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Home My WebLink AboutFPL Solar FA Submittals FIRE ALARM MATERIAL SUBMITTALS FOR: FFPPLL SSoollaarr EEaasstt OOppeerraattiioonnss CCeenntteerr 2950 Aico Road Ft. Pierce, Florida 34945 Date: May 8, 2020 Our Project Number: FP-265420 Project Manager: Danny Brasher Prepared By: John Ramsey The materials submitted represent the quality of materials specified. All materials may be substituted at this contractor’s discretion for like equivalent materials. Sciens Building Solutions 2251 Rosselle Street / 2500 N.E. 18th Terrace Jacksonville, Florida 32204 / Gainesville, Florida 32609 (904) 387-7973 / (352) 380-0317 TABLE OF CONTENTS 1. FIRE ALARM CONTROL PANELS 2. INITIATING DEVICES 3. NOTIFICATION DEVICES 4. INTERFACE MODULES ARCHITECT AND ENGINEER SPECIFICATIONS Data Sheet 50-Point Addressable Fire Alarm Control Panel Model FC901 Answers for infrastructure Cerberus® PRO Fire Safety Products Cerberus PRO 9813 Feature-rich solution for 50-pt. addressable FACPs Product Overview Model FC901 is an intelligent FACP that provides a cost-effective, feature-rich solution for small fire-alarm system applications. Small and compact in design, Model FC901 is ideal for small fire-protection applications using less than 50 addressable devices:  Retail outlets / strip malls doctors’ offices  Dry-cleaner shops restaurants, etc. With its built-in DACT and two (2) NACs, Model FC901 is powerful enough to economically meet the needs of these applications. Each 50-point FACP is FM (#3010); FDNY (#6104) and CSFM (#7165- 0067:0259) Approved. Specifications The Model FC901 FACP consists of a main board (Model FCM901-U3); a 170-Watt power supply (Model FP2011-U1), and a Model FH901-U3 / R3 system enclosure. The programming software for Model FC901 is held in flash electrically erasable programmable read-only memory (EEPROM). Main Board The Model FCM901-U3 main board provides system display and control, as well as connections for system field wiring, via removable terminal blocks. The 3.5-inch (8.9 centimeters) by 1.5” (3.8 centimeters) liquid-crystal display (LCD) screen shows all system messages and event status. Each screen supports 182 characters: seven (7) lines with 26 characters per line. Each event may have a custom message up to 40 characters that describes the event’s location. The backlit LCD screen illuminates on any system event or manual key press. New, ‘unacknowledged’ events are indicated by a flashing exclamation point ('!'). Once ‘acknowledged,’ the exclamation point changes to a check mark (‘√ ’). A system-status line shows the quantity of events presently active. Since each main board contains a built-in RS─485 communication bus, Model FCM901-U3 readily supports system-status light-emitting diodes (LEDs) for Power, Alarm, Trouble, Supervisory and Ground Fault system commands. • Fire alarm control panel (FACP) for up to 50 addressable points that is comprised of the following three (3) system components:  Main board (Model FCM901-U3)  6.5 Amps (170-Watt power supply (Model FP2011-U1)  System enclosure (Model FH901-U3 / R3) • System features:  Supports 50 addressable devices on one (1) `Class A’, or two (2) `Class B’ circuits  Includes one (1) `Class A’, or two (2) `Class B’ notification appliance circuits (NACs)  Built-in digital alarm communication transmitter (DACT)  Supports Carbon Monoxide (CO) detection  Downloads, prints system-event history & detector sensitivity  Supervised remote printer (Model FCA2018-U1)  Optional connectivity to a leased-line / city-tie module (Model FCI2020-U1)  Built-in RS─485 connection for remote annunciators  Resettable and non-resettable 24VDC auxiliary power  Off-normal warning message prior to reset  Fast and easy set-up with custom-configuration tool  Supports a 182-character display • Alphanumeric keypad  for manual configuration • UL 864 9th Edition Listed; FM, CSFM & NYC Fire Department Approved s Industry, Inc. Building Technologies Division Cerberus PRO Specifications Main Board ─ (continued) There are also LEDs to indicate when audible circuits are ‘active’ or ‘silenced.’ The main board supports four (4) system-control buttons, including: Acknowledge; Alarm Silence; Unsilence, and Reset. The system offers an off-normal warning feature, alerting users when active devices are not ready for reset. These active devices may include manual stations that have not been reset; smoke detectors with smoke remaining in the optical chamber, etc. Additionally, the main board supports an alphanumeric keypad, as well as navigation keys, which are used for scrolling maintenance functions and system configuration. The main board supports connection for up to 50 addressable devices, via one (1) ‘Class A’, or two (2) ‘Class B’ circuits. The loop supports all C-NET devices, including the Cerberus PRO intelligent and Model ‘H’- series devices. The main board also supports one (1) ‘Class A’ or two (2) ‘Class B’ NACs. Each NAC supports a maximum 2.5 Amps ─ with 2.5 Amps, max, allowed between the NACs. Each NAC can be set to a synchronized strobe, for horn-strobe devices, or for audible devices. Audible devices can be set for:  ‘STEADY’  ‘ANSI Temporal 3’ / ‘ANSI Temporal 4’  ‘March Time 30 / 60 / 120 Codes’ The main board supports four (4) ‘Form C’ relays for Alarm, Trouble , Supervisory and User Programmable events. Each relay is rated at 2 Amps at 30VDC maximum, resistive. The main board supports two (2) auxiliary 24VDC connections. Upon system reset, one (1) connection interrupts the power for five seconds for use with (4) four-wire conventional detectors. Each auxiliary-power output is 24VDC, nominal ─ rated at 0.75 Amps. The main board contains a built-in DACT that provides communication between Model FC901 and with the central or remote monitoring station. The built-in DACT supports two (2) separate programmable accounts, as well as two (2) connections to the public-switched telephone network. The connections support RJ31X male connectors. (For compatibility with each Model FC901 FACP, see the Central Station Receiver Compatibility Table on the last page of this data-sheet document.) The main board contains a battery-charging circuit, providing connection to lead-acid batteries rated at 24VDC, nominal. The main board can charge up to 18 AH batteries. The main board contains a universal serial bus (USB) connector that supports connection for system configuration and module firmware upload, via the custom-configuration tool. Model FC901 can be configured using the custom- configuration tool or manually from the alphanumeric keypad on the main board. An auto-configuration feature creates a basic system configuration of all connected devices to accelerate initial system commissioning. 50-Point Addressable System Enclosure The Model FH901-U3 / R3 enclosure for the 50-point addressable fire system, Model FC 901, supports all system modules. The enclosure also supports up to 12AH batteries. Note: For systems requiring larger than 12AH batteries, use a UL Listed battery box. The Model FH901-U3 / R3 enclosure for the 50-point panel is comprised of a dual-mounting setup that allows the main board to be partially mounted in a lower-to-upper position. When temporarily installed in the lower position, technicians are allowed more space to install field wiring at the time of system set- up. When field-wiring installation is complete, the main board shall be moved to the upper position for standard mounting prior to applying power to the system. Additionally, the enclosure supports an optional battery bracket (Model FHA901-U1) that can be used to secure batteries up to 12AH. Model FHA901-U1 is required to comply with seismic certification, pursuant to ASC / SEI 7-05, Section 13.2.2. A flush-mount trim kit (Model FHA902-U1 / R1) is also available for use when flush mounting Model FH901-U3 / R3. 50-Point Power Supply The Model FCM901-U3 main board also supports connection to the system power supply. The 6.5A (170-Watt) power supply (Model FP2011-U1) incorporates a 4.0A, non-resettable slow -blow fuse on the primary input, and includes a built-in AC-line filter fo r surge and noise suppression. Model FP2011-U1 mounts in a standard Siemens – Fire Safety enclosure, and there are no serviceable Siemens – Fire Safety parts to be maintained. s Industry, Inc. Building Technologies Division Cerberus PRO Specifications ─ (continued) ─ Optional Accessories ─ Leased-Line / City-Tie Module The Model FC901 FACP has the capability of operating an optional leased-line, city-tie module (Model FCI2020-U1) that provides a local-energy output for municipal call-box connection. A wiring harness, Model FCA901-U1, is required for use, and must be ordered separately. The leased-line, city -tie module is installed on the back of the main board of the Model FC901 FACP, and field wiring is connected to the main board. 50-Point Remote Annunciator The fire-system displays (FSD901-U3 / R3) are remote LED / LCD units that show the existing status of the Model FC901 FACP. The Model FSD901-U3 / R3 optional display supports the following LEDs for system-status conditions:  Power  Alarm  Trouble  Supervisory  Ground-Fault There are also LEDs to indicate when audible circuits are ‘active’ or ‘silenced.’ The main board supports four (4) system-control buttons, including: Acknowledge; Alarm Silence; Unsilence, and Reset. For Model FSD901-U3 / R3, a LED will illuminate for any given Alarm, Supervisory and Trouble Cerberus PRO - system event. A 3.5-inch (8.9 centimeters) by 1.5” (3.8 centimeters) LCD screen will give details of the event in alphanumeric form. The display screen can be scrolled to reveal additional events. Optional remote- system-control capabilities are also available. The Remote Peripheral Module (FCA2018-U1) provides a means of connecting a Cerberus PRO 50-point addressable panel to a parallel printer for creating a hard copy of system-status events. This supervised, intelligent module contains built-in transient protection and plain-decimal addressing. When Model PAL-1 is used with the remote peripheral module, Model FCA2018-U1 supervises the printer for ON, OFF Line | POWER ON | PAPER OUT | PAPER JAM, and wiring-fault conditions, as required by UL for NFPA 72 proprietary systems. The following are the dimensions based upon connection to a one-height-unit enclosure (1HU) for Model FC901: Approximate size: 16.5” (41.9 cm.) [H]; 18.13” (46.1 cm.) [W]; 5.11” (13 cm.) [D] The weight (without operating unit or batteries) is approximately 9 pounds [4082 g]. LED Annunciator Driver: 32 Outputs | 16 Inputs Model FT2007-U1 serves as the main component for allowing custom graphic annunciators to operate on Model FC901 FACPs. There are 16 inputs on each Model FT2007-U1 to accommodate user-defined system commands, which include: Reset; Silence/Unsilence; Acknowledge, and Lamp Test . Inputs can also be programmed as ``Generic’’, which allows additional flexibility for customized functionality. Shipments of each Model FT2007-U1 driver include two (2) PC boards [PCBs]; one (1) built-in RS−485 interface, and one (1) LED driver. Additionally, one (1) ribbon cable is packaged, allowing connectivity between the two (2) PCBs. Tabular Annunciator Drivers: 16 Zones | 32 Zones The Tabular Annunciators allow system events sent from Cerberus PRO 50-point addressable panels to be displayed remotely in real-time. The Model FT2008 series of tabular annunciators has 16 zones and the Model FT2009 series uses up to 32 zones. Additionally, no more than two (2) light-emitting diodes (LEDs) can be used per zone. A built-in RS−485 communication bus controls the operation and supervision of the 16-zone and 32- zone Tabular Annunciators, which are available in black or red. Temperature and Humidity Range Model FC901 is UL 864 9th Edition Listed for indoor dry locations within a temperature range of 120 +/- 3°F (49 +/- 2°C) to 32 +/- 3°F (0 +/- 2°C) and a relative humidity of 93 +/- 2% at a temperature of 90 +/- 3°F (32 +/- 2°C). Related Documentation Product Data Sheet Number 170-Watt power supply 9806 Leased-Line / City-Tie Module 9810 Remote Peripheral Module 9811 50-Point Remote Annunciator 9817 LED Annunciator Driver, FT2007-U1 9824 16-Zone (FT2008-U1) / 32-Zone (FT2009-U1) Tabular Annunciators 9825 s Cerberus® PRO NOTICE ─ The information contained in this data-sheet document is intended only as a summary, and is subject to change without notice. The devices described here have specific instruction sheets that cover various technical, limitation and liability information. Copies of these instruction sheets and the General Product Warning and Limitations document, which also contains important information, are provided with the product and are available from the Manufacturer. Information contained in these documents should be consulted before specifying or using the product. For further information or assistance concerning particular problems contact the Manufacturer. Siemens Industry, Inc. ─ Building Technologies Div. 8 Fernwood Road • Florham Park, NJ 07932 Tel: (973) 593-2600 • Fax: (908) 547-6877 Web: www.USA.Siemens.com/Cerberus-PRO Building Technologies Division SII ─ Fire Safety [Printed in U.S.A ] June 2016 ─ Supersedes sheet dated 8/2015 (Rev. 13) Central Station Receiver Compatibility Table The following table shows a list of central station receivers that are compatible with the Cerberus PRO 50-point addressable system, Model FC901 — Protocol MX-8000 Sur-Gard System III Sur-Gard System IV Telguard TG7GFS04 Silent Knight 9800 Bosch D6600 Bosch D6100 SIA 8        SIA 20        Ademco Contact ID       4/2    3/1    Note: Multiple central station receivers are compatible with the Cerberus PRO 50-point FACP, Model FC901. Although the table above illustrates central station receivers that have been verified by Siemens with the Model FC901 FACP, additional receivers and formats can also be used with each 50-point addressable system. After completing the installation, communication between the Digital Alarm Communication Transmitter (Model DACT) and Central Station Receiver must be tested and verified. Details for Ordering M odel Part Number Description FCM901-U3 S54433-B101-A1 Cerberus PRO Main Board {for the 50-point FACP} FH901-U3 S54433-B103-A3 System Enclosure, Black {for the 50-point FACP} FH901-R3 S54433-B103-A4 System Enclosure, Red {for the 50-point FACP} FP2011-U1 500-450222 170-Watt Power Supply Details for Ordering — (continued) — Optional Accessories — Model Part Number Description FCA2018-U1 S54400-A65-A1 Remote Peripheral Module FCI2020-U1 S54400-A57-A1 Leased-Line / City-Tie Module FCA901-U1 S54433-C106-A1 Wiring Harness (for use with Cerberus PRO Model FC901 control panels) FHA901-U1 S54433-B107-A1 Battery Bracket FHA902-U1 S54433-B106-A1 Flush-Mount Trim Kit, Black FHA902-R1 S54433-B106-A2 Flush-Mount Trim Kit, Red FSD901-U3 S54433-C102-A1 System Display, Black {specifically for the 50-point FACP} FSD901-R3 S54433-C102-A2 System Display, Red {specifically for the 50-point FACP} FT2007-U1 S54400-A142-A1 LED Annunciator Driver {32 Outputs | 16 Inputs } FT2008-U1 S54400-A143-A1 16-Zone Tabular Annunciator, Black FT2008-R1 S54400-A144-A1 16-Zone Tabular Annunciator, Red FT2009-U1 S54400-A145-A1 32-Zone Tabular Annunciator, Black FT2009-R1 S54400-A146-A1 32-Zone Tabular Annunciator, Red — Electronics Package — Model Part Number D escription FC901-U3 S54433-C105-A1 Cerberus PRO Kit for the 50 -Point Addressable FACP Includes:  170W power supply, Model FP2011-U1 (Qty. 1)  System main board, Model FCM901-U3 (Qty. 1) FirePrintTM Multi-Criteria Detector 6301 Industry, Inc. Building Technologies Division Data Sheet Fire Safety Products Intelligent Detection Devices Intelligent FirePrintTM Multi-Criteria Detector [For use with FireFinder® XLS and FS-250 Panels] Model HFP-11 Product Overview Model HFP-11 utilizes advanced detection technology that allows each detector to distinguish non- threatening deceptive phenomena such as cigarette smoke, from actual fire hazards, while optimizing detection for the area it is intended to detect. Model HFP-11 uses state-of-the-art microprocessor circuitry with error check, detector self-diagnostics and supervision programs. Model HFP-11 is compatible with the Siemens Fire Safety field device program / test unit (Model DPU), which is a compact, portable, menu-driven accessory for electronically programming and testing detectors, easily and reliably. Model DPU eliminates the need for cumbersome, unreliable mechanical programming methods such as dials or switches, and reduces installation and service costs by electronically programming and testing the detector prior to installation. Model HFP-11 is compatible with FS-250 and Fire Finder XLS FACPs. Specifications Model HFP-11 is a plug-in, two-wire and multi-sensor detector (with both photoelectric and thermal inputs) that is compatible with FireFinder XLS and FS-250 series of FACPs. Each detector consists of a dust-resistant, field-cleanable and photoelectric chamber; a solid state, non-mechanical thermal sensor, and microprocessor-based electronics with a low-profile plastic housing. Model HFP-11 utilizes state-of-the-art ASIC circuitry and surface-mount technology for maximum reliability. Every Model HFP-11 fire detector is shipped with a protective dust cover. Model HFP-11 utilizes an infrared light emitting diode (IRLED), and light-sensing photodiode. Under normal conditions, light transmitted by the LED is directed away from the photodiode and scattered through the smoke chamber in a controlled pattern. Model HFP-11 is Underwriters’ Laboratory and Underwriters’ Laboratory of Canada Listed. Most sophisticated ‘detector intelligence’ available Easily programmed to match specific hazard profiles from the fire alarm control panel (FACP) FirePrint™technology to differentiate between deceptive phenomena and an actual fire Supports software-based automatic environmental compensation System logic activation based on any of three (3) inputs from the detector (smoke, heat or neural network) Remote sensitivity-measurement capability Pre-alarm reporting based on fire-profile selection Polarity insensitive utilizing SureWireTM technology Multi-color detector status light-emitting diode (LED) Compatible with Model DPU (device programmer / tester unit) Field-cleanable chamber with replaceable chamber parts available Multi-criteria fire detection for the price of a photoelectric detector Optional fully programmable relay base, audible base and duct housing Detectors are self-testing: complete diagnostics every four seconds Two-wire operation ARCHITECT AND ENGINEER SPECIFICATIONS UL and ULC Listed; FM, CSFM & NYC Fire Department Approved Industry, Inc. Building Technologies Division Specifications (continued) The smoke chamber is designed to manage light dissipation and extraneous reflections from dust particles or other non-smoke, airborne contaminants in such a way as to maintain stable, consistent detector operation. When smoke enters the detector chamber, light emitted from the IRLED is scattered by the smoke particles, and is received by the photodiode. Model HFP-11 also utilizes a modern, accurate and shock-resistant thermistor to sense temperature changes. The ‘on-board’ FirePrintTM technology allows the detector to first gather smoke and thermal data, and then analyze this information in the detector’s ‘neural network.’ By comparing data received with the common characteristics of fires or fire fingerprints, Model HFP-11 can compare these ‘fire prints’ to those of deceptive phenomena that cause other detectors to false alarm. FirePrint The advanced FirePrint technology allows Model HFP-11 to accurately determine a true fire hazard from unthreatening, deceptive phenomena. Further, the advanced FirePrint technology will not require a need to use alarm-delaying verification and confirmation techniques, which can increase the probability of losses due to fire. Model HFP-11 provides the highest level of detector intelligence available today with a detector / control panel link that allows the user to program the detector for the specific hazard profile, using a simple software menu selection. Model HFP-11’s FirePrint application monitors input from both the photo chamber and the thermal sensor, evaluating this information with sophisticated mathematical formulas or algorithms, comparing this input to characteristics of both threatening fires and deceptive phenomena that would mislead any ordinary detector. Detectors are optimized by selecting one (1) of the following 11 applications: Office / Retail Lobby Computer room Dormitory Healthcare Parking garage Utility / Transformer room Hostile environment Precious storage Air Duct Warehouse / Light Manufacturing The control panel programs Model HFP-11 detector for the protected area without hassle and without confirmation delays. Once optimized for the hazards in the protected area, Model HFP-11 provides the best detection. Should the operator or installer forget to program the detector, Model HFP-11 will revert to a default setting, allowing operation as an office-environment detector. The FirePrint technology was developed over years of research and reviewing the results of over 20 years of fire test data in one of the world’s most advanced fire-research centers. The results of this research are the mathematical models that form the algorithms used in FirePrint. No other fire detector has this level of intelligence or this amount of research and development supporting its design. The microprocessor’s software can identify and disregard false input caused by radio frequency (RFI) and electromagnetic (EMI) interference, while validating all Trouble conditions before annunciating or reporting to the FACP. Model HFP-11 The Model HFP-11 detector’s microprocessor uses an essential electronically erasable programmable read-only memory (EEPROM) to store the detector’s address and other critical operating parameters, including the assigned program values for Alarm and Trouble thresholds. Communication within the detector, as well as between Model HFP-11 and the control panel, or with Model DPU (field device programmer / test unit), are supervised and safe-guarded against disruption by reliable, microprocessor-based error checking routines. Additionally, the micro-processor supervises all EEPROM memory locations, and provides a high degree of EEPROM- failure fault tolerance. Model HFP-11 determines its operating status to be Normal in Alarm or in Trouble modes, depending on the difference between the alarm threshold values stored in the detector’s memory and the detector’s latest analog measurement. The detector then communicates changes in its status to the control panel. In addition, the FireFinder XLS control panel will sample the value of the analog signal for Model HFP-11 over a period of time, in order to determine if those values indicate excessive buildup in the photo chamber. If such is the case, the FireFinder XLS control panel will indicate the particular detector requires maintenance. Model HFP-11 is listed as a self-testing device. The visible light emitting diode (LED) for Model HFP-11 flashes green every four (4) seconds to indicate it is communicating with the control panel, as well as to indicate it has passed its internal self-test. Should the detector sense a fault or failure within its systems, the LED will flash amber, and the detector will transmit that data to the control panel. A quick visual inspection is enough to indicate the condition of the detector at any time. If more detailed information is required, a printed report can be provided from the FireFinder XLS FACP, indicating the status and settings assigned to each individual detector. When Model HFP-11 moves to the Alarm mode, it will flash red, and will continue flashing until the system is reset at the FACP. Simultaneously, any user-defined, system-alarm functions programmed into the system are activated. Industry, Inc. Building Technologies Division Specifications (continued) Detector sensitivity, calibration and identification are dynamically supervised at the respective FACP. Detector sensitivity and pre-alarm levels are a function of the application chosen at the control panel, and are controlled by the panel. If an alternate, non-FirePrint mode is selected, then the sensitivity can be changed from the control panel. All Model HFP-11 detectors use a surface mounting base, Model DB-11, which mounts on a 4-inch octagonal, square or single gang electrical box. The base utilizes screw-clamp contacts for electrical connections and self-wiping contacts for increased reliability. Model DB-11 can be used with the optional Model LK-11 detector locking kit, which contains 50 detector locks and an installation tool to prevent unauthorized removal of the detector head. Model DB-11 has integral decorative plugs to cover the outer mounting screw holes. Model HFP-11 may be installed on the same initiating circuit with Model HMS-series manual stations; Model HTRI-series interfaces; Model HCP output-control devices, or Model HZM series of addressable, conventional zone modules. All Model HFP-11 detectors can be cleaned in the field when required via easily removing the detector cover and unsnapping the photo chamber. There is also the option of cleaning the interior of the detector with a clean, soft cloth or brush or by replacing the labyrinth and bug screen included in the detector maintenance kit, Model DMK-11. All Model HFP-11 detectors are approved for operation within the UL-specified temperature range of 32 to 100°F (0 to 38°C). Model DPU The Device Program / Test Unit accessory is used to program and verify the address of the detector. The technician selects the accessory’s program mode, and enters the desired address. Model DPU automatically sets and verifies the address and tests the detector. Model DPU operates on AC power or rechargeable batteries, providing flexibility and convenience in programming and testing equipment from practically any location. When in ‘test’ mode, Model DPU will perform a series of diagnostic tests without altering the address or other stored data, allowing technicians to determine if the detector is operating properly. Application Data Installation of the Model HFP-11 series of fire detectors requires a two-wire circuit. In many retrofit cases, existing wiring may be used. ’T-tapping’ is permitted only for Style 4 (Class B) wiring. Model HFP-11 is polarity insensitive, which can greatly reduce installation and debugging time. Model HFP-11 fire detectors can be applied within the maximum 30 foot center spacing (900 sq. ft. areas,) as referenced in NFPA 72. This application guideline is based on ideal conditions, specifically, smooth ceiling surfaces, minimal air movement, and no physical obstructions between potential fire sources and the actual detector. Do not mount detectors in close proximity to ventilation or heating and air conditioning outlets. Exposed joints or beamed ceilings may also affect safe spacing limitations for detectors. Should questions arise regarding detector placement, observe NFPA 72 guidelines. Good fire-protection system engineering and common sense dictate how and when fire detectors are installed and used. Contact your local Siemens Fire Safety distributor or sales office whenever you need assistance applying FirePrint in unusual applications. Be sure to follow NFPA guidelines and UL Listed / ULC Listed installation instructions included with every Siemens Fire Safety detector and local codes as for all fire protection equipment. Technical Data Operating Temperatures: +32°F (0°C) to 100°F (38°C), per UL 268 / 268A Relative Humidity: 0-93% Non-condensing Maximum Spacing: 30-foot Centers (900 Square Feet), per NFPA 72 Chapter 5 and ULC-S524 Current Draw: 1mA in Alarm or Supervisory mode Industry, Inc. Building Technologies Division Fire Safety 8 Fernwood Road Florham Park, NJ 07932 Tel: (973) 593-2600 FAX: (908) 547-6877 URL: www.usa.Siemens.com/Fire [SII-FS] Printed in U.S.A. Fire Safety 2 Kenview Boulevard Brampton, Ontario L6T 5E4 / Canada Tel: (905) 799-9937 FAX: (905) 799-9858 June 2015 Supersedes sheet dated 9/13 (Rev. 5) Mounting Diagram Details for Ordering Model Part Number Description HFP-11 500-033290 FirePrint Multi-Criteria Fire Detector DB-11 500-094151 Detector Mounting Base for Series 11 DB-11E 500-094151E Detector Base {small} AD2-P 500-649706 Air-Duct Housing AD2-XHR 500-649708 Air-Duct Housing {with relay} DB-HR 500-033220 Relay Base for H-Series Intelligent Detectors ADBH-11 500-033210 Audible Base RL-HC 500-033230 Remote Alarm Indicator: 4” octagon-box mount, red RL-HW 500-033310 Remote Alarm Indicator: Single-gang box mount, red LK-11 500-695350 Base Locking Kit for Series 11 Detectors DMK-11 500-695338 Series 11 Maintenance Kit {replacement labyrinth and bug screen} In Canada, order Model Part Number Description DB-11C 500-095687 Detector Mounting Base for Series 11 Detectors (ULC) Notice: This marketing data sheet is not intended to be used for system design or installation purposes. For the most up-to-date information, refer to each product’s installation instructions. Intelligent Thermal Detector 6302 s Industry, Inc. Building Technologies Division s Data Sheet Fire Safety Products Intelligent Detection Devices Intelligent Thermal Detector Model HFPT-11 ARCHITECT AND ENGINEER SPECIFICATIONS Product Overview The Intelligent Thermal Detector (Model HFPT-11) from Siemens ─ Fire Safety combines sophisticated control-panel communication with an advanced method of detection, address programming and supervision. Model HFPT-11 uses a state-of-the-art thermistor that provides up to 135°F (57.2°C) rate-compensated temperature. Each Model HFPT-11 detector has microcomputer-chip technology and highly stable, solid-state electronic circuitry. Field-Device Programmer A Device Program / Test Unit (Model DPU) is used to program and verify the detector's address. The user selects the program mode to enter the desired address. The DPU Programmer / Test Unit then automatically sets / verifies the address, as well as tests the detector. The Intelligent Thermal Detector is compatible with the Device Program / Test Unit (Model DPU). Model DPU is a compact, portable and menu-driven accessory that makes programming and testing detectors faster, easier and more reliable than other methods. Model DPU eliminates the need for cumbersome, unreliable mechanical-programming methods, and reduces installation and service costs, via electronically programming addresses and functionally testing the performance of Model FPT-11 prior to detector installation. Model HFPT-11 is Underwriters’ Laboratory and Underwriters’ Laboratory of Canada listed. Specifications Model HFPT-11 is a plug-in, (2) two-wire thermal detector, compatible with the following Siemens fire-alarm control panels (FACPs) – ▪ SIEMENS Modular panels ▪ Up to 50-points’ addressable panel: − Model FC2005 (FIRE) | FV2005 (VOICE) − Model FC901 (FIRE) | FV901 (VOICE) ▪ Up to 252-points’ addressable panel: − Model FC2025 (FIRE) | FV2025 (VOICE) − Model FC922 (FIRE) | FV922 (VOICE) ▪ Up to 504-points’ addressable panel: − Model FC2050 (FIRE) | FV2050 (VOICE) − Model FC924 (FIRE) | FV924 (VOICE) ▪ FireFinder® XLS | XLSV • Polarity insensitive utilizing SureWireTM technology • Multi-color light-emitting diode (LED) that illuminates to communicate detector status • Innovative technology provides high-speed, fault-tolerant system / detector communications • Compatible with device programmer / tester unit − Model DPU • Detectors are self-testing − Complete diagnostics every four seconds • Microprocessor-based design • Rate compensated • Two-wire operation • UL and ULC Listed; FM, CSFM & NYCFD Dept. Approved s Industry, Inc. Building Technologies Division Fire Safety 8 Fernwood Road Florham Park, NJ 07932 Tel: (973) 593-2600 FAX: (908) 547 -6877 URL: www.usa.Siemens.com/F ire (SII-FS) Printed in U.S.A. Fire Safety 1577 North Service Road East Oakville, Ontario L6H 0H6 / Canada Tel: [905] 465-8000 URL: www.Siemens.CA September 2018 Supersedes sheet dated 9/2016 (Rev. 5) Specifications ─ (continued) Model HFPT-11 detectors utilize a modern, accurate and shock-resistant thermistor to sense temperature changes. This electronic-sensing method virtually eliminates thermal lag associated with mechanical temperature-sensing devices, and provides almost instantaneous temperature information to the FACP. Model HFPT-11, in its default mode, provides up to 135°F (57.2°C) rate-compensated temperature. Model HFPT-11 can be programmed from the FACP as a fixed- temperature detector without rate-of-rise, at the user’s option. Additionally, Model HFPT-11 detector's microprocessor uses an integral Electrically Erasable Programmable Read-Only Memory (EEPROM) to store the detector's address. Communications within the detector, along with transmission between Model HFPT-11, the networked FACP, or with Model DPU, are supervised and safeguarded against disruption by reliable, microprocessor-based error checking routines. Additionally, the microprocessor supervises all EEPROM memory locations, and provides a high degree of EEPROM failure-fault tolerance. M odel HFPT-11 is listed as a self-testing device. Model HFPT-11's visible light emitting diode (LED) flashes GREEN every four seconds to indicate it is communicating with the FA CP, as well as to show it has passed its internal self-test. Should the detector sense a fault or failure within its communications, the LED will flash AMBER, and the detector will transmit that information to the FACP. A quick visual inspection is sufficient to indicate the condition of the detector at any time. If more detailed information is required, a printed report can be provided from the Siemens Modular or a FireFinder XLS panel indicating the status and settings assigned to each individual detector. When Model HFPT-11 moves to the Alarm mode, it will flash RED and continue flashing until the FACP is reset. At that same time, any user-defined system alarm functions programmed into the system are activated. Model HFPT-11 detector is compatible on the same Siemens Modular or on a FireFinder XLS initiating circuit with other Model H-series detectors; Model HMS manual stations; Model HTRI-series addressable interfaces, or Model HZM- series addressable, conventional zone modules. Model HFPT-11 detectors use a surface-mounting base, (Model DB-11), which mounts on a 4-inch (10.2 cm.) octagonal, square or single gang electrical box. Relay base Model DB2-HR mounts to a 4-inch (10.2 cm.) square-deep electrical box. Audible base Model ABHW-series also mounts to a 4- inch (10.2 cm.) square-deep electrical box. Model DB- 11 as well as Models DB2-HR and ABHW-series detectors use screw-clamp terminals for all electrical connections and self-wiping contacts for reliability. The bases also contain a provision for an optional, concealed locking mechanism to prevent unauthorized removal of the detector head, Model LK-11. Application Data The Siemens 50, 252 and 504-point addressable panels – as well as Siemens Modular and the FireFinder XLS/V FACPs – use loop circuits. Each circuit is capable of supporting up to 252 Model HFPT-11 Intelligent Detectors. Locate Model HFPT-11 on the ceiling (at least 4 inches from the side walls). For an ideal, smooth ceiling condition, place the detectors at a maximum center spacing of 50 feet (2,500 square feet), 25 feet from side walls or room partitions. For FM-approved installations, Model HFPT-11 has an RTI rating of ‘FAST.’ Use a maximum center spacing of 25 feet (625 square feet), 12.5 feet from side walls or room partitions. Technical Data Operating Temperatures: 32°F (0°C) to 100°F (38°C), per UL 269 / 268A Thermal Rating: ▪ Fixed-temperature set point: 135°F (57°C) ▪ Rate-of-Rise Detection: 15°F / min. (8.3°C / min) Relative Humidity: 0-93%, non-condensing Maximum Spacing: 50-feet Centers (2500 Square Feet) FM-Approved Spacing: 25-feet Centers (625 Square Feet) Current Draw: 0.8mA in Alarm or Supervisory mode Details for Ordering Model Part Number Description HFPT-11 500-033380 Intelligent | Addressable Thermal Fire Detector DB-11 500-094151 Series 11 Detector Mounting Base DB2-HR S 5437 0 -F 12 -A 1 `H’ Series Addressable Detector Relay Base ABHW-4B S 54320 -F 13 -A 1 Loop-Power Audible (Sounder) Base ABHW-4S S 54320 -F 14 -A 1 Audible (Sounder) Base for Sleeping Areas RL-HC 500-033230 Octagon Remote Alarm-Ind. Mount Box, ceiling RL-HW 500-033310 Single-Gang Remote Alarm-Ind. Mount Box, wall LK-11 500-695350 Base Locking Kit for Model ‘11’-Series Detectors In Canada, order: Model Part Number Description DB-11C 500-095687 Detector Mounting Base for Series 11 Detectors (ULC Listed) Mounting Diagram Notice: This marketing data sheet is not intended to be used for system design or installation purposes. For the most up-to-date information, refer to each product’s installation instructions. Air Duct Monitoring Housings Installation Instructions Models AD2-P, AD2-PR and AD2-XHR INTRODUCTION Models AD2-P, AD2-PR and AD2-XHR (AD2 Series) from Siemens Industry, Inc., are air duct monitoring housings containing sampling tubes. When used with a compatible smoke detector, smoke and combustion products are detected for shutdown of the duct system and/or operation of supplementary equipment as provided by the system control panel. See the following chart for usage. ledoMsrotceteDelbitapmoCyaleR P-2DA ,11-OPFH,11-PFH,C11-/11-PF,C11-/11-EP *11-OPFS,*11-PFS oN RP-2DA C11-/11-EP seY RHX-2DA 11-OPFH,11-PFH,C11-/11-PF ,,*11-PFS *11-OPFS seY .ylnoadanaCniesurofdevorppaera11-OPFSdna11-PFSehT* FFFFFororororor compat compat compat compat compatible control equipment,ible control equipment,ible control equipment,ible control equipment,ible control equipment, see c see c see c see c see charharharharharts on the pagets on the pagets on the pagets on the pagets on the page 111114 of this manual.4 of this manual.4 of this manual.4 of this manual.4 of this manual. TECHNICAL DATA AIR DUCT CONDITIONS Temperature Range: 32OF (0OC) - 100OF (38OC) per UL 268/268A Altitude Range: AD2-P, AD2-PR and AD2-XHR — No altitude limitations Relative Humidity Range: 10-85% (non-condensing/non-freezing) Air Duct Velocity Range: 100-4000 ft/min – AD2-P, AD2-PR and AD2-XHR Sampling Tube Pressure Range of Differences: Greater than 0.01 and less than 1.2 inches of water column These air duct detectors are designed for detection and control of products of combustion in a duct system. TheyTheyTheyTheyThey are not to be used forare not to be used forare not to be used forare not to be used forare not to be used for open area prot open area prot open area prot open area prot open area protectectectectection.ion.ion.ion.ion. DO NOT USE air duct detectors with Alarm Verification. Siemens Siemens Siemens Siemens Siemens IndustryIndustryIndustryIndustryIndustry,,,,, Inc. Inc. Inc. Inc. Inc. Building Building Building Building Building TTTTTececececechnologies Dihnologies Dihnologies Dihnologies Dihnologies Di visionvisionvisionvisionvisionP/N 315-049708-6 P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 2 ASSEMBLY This detector has a cover tamper (removal) switch. Care should be taken when installing the cover. Squarely place the cover on the unit to aviod possible damage to the switch. DO NOT SLIDE COVER INTO POSITION. APPLICATION The AD2 Series duct smoke detectors provide early detec- tion of smoke and products of combustion present in air moving through an HVAC duct supply, return, or both. These devices are designed to prevent the recirculation of smoke in areas by the air handling system’s fans and blowers. Com- plete systems may be shut down in the event of smoke detection. For the correct installation of a duct smoke unit please refer to NFPA 72 (National Fire Alarm Code), NFPA 90A (Standard for Installation of Air Conditioning and Ventilation Systems) and NFPA 92A (Recommended Practice for Smoke Control Systems). OPERATION When the Models AD2-P, AD2-PR and AD2-XHR are operat- ing, a sample of air is drawn from the duct and passed through the sampling chamber by means of the input sampling tube. The air sample passes through the smoke detector mounted in the duct housing and is exhausted back into the duct through the outlet tube. This detector is equipped with cover removal switch (SW1) that instantly provides a trouble condition upon removal of the clear cover. For all testing and inspection with the cover removed, the cover removal switch (designated as SW1 on PCB) must be manually depressed to simulate normal operation. LED Indicator The AD2-P, AD2-PR and AD2-XHR cont ain an LED indicator (located on the smoke detector) capable of flashing either one of three distinct colors: green, yellow, or red. During each flash interval, the microprocessor based detector checks the following: • for smoke in its sensing chamber • that its critical smoke sensing electronics are operating. Siemens Industry, Inc. Building Technologies Division 3 P/N 315-049708-5 Figure 2 Recommended Locations in Duct Systems RETURN AIR SUPPLY AIR AIR DUCT HOUSING AIR DUCT HOUSING DAMPER BLOWERFILTER PLENUM FRESH AIR INTAKE DAMPER TYPE A: CLOSED SYSTEM - NO EXHAUST D D TYPE B: PROVISION FOR EXHAUSTING SOME PERCENTAGE OF RETURN AIR RETURN AIR SUPPLY AIR AIR DUCT HOUSING AIR DUCT HOUSING DAMPER DAMPER BLOWERFILTER PLENUM FRESH AIR INTAKE DAMPER D D EXHAUST AIR OUTPUT DAMPER TYPE C: RETURN AIR UNDER POSITIVE PRESSURE FROM SEPARATE BLOWER EXHAUST AIR OUTPUT DAMPER RETURN AIR SUPPLY AIR AIR DUCT HOUSING RETURN AIR BLOWER AIR DUCT HOUSING DAMPER DAMPER BLOWERFILTER PLENUM FRESH AIR INTAKE DAMPER D D Figure 1 Typical Mounting of Duct Housing OUTLET TUBE INPUT SAMPLING TUBE CENTER LINE OF DUCT CL Based on the results of these checks, the LED indicator flashes as follows: )sdnoceS(lavretnIhsalF roloChsalFnoitidnoC /11-EP C11-EP /C11-PF/11-PF /11-OPFH/11-PFH 11-OPFS/11-PFS neerG.noitarepoyrosivrepuslamroN74 wolleY siro)riaperrogninaelc(ecivresseriuqerrotceteD .snoitacificepslatnemnorivnestidnoyebgnitarepo 03-74 deRmralA½24 sehsalFoN.riaperseriuqerro,derewoptonsirotceteD-- P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 4 MOUNTING THE AIR DUCT HOUSING Location on Duct System This guideline contains general information on duct smoke detector installation, but does not preclude the NFPA documents listed. Siemens Industry, Inc. assumes no responsibility for improperly installed duct detectors. To determine the correct installation position for an AD2 Series duct smoke detector, the following factors must be consid- ered. 1) A uniform non-turbulent (laminar) airflow between 100 ft/ min. to 4,000 ft/min. must be present in the HVAC duct. To determine duct velocities, examine the engineering specifications that define the expected velocities or use an Alnor model 6000AP velocity meter (or equivalent). 2) To minimize the impact of air turbulence and stratifica- tion on performance, a duct smoke detector should be located as far as possible downstream from any obstruc- tion (i.e. deflector plates, elbows, dampers, etc.). In all situations, confirmation of velocity and pressure differen- tial within specifications is required. The pressure differential between the input sampling (high pressure) tube and outlet (low pressure) tube for the AD2 Series smoke duct detector should be greater than 0.01 inches of water and less than 1.2 inches of water. 3) Identify a code compliant location (supply or return side, or both) for the installation of the duct unit that will permit easy access for viewing and serviceability. 4) When installing on the return side, install duct units prior to the air being exhausted from the building or diluted with outside “fresh” air. 5) When installing duct smoke units downstream of filters, fires occurring in the filters will be detected, but if the filters become blocked, insufficient air flow through the duct unit will prevent the correct operation of the duct detector. Duct units installed in the supply air side may monitor upstream equipment and/or filters. 6) Where possible, install duct detectors upstream of air humidifiers and downstream of dehumidifiers. Siemens Industry, Inc. Building Technologies Division 5 P/N 315-049708-5 7) To prevent false alarms, the duct detector should not be mounted in areas of extreme high or low temperatures, in areas where high humidity exists, or in areas where the duct may contain gases or excessive dust. Duct Preparation The AD2 Series Housings come with an installation kit that contains the following items: • Short return (outlet) sampling tube • Stopper • Two #12 x 3/4” sheet metal screws • Mounting template (packaged separately) Remove mounting template from the installation kit. Remove paper backing from the mounting template and affix it to the duct at the desired location. Using the template as a guide, drill (2) mounting holes, 3/32" (2.5mm) for the #12 X 3/4” sheet metal screws packaged in the installation kit. Drill or punch (2) 1¼” (32mm) holes for input sampling and outlet tubes, using the template as a guide. Clean all holes. Sampling Tube Installation The AD2 Series duct smoke detectors use a specially notched sampling tube, which may be ordered separately in one of four standard lengths. ST-10 For duct widths of 6" to 1.0’ ST-25 For duct widths of 1.0’ to 3.0’ ST-50 For duct widths of 3.0’ to 5.0’ (requires support) ST-100* For duct widths of 5.0’ to 10.0’ (requires support) *This model is supplied as two 5 ft. sections with a coupling. Assembly is required for installation. Each model is manufactured with a different number and size of sampling holes. Only the specific tube must be used for the specified duct width. Standard sampling tubes are steel tubes with air intake holes drilled the entire length of the tube. These tubes can be cut to length and must span at least 80% the width of the duct. Sampling tubes over 3.0’ must be supported on the opposite side of the duct. To ensure the correct operation, the red stopper (stopper in installation kit) must be inserted in the end of the air input sampling tube. If the input tube protrudes through the opposite side of the duct, the opening around P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 6 the tube must be sealed. For custom duct widths, always use the next longest standard size and cut down to the exact requirement. Once the airflow direction has been determined (refer to Figure 3), insert the input and outlet tubes into the duct housing. 1. Remove the cover from the housing. 2. Loosen the screw and rotate the tube retainer until the input tube is inserted and oriented properly. Ensure that the notched end of the tube is inside the housing and that the air input sampling tube is positioned so that the input holes are directly facing the airflow. 3. Once the tube is installed, rotate the retainer back into place and tighten screw. 4. Install the outlet tube in the remaining position. Once the tube is installed, rotate the retainer back into place and tighten screw. Mounting After securing the input and outlet tubes to the duct smoke unit, (or initially placing the tubes through the 1¼” holes drilled or punched in the HVAC duct to accept the input and outlet tubes and then attaching them to the duct unit), hold the duct unit assembly in position and use (2) # 12 X 3/4” sheet metal screws (packaged in the installation kit) to secure the duct smoke detector to the HVAC duct sheet metal. INPUT TUBE HOLES FACE AIR FLOW INSERT RED STOPPER THIS END OF INPUT TUBE OUTLET TUBE INSTALLED DOWNSTREAM OF AIRFLOW DO NOT INSERT RED STOPPER AIR FLOW DIRECTION DUCT WIDTH TUBE SUPPORT ONLY FOR DUCTS GREATER THAN 3 FEET WIDE NOTE: Mountings shown are typical. Detectors can be installed side, bottom or top of duct as long as proper tube operation and flow/pressure performance is maintained. Figure 3 Sampling Tube Orientation Siemens Industry, Inc. Building Technologies Division 7 P/N 315-049708-5 Air Duct Sampling Tube Pressure Measurement The Model PDM-3 Pressure Differential Measuring device should be used to ensure that the sampling tube pressure differential is within the specified limits. The differential pressure between the two tubes should be greater than 0.01 inches of water and less than 1.2 inches of water. Qualified personnel should take measurements in accordance with the PDM-3 instructions, P/N 315-085535. WIRING Conduit Knockouts Determine knockout size required based upon installation wiring. Refer to Figure 4. Select knockout and remove by placing screwdriver at center of knockout and tap with a hammer until the knockout breaks out. Clean the hole before installing conduit. 3/4” KNOCKOUTS 1/2” KNOCKOUT Wiring The AD2-P, AD2-PR and AD2-XHR should be connected as shown in Figures 5, 6 and 7. Note any limitations on the number of detectors and restrictions on the use of remote devices permitted for each circuit. The AD2-P is used with the PE-11/PE-11C and FP-11/FP-11C. It is also used with the HFP-11/HFPO-11 detector in the FireFinder-XLS, FS-250, FC2005, FC2025, FC2050, FC901, FC922 or FC924 System. The AD2-P is also used with the SFP-11/SFPO-11 detector in the FS-250C System. The AD2- XHR must be used for the relay version. Also, all optional accessories in the same loop must be compatible with the detector series being used. These devices should be interconnected as shown in Figure 7 and wired to the DLC, FS-DLC, FDLC, FCI2016/17-U1, FC2005 or FC901. (Refer to the DLC Installation Instructions, P/N 315-033090, or the FS- 250 Manual, P/N 315-049353, or the FS-250C Manual, P/N 315-049589C, or the FCI2016/17-U1 Manual, P/N A6V10315038, or the FC2005 Manual, P/N A6V10333722, or Figure 4 Removing the Knockouts P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 8 LOOP WIRES.SEE COMPATIBLECONTROLEQUIPMENT TABLE.NOCOMNCLOOP WIRES.SEE COMPATIBLECONTROLEQUIPMENT TABLE.TO NEXT DETECTOROR EOL DEVICE(1A)TO REMOTE DEVICE(6)CNTL+-(5)-++-ALARM CONTACTS125 VAC, 24 VDC, 2.5ASEE NOTE 2 DEVICE REMOTE DEVICE LOOP - DEVICE LOOP + LOOP/REM-DEVICE CONTROL NOT USED LOOP/REM+MODELAD2-PTO NEXT DETECTOROR EOL DEVICE+-TO SECONDREMOTE DEVICE(SEE MULTIPLEREMOTE DEVICES)REM+-+REM-CONTLREMOTEALARMRELAYCOMNCNO+-CNTL-++DEVICELOOPMODELAD2-PRNOTE:EOL DEVICE MUST BECOMPATIBLE WITHSYSTEM INITIATINGCIRCUIT. OBSERVEPROPER POLARITYWHERE APPLICABLE.(6)(5)(1A)TB1TB1PE-11PE-11CPE-11PE-11CNOTES:1. Up to 30 air duct housings can beinstalled on one initiating circuit,except as noted in Note 2.2. When an AD2-PR is used to control afire safety function, the AD2-PR mustbe the ONLY device on the initiatingcircuit.3. Do not use looped wire under baseterminal.4. Break wire run to provide supervisionof connection.5. The green grounding screw in thewiring compartment of the air ducthousing is not used.Figure 5Typical Connections for the AD2-P / AD2-PR Using PE-11 / PE-11C DetectorsIf remote devices are supported by the initiatingcircuit,each detector/base may have up to 2remote devices with the following configurationsand restrictions only:MULTIPLE REMOTE DEVICESRemoteDevice 1AD2-PAD2-PRemoteDevice 2RLC-11, RLW-11RSAC-11, RSAW-11RestrictionsSee Note 2See Note 2SEE REMOTE DEVICE INSTRUCTIONSFOR WIRING DETAILS:DEVICERLC-11, RLW-11RSAC-11, RSAW-11INSTALLATIONINSTRUCTIONSP/N 315-094925P/N 315-094926If the relay contacts arebeing used to control 120VAC operated equipment,ensure that the conduit isproperly attached to theinternal metal ground strap,using the proper conduitlocking nuts. Failure toprovide proper groundingmay result in fatalelectrical shock andviolation of national andlocal codes. Siemens Industry, Inc. Building Technologies Division 9 P/N 315-049708-5Figure 6Typical Connections for the AD2-P / AD2-XHR Using FP-11 / FP-11C DetectorsNOTES:1. The relay contacts are shown after a reset pulse, which represents the non-alarm condition.2. The green grounding screw in the wiring compartment of the air duct housing is not used.-+DEVICE LOOP - DEVICE LOOP + NOT USED OPTIONALREMOTE ALARMINDICATOR MODELRLI-1 OR RLI-2REDREMOTE - REMOTE +NOLOOPDEVICE++--NCCOMNOALARMRELAYCOM NCCOMNCNOTO NEXTADDRESSABLEDEVICE-+TB1TB1TB1MODELAD2-PMODELAD2-XHRMODELAD2-XHRFP-11FP-11CLOOP WIRES.SEE COMPATIBLE CONTROLEQUIPMENT TABLE.FP-11FP-11CFP-11FP-11CALARM CONTACTS125 VAC, 24 VDC, 2.5ASEE NOTE 1ALARM CONTACTS125 VAC, 24 VDC, 2.5ASEE NOTE 1NOLOOPDEVICE++--ALARMRELAYCOM NC NOT USED If the relay contactsare being used tocontrol 120 VACoperated equipment,ensure that theconduit is properlyattached to theinternal metalground strap, usingthe proper conduitlocking nuts. Failureto provide propergrounding mayresult in fatalelectrical shockand violation ofnational and localcodes. P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 10 Figure 7Typical Connections for the AD2-P / AD2-XHR Using H-Series and S-Series DetectorsNOTES:1. The relay contacts are shown after a reset pulse, which represents the non-alarm condition.2. Refer to the RL-HW / RL-HC Installation Instructions, P/N 315-033230.3. The green grounding screw in the wiring compartment of the air duct housing is not used.LINE 2LINE 1 NOT USED LINE1OR2 TO REMOTE TB1 OTHER LINE TO REMOTE TB3 COMNONCNODEVICELOOPOTHERLINELINE1OR2RELAYALARMCOMNCCOMNONCTB2(6 or 5)TB3(5 or 6)TB1(1A)TB1TB1TB1MODELAD2-PMODELAD2-XHRMODELAD2-XHRHFP-11SFP-11HFPO-11SFPO-11OPTIONAL REMOTE ALARMINDICATOR MODEL RL-HC OR RL-HWSEE NOTE 2LOOP WIRES.SEE COMPATIBLE CONTROLEQUIPMENT TABLE.HFP-11SFP-11HFPO-11SFPO-11TO NEXTADDRESSABLEDEVICEALARM CONTACTS125 VAC, 24 VDC, 2.5ASEE NOTE 1ALARM CONTACTS125 VAC, 24 VDC, 2.5ASEE NOTE 1NODEVICELOOPOTHERLINELINE1OR2RELAYALARMCOM NCHFP-11SFP-11HFPO-11SFPO-11TO REMOTE TB2 If the relay contactsare being used tocontrol 120 VACoperated equipment,ensure that theconduit is properlyattached to theinternal metalground strap, usingthe proper conduitlocking nuts. Failureto provide propergrounding mayresult in fatalelectrical shockand violation ofnational and localcodes. Siemens Industry, Inc. Building Technologies Division 11 P/N 315-049708-5 the FC901 Manual, P/N A6V10336754, as applicable.) The HFP-11, HFPO-11, SFP-11 and SFPO-11 are polarity insensi- tive detectors. Line 1 and Line 2 can be either line of the loop. Note any limitations on the number of detectors and restrictions on the use of remote devices permitted for each circuit. When replacing a detector with a different model, be aware that existing detector accessories connected to the base or air duct housing that were compatible with the old detector may not be compatible with the new detector. Always read the Installation Instructions accompanying the detector to determine detector and accessory compatibility. Installation Of Smoke Detectors To Install: • Remove cover by loosening the four screws. Take off the cover and set it aside. • Align detector with base and insert detector. • Rotate detector clockwise while gently pressing on it until the detector drops fully into base. • Then rotate the detector clockwise until it stops and snaps in place. • Replace cover and tighten the four screws. To Remove: • Rotate the detector counterclockwise until stop is reached. • Pull detector out of base. TESTING Only qualified service personnel should test these units. To assure proper operation of the detector and control panel, both the Sensitivity and the Functional tests should be conducted. The minimum test schedule may be found in the current edition of NFPA 72 for installations in the U.S. and CAN/ULC-S537, The Verification of Fire Alarm Systems, for installation in Canada. Sensitivity Test The PE-11/-11C detector monitors its smoke sensitivity automatically and requires no test equipment. A green flash of the detector LED about every seven seconds indicates that the smoke sensitivity is within its listed limits. P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 12 The following detector models are analog types that must be programmed for the air duct application using the control unit configuration tool; that is, CSG-M, Zeus or FS-CT2, as appli- cable. To test the FP-11/-11C detector refer to its installation instruc- tions. See Table A on page 12. To test the HFP-11/HFPO-11/SFP-11/SFPO-11 detector refer to its installation instructions. See Table A on page 12. These tests ensure that the detector is within its listed and marked sensitivity range. For additional instructions on applying the Sensitivities mode, refer to the FireFinder-XLS Manual, P/N 315-033744, the DPU Manual, P/N 315-033260 or the SDPU Manual, P/N 315-033260C. Functional Test Smoke Testing Using TG-11 smoke test canister with testing nozzle model AD-TGN (purchased separately) available from Siemens Industry, Inc., insert the test gas nozzle into the hole in the red plug in the unit cover. Press can against cover for about 1/ 2 second to release gas into the chamber. DO NODO NODO NODO NODO NOT SPRAT SPRAT SPRAT SPRAT SPRAY GAY GAY GAY GAY GAS FOR MORE S FOR MORE S FOR MORE S FOR MORE S FOR MORE THAN ½ SECONDTHAN ½ SECONDTHAN ½ SECONDTHAN ½ SECONDTHAN ½ SECOND..... O O O O OVER-VER-VER-VER-VER- USE OF USE OF USE OF USE OF USE OF TESTESTESTESTEST GAT GAT GAT GAT GAS MAS MAS MAS MAS MAY RESULY RESULY RESULY RESULY RESULT IN DETECTT IN DETECTT IN DETECTT IN DETECTT IN DETECTOR CONOR CONOR CONOR CONOR CONTTTTTAMI-AMI-AMI-AMI-AMI- NANANANANATION.TION.TION.TION.TION. After 15 to 20 seconds the detector will go into alarm, illuminating the detector LED and causing the duct unit functions to operate; alarm relays will change state, and the alarm related remote accessories, if attached, will function. If no test gas is available to conduct functional testing, remove cover and, while holding down the cover removal switch, blow smoke from a smoldering cotton wick or punk directly at the head to cause an alarm. The alarm indicator on the detector should illuminate within one minute. Refer to the following Installation Instructions for additional information on testing each of these detectors: Siemens Industry, Inc. Building Technologies Division 13 P/N 315-049708-5 AELBAT rotceteDnoitcurtsnInoitallatsnI 11-EP891490-513 C11-EP626590-513 C11-/11-PF129590-513 11-PFH092330-513 11-OPFH008430-513 11-PFSC092330-513 11-OPFSC092330-513 The FP-11/-11C, HFP-11 and HFPO-11 detectors can also be tested individually using the DPU. Refer to the DPU Manual, P/N 315-033260. The SFP-11 and SFPO-11 detectors can be tested individually using the SDPU. Refer to the SDPU Manual, P/N 315-033260C. MAINTENANCE The performance of the air duct detector unit may be adversely affected by dirt or foreign matter on the sampling tubes or detector. If the air holes in the input sampling tube become restricted, the unit cannot receive a proper air sample, and performance is impaired. It is recommended that the sampling tubes be checked and cleaned periodically. The detector maintenance program should consist of periodic cleaning of dust from the detector head by using a vacuum cleaner. For cleaning Models PE-11, PE-11C, FP-11, FP-11C, HFP-11, HFPO-11, SFP-11 or SFPO-11, refer to the detector’s Installation Instructions (See Table A). The cleaning and test program is recommended for 6 month intervals, or more frequently, if needed, depending on the individual detector environment. 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If the fire alarm syIf the fire alarm syIf the fire alarm syIf the fire alarm syIf the fire alarm systststststem is connectem is connectem is connectem is connectem is connected to a central sted to a central sted to a central sted to a central sted to a central statatatatation orion orion orion orion or fire fire fire fire fire depardepardepardepardepartment,tment,tment,tment,tment, or or or or or operat operat operat operat operates extes extes extes extes external devices sucernal devices sucernal devices sucernal devices sucernal devices such as fans,h as fans,h as fans,h as fans,h as fans, ext ext ext ext ext in-in-in-in-in- guishers,guishers,guishers,guishers,guishers, etc., etc., etc., etc., etc., connect connect connect connect connected,ed,ed,ed,ed, not not not not notify appropriatify appropriatify appropriatify appropriatify appropriate personnel ande personnel ande personnel ande personnel ande personnel and disconnect the extdisconnect the extdisconnect the extdisconnect the extdisconnect the external devices unternal devices unternal devices unternal devices unternal devices until all til all til all til all til all tests are completests are completests are completests are completests are completed.ed.ed.ed.ed. AfAfAfAfAftttttererererer t t t t testestestestesting,ing,ing,ing,ing, reset the sy reset the sy reset the sy reset the sy reset the systststststem,em,em,em,em, reconnect the devices, reconnect the devices, reconnect the devices, reconnect the devices, reconnect the devices, and not and not and not and not and notifyifyifyifyify the personnel that the sythe personnel that the sythe personnel that the sythe personnel that the sythe personnel that the systststststem is operatem is operatem is operatem is operatem is operating aging aging aging aging again.ain.ain.ain.ain. P/N 315-049708-5 Siemens Industry, Inc. Building Technologies Division 14 The detector model number is the compatibility identifier. *Control equipment does not support remote accessories; e.g., lamps or relays. COMPATIBLE CONTROL EQUIPMENT ROTCETED11-OPFSRO11-PFSGNISURHX-2DADNAP-2DA tnempiuqEeludoM reifitnedIytilibitapmoC /noitallatsnIeludoM snoitcurtsnIgniriW )C052-SF(CLDF1-C985940-513N/P ROTCETEDC11-/11-EPGNISURP-2DADNAP-2DA tnempiuqEeludoM reifitnedIytilibitapmoC /noitallatsnIeludoM snoitcurtsnIgniriW )SLX-redniFeriF(4-CDC6-002430-513N/P )3METSYS(53-PC 22-209480-513N/P )QI-LXM,LXM(6B1-MZC*9-553590-513N/P )QI-LXM,LXM(4-MZC 21-627090-513N/P MZH,052-SF,SLX-redniFeriF( ,5202CF,109CF,5002CF )429CF,229CF,0502CF 6-058430-513N/P XE-LXS 8-799590-513N/P )XE-LXS(X4-EZS 8-810690-513N/P )XE-LXS(XA8-EZS 8-220690-513N/P )C052-SF(MZS*4-C058430-513N/P )3METSYS(53-UZ 81-222380-513N/P ROTCETED11-OPFHRO11-PFHGNISURHX-2DADNAP-2DA tnempiuqEeludoM reifitnedIytilibitapmoC /noitallatsnIeludoM snoitcurtsnIgniriW )SLX-redniFeriF(CLD 01-090330-513N/P )052-SF(CLD-SF 01-353940-513N/P ,0502CF,5202CF(1U-7102/6102ICF )429CF,229CF a_83051301V6AN/P 5002CF b_22733301V6AN/P 109CF a_45763301V6AN/P ROTCETEDC11-/11-PFGNISURHX-2DADNAP-2DA tnempiuqEeludoM reifitnedIytilibitapmoC /noitallatsnIeludoM snoitcurtsnIgniriW )QI-LXM,LXM(I2-DLA31-464190-513N/P )LXM(2-BMM8-790590-513N/P )LXM(3-BMM6-068840-513N/P )QI-LXM(2-BMS7-139590-513N/P Siemens Industry, Inc. Building Technologies Division 15 P/N 315-049708-5 ELECTRICAL RATINGS FOR PE-11/-11C ELECTRICAL RATINGS FOR FP-11/-11C, HFP-11, HFPO-11, SFP-11 AND SFPO-11 Electrical ratings are not provided here for these detectors. Guidance for detector loop loading, along with loop wire electrical specifications are provided in the applicable control unit instructions given in the above Compatible Control Equipment tables. egatloVCDV72-61 elppiRkaep-ot-kaepV3 tnerruCyrosivrepuS.xamAu011 emiTpu-tratS.xamsdnoces05 C11-/11-EP rotceteD +rotceteDC11-/11-EP eciveDetomeR tnerruCmralAAm05-33Am07-05 Siemens Industry, Inc. Building Technologies Division Florham Park, NJ P/N 315-049708-6 Siemens Canada Limited Building Technologies Division 2 Kenview Boulevard Brampton, Ontario L6T 5E4 Canada Siemens Data Sheet 6306 Smart Infrastructure - Building Products usa.siemens.com/fire Intelligent Initiating Devices HMS-Series Models HMS-D I HMS-S I HMS-DZ I HMS-SZ Architect & Engineer Specifications  Durable metal design  Shock and vibration resistant  Single-action (Model HMS-S | -SZ) and double-action (Model HMS-D | -DZ) stations  Pull-down lever is down, until manually reset ▪ Reset with Allen Key ▪ No break rods necessary  Custom microcomputer-chip technology  Polarity insensitive via SureWireTM technology  Dynamic supervision to the fire- alarm control panel (FACP) ▪ Device Programmer Unit (Model DPU) programs and verifies address and tests functionality of each device  Electronic-address programming (EEPROM) is easier, as well as more efficient, dependable  Surface or semi-flush installation  Two-wire  Americans with Disabilities Act (ADA) Compliant  UL Listed; USCG (161.002/60/0), FM (#3015946 & 3052621), CSFM (#7150-0067:0036) and NYC Fire Dept. (#202-12E, Vol. 1) Approved Product Overview The Siemens intelligent manual fire -alarm boxes (Models HMS -S | HMS-SZ and HMS-D | HMS-DZ) provide the most advanced method of address programming and supervision. Each Model HMS-series manual box achieves the state of an ‘intelligen t-initiating device’ by incorporating custom microcomputer-chip technology with sophisticated, bi-directional communication capabilities with the panel, which include Siemens Modular, as well as Siemens 50 -point, 252-point and 504 -point addressable FACPs. The Model HMS- series manual fire-alarm boxes are also included in US Coast Guard (USCG) approval for use in marine and other harsh environments, when used with the Siemens 252-point and 504 -point USCG approved addressable system. Specifications Models HMS-S | HMS-SZ and HMS-D | HMS-DZ are constructed of durable, molded polycarbonate material that is matte finished in red with raised white lettering. The housing accommodates a ‘pull - down’ lever, which ─ when operated ─ locks into position; indicating the fire -alarm box has been activated. The pull-down lever remains down / in the ‘locked’ position, until the fire-alarm box is manually reset. The manual fire alarm box can only be reset by opening the hinged housing cover with an Al len key; followed by closing and locking the cover. Models HMS-S | -SZ and HMS-D | -DZ operate with Siemens ─ Fire Safety FACPs. The microcomputer chip to the manual fire-alarm box has the capacity of storing ─ in memory ─ identification and important operating - status data. Models HMS-S | -SZ and HMS-D | -DZ are fitted with screw terminals for connection to an addressable circuit, and can be either surface or semi -flush mounted. The Model HMS-series manual fire-alarm boxes derive their power, communicate information and receive commands over a single pair of wires. Each box is compatible on the same circuit with all Model `H’-series detectors, interfaces or addressable, conventional zone modules. Model HMS-D | -DZ Dual-Action Station Model HMS-S | -SZ Single-Action Station Mounting Diagram Device / Programmer Tester – Model DPU Innovative technology from Siemens ─ Fire Safety also allows all Model HMS-series intelligent manual fire-alarm boxes to be programmed via the Device Programmer / Test Unit (Model DPU). The programmer / tester is a compact, portable and menu - driven accessory that makes programming and testing of a manual fire -alarm box device faster, easier and more dependable than previous methods. Model DPU eliminates the need for mechanical -addressing mechanisms of a device because Model DPU electronically sets the address of the manual fire-alarm box into its microcomputer chip, non-volatile memory. Therefore, vibration, corrosion and other conditions -- which can compromise the functionality of mechanical -addressing mechanisms – are no longer an issue. Technical Data + denotes (C)ountry (O)f (O)rigin MODEL OR TYPE PART NUMBER PRODUCT SHIPPING WEIGHT HMS -D 500-033400 Addressable Manual Fire Alarm Box, Dual Action 2.5 Lbs. 1.13 0z. HMS -DZ S5 4321 -F5-A1 Addressable Manual Fire Alarm Box, Dual Action [C.O.O. + – USA] HMS -S 500-033200 Addressable Manual Fire Alarm Box, Single Action 2.0 Lbs. 0.9 0z. HMS -SZ S5 4321 -F6-A1 Addressable Manual Fire Alarm Box, Single Action [C.O.O. + – USA] LTP 500-620490 Reset Tool Package [contains two (2) tools] 0.5 Lb. 0.23 0z. SB-5R 310-019860 Surface -Mounting Box 1.5 Lbs. 0.7 0z. ELECTRICAL Current Draw (Active or Standby) 0.9mA INDOOR / DRY CONDITIONS Operating Temperature Range 32° ─ 100°F (0° ─ 38°C) Operating Humidity Range 0 ─ 93%, non-condensing Details for Ordering ‘Z’ Series Notification Appliances 2584 s Industry, Inc. Building Technologies Division s Data Sheet Fire Safety Products Notification Appliances ZH & ZR – Strobes, Horns, & Horn / Strobes Application: Indoor Product Overview – Strobes can be synchronized using the Siemens DSC sync modules, the Siemens 50-point, 252-point and 504-point addressable fire alarm control panels (FACPs), as well as with:  FireFinder® XLS and MXL® FACPs  PAD-3 or PAD-4™ NAC Extenders with built-in sync protocol – Selectable Continuous Horn or Temporal (Code-3) Tones with 90 or 95 dBA selectable setting (Series ‘ZH’) – Ceiling-mount models feature field-selectable Candela settings of 15/30/75/95cd and 115/177cd – Wall-mount models feature field-selectable Candela settings of 15/30/75/110cd and 135/185cd – Base plate is protected by a disposable cover, and the appliances can quickly snap onto the base after the walls are painted – Strobes produce one (1) flash per second – ``Special Applications” listed with Siemens panels – EZ Mount Universal Mounting Plate (Model ZB Series)  uses single plate for ceiling and wall mount installations – EZ Mount design  with separate base plate  provides ability to pre-wire the base and test the circuit wiring before the walls are covered – UL Listed & ULC Listed, FM (#3028994) Approved; CSFM Approved (Series ‘ZH’: #7125-0067:0248 –> Fire Alarm Devices For The Hearing Impaired) CSFM Approved (Series ‘ZR’: #7125-0067:0252 –> Fire Alarm Devices For The Hearing Impaired) – ADA / NFPA compliant Specifications • General – Audible/Visual notification appliances are listed for indoor use only – Appliances are listed under UL Standard 1971 (Standard for Safety Signaling Devices for Hearing Impaired) and UL Standard 464 (Fire Protective Signaling) – Appliances use a universal back plate, which allows mounting to a single-gang, double-gang, 4-inch-square (10.2 cm.), 4”-octal (10.2 cm.), or a 3-1/2” (8.9 cm.) octal backbox – Two-wire configurations allows capability for directly connecting appliances to the mounting back plate – Continuity check will occur for entire NAC circuit prior to attaching any audible / visual-notification appliances – A cover fits over the mounting plate for protection to dust and other outside elements  Cover is easily removed when the appliance is installed over the back plate – Removal of an appliance will result in a Trouble condition by the Siemens Fire Alarm Control Panel (FACP) ZR Series ZR & ZH (for mounting) ZH Series s Industry, Inc. Building Technologies Division Specifications – (continued) • Strobes and Audible Strobe Combinations – Strobe appliances produce a minimum flash rate of 60 flashes per minute (one [1] flash per second) over the Regulated Input Voltage Range, and incorporate a Xenon flashtube enclosed in a rugged Lexan® lens – Strobes are available with two (2) or four (4) field-selectable settings in one (1) unit, and are rated – per UL 1971 – for up to: • 15/30/75/110cd for wall mounted • 135/185cd for wall mounted • 15/30/75/95cd for ceiling mounted • 115/177cd for ceiling mounted – Strobes operate over an extended temperature range of 32°F to 120°F (0°C to 49°C), and be listed for maximum humidity of 95% RH – Strobe inputs are polarized for compatibility with standard reverse-polarity supervision of circuit wiring by a Siemens FACP • Audible and Audible / Strobe Combinations – Horns and horn / strobes are listed for Indoor use under UL Standard 464 – Horns are able to produce continuous synchronized output or a Temporal Code-3 synchronized output – Horns have at least two (2) sound-level settings of 90 and 95 dBA • Synchronization Modules – The strobe portion, when synchronization is required, is compatible with the Siemens DSC sync modules; the Siemens 50-point, 252-point and 504-point addressable FACPs, as well as with:  FireFinder® XLS and MXL® FACPs  PAD-3 or PAD-4™ NAC Extenders with built-in sync protocol – The strobes will not drift out of synchronization at any time during operation – Audibles and strobes are able to synchronize on a two-wire circuit with the capability to silence the audible, if required – Strobes revert to a non-synchronized flash-rate, if the sync module or power supply should fail to operate (i.e. – contacts remain closed) – All notification appliances are listed for Special Applications:  Strobes are designed to flash at 1-flash-per-second minimum over their ``Regulated Input Voltage Range”  Note: NFPA-72 specifies a flash rate of 1-to-2 flashes per second, and ADA Guidelines specify a flash rate of 1-to-3 flashes per second  All candela ratings represent minimum-effective Strobe intensity, based on UL Standard 1971  Series ZH Strobe products are listed under UL Standards 1971 and 464 for indoor use with a temperature range of 32°F to 120°F (0°C to 49°C) and maximum humidity of 93% (± 2%)  Series ZH horns are listed under UL Standard 464 for audible signal appliances (Indoor use only) Mounting Diagram (Shown In Inches) s Industry, Inc. Building Technologies Division Mounting Diagram Technical Data ZH Horn: Wall and Ceiling Mount Operating Voltage (Special Application) Per UL 464 Input Voltage Low* High* DC 16.0 – 33.0VDC 0.018 0.044 FWR 16.0 – 33.0VRMS 0.045 0.075 * Current draw is the same for the Continuous Horn, Code 3 Horn, and March Time settings ZH Horn / Strobe Series: Wall Mount Current Ratings (AMPs) MAXIMUM RMS Current – with High dBA Setting Input Voltage 15cd 30cd 75cd 110cd 135cd 185cd DC 16.0 – 33.0VDC 0.078 0.113 0.195 0.259 0.371 0.506 FWR 16.0 – 33.0VRMS 0.141 0.200 0.302 0.406 0.521 0.722 Current Ratings (AMPs) MAXIMUM RMS Current – with Low dBA Setting Input Voltage 15cd 30cd 75cd 95cd 135cd 185cd DC 16.0 – 33.0VDC 0.070 0.107 0.188 0.246 0.324 0.455 FWR 16.0 – 33.0VRMS 0.123 0.179 0.290 0.391 0.497 0.699 ZR Strobe Series: Wall Mount Current Ratings (AMPs) Strobe Setting – (cd) Input Voltage 15cd 30cd 75cd 110cd 135cd 185cd DC 16.0 – 33.0VDC 0.064 0.098 0.175 0.233 0.318 0.445 FWR 16.0 – 33.0VRMS 0.108 0.164 0.268 0.368 0.482 0.684 ZR Strobe Series: Ceiling Mount Current Ratings (AMPs) Strobe Setting – (cd) Input Voltage 15cd 30cd 75cd 95cd 115cd 177cd DC 16.0 – 33.0VDC 0.069 0.111 0.200 0.264 0.318 0.445 FWR 16.0 – 33.0VRMS 0.117 0.180 0.297 0.398 0.482 0.684 ULC Directional Characteristics -3 dBA 35 degrees left; 40 degrees right -6 dBA 55 degrees left; 65 degrees right ZH Horn / Strobe Series: Ceiling Mount Current Ratings (AMPs) MAXIMUM RMS Current – with High dBA Setting Input Voltage 15cd 30cd 75cd 95cd 115cd 177cd DC 16.0 – 33.0VDC 0.087 0.131 0.222 0.292 0.371 0.506 FWR 16.0 – 33.0VRMS 0.149 0.216 0.331 0.436 0.521 0.722 Current Ratings (AMPs) MAXIMUM RMS Current – with Low dBA Setting Input Voltage 15cd 30cd 75cd 95cd 115cd 177cd DC 16.0 – 33.0VDC 0.075 0.121 0.213 0.277 0.324 0.455 FWR 16.0 – 33.0VRMS 0.131 0.195 0.319 0.421 0.497 0.699 ZH and ZH-MC Series: Wall and Ceiling Mount dBA Sound Output Description Volume Reverberant Per UL 464 16.0 VDC 24.0 VDC 33.0 VDC Continuous Horn Low 77 81 83 High 83 87 90 Code 3 Horn (or March Time)** Low 72 76 79 High 79 82 86 dBA Sound Output Description Volume Reverberant Per ULC-S525-99 20.0 VDC 24.0 VDC 31.0 VDC Continuous Horn Low 88 90 91 High 93 95 96 Code 3 Horn (or March Time)** Low 88 90 91 High 93 95 96 ** Available only in sync mode. s Industry, Inc. Building Technologies Division Fire Safety 8 Fernwood Road Florham Park, NJ 07932 Tel: (973) 593-2600 FAX: (908) 547-6877 URL: www.usa.Siemens.com/Fire (SII) Printed in U.S.A. Fire Safety 1577 North Service Road East Oakville, Ontario L6H 0H6 / Canada Tel: [905] 465-8000 URL: www.Siemens.CA August 2016 Supersedes sheet dated 6/2015 (Rev. 5) Technical Data – (continued) Notes: 1. Strobes will produce 1 flash per second over the Input Voltage range. 2. These horn/strobe models are UL Listed to operate over a Voltage Range Limit from 16.0VDC to 33.0VDC for 24VDC applications using filtered DC or unfiltered Full-Wave-Rectified (FWR) input voltage. 3. All models are UL Listed for indoor ceiling use with a temperature range of +0oC to +49oC (+32oF to +120oF) and maximum humidity of 93% +/- 2% RH. The effect of shipping and storage temperatures will not adversely affect the performance of the appliance when stored in original cartons, and is not subjected to either misuse or improper handling of shipment. Details for Ordering ─ (Including Mounting Options & Agency Approvals) Model Part Number Description Mounting Options* UL ULC FM CSFM ZH-R 500-636159 Z Horn: Red B,D,E,F,X     ZH-W 500-636160 Z Horn: White B,D,E,F,X     ZH-MC-R 500-636161 Z Horn: Multi Candela (Wall), Red B,D,E,F,X     ZH-MC-W 500-636162 Z Horn: Multi Candela (Wall), White B,D,E,F,X     ZH-HMC-R 500-636163 Z Horn: Hi Multi Candela (Wall), Red B,D,E,F,X     ZH-HMC-W 500-636164 Z Horn: Hi Multi Candela (Wall), White B,D,E,F,X     ZH-MC-CR 500-636165 Z Horn: Multi Candela (Ceiling), Red B,D,E,F,X     ZH-MC-CW 500-636166 Z Horn: Multi Candela (Ceiling), White B,D,E,F,X     ZH-HMC-CR 500-636167 Z Horn: Hi Multi Candela (Ceiling), Red B,D,E,F,X     ZH-HMC-CW 500-636168 Z Horn: Hi Multi Candela (Ceiling), White B,D,E,F,X     ZR-MC-R 500-636169 Z Strobe: Multi Candela (Wall), Red B,D,E,F,X     ZR-MC-W 500-636170 Z Strobe: Multi Candela (Wall), White B,D,E,F,X     ZR-HMC-R 500-636171 Z Strobe: Hi Multi-Candela (Wall), Red B,D,E,F,X     ZR-HMC-W 500-636172 Z Strobe: Hi Multi-Candela (Wall), White B,D,E,F,X     ZR-MC-CR 500-636173 Z Strobe: Multi Candela (Ceiling), Red B,D,E,F,X     ZR-MC-CW 500-636174 Z Strobe: Multi Candela (Ceiling), White B,D,E,F,X     ZR-HMC-CR 500-636175 Z Strobe: Hi Multi Candela (Ceiling), Red B,D,E,F,X     ZR-HMC-CW 500-636176 Z Strobe: Hi Multi Candela (Ceiling), White B,D,E,F,X     ZB-R 500-636193 Accessory ─ (Includes base, dust cover, mounting screws and installation sheet)     ZB-W 500-636194 Accessory ─ (Includes base, dust cover, mounting screws and installation sheet)      = Listed / Approved * = Refer to data sheet #: 2585 for detailed mounting options Notice: This marketing data sheet is not intended to be used for system design or installation purposes. For the most up-to-date information, refer to each product’s installation instructions. Agency Approvals