Home » Autocall Addressable Multi-Sensors (Smoke and Heat), Triple Sensors (Smoke, Heat and CO), Isolator Bases, Sounder Bases, and Accessories
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UL Listed* Addressable Devices Multi-Sensors (Smoke and Heat), Triple Sensors (Smoke, Heat and CO), Bases, and Accessories Technology addressable smoke sensor, heat sensor and features: Smoke sensors provide accurate photoelectric sensing Heat sensors provide electronic heat sensing with multiple alarm Multi-sensors combine photoelectric sensing with heat sensing Triple sensors combine photoelectric, heat and CO sensing Built-in isolation features are contained in some sensors, removing need for individual isolator devices Sounder bases provide multiple tone and volume selections and are as MX Loop powered Accessories include remote LED indicators, address flags and labels, Smoke sensors and accessories are listed to UL 268, heat sensors to base adapters 521 For use with Autocall 4100ES and 4010ES Series fire alarm control equipped with an MX Loop Module Analog sensor information is communicated to the host control unit analyzed using the MX Fastlogic algorithm The MX Fastlogic algorithm uses real fire data as a basis for the alarm and service features: Each sensor comes with an integral dust cover for protection during and installation and you easily remove it when commissioning system Unique park position for commissioning and service The address flag attaches to the base to minimize errors during service You can conveniently program detector addressing using the 801AP Tool Bases with multiple mounting options simplify installation construction. MX compatible 850-Series sensors provide and reliable construction which has undergone stringent testing. Electrical contacts are molded into the plastic to movement. Construction uses durable, fire resistant FR110 modes. MX Sensors communicate to the MX Loop Module MX Technology communications. Each detector can operate in one two of several detection modes, ensuring that it is easily optimized to risk. Fastlogic sensor operation Fastlogic sensor operation is an algorithm that takes into account pattern of smoke build up over time and applies fuzzy logic to the level of risk. This algorithm uses over 200 years of fire test from research at the University of Duisburg, Germany to determine likelihood that there is a real fire and achieves faster detection of real and slower, preferably no detection, of false alarm sources. Additional listings may be applicable; contact your local product supplier for the latest status. Fastlogic Sensor basics. The MX Fastlogic algorithm is an expert because it uses real fire data as a basis for the alarm decision. any given application we are obliged to employ the most suitable in terms of response to an actual fire while minimizing false This general requirement is clearly reflected in local and national governing fire detection system designs. attempts at reducing the occurrence of false alarms involve the level of fire protection afforded, either by raising the alarm of smoke detectors, introducing delays, or generally employing responsive detection. MX Fastlogic sensors give us the opportunity offer an improved level of protection while simultaneously increasing to false alarm. Fastlogic algorithm principle elements. The MX Fastlogic monitors several elements of the detector output and uses raw data to execute a series of processes to evaluate the probable of fire including: Background filtering Instantaneous smoke density Rate of change of smoke density Smoke density weighting Smoke density peak suppression Real fire experience comparison synonymous with false alarms are filtered while those indicative of fire are weighted. These results are continually against data derived from real fires to produce a measure of risk. Using this risk measurement, the decision to alarm is made. sensitivity and minimizing false alarms. MX Fastlogic are designed to maintain sensitivity to fire while minimizing alarms. You can select different smoke detector sensitivity settings many analog detection systems, for example, High, Normal, or sensitivity. Lowering the sensitivity setting is a typical reaction unwanted alarms but it usually means that the detector requires greater densi
UL Listed* Addressable Devices Multi-Sensors (Smoke and Heat), Triple Sensors (Smoke, Heat and CO), Bases, and Accessories Technology addressable smoke sensor, heat sensor and features: Smoke sensors provide accurate photoelectric sensing Heat sensors provide electronic heat sensing with multiple alarm Multi-sensors combine photoelectric sensing with heat sensing Triple sensors combine photoelectric, heat and CO sensing Built-in isolation features are contained in some sensors, removing need for individual isolator devices Sounder bases provide multiple tone and volume selections and are as MX Loop powered Accessories include remote LED indicators, address flags and labels, Smoke sensors and accessories are listed to UL 268, heat sensors to base adapters 521 For use with Autocall 4100ES and 4010ES Series fire alarm control equipped with an MX Loop Module Analog sensor information is communicated to the host control unit analyzed using the MX Fastlogic algorithm The MX Fastlogic algorithm uses real fire data as a basis for the alarm and service features: Each sensor comes with an integral dust cover for protection during and installation and you easily remove it when commissioning system Unique park position for commissioning and service The address flag attaches to the base to minimize errors during service You can conveniently program detector addressing using the 801AP Tool Bases with multiple mounting options simplify installation construction. MX compatible 850-Series sensors provide and reliable construction which has undergone stringent testing. Electrical contacts are molded into the plastic to movement. Construction uses durable, fire resistant FR110 modes. MX Sensors communicate to the MX Loop Module MX Technology communications. Each detector can operate in one two of several detection modes, ensuring that it is easily optimized to risk. Fastlogic sensor operation Fastlogic sensor operation is an algorithm that takes into account pattern of smoke build up over time and applies fuzzy logic to the level of risk. This algorithm uses over 200 years of fire test from research at the University of Duisburg, Germany to determine likelihood that there is a real fire and achieves faster detection of real and slower, preferably no detection, of false alarm sources. Additional listings may be applicable; contact your local product supplier for the latest status. Fastlogic Sensor basics. The MX Fastlogic algorithm is an expert because it uses real fire data as a basis for the alarm decision. any given application we are obliged to employ the most suitable in terms of response to an actual fire while minimizing false This general requirement is clearly reflected in local and national governing fire detection system designs. attempts at reducing the occurrence of false alarms involve the level of fire protection afforded, either by raising the alarm of smoke detectors, introducing delays, or generally employing responsive detection. MX Fastlogic sensors give us the opportunity offer an improved level of protection while simultaneously increasing to false alarm. Fastlogic algorithm principle elements. The MX Fastlogic monitors several elements of the detector output and uses raw data to execute a series of processes to evaluate the probable of fire including: Background filtering Instantaneous smoke density Rate of change of smoke density Smoke density weighting Smoke density peak suppression Real fire experience comparison synonymous with false alarms are filtered while those indicative of fire are weighted. These results are continually against data derived from real fires to produce a measure of risk. Using this risk measurement, the decision to alarm is made. sensitivity and minimizing false alarms. MX Fastlogic are designed to maintain sensitivity to fire while minimizing alarms. You can select different smoke detector sensitivity settings many analog detection systems, for example, High, Normal, or sensitivity. Lowering the sensitivity setting is a typical reaction unwanted alarms but it usually means that the detector requires greater densi