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Siemens FP-11

Updated: Jan 6, 2024


The Siemens FP-11 detector is a photoelectric smoke detector that is used in conjunction with the company's Cerberus PRO fire safety system. The FP-11 is designed to detect the presence of smoke particles in the air, which can be an indication of a fire.
The FP-11 uses a low-powered infrared light source to illuminate the air inside the detector, and a photodiode to detect any light that is scattered by smoke particles in the air. When smoke particles are detected, the FP-11 sends a signal to the fire safety control panel, which can then trigger alarms, sprinkler systems, or other safety measures as needed.
Overall, the Siemens FP-11 detector is a reliable and effective component of the Cerberus PRO fire safety system, helping to protect people and property from the dangers of fire.

The FP-11 Intelligent Fire Detector provides the life safety industry with the most highly evolved detection system available today. The FP-11 utilizes advanced detection technology that allows the detector to distinguish nonthreatening deceptive phenomena, such as cigarette smoke, from actual fire hazards, while optimizing detection for the area in which it is installed. No other detection system available today offers a higher level of protection or nuisance alarm immunity. The FP-11 uses state-of-the-art microprocessor circuitry with error check, detector self-diagnostics and supervision programs. The FP-11 intelligent fire detector is compatible with the Siemens Building Technologies, Fire Safety Division, Model DPU or FPI-32 field programmer/tester, which is a compact, portable, menu-driven accessory for electronically programming and testing detectors, easily and reliably. The DPU or FPI-32 eliminates the need for cumbersome, unreliable mechanical programming methods and reduces installation and service costs by electronically programming and testing the detector prior to installation. The FP-11 fire detector is compatible with the MXL family of control panels including the MXL, MXL-IQ, and MXLV. The FP-11 detector is Underwriters Laboratories and Underwriters Laboratories of Canada Listed. Description The FP-11 is a plug-in, two-wire, multi-sensor detector with both photoelectric and thermal inputs and is compatible with the MXL family of control panel systems. Each detector consists of a dust resistant, field cleanable photo chamber, a solid state non-mechanical thermal sensor, microprocessor based electronics with a low-profile plastic cover and base. The FP-11 utilizes state-of-the-art ASIC and surface mount technology for maximum reliability. Every FP-11 fire detector is shipped with a protective dust cover. The FP-11 fire detector 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. 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. The FP-11 also utilizes a modern, accurate, shockresistant thermistor to sense temperature changes. The “on-board” FirePrint technology allows the detector to gather smoke and thermal data, and to analyze this information in the detector’s “neural network”. By comparing data received with the common characteristics of fires, or fire fingerprints, the FP-11 can compare these “Fire Prints” to those of deceptive phenomena that cause other detectors to alarm. The advanced FirePrint technology allows the FP-11 to accurately determine a true fire hazard from a nonthreatening deceptive phenomena WITHOUT needing to use alarm delaying verification and confirmation techniques, which can increase the probability of losses due to fire. The FP-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 Detectors are optimized by selecting one of the following applications: • Office/Retail • Lobby • Computer Room • Dormitory • Healthcare • Parking Garage • Utility/Transformer Room • Hostile Environment • Precious Storage • Air Duct • Warehouse/Light Manufacturing The software does the rest; no guessing on detector sensitivities or alarm verification; the control panel programs the FP-11 detector for the protected area without hassle and without confirmation delays. Once optimized for the hazards in the protected area, the FP-11 provides the best detection you can buy. Should the operator or installer forget to program the detector, the FP-11 will revert to a default setting that allows it to operate as a standard photoelectric or photothermal detector. The FP-11’s FirePrint technology 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 “fool” any ordinary detector. This 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 it’s design. The microprocessor’s software can identify and disregard false input caused by radio frequency (RFI) and electromagnetic (EMI) interference, and validates all trouble conditions before annunciating or reporting to the control panel. The FP-11 detector’s microprocessor uses an integral EEPROM to store the detector’s address and other critical operating parameters which include the assigned program values for alarm and trouble thresholds. Communications within the detector itself and between the FP-11 and the control panel, or with the FPI-32 field programmer/tester, 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. In MXL(V) applications, the FP-11 determines its operating status to be normal, in alarm, or in trouble 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 MXL(V) control panel will sample the value of the FP-11’s analog signal over a period of time in order to determine if those values indicate excessive buildup in the photo chamber; if so, the MXL(V) will indicate that the particular detector requires maintenance. The FP-11 is listed as a self-testing device. The FP-11’s visible light emitting diode (LED) flashes green every 4 seconds to indicate it is communicating with the control panel and that it has passed its internal selftest. Should the detector sense a fault or failure within its systems, the LED will flash amber and the detector will transmit that information to the control panel. 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 MXL panel indicating the status and settings assigned to each individual detector. When the FP-11 moves to the alarm mode, it will flash amber and transmit that information to the control panel. When the MXL(V) confirms the detectors condition, the panel will instruct the FP-11 to flash red and to continue flashing until the system is reset at the control panel. At that same time, any user defined system alarm functions programmed into the system are activated. Each FP-11 detector can operate one remote alarm indicator, one auxiliary relay, or one audible base. Detector sensitivity, calibration, and identification are dynamically supervised by the control panel. 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. The DPU or FPI-32 Program/Test accessory is used to program and verify the detector’s address. The technician selects the accessory’s program mode to enter the desired address. The DPU or FPI-32 automatically sets and verifies the address and tests the detector. It also allows the user to change the device ID from that of an FP-11 to an older detector ID such as an ILP-1, ILPT-1, ILP-2, ID-60P or ID-60PT to allow for easy replacement of older detectors without the need of reprogramming the control panel. The FPI-32 operates on AC power or rechargeable batteries, providing flexibility and convenience in programming and testing equipment almost anywhere. When in the test mode, the DPU or FPI-32 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. The FP-11 fire detector may be installed on the same initiating circuit with IL or ID series detectors (Photoelectric, thermal, or ionization), MSI series manual stations, TRI series interfaces, ICP output control devices, or CZM series of addressable, conventional zone modules. All FP-11 detectors can be cleaned in the field, when required, by simply 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 replacing the labyrinth and bug screen included in the detector maintenance kit, model DMK-11. The FP-11 uses the low profile surface mounting base, model DB-11. This base mounts on a 4-inch octagon, square, or a single gang electrical box. The base utilizes screw clamp contacts for electrical connections and self-wiping contacts for increased reliability. The base can be used with the optional LK-11 detector locking kit which contains 50 detector locks and an installation tool, to prevent unauthorized removal of the detector head. The DB-11 base has integral decorative plugs to cover the outer mounting screw holes. The FP-11 is electrically compatible with existing MXL detector accessories including relays, remote lamps, duct housings, and audible bases. With duct housings, a base adapter and new detector housing cover are required (order AD-11UK upgrade kit). To use existing DB-3S base or audible base, the FP-11 requires a DBADPT base adapter. All FP-11 detectors are approved for operation within the UL specified temperature range of 32 to 100 degrees F (0 to 38 degrees C). Application Data Installation of the FP-11 series of fire detectors requires a two-wire circuit of 18 AWG (minimum) thermoplastic fixture wire enclosed in conduit, or 18 AWG limited energy, shielded cable without conduit, if permitted by local codes. Field wiring should conform to local and National Electric Codes and the control panel wiring specifications. “T-tapping” is permitted only for Style 4 (Class B) wiring. FP-11 fire detectors can be applied within the maximum 30 foot center spacing (900 sq. ft. areas) as referenced in NFPA 72. This applications guideline is based on ideal conditions, specifically, smooth ceiling surfaces, minimal air movement, and no physical obstructions between potential fire sources and the 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 Building Technologies, Fire Safety Division authorized sales outlet whenever you need assistance applying FirePrint in unusual applications. Be sure to follow NFPA guidelines, UL/ULC approved installation instructions, which are included with every detector, and local codes as for all fire protection equipment. Dimensions Ordering Information Technical Specifications Current Requirements: Normal 750 μa Alarm 750 μa Operating Temperature: +32°F (0°C) to 100°F (38°C) per UL 268/268A Humidity: 0-93% Relative Humidity Non-Condensing
 
 
 

Siemens HFP-11

Updated: Jan 6, 2024


The HFP-11 is a fire detector module designed and manufactured by Siemens. It is part of the company's Cerberus PRO fire safety system and is used to detect the presence of smoke and heat in areas where fires may occur, such as commercial and industrial buildings.
The HFP-11 module uses a combination of optical and thermal sensors to detect fires, providing reliable and early detection of potential hazards. It is designed to be easily integrated into the Cerberus PRO system, which can then be configured and monitored using Siemens' comprehensive software and hardware tools.
Overall, the Siemens HFP-11 fire detector module is a high-quality and reliable component of the Cerberus PRO fire safety system, helping to protect people, property, and assets from the dangers of fire.

Product Overview Model HFP-11 utilizes advanced detection technology that allows the 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 stateof-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-series control panels. Model HFP-11 is Underwriters’ Laboratory and Underwriters’ Laboratory of Canada listed. Specifications Model HFP-11 is a plug-in, two-wire and multi-sensor detector (with both photoelectric and thermal inputs) that is compatible with Fire Finder XLS and FS-250 series of control-panel systems. 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. • Most sophisticated ‘detector intelligence’ available • Multi-criteria fire detection for the price of a photoelectric detector • FirePrint™ technology to differentiate between deceptive phenomena and an actual fire • Easily programmed to match specific hazard profiles from the control panel • Polarity insensitive utilizing SureWireTM technology • Pre-alarm reporting based on fire profile selected • Remote sensitivity-measurement capability • System logic activation based on any of three (3) inputs from the detector (smoke, heat or neural network) • Detectors are self-testing: ƒ complete diagnostics every four (4) seconds • Two-wire operation • Multi-color detector status LED • Field-cleanable chamber with replaceable chamber parts available • Compatible with Model DPU (device programmer / tester unit) • Supports software-based automatic environmental compensation • Optional fully programmable relay base, audible base and duct housing • UL and ULC Listed; FM, CSFM & NYMEA Approved s 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 shockresistant 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 control panel. Model HFP-11 The Model HFP-11 detector’s microprocessor uses an integral EEPROM to store the detector’s address and other critical operating parameters, which include 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 Fire Finder XLS panel, 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 control panel. Simultaneously, any user-defined, systemalarm functions programmed into the system are activated. s Industry, Inc. Building Technologies Division Specifications ─ (continued) Detector sensitivity, calibration and identification are dynamically supervised by the fire-alarm control panel (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 HMS series manual stations, HTRI series interfaces, HCP output control devices, or HZM series of addressable, conventional zone modules. All Model HFP-11 detectors can be cleaned in the field, when required, by simply 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 the 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 Industry ─ 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 Humidity: 0-93% Relative Humidity Non-condensing Maximum Spacing: 30-foot Centers (900 Square Feet), per NFPA 72 Chapter 5 and ULC-S524
 
 
 
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