampere Hours Required amps Notes: NFPA 72 Local and 72 Remote Station require 24 hours of standby...
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Page 47: Wire Requirements
Wire Requirements Each of the various types of circuits within an IFC-200 Fire Control System has a specific type of wire that must be used in order to ensure proper operation. In addition, the wire gauge of a particular circuit is contingent on the length of that circuit. - Page 48 Notes Controls Group FAN 444 507 E. Michigan Street IFC-200 Technical Manual P.O. Box 423 Printed in U.S.A. Milwaukee, WI 53201 48 Hardware Installation—IFC-200 Hardware Installation Procedures...
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