Related Manuals for Honeywell Farenhyt RPS-1000HV
Summary of Contents for Honeywell Farenhyt RPS-1000HV
- Page 1 Farenhyt™ Series RPS-1000/RPS-1000HV Intelligent Power Module Manual Document 151153 Rev: R 2/15/2022 ECN: 151770...
- Page 2 Fire Alarm & Emergency Communication System Limitations While a life safety system may lower insurance rates, it is not a substitute for life and property insurance! An automatic fire alarm system—typically made up of smoke IMPORTANT! Smoke detectors must be installed in the same room detectors, heat detectors, manual pull stations, audible warning as the control panel and in rooms used by the system for the devices, and a fire alarm control panel (FACP) with remote...
- Page 3 Farenhyt™ is a trademark; and Flexput®, Honeywell®, JumpStart®, Silent Knight® and SWIFT® are registered trademarks of Honeywell International Inc. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation. Chrome™ and Google™ are trademarks of Google Inc. Firefox® is a registered trademark of The Mozilla Foundation.
- Page 4 Your suggestion for how to correct/improve documentation Send email messages to: FireSystems.TechPubs@honeywell.com Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical Services. This symbol (shown left) on the product(s) and / or accompanying documents means that used electrical and electronic products should not be mixed with general household waste.
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Page 5: Table Of Contents
Table of Contents Section 1: Overview ................................6 1.1: RPS-1000 Description .......................................6 1.1.1: Maximum Number of SBUS Modules ..............................6 1.2: Agency Requirements ......................................8 1.2.1: UL 864 9th and 10th Edition ..................................9 Section 2: Before You Begin Installing ......................... 10 2.1: Inventory..........................................10 2.2: Environmental Specifications ..................................10 2.3: RPS-1000 Board and Terminal Strip Description............................10 2.4: Earth Fault Resistance .....................................12... -
Page 6: Section 1: Overview
Section 1: Overview 1.1 RPS-1000 Description The RPS-1000 Intelligent Power Module provides additional power and circuits to the IFP-2100, IFP-2100ECS, IFP-2000, IFP-2000ECS, IFP-1000, IFP-1000ECS, IFP-300, IFP-300ECS, IFP-100, IFP-100ECS or IFP-75 FACPs. The RPS-1000 can power all compatible mod- ules, including SLC devices (via a 5815XL or 6815 SLC Expander), remote annunciators, notification appliances, auxiliary power modules, and all other compatible modules. - Page 7 RPS-1000 Description Overview The RPS-1000 is optically isolated providing ground loop IFP-2100 isolation and transient protection. The SBUS repeater conditions the RS-485 signal and drives up to 6,000 feet of additional wiring (14 gauge). RPS-1000 #1 and #2 are connected directly to the FACP SBUS. First RPS-1000 RPS-1000 can be daisy-chained to other RPS-1000.
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Page 8: Agency Requirements
Overview Agency Requirements FACP Flexput (for conventional 2 or 4 wire smokes, NACs, aux power, etc.) 5824 RA-2000 6815 First RPS-1000 Flexput (for conventional 2 or 4 wire smokes, NACs, aux power, etc.) First RPS-1000 SBUS RA-100 RA-1000 RA-2000 Second RPS-1000 Third Flexput... -
Page 9: 1: Ul 864 9Th And 10Th Edition
Agency Requirements Overview 1.2.1 UL 864 9th and 10th Edition • Per the UL Continuing Certification Program, UL 864 9th edition fire alarm control equipment will retain certification after the rollout of UL 10th edition (12/2/2018). • Installations of UL 864 10th Edition certified equipment are permitted to use UL864 9th Edition certified equipment when approved by the local Authority Having Jurisdiction (AHJ). -
Page 10: Section 2: Before You Begin Installing
Section 2: Before You Begin Installing 2.1 Inventory The RPS-1000 ships with the following hardware: • A cabinet with all hardware assembled • Two keys for the front door • Ten 4.7K ohm end-of-line resistors NOTE: For UL installations, 4.7kΩ end-of-line resistor (ordered separately) must be used. •... - Page 11 RPS-1000 Board and Terminal Strip Description Before You Begin Installing Rating Terminal # and Label Description Voltage Current AC input (hot) 120 VAC,50/60 Hz 2.7 A 240 VAC, 50/60 Hz 1.4 A Earth ground AC input (neutral) 120 VAC,50/60 Hz 2.7 A 240 VAC, 50/60 Hz 1.4 A...
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Page 12: Earth Fault Resistance
Before You Begin Installing Earth Fault Resistance 2.4 Earth Fault Resistance Table 2.2 lists the earth fault resistance detection, in ohms, for each applicable terminal on the FACP. Low Biased High Biased Terminal Function Terminal Label Number High Trip High Restore Low Trip Low Restore Flexput... -
Page 13: Maximum Battery Standby Load
Calculating Current Draw and Standby Battery Before You Begin Installing Maximum Battery Standby Load Table 2.3 shows the maximum battery standby load for the RPS-1000 based on 24 and 60 hours of standby. The numbers below have a built in 20% derating factor for the battery amp-hour capacity. The standby load calculations of line G in the Current Draw Calculation Worksheet must be less than the number shown in Table 2.3 for the battery size used and standby hours required. - Page 14 Before You Begin Installing Calculating Current Draw and Standby Battery Standby Device # of Devices Current per Device Alarm Current Current IDP-FIRE-CO Standby: 0.30 mA Alarm: 7 mA IDP-FIRE-CO-W/-IV Standby: 0.20 mA Alarm: 4.5 mA IDP-PTIR-W/-IV Standby: 0.20 mA Alarm: 4.5 mA Addressable SLC Modules IDP-MONITOR...
- Page 15 Calculating Current Draw and Standby Battery Before You Begin Installing Standby Device # of Devices Current per Device Alarm Current Current SLC Isolator Devices IDP-ISO (Isolator Module) Standby: 0.45 mA Isolation: 17 mA ISO-6 (6 Fault Isolator Module) Standby: (per circuit) 0.45 mA Isolation: (per circuit) 17 mA...
- Page 16 Before You Begin Installing Calculating Current Draw and Standby Battery Standby Device # of Devices Current per Device Alarm Current Current ECS-LOC2100 Local Operating Standby: 87 mA Console Alarm: 133 mA ECS-LOC2100 Local Operating Standby: 97 mA Console with one ECS-SW24 Alarm: 158 mA Expander...
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Page 17: 3: Current Draw Worksheet For Sk Slc Devices
Calculating Current Draw and Standby Battery Before You Begin Installing If there are door holders in the system, there is no need to consider door holder current for alarm/battery standby, because power is removed during that time. However, during normal operation, door holders draw current and must be included in the 1.8 A total current that can be drawn from the panel. - Page 18 Before You Begin Installing Calculating Current Draw and Standby Battery Standby Device # of Devices Current per Device Alarm Current Current SK-CONTROL Standby 0.375 mA Alarm: 0.375 mA Aux Pwr Standby 1.7 mA Alarm: 6.5mA SK-CONTROL-6 Standby 2.65 mA Alarm: 35 mA Aux Pwr Standby...
- Page 19 Calculating Current Draw and Standby Battery Before You Begin Installing Standby Device # of Devices Current per Device Alarm Current Current RA-1000 Remote LCD Annunciator Standby: 58 mA Alarm: 68 mA RA-100 Remote LCD Annunciator Standby: 59 mA Alarm: 92 mA 5824 Serial/Parallel Module Standby/Alarm: 45 mA...
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Page 20: 4: Current Draw Worksheet For Sd Slc Devices
Before You Begin Installing Calculating Current Draw and Standby Battery Standby Device # of Devices Current per Device Alarm Current Current WIDP-WGI Wireless Gateway Max current using ext supply 40 mA Max current SLC Power 24 mA Total System Current Auxiliary Devices Refer to devices manual for current rating IPDACT-2 IP Communicator... - Page 21 Calculating Current Draw and Standby Battery Before You Begin Installing Standby Alarm Current Device # of Devices Current per Device Current Additional RPS-1000 (7 max.) Standby 10 mA (Daisy-chained to this module) Alarm: 10 mA SD500-AIM SD500-MIM SD500-PS Standby/Alarm: 0.55 mA SD500-ARM SD505-HEAT SD505-PHOTO...
- Page 22 Before You Begin Installing Calculating Current Draw and Standby Battery Standby Alarm Current Device # of Devices Current per Device Current 5883 Relay Interface Standby: 0 mA Alarm: (22 mA/relay) 220 mA ECS-50W Voice Amplifier Standby/Alarm (SBUS): 10 mA with/without ECS-CE4 ECS-125W Voice Amplifier Standby/Alarm (SBUS): 10 mA...
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Page 23: Wiring Specifications
Wiring Specifications Before You Begin Installing Standby Alarm Current Device # of Devices Current per Device Current Alarm/Standby: Auxiliary Devices Current Notification Devices Refer to device manual for current rating 5495/5499 Power Supply Standby: 75 mA Alarm: 205 mA Alarm: Alarm: Alarm: Notification Appliances Current... -
Page 24: Wiring Distance Calculation Example
Before You Begin Installing Wiring Specifications Model Number Worst Case Current Draw ECS-VCM / ECS-VCM with ECS-SW24 0.115 amps per device/0.185 amps for last device ECS-LOC with ECS-SW24 0.210 amps per device /0.325 amps for last device ECS-NVCM Network Voice Control Module 0.059 amps ECS-EMG keypad 0.06 amps... - Page 25 Wiring Specifications Before You Begin Installing The total worst case current is calculated as follows: RA-1000 Current Draw = 2 x 0.100 amps = 0.200 amps RPS-1000 Current Draw = 1 x 0.010 amps = 0.010 amps 5865 Current Draw = 1 x 0.200 amps = 0.200 amps 5824 Current Draw...
- Page 26 Notes RPS-1000 Manual — P/N 151153:R 2/15/2022...
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Page 27: Section 3: Installation
Section 3: Installation RPS-1000 installation involves the following steps. Mount cabinet to wall (Section 3.1). Connect AC power (Section 3.4) and backup battery (Section 3.5). Wire the FACP to the controlling RPS-1000 (Section 3.6). Set an ID for the RPS-1000 (Section 3.6.1). Install and wire SBUS modules that will be powered by this RPS-1000 (Section 3.7). -
Page 28: Wire Routing
Installation Wire Routing 3.3 Wire Routing Follow power-limited wiring techniques. Maintain 0.25” spacing between power-limited and non-power-limited circuits and separate high and low voltage circuits. AC Power Note: Board assembly shown without Formex cover for illustration purposes only. Formex cover must be used in all installations. -
Page 29: Battery Connection
Battery Connection Installation 3.5 Battery Connection The RPS-1000 battery charge capacity is 7 to 33 AH. Use 12V batteries of the same AH rating. Determine the correct AH rating as per the current load calculation (see Table 2.4 and Table 2.5 or Table 2.6). NOTE: If the backup battery requirements indicate the use of batteries that are too large to fit into the RPS-1000 cabinet, use the RBB Remote Battery Box cabinet. -
Page 30: 1: Setting The Device Id
Installation Connecting the RPS-1000 to the FACP FACP SBUS RPS-1000 Board N.0. N.C. N.0. N.C. N.0. N.C. TROUBLE RELAY 1 RELAY 2 SBUS IN SBUS OUT I / 0 1 (RPS-1000-1) N .O . N .C . N .O . N .C . -
Page 31: Connecting Sbus Modules To The Rps-1000
Connecting SBUS Modules to the RPS-1000 Installation 3.7 Connecting SBUS Modules to the RPS-1000 Connect SBUS modules to the RPS-1000 as shown in Figure 3.8 or Figure 3.9. All SBUS modules must have an ID. Use the DIP switches on the module board to assign an ID number (1-31) to the module. This number identifies the module to the RPS-1000 and must be unique. -
Page 32: 1: Releasing Operations
Installation Flexput I/O Circuits 3.8.1 Releasing Operations Approved releasing solenoids are list in the Device Compatibility Document. Do not mix cross alarming zones with smoke verification zones. There must be at least two automatic detection devices in each protected space. Spacing must be reduced to 0.7 times the linear spac- ing in accordance with NFPA 72. -
Page 33: 3: Conventional Initiation Circuits
Flexput I/O Circuits Installation 3.8.3 Conventional Initiation Circuits This Section of the manual explains how to install the conventional initiating devices for Class A or Class B configurations. Class B Inputs Connect conventional Class B switches, such as waterflow switches and pull stations, directly to the I/O circuits of the RPS-1000 panel. To install a Class B switch, wire the switch as shown in Figure 3.12 and configure the circuit through FACP programming. -
Page 34: 4: Installing 2-Wire Smoke Detectors
Installation Flexput I/O Circuits 3.8.4 Installing 2-Wire Smoke Detectors Any compatible UL listed two-wire smoke detector can be used with the RPS-1000 panel. Refer to the Device Compatibility Document for a list of compatible devices. Figure 3.14 and Figure 3.15 illustrate how to connect a UL listed 2-wire detector to the RPS-1000 panel. Class B Installation To install a Class B two-wire smoke detector, wire as shown in Figure 3.14. -
Page 35: 5: Installing 4-Wire Smoke Detectors
Flexput I/O Circuits Installation 3.8.5 Installing 4-Wire Smoke Detectors Any compatible UL listed two-wire smoke detector can be used with the RPS-1000 panel. Refer to the Device Compatibility Document for a list of compatible devices. Figure 3.16 and Figure 3.17 illustrate how to connect a UL listed four-wire detector to the RPS-1000 panel. Installing Class B 4-Wire Smoke Detectors Figure 3.16 illustrates how to install Class B 4-wire smoke detectors. -
Page 36: 6: Auxiliary Power Configuration
Installation Conventional Relay Installation 3.8.6 Auxiliary Power Configuration Flexput circuits 1-6 on the control panel can be used as auxiliary power circuits. The four types of auxiliary power available are as follows: • Door Holder • Constant • Resettable • Sounder Sync Power Auxiliary power must be wired in Class A configuration per UL864 10th Edition. - Page 37 Manufacturer Warranties and Limitation of Liability Manufacturer Warranties. Subject to the limitations set forth herein, Manufacturer warrants that the Products manufactured by it in its Northford, Connecticut facility and sold by it to its authorized Distributors shall be free, under normal use and service, from defects in material and workmanship for a period of thirty six months (36) months from the date of manufacture (effective Jan.
- Page 38 Honeywell Fire Systems 12 Clintonville Road Northford, CT 06472-1610 203-484-7161 151153 | R | 02-22 www.farenhyt.com ©2022 Honeywell International Inc.