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HPFF12 NAC Expander —

  P/N 53576:B  11/24/2010

11

Start-up Procedure

System Overview

– Provides use of a wide range of ELR resistors’ values: 1.9K ohms to 25K ohms.
– Eases retrofit installations by matching existing ELR value without having to locate in the 

field. (ELRs must be UL Listed.)

NAC Trouble memory:
– Individual NAC Trouble LEDs blink if past troubles occurred.
– Aids installer or repair personnel to find the location of past troubles.

Fixed, clamp-style terminal blocks to accommodate 12 AWG (3.31 mm²) to 22 AWG (0.326 
mm²) wire.

Separate Trouble and AC Fail Form-C relay contacts.

Initiating device input signal is interrupted for Trouble indication at device or FACP.

Optional two-hour delay:
– In opening of Trouble contacts upon AC loss (AC Fail contact always transfers immediately 

upon AC loss).

– In interruption of initiating device input signal for Trouble indication at device or FACP.
– UL 864 9th Edition requires 1-3 hour delay, therefore always programming for the two-hour 

delay is recommended.

Auxiliary output:
– Continuous 24 VDC output (even in alarm): 2.0 A.
– Resettable fuse (PTC) limited.

Mounting locations on the Control circuit board for optional addressable relay and control 
modules.

1.3  Start-up Procedure

1. Configure the power supply jumpers as described in Section 1.4, “Jumpers”, on page 12.
2. Install the power supply as described in Section 2, “Installation”, on page 17.
3. Program the power supply as described in Section 3, “Programming Options”, on page 35.
4. Wire the power supply circuits, referring to the options described in Section 4, “Trouble 

Supervision”, on page 39 and the application examples in Section 5, “Applications”, on page 
42.

5. Connect the primary source wiring while observing the following:

• HPFF12 and HPFF12CM: make certain the primary source is 120 VAC, 60 Hz, 5.0 A.
• HPFF12E and HPFF12CME: make certain the primary source is 240 VAC, 50 Hz, 2.80 A.
• Run a pair of wires (with earth ground conductor) from the protected premises’ main 

breaker box to TB1 on the internal 24 VDC power supply circuit board.

• For power supplies: use 14 AWG (2.089 mm²) wire with 600 V insulation. 
• Connect ground of the protected premise to ground stud of the enclosure using a dedicated 

nut/lockwasher supplied in the hardware kit. 

6. Apply power to the power supply using the following procedure:

– Apply AC power by turning on the AC mains circuit breaker connected to the power supply.
– Connect a properly charged battery to the TB1 on the unit’s internal Control circuit board.

!

WARNING:
MAKE CERTAIN THAT THE AC CIRCUIT BREAKER IS OFF BEFORE MAKING ANY WIRING 
CONNECTIONS BETWEEN THE CIRCUIT BREAKER AND THE POWER SUPPLY.

Summary of Contents for HPFF12

Page 1: ...INSTALLATION OPERATION MANUAL HPFF12 E HPFF12CM E NOTIFICATION APPLIANCE CIRCUIT EXPANDER P N 53576 B ECN 10 0569 11 24 2010 ...

Page 2: ...ctors cannot be expected to provide adequate warning of fires caused by arson children playing with matches especially in bedrooms smoking in bed and violent explosions caused by escaping gas improper storage of flammable materials etc Heat detectors do not sense particles of combustion and alarm only when heat on their sensors increases at a predeter mined rate or reaches a predetermined level Ra...

Page 3: ...Failure to do so can damage circuits Remove all electronic assemblies prior to any drilling filing reaming or punching of the enclosure When possible make all cable entries from the sides or rear Before making modifi cations verify that they will not interfere with battery trans former or printed circuit board location Do not tighten screw terminals more than 9 in lbs Over tightening may damage th...

Page 4: ...te version for a specific application Documentation Feedback Your feedback helps us keep our documentation up to date and accurate If you have any comments or suggestions about our online Help or printed manuals you can email us Please include the following information Product name and version number if applicable Printed manual or online Help Topic Title for online Help Page number for printed ma...

Page 5: ...ction 3 Programming Options 35 3 1 DIP Switch Settings 35 3 2 Programmable Features 36 3 2 1 Input Output Functions 36 3 2 2 Synchronization Type 37 3 2 3 Trouble Reporting Delay with an AC Failure 37 3 2 4 Split Alarm and Silencing 38 Section 4 Trouble Supervision 39 4 1 Supervised Functions and Field Wiring 39 4 2 Trouble Reporting 39 4 2 1 TB2 AC FAIL Contacts 40 4 2 2 TB2 TROUBLE Contacts 40 4...

Page 6: ...ting and Locating Batteries 51 6 5 NAC Circuit Loop Wiring Requirements 52 Appendix A Device Compatibility 53 A 1 Optional Modules 53 A 2 Notification Appliances 53 A 2 1 System Sensor 24 VDC 53 A 2 2 Gentex 24 VDC 54 A 2 3 Cooper Wheelock 55 A 2 4 Amseco 57 A 2 5 Faraday 57 ...

Page 7: ...stems UL 1638 Visual Signaling Appliances UL 1971 Signaling Devices for Hearing Impaired Other NEC Article 250 Grounding NEC Article 300 Wiring Methods NEC Article 760 Fire Protective Signaling Systems Applicable Local and State Building Codes Requirements of the Local Authority Having Jurisdiction LAHJ This product has been certified to comply with the requirements in the Standard for Control Uni...

Page 8: ...8 HPFF12 NAC Expander P N 53576 B 11 24 2010 ...

Page 9: ... batteries It is used for a multi pack option that allows up to three HPFF12CM units to be mounted in a compatible Fire Alarm Control Panel FACP cabinet these separately sold cabinets are also referred to as the large equipment enclosure The addressable control or relay module option is not available on these models Equipment enclosures available through authorized Honeywell Fire Systems distribut...

Page 10: ...rted or excessively loaded NAC outputs automatically protect themselves Status LEDs will illuminate steady to indicate the circuit affected Integral supervised battery charger Capable of charging 7 0 AH to 26 0 AH batteries For lead acid batteries only Battery Trouble LED blinks to indicate charger fault Fully supervised power supply battery and NACs Two independent optically isolated input contro...

Page 11: ...Procedure 1 Configure the power supply jumpers as described in Section 1 4 Jumpers on page 12 2 Install the power supply as described in Section 2 Installation on page 17 3 Program the power supply as described in Section 3 Programming Options on page 35 4 Wire the power supply circuits referring to the options described in Section 4 Trouble Supervision on page 39 and the application examples in S...

Page 12: ...enclosure along with a UL Listed battery charger suitable for fire alarm service and with sufficient capacity to restore the full charge in the required time The alternate enclosure and battery charger shall be listed for Fire Protective Signaling use 1 4 2 Ground Fault Disable Jumper J2 The Ground Fault detection circuit on the Control circuit board monitors the impedance from earth ground to any...

Page 13: ...n ELR or facilitate multiple unit systems Trigger input voltage 12 and 24 VDC Input trigger draw in alarm polarity 12 VDC 5 68 mA maximum per input 24 VDC 12 26 mA maximum per input 12 AWG 3 31 mm to 18 AWG 0 821 mm Indicator Name State Trouble Condition LED 1 2 3 4 SIG 1 2 3 4 TRBL Blinking NAC Trouble Memory Steady illumination Open or shorted NAC LED 5 GF TRBL Steady illumination An earth groun...

Page 14: ...ility on page 53 for listed compatible devices Trouble Contact Rating TB2 on Control circuit board terminals TROUBLE N C COM and N O Not supervised Fail safe Form C relay Normally energized transfers with NAC battery charger in standby AC loss ground fault and auxiliary output trouble 2 0 A 30 VDC AC loss trouble can be delayed for 2 hours see Programming Options 12 AWG 3 31 mm to 18 AWG 0 75 mm A...

Page 15: ...ppendix A Device Compatibility g g Figure 1 1 Control Circuit Board REF REF Signal 1 IN Signal 1 IN Signal 1 OUT Signal 1 OUT Signal 2 IN Signal 2 IN Signal 2 OUT Signal 2 OUT LEDs top to bottom LED1 Power On LED2 Auxiliary Trouble LED3 Battery Trouble ED4 Ground Fault Trouble LED5 Signal 4 Trouble LED6 Signal 3 Trouble LED7 Signal 2 Trouble LED8 Signal 1 Trouble SW2 Reset TB2 left to right AC Fai...

Page 16: ...16 HPFF12 NAC Expander P N 53576 B 11 24 2010 System Overview Specifications Figure 1 2 HPFF12 24 VDC Power Supply Circuit Board HPFF12pca wmf ...

Page 17: ... circuit board and to facilitate backbox mounting the chassis with the 24 VDC power supply and the Control circuit board can be easily removed Loosen the two 8 32 nuts securing the top flanges of the chassis then slide the chassis up to free it from the lower tabs Place the chassis assembly in a safe location until it can be reinstalled in the backbox 1 Mark and predrill a hole in the wall for the...

Page 18: ...18 HPFF12 NAC Expander P N 53576 B 11 24 2010 Installation Backbox Mounting Figure 2 1 Standard Cabinet Dimensions 92udlscab wmf ...

Page 19: ...6 B 11 24 2010 19 Backbox Mounting Installation Figure 2 2 Standard Cabinet Dimensions for Wall mounting Semi Flush Mounting Do not recess box more than 3 875 into wall to avoid covering venting holes on top of box 92udlsencl wmf ...

Page 20: ...0 64 10 16 4 24 60 96 1 5 8 4 13 2 1 4 5 72 2 1 4 5 72 5 16 dia 0 79 5 16 dia 0 79 19 1 2 49 53 5 5 32 13 1 2 1 16 5 24 2 5 8 6 604 Top knockout Inner 1 375 3 49 Outer 1 750 4 45 Four lower knockouts Inner 0 875 2 22 Outer 1 125 2 86 11 1 2 29 21 1 7 8 4 699 2 5 08 1 2 54 11 27 94 11 27 94 eqcab d wmf Four rows of Equipment cab4keyhole wmf Top View of Backbox 6857ko wmf Keyhole dimensions Height o...

Page 21: ... For the bottom most chassis mounting plate only install four 8 32 keps nuts on the plate s studs as shown in Figure 2 6 This will properly space the battery well away from the backbox s mounting hardware Number of Units Supported EQ Series Backboxes Doors One EQBB B4 with EQDR B4 or FCI VDR B4B Two EQBB C4 with EQDR C4 or FCI VDR C4B Three EQBB D4 with EQDR D4 or FCI VDR D4B Table 2 1 NOTE 1 When...

Page 22: ...he backbox s mounting studs fasten securely using four 8 32 keps nuts as shown in Figure 2 7 5 Install battery well by resting the bottom on top of the studs and securing the top with two 8 32 keps nuts as shown in Figure 2 7 Figure 2 5 Attaching Transformer Plug hpff12cm cable wmf Attach plug to transformer Ships unplugged ...

Page 23: ...hpff12cm plate mtg wmf hpff12cm bottom spacers wmf Attach each chassis mounting plate to backbox with two 8 32 kep nuts For the bottom chassis mounting plate only Install four 8 32 kep nuts onto studs where battery well is to be located NOTE This can be done before or after attaching chassis mounting plate to backbox Note Two row and three row mounting is equivalent ...

Page 24: ...ower limited wiring HPFF12CM E Power Limited Wiring EQBB D4 Backbox on page 33 hpff12cmmnt eqdsize wmf Do not mount HPFF12CM in top row The HPFF12CM chassis mounting direction must be alternated for proper heat dissipation Battery must be on left side of bottom row Attach HPFF12CM module with four 8 32 kep nuts Secure top of battery well with two 8 32 kep nuts ...

Page 25: ... FACP Cabinets Installation See power limited wiring HPFF12CM E Power Limited Wiring EQBB D4 Backbox on page 33 Figure 2 8 Two HPFF12CM Modules in an EQBB C4 Backbox hpff12cmmnt eqcsize wmf Figure 2 9 One HPFF12CM Module in an EQBB B4 Backbox hpff12cmmnt eqcsize wmf ...

Page 26: ...ouble on NAC1 will illuminate LED1 SIG1 TRBL Trouble on NAC2 will illuminate LED2 SIG2 TRBL Trouble on NAC3 will illuminate LED3 SIG3 TRBL Trouble on NAC4 will illuminate LED4 SIG4 TRBL NAC 4 NAC 3 NACs 1 3 are wired the same as NAC4 and use ELR the same as Reference Resistor NAC 1 NAC 2 NOTE 1 Typical ELR s for new installations can be 3 9k or 4 7k ohm 2 The same gauge wire must be used if two co...

Page 27: ...D1 SIG1 TRBL and LED2 SIG2 TRBL Trouble on NAC2 will illuminate LED3 SIG3 TRBL and LED4 SIG4 TRBL Note NAC 2 in Class A no ELR required Note NAC 1 Class A wired same as NAC2 NAC 1 NOTE 1 Typical ELR s for new installations can be 3 9k or 4 7k ohm 2 The same gauge wire must be used if two conductors are connected to the same terminal of any terminal block 3 Do not complete a continuous circuit arou...

Page 28: ... Polarity Shown Note NAC 3 in Class A no ELR required NAC 1 Trouble on NAC1 will illuminate LED1 SIG1 TRBL Trouble on NAC2 will illuminate LED2 SIG2 TRBL Trouble on NAC3 will illuminate LED3 SIG3 TRBL and LED4 SIG4 TRBL Reference Resistor Same as ELRs for NAC 1 NAC2 NAC 2 NOTE 1 Typical ELR s for new installations can be 3 9k or 4 7k ohm 2 The same gauge wire must be used if two conductors are con...

Page 29: ...onnect NAC field wiring and a separate NFPA and UL 864 rated enclosure is required HPFF812 HPP31076 NACs wmf Reference Resistor 3 9K ohm is required for the Class A adaptor Alarm Polarity Shown Trouble on NAC1 will illuminate LED1 SIG1 TRBL Trouble on NAC2 will illuminate LED2 SIG2 TRBL Trouble on NAC3 will illuminate LED3 SIG3 TRBL Trouble on NAC4 will illuminate LED4 SIG4 TRBL Note ELR is not re...

Page 30: ...output addressable module can also be used and mounted on the Control board 2 4 1 Mounting Modules from Honeywell Fire Systems Addressable modules can be mounted directly to the Control circuit board as shown in Figure 2 14 for the wall cabinet This allows wiring to remain in the cabinet Two modules can be mounted on top of each other if the application requires two independent inputs such as sile...

Page 31: ...Section 2 5 Power Limited Wiring Requirements Figure 2 15 Mounting Details for Six Output Modules from Honeywell Fire System 2 5 Power Limited Wiring Requirements Power limited and non power limited circuit wiring must remain separated in the cabinet All power limited wiring must remain at least 0 25 away from any non power limited circuit wiring Furthermore all power limited circuit wiring and no...

Page 32: ...ed Specific Application Power SLC are power limited Output Circuits Power limited AC Circuits Nonpower limited Relay Contacts Nonpower limited HPFF812mntpwrlim wmf Battery connections Nonpower limited Input Circuits Power limited Specific Application Power SLC are power limited Output Circuits Power limited AC Circuits Nonpower limited Relay Contacts Nonpower limited HPFF12mntpwrlim6up wmf Battery...

Page 33: ...oss e g Relay Contacts and AC Power or HPP31076 NACs and battery connections Knockout for Power limited wiring HPFF12cm LrgEqpEncl Wiring JPG Input Circuits Power limited Output circuits and Auxiliary Output Power limited SLC Loop Power limited Battery connections Non power limited Relay Contacts Non power limited Knockout for Non power limited wiring Knockouts for Power limited wiring AC Power No...

Page 34: ...B 11 24 2010 Installation Power Limited Wiring Requirements Figure 2 19 Power Limited Wiring Example EQBB D4 AC Wiring Expanded HPFF12mntpwrlim ACwir wmf TB1 on 24 VDC circuit board L1 Ground L2 Ground Stud Wire Nut Line Neutral Ground ...

Page 35: ...tified input 3 ON 4 OFF Temporal 3 OFF 4 ON Sync generator see switches 5 6 3 ON 4 ON Pass through Filtered use for full wave rectified inputs 5 SYN SEL B 6 SYN SEL A 5 OFF 6 OFF Cooper Wheelock 5 ON 6 OFF System Sensor 5 OFF 6 ON Amseco and Faraday 5 ON 6 ON Gentex 7 AC 2HR OFF No delay in Trouble reporting with an AC failure ON 2 hour delay in Trouble reporting with an AC failure See Sections 3 ...

Page 36: ...gnals The temporal generator feature is used to have the power supply generate a temporal audible code The filtered feature is used to provide a steady on output with full wave rectified unfiltered input and can be used to reduce or eliminate spurious outputs that are caused by noise on the inputs NAC Outputs 1 2 DIP Switch 1 DIP Switch 2 Function OFF OFF Pass through of Steady On sync or audible ...

Page 37: ...le units are connected Therefore supervised monitoring TB2 s AC FAIL and TROUBLE contacts is necessary for UL 864 9th Edition compliance DIP switch 7 set to the ON position will delay the transfer of the TB2 s TROUBLE contacts and the opening of connections on TB3 for 2 hours unless in alarm state upon an AC loss or brownout DIP switch 7 set to the OFF position will have no delay in the transfer o...

Page 38: ...ilenced if DIP switches 1 through 6 are set for Pass through and FACP input is wired and programmed for that operation DIP switch 8 set to the OFF position and at least one of the NAC outputs are programmed for synchronization Signal Input 1 2 ON will generate a General Alarm on all four NAC outputs General Alarm is activation of both visual strobe and audible horns DIP switch 8 set to the OFF pos...

Page 39: ...cle LED4 SIG4 TRBL Blink SW1 or Power cycle Ground Fault Note 1 Note 1 open LED5 GF TRBL Steady illumination Auto Battery No Battery or 20 5 VDC Note 1 Note 2 open LED6 BATT TRBL Steady illumination Auto Battery Charger Fault Note 1 Note 2 open LED6 BATT TRBL Blink Auto Battery not reach float Note 3 Note 1 Note 2 open LED6 BATT TRBL Steady illumination Auto Auxiliary output Excessive load or shor...

Page 40: ...C Alarm Trouble contacts Fault TB2 AC Fail TB2 TROUBLE TB3 IN OUT LED Reset Field Wiring NAC REF Short or Open Excessive Load Two re tries of 4 Amps Note 1 Note 2 closed LED1 SIG1 TRBL Steady Illumination SW1 or Power cycle LED2 SIG2 TRBL Steady Illumination SW1 or Power cycle LED3 SIG3 TRBL Steady Illumination SW1 or Power cycle LED4 SIG4 TRBL Steady Illumination SW1 or Power cycle Ground Fault N...

Page 41: ...RBL LED s steady and generate a general trouble This is a latched overload condition but the unit will keep attempting to re engage the NAC output The general trouble transfers only the Trouble contact until the alarm condition clears 4 2 5 Ground Fault Detection A ground fault trouble will be generated if there is 50 K ohms or lower between Earth Ground and the field wiring except the initiating ...

Page 42: ...PFF s alarm input circuit will always remain closed in the alarm state Therefore the Trouble contacts at TB2 need to be used to report troubles to the FACP during an alarm See Section 4 1 Supervised Functions and Field Wiring 2 The FACP s NAC circuit can be steady on coded temporal Sync etc 3 The value of the ELR End of Line Resistor across TB3 terminals SIGNAL 2 OUT OUT depends on the FACP used 4...

Page 43: ...r Figure 5 2 1 When the power supply is in normal standby state a trouble will result in an open circuit condition on the control module output circuit monitored by the End of Line Resistor on TB3 The HPFF s alarm input circuit will always remain closed in the alarm state Therefore the Trouble contacts at TB2 need to be used to report troubles to the FACP during an alarm Section 4 1 Supervised Fun...

Page 44: ... 4 Figure 5 3 Wiring for Selective Silence Notes for Figure 5 3 1 When the power supply is in normal standby state a trouble will result in an open circuit condition on the control module output circuit monitored by the End of Line Resistors on TB3 The HPFF s alarm circuit will always remain closed in the alarm state Therefore the Trouble contacts at TB2 need to be used to report troubles to the F...

Page 45: ...tput addressable module can also be used and mounted on the Control board shown in Figure 5 4 Figure 5 4 Wiring for Split Alarm Mode Notes for Figure 5 4 1 When the power supply is in normal standby state a trouble will result in an open circuit condition on the control module output circuit monitored by the End of Line Resistors on TB3 The HPFF s alarm circuit will always remain closed in the ala...

Page 46: ...C output must be regulated not Full Wave Rectified FWR if the HPFF is programmed for Sync Generator 2 The number of possible units that can be interconnected depends on the current capability of the FACP output Each HPFF8 input draws 12 26 mA at 24 VDC 3 The total line impedance for interconnected units cannot be such that it creates a voltage drop 2 VDC Zline total 2V 1 Unit 1 ELR Example Zline t...

Page 47: ... Generator 2 The number of possible units that can be interconnected depends on the current capability of the FACP output Each HPFF8 input draws 12 26 mA at 24 VDC 3 The total line impedance for interconnected units cannot be such that it creates a voltage drop 2 VDC Zline total 2V 1 Unit 1 ELR Example Zline total 2V 12 26 mA 24 2 4 7K 118 1 ohms HPFFconnex Binput wmf HPFFconnex6 Ainput wmf Figure...

Page 48: ...anch Circuit Current The power supply requires connection to a separate dedicated AC branch circuit which must be labeled FIRE ALARM This branch circuit must be connected to the line side of the main power feed of the protected premises No other non fire alarm equipment may be powered from the fire alarm branch circuit The branch circuit wire must run continuously without any disconnect devices fr...

Page 49: ... source for the power supply Secondary refers to the Power supply s backup batteries All currents are given in amperes A Table 6 2 shows how to convert milliamperes and microamperes to full amperes The following table shows the maximum number of Notification Appliances that can be connected to the NAC outputs per manufacturer These maximum numbers are equivalent to the full 12 Amps capability of t...

Page 50: ...lation Column 3 The standby current drawn from the batteries in a non alarm condition during a loss of AC Table 6 4 contains three columns for calculating current draws For each column calculate and enter the total in amperes in the bottom row When finished copy the totals from Calculation Column 2 and Calculation Column 3 to Table 6 5 Device Type Calculate Column 1 Primary Non Alarm Current Amps ...

Page 51: ... supply can charge 7 AH to 26 AH batteries The standard HPFF wall cabinet is capable of housing batteries up to 18 AH Larger capacity batteries can be used if they are housed in an external UL Listed enclosure along with a UL Listed battery charger with sufficient capacity to restore the full charge to the batteries in the required time To use an external battery charger remove the control board s...

Page 52: ...irements Make sure these requirements are met 1 For any NAC circuit with a full load up to 3 Amps the total wire resistance must be less than or equal to 0 66 Ohms and 2 The NAC loop current draw multiplied by total wire resistance on any single NAC circuit cannot exceed 2 0 volts NOTE For loads smaller than 3 Amps use the second calculation ...

Page 53: ...415 CH241575 CH2475 CH24110 SpectrAlert Chime with Strobe MA 12 24D Electronic Sounder MA12 24EH Multi Alert Horn with Mechanical Tone MAEH24LO MAEH24LOC MAEH24LOLA MAEH24M MAEH24MC MAEH2415ADA MAEH2475ADA MAEH241575ADA MAEH24110ADA MAEH2415ADAS MAEH241575ADAS Multi Alert Horn with Mechanical Tone Strobe MASS24D MASS24LO MASS24M Electronic Sounder Strobe MASS24LOC MASS24MC Electronic Ceiling Sound...

Page 54: ...GEC 24 110 GEC 24 15 75W Horn Strobe GES 24 15 GES 24 30 GES 24 60 GES 24 75 GES 24 110 GES 24 15 75W Strobe GMH 24 Electro Mechanical Horn GMS 24 15 GMS 24 15 1 GMS 24 110 GMS 24 110 1 GMS 24 1575 1 GMS 24 3075 GMS24 30W GMS24 60W Electro Mechanical Horn with Strobe GOT 24 Multi Tone Horn GOS 24 15 1 GOS 24 110 1 GOS 24 1575 1 GOS 24 3075 1 Multi Tone Horn Strobe GXS 4RH GXS 4BH GXS 4RL GXS 4BL S...

Page 55: ...Candela Appliance CH90 2475C CH90 24100C Chime with Strobe DSM 12 24 Dual Synchronization Module EH DL1 WM 24 VF R EH EL1 WM 24 VF R Electronic Horn Strobes HSW 24 HFR HSPW 24 HFR HS2W HFR Strobe IS 24 VFR IS1 24 VFR IS3 24 VFR Strobe ISP 24 VFR Strobe LS 24 VFR LS1 24 VFR LS1M 24 VFR LS3 24 VFR LS3M 24 VFR Strobe LSM 24 VFR Strobe LSP 24 HFR LSPM 24 VFR Strobe MB G6 24 R Motor Bell 6 gong MB G10 ...

Page 56: ...Wheelock E70 E70 R E90 E90 W Speaker ET70 ET90 Speaker with Strobe E70 24MCW Speaker Strobe S25W S70W Speaker STH 15S Loudspeaker ET70 2415W ET70 2430W ET70 2475W ET70 24110W ET70 241575W ET70 24MCW FR Speaker with Strobe E 70 IS 24 E 70 LS 24 E 70 LSM 24 E 70 MS 24 Low Profile Speaker Strobe E70 2415W E70 2430W E70 2475W E70 24110W E70 241575W E70 24185W FR Speaker with Strobe ET90 2415C ET90 243...

Page 57: ...ducts Compatible with the following A 2 5 Faraday Use only 24 V devices with HPFF12 products Compatible with the following 2830 2831 2836 2834 2837 SH24W 153075 SAD24 153075 SAD24 75110 SL24W 75110 SL24C 3075110 SLB24 75 RSD24 153075 RSD24 75110 SH24W 75110 SH24W 3075110 SHB24 75 SCM24W 153075 SCM24W 75110 SCM24C 3075110 SCM24C 177 H24W H24R ...

Page 58: ...58 HPFF12 NAC Expander P N 53576 B 11 24 2010 Device Compatibility Notification Appliances ...

Page 59: ...nts procedures 48 Charger Disable Jumper J1 12 chassis removing 17 Chassis mounting 21 Class A Style Z 27 Class A Style Z Adaptor 29 Class B Style Y 26 28 clearing the permanently latched overload condi tion 41 conduit knockouts 31 Contact ratings 14 Control and relay modules 53 Control Panel Circuit Board 15 Converting milliamperes and microamperes to full amperes 49 Current Draw Calculations 49 ...

Page 60: ...r limited wiring requirements 31 34 Primary Power defined also see AC power Primary power supply defined 49 Programming DIP Switches see Dip switch set tings Programming input output functions 36 S Secondary power supply defined 49 Selecting and Locating Batteries 51 Selective silence 44 Semi flush Mounting 19 27 SIGNAL 1 SIGNAL 2 40 41 Silencing 38 Silencing see Selective silence Six circuit modu...

Page 61: ...nch circuit 48 also see NAC wiring Connecting multiple units 46 Control Panel Circuit Board 15 NAC applications 42 43 NACs 26 27 28 separating power limited from non power limited circuits 31 34 Split alarm mode 45 System Sync 46 Wire specifications 13 16 Wiring size 52 ...

Page 62: ...62 HPFF12 NAC Expander P N 53576 B 11 24 2010 W W Index ...

Page 63: ...OR IMPLIED WITH RESPECT TO THE PRODUCTS TRADEMARKS PROGRAMS AND SERVICES RENDERED BY MANUFACTURER INCLUDING WITHOUT LIMITATION INFRINGEMENT TITLE MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE MANUFACTURER SHALL NOT BE LIABLE FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF OR AS A RESULT OF PERSONAL COMMERCIAL OR INDUSTRIAL USES OF ITS PRODUCTS This document constitutes th...

Page 64: ...Automation and Control Solutions Honeywell Power Products 12 Clintonville Road Northford CT 06472 1610 www honeywellpower com U S Registered Trademark 2010 Honeywell International Inc 53576 B Rev 11 10 ...

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