POWERPATH PS-8 PS-8E PS-6 PS-6E (105531) (100263) (105530) (100262) NAC EXTENDER POWER SUPPLIES Installation Instructions 273 Branchport Avenue, Long Branch, NJ 07740-6899 Ph: (800) 631-2148 Fax: (732) 222-8707 Web Site: www.coopernotification.com e-mail: info@coopernotification.com Copyright 2010 Cooper Wheelock Inc., dba Cooper Notification. All rights reserved.
P84905-001 G Sheet 2 of 37
Thank you for using our products. Use this product according to this instruction manual. Please keep this instruction manual for future reference. TABLE OF CONTENTS 1.0 1.1 1.2 1.3 - INTRODUCTION AND SPECIFICATIONS INTRODUCTION SPECIFICATIONS TERMINOLOGY 3 3 4 5 2.0 2.1 2.2 2.3 - INSTALLATION INSTRUCTIONS UNPACKING MOUNTING WIRING 6 6 6 8 3.0 – SETTING THE DIP SWITCHES 3.1 – CONTROL PC BOARD 14 14 4.0 – APPLYING POWER TO THE POWER SUPPLY PANEL 16 5.0 - TROUBLESHOOTING 17 6.
NOTE: All CAUTIONS and WARNINGS are identified by the symbol . letters. All WARNINGS are printed in bold capital READ THIS INSTRUCTION MANUAL CAREFULLY. FAILURE TO COMPLY WITH ANY OF THE FOLLOWING INSTRUCTIONS, CAUTIONS, AND WARNINGS COULD RESULT IN IMPROPER APPLICATION AND/OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND/OR OTHERS. 1.0 INTRODUCTION AND SPECIFICATIONS: 1.
1.2 SPECIFICATIONS Approvals: UL Listed 1481 Standard for Power Supplies for Fire-Protective Signaling Systems. Pending: California State Fire Marshall (CSFM) Pending: Bureau of Fire Protection (BFP) Chicago NFPA 72 compliant Environmental: Approved for indoor dry locations. FM Approved to ANSI / UL-864 9th Edition Emergency / Alarm Communication Systems. Pending: MEA – NYC Dept. of Buildings. Inputs: 240VAC, 50/60Hz, 3.22 Amps (PS-8E), 2.42 Amps (PS-6E) Operating Power in Alarm.
1.3 TERMINOLOGY CLASS “A” = STYLE Z CLASS “B” = STYLE Y FACP = Fire Alarm Control Panel EOLR = End of Line Resistor NAC = Notification Appliance Circuit SM = Wheelock Sync Module with single output DSM = Wheelock Dual Sync Module with two outputs C = Common NC = Normally Closed NO = Normally Open Ahrs = Ampere/Hours Enclosures Figure 1 shows the location of the PC boards and knockouts on the PS-8 panel.
TB2 Figure 2 shows the location of the PC boards and knockouts on the PS-6 panel.
NOTE: All dimensions shown are measured in inches. KNOCKOUTS TYP. 17X 0.882+/-.023 & 01.117+/-0.23 FLUSH ON OUTSIDE OF ENCLOSURE ORIENTATION OPTIONAL 10.0" 5.5" 16.7" 14.8" Figure 3: PS-8 Mounting Dimensions DIMENSIONS (H x W x D) – 16.7” x 14.8” x 5.
12.8" 10.3" 3.0" 16.7" Figure 4: PS-6 Mounting Dimensions DIMENSIONS (H x W x D) – 16.7” x 12.8” x 3” 2.3 WIRING Review the Operation Section (4.0) in order to select the proper hook-up and use of the POWERPATH. Set switches and wire the POWERPATH as follows: Terminal locations for the Power Supply/Battery Charger PC board are shown in Figures 5 and 6. Terminal locations for the Control PC board are shown in Figure 7.
TB2 BLACK 120VAC 50-60Hz NON-POWER LIMITED (PS-6, PS-8) GREEN 240VAC 50-60Hz NON-POWER LIMITED (PS-6E, PS-8E) WHITE F1 10 AMP 250 VAC L GND N MICROPROCESSOR TROUBLE BATTERY CHARGER TROUBLE BATTERY TROUBLE AC LOSS TRB COM BATTERY POWER NO D36 D21 TB3 D34 D35 10 AMP 250 VAC D38 NC AC POWER D24 TB1 J2 D4-D8: SEE TABLE 9 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER IN1 FOLLOWER SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL < D8-D4 > SW5 BATTERY F2 D37 ACTIVE TB6 D3: G
TB2 L AC Input 120VAC 50 – 60 Hz (PS-6, PS-8) GND N AC Input 240VAC 50 – 60 Hz (PS-6E, PS-8E) Battery Terminals 24VDC, 7 to 33 Ahrs AC LOSS Form “C” Relay Terminals AC LOSS TRB COM NO NC MICROPROCESSOR TROUBLE BATTERY CHARGER TROUBLE BATTERY TROUBLE BATTERY POWER D36 D34 TB3 D35 D24 AC LOSS DELAY JP1 IN = 0 MIN JP1 OUT = 170 MIN D38 POWER D21 TB1 J2 BATTERY JP1 Figure 6: Power Supply/Battery Charger PC Board Table 1: Power Supply/Battery Charger PC Board Terminal Identification Termina
AC INPUT TERMINALS TB2 F1 L GND N BLACK 10AMP 250VAC GREEN WHITE AC LOSS TRB TB3 24VDC 1 AMP MAXIMUM RESISTIVE LOAD (NON SUPERVISED) AC LOSS TROUBLE TERMINALS COM D36 D21 NO D35 D38 AC POWER NC TB1 D34 10AMP 250VAC F2 BATTERY J2 SW1 J1 D12 D4-D8: SEE TABLE 1 < D8-D4 > SW2 GENERAL TROUBLE LED D40 SYNC BUS D30 IN2 TROUBLE D9 SW3 TB6 SW4 ALARM LED PS-EXP EXPANSIONBOARD NAC 5 OUT NAC 6 OUT D7 D38 SILENCE SW4 D1 TROUBLE LEDS D3: GROUND FAULT TROUBLE SW5 GROUND FAULT LOCA
Control PC Board Refer to Figure 4 for the locations of the terminal described in Table 3.
NOTE: The maximum number of NAC appliances is dependent upon the field wire gauge used and the total current draw of the Appliances on the NAC circuit. C. Connect notification appliances to desired outputs OUT1 – OUT4. See Figure 6. The POWERPATH has in-out wiring terminals that accept two #18 to #12 American Wire Gauge (AWG) wires at each screw terminal. Strip leads 3/8 inch and connect to screw terminals. Separate all in-out wire runs on supervised circuits to insure integrity of circuit supervision.
3.0 SETTING THE DIP SWITCHES 3.1 CONTROL PC BOARD Refer to Figure 9 for the location and setting of the DIP switches on the Control PC board. 1. Set NAC output DIP Switch(s) on SW1 to follow corresponding input (IN1, IN2). 2.
Position 4 IN1 FOLLOWER OFF / ON NAC Output(s) or SBUS set to trigger on IN1 / CC1 will generate signals according to its SYNC / TEMPORAL switch setting. NAC Output(s) or SBUS set to trigger on IN1 / CC1 turn on when IN1 / CC1 is “Active” and will apply NAC reverse supervision voltage when IN1 / CC1 is “Not Active.” See SW6 Position 2’s description for this setting. See SW6 Position 2’s description for this setting. Sets CODE 3 Temporal Pattern on NAC4. Sets CODE 3 Temporal Pattern on NAC3.
4.0 Applying Power to the Power Supply Panel Now that all the Wiring is complete and the switch settings have been made, it’s time to apply power to the Power Supply panel. ALWAYS APPLY AC POWER BEFORE APPLYING BATTERY POWER. ALWAYS REMOVE BATTERY POWER BEFORE REMOVING AC POWER. FAILURE TO DO SO CAN CAUSE DAMAGE TO THE POWER SUPPLY COMPONENTS. 1. Connect AC source. The AC source shall be connected to a dedicated, non-switch power source. The AC must first be wired into the buildings main electrical power.
BATTERY MAINTENANCE Battery Replacement: Replace with new batteries every four (4) years or as needed if battery will no longer accept full charge. Two 12V batteries are required for 24VDC. The Power supply is now operational. Table 4 is a list of the LED indicators on the Power Supply/Battery Charger PC board. Table 4 is a list of the LED indicators on the Control PC board. Amber LED indicators always indicate a trouble condition.
Troubleshooting Using the LED Indicators Power Supply/Battery Charger PC Board.
Coded Trouble LEDs D8, D7, D6, D5, D4 Control PC Board SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON D4-D8: SEE TABLE 9 < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 TB4 TB3 D3: GROUND FAULT TROUBLE SW5 GROUND FAULT LOCATOR SWITCH NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D40 SYNC BUS SYNC PROTOCOL D38 SILENCE SBUS SYNC/TEMPORAL SBUS MASTER/REMOTE SW3 GF DETECT OFF/ON A
Trouble Condition Priority Identification When multiple troubles exist the Control PC board Coded Trouble LED Indicators indicate the highest priority trouble. Table 6 shows the priority sequence. When the highest priority is repaired, the next highest priority will automatically be displayed. Table 6 lists the coded condition of these 5 LED indicators and the action required. Table 6: Control PC Board Trouble Priority Identification Location Priority Location Displayed Priority 1. NAC 1 2. NAC 2 1.
□ ■ ■ □ ■ □ AUX Output Current Limit Reduce the number of NAC Appliances on Output1 □ ■ ■ ■ □ □ SYNC BUS Short Check for a wiring short. Check for improperly wired NAC circuit. (If an appliance is wired + to – and – to + a short trouble will be indicated. □ ■ ■ ■ ■ □ SYNC BUS Open Check SYNC BUS terminals for good connections. Check NAC circuit wiring for continuity. Check NAC circuit for 10K Ohm EOLR. ■ □ □ □ □ ■ SYNC BUS Current Limit Excessive current on the SYNC BUS.
6.
Example 3: IN>OUT SYNC MODE from CODED INPUT SOURCE (CLASS B) D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 INPUT2 D36 D2 SYNC PROTOCOL SBUS SYNC/TEMPORAL SBUS MASTER/REM
Example 5: WHEELOCK SYNC MODE without Audible Silence (CLASS A) D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 D36 INPUT2 D2 SYNC PROTOCOL SBUS SYNC/TEMPORAL SBUS MASTER/R
Example 7: IN>OUT SYNC MODE from CODED INPUT SOURCE (CLASS A) D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 INPUT2 D36 D2 SYNC PROTOCOL SBUS SYNC/TEMPORAL SBUS MASTER/REMO
Example 9: ACTIVATING THE PS-6/8 with a “DRY CONTACT” (CLASS B) D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 INPUT2 D36 D2 SYNC PROTOCOL SBUS SYNC/TEMPORAL SBUS MASTER/RE
Example 11: NAC STROBES ACTIVATED SEPERATELY, with all circuits synchronized PS-8 ENCLOSURE D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 INPUT2 D36 D2 SYNC PROTOCOL SBUS
Example 12: NAC HORNS ACTIVATED SEPARATELY, with all circuits synchronized D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 INPUT2 D36 D2 SYNC PROTOCOL SBUS SYNC/TEMPORAL S
Example 13: NAC APPLIANCES SYNCHRONIZED all at the same time D4-D8: SEE TABLE 9 SW6 TROUBLE LATCH OFF/ON SBUS IN1/IN2 IN2 FOLLOWER OFF/ON IN1 FOLLOWER OFF/ON < D8-D4 > SW2 NAC4 SYNC/TEMPORAL NAC3 SYNC/TEMPORAL NAC2 SYNC/TEMPORAL NAC1 SYNC/TEMPORAL SW1 NAC4 IN1/IN2 NAC3 IN1/IN2 D37 ACTIVE TB6 D3: GROUND FAULT TROUBLE TB3 TB4 SW5 GROUND FAULT LOCATOR D40 SYNC BUS D38 SILENCE NAC2 IN1/IN2 NAC1 IN1/IN2 SW4 SYNC PROTOCOL D31 INPUT1 INPUT2 D36 D2 SYNC PROTOCOL SBUS SYNC/TEMPORAL SBUS MASTER/REM
Example 14: NON-RESETTABLE POWER APPLICATION SW6 SW2 SW1 SW4 SW3 TB2 TB1 IN1 RET1 CC1 IN2 RET2 CC2 SBUS IN SBUS RET SIL IN COM NO NC TROUBLE AUX OUT NAC1 OUT NAC2 OUT NAC3 OUT NAC4 OUT X COM NO NC TB1 If door holder does not include an integrated diode one must be added to each door holder as shown in Example 14. Ensure that JP1 is installed on the Power Supply PCB (The top pc board.) The maximum current rating for a NAC OUT circuit is 3.0 Amps.
7.0 BATTERY CALCULATION SHEET 7.1 PS-8 BATTERY CALCULATION SHEET STANDBY CURRENT CALCULATIONS: 1. The Standby Current for the PS-8 is 0.129 Amps. *Note: If the PS-EXP is installed in the PS-8, use 0.164 Amps for Standby current. Amps 2. If this unit is set for Master Mode, multiply the number of remote units by 0.006 Amps. If this unit is set for Remote Mode, enter 0 Amps. Amps 3. If you are using AUX in CP Mode, enter the current draw. If this unit is set for AUX MP Mode, enter 0 Amps. Amps 4.
7.2 PS-6 BATTERY CALCULATION SHEET STANDBY CURRENT CALCULATIONS: 1. The Standby Current for the PS-6 is 0.129 Amps. *Note: If the PS-EXP is installed in the PS-8, use 0.164 Amps for Standby current. Amps 2. If this unit is set for Master Mode, multiply the number of remote units by 0.006 Amps. If this unit is set for Remote Mode, enter 0 Amps. Amps 3. If you are using AUX in CP Mode, enter the current draw. If this unit is set for AUX MP Mode, enter 0 Amps. Amps 4.
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ANY MATERIAL EXTRAPOLATED FROM THIS DOCUMENT OR FROM COOPER NOTIFICATION MANUALS OR OTHER DOCUMENTS DESCRIBING THE PRODUCT FOR USE IN PROMOTIONAL OR ADVERTISING CLAIMS, OR FOR ANY OTHER USE, INCLUDING DESCRIPTION OF THE PRODUCT’S APPLICATION, OPERATION. INSTALLATION AND TESTING IS USED AT THE SOLE RISK OF THE USER, AND COOPER NOTIFICATION WILL NOT HAVE ANY LIABILITY FOR SUCH USE. 9.0 WARRANTY STATEMENT: LIMITED WARRANTY Cooper Wheelock, Inc. dba Cooper Notification and Cooper Notification, Inc.
10.0 LIST OF COMPATIBLE NAC DEVICES: APPENDIX A The following is a list of appliances produced by Cooper Wheelock that are compatible with the Wheelock power supplies.
APPLIANCES WITH SYNCHRONIZING STROBES AMT-241575W AMT4-241575W AMT-2475W AMT4-2475W AMT-241575W-NYC AMT4-241575W-NYC AMT-2475W-NYC AMT4-2475W-NYC MT-12575W ---------MT-241575W MT-2475W MTWP-2475W ET70WP-2475W CH70-24MCW CH90-24MCW CH70-24MCC CH90-24MCC CH70-2415C CH90-2415C CH70-2430C CH90-2430C CH70-2475C CH90-2475C CH70-24100C CH90-24100C CH70-24150C CH90-24150C CH70-24177C CH90-24177C CH70-24150W CH90-24150W CH70-24MCWH CH90-24MCCH CH70-24185W CH90-24185W E70-24MCW E90-24MCW E70-24MCC E90-24MCC E70-2415C
