Simplex MX 850 Series Addressable Devices; Addressable Multi-Sensors (Smoke and Heat),

UL Listed 850 Series Addressable Devices Multi Sensors Smoke and Heat Sensors Smoke Heat CO Isolator Bases Sounder Bases and Accessories Technology addressable smoke sensor heat and multi sensor features Smoke Sensors provide accurate photoelectric sensing Heat Sensors provide electronic heat sensing with multiple Multi Sensors combine photoelectric sensing with heat Triple Sensors combine photoelectric heat and CO options Built in Isolation features are contained in each sensor the need for individual isolator devices Sounder Bases provide multiple tone and volume and are available as MX Loop powered or from separate 24 VDC Sounder Beacon Bases are loop powered and provide the base functions plus a visible flashing light Accessories include remote LED indicators address flags labels and base adapters Smoke sensors and accessories are listed to UL 268 heat to UL 521 For use with Simplex 4100ES 4010ES and 4100U Series alarm control panels equipped with an MX Loop Analog sensor information is communicated to the host panel and analyzed using the MX Fastlogic The MX Fastlogic algorithm uses real fire data as a basis the alarm decision and Service Features Each sensor provides an infrared link for use with the MX Engineering Management Tool Each sensor comes with an integral dust cover for during storage and installation and you easily it when commissioning the system Unique position for commissioning and service The address flag is attached to the base to minimize errors service You can conveniently program detector addressing using MX 850 EMT Programming Tool Bases with multiple mounting options simplify installation Construction MX compatible 850 Series sensors robust and reliable construction which has undergone environmental testing Electrical contacts are molded the plastic to eliminate movement Construction uses fire resistant FR110 plastic Modes MX Sensors communicate to the MX Module using MX Technology communications Each can operate in one or two of several detection modes it is easily optimized to the risk Photoelectric Sensor and 4098 5251 Sensor with Heat Sensing Heat Sensor Sensor on 4098 5215 Sounder Base Sensor on 4098 5212 Sounder Beacon Base Listings under Simplex Time Recorder Co are the property of Tyco Fire Protection 2 2017 smoke density Fastlogic Sensor Operation Fastlogic sensor operation is an algorithm that takes account the pattern of smoke build up over time and fuzzy logic to calculate the level of risk This algorithm over 200 years of fire test data from research at the of Duisburg Germany to determine the likelihood there is a real fire and achieves faster detection of real fires slower preferably no detection of false alarm sources Fastlogic Sensor Basics The MX Fastlogic algorithm an expert algorithm because it uses real fire data as a basis the alarm decision For any given application we are to employ the most suitable detection in terms of to an actual fire while minimizing false alarms This requirement is clearly reflected in local and national governing fire detection system designs attempts at reducing the occurrence of false involve degrading the level of fire protection afforded by raising the alarm threshold of smoke detectors delays or generally employing less responsive MX Fastlogic sensors give us the opportunity to offer improved level of protection while simultaneously immunity to false alarm Fastlogic Algorithm Principle Elements Several of the detector output are monitored and the MX algorithm uses this raw data to execute a series of to evaluate the probable presence of fire including Background filtering Rate of change of smoke density Smoke density weighting Smoke density peak suppression Real fire comparison synonymous with false alarms are filtered while those indicative of fire are weighted These results are compared against data derived from real fires to a measure of fire risk Using this risk measurement the to alarm is made Sensitivity and Minimizing False Alarms MX sensors are designed to maintain sensitivity to fire minimizing false alarms You can select different smoke sensitivity settings in many analog detection systems High Normal or Low sensitivity Lowering the sensitivity is a typical reaction to unwanted alarms but it usually that the detector requires a greater density of smoke to an alarm This is not the case for detectors using MX operation which compares the real fire experience recognized fire patterns Changing sensitivity from to for example would delay responses to less fire patterns while maintaining a normal response to likely fire patterns The net result is a reduced sensitivity possible false alarms without reducing sensitivity to clearly fires Fastlogic availability MX Fastlogic operation is for MX photoelectric sensors and sensors These devices are used in both protection and property protection applications reliable early detection of real fires Addressing technology sensors and addressable devices are using the 850 EMT Programming Tool which a simple menu driven user interface that can increment addresses following each write This simple to use soft addressing technique misaddressing errors that often occur when coded are used the 850 EMT Programming Tool you can also change stored in a sensor or other addressable device memory which makes addressing errors easy to 850 EMT Programming Tool Details Heat Sensor with Isolator Heat Sensor with Isolator The 4098 5253 Sensor with built in isolator returns analog temperature to the fire alarm control panel for evaluation includes a high quality thermistor with very thermal mass so the sensor can provide fast and accurate readings for heat detection determination detection settings are selectable at the fire alarm control for 135 F 57.2 C or 200 F 93 C either with or rate of rise detection Note When you use the Heat Sensor 4098 for 200 F setting applications use only the following Continuity Base UL 4B C 4098 5260 Base 4098 5215 2 2017 Sensor Details Continued and LED Indicator Details Photoelectric Sensor with Isolator Photoelectric Sensor with Isolator a unique optical chamber design with a ratio that provides high resilience to dust and small insects for reduced service cost The chamber cover actually draws slow moving smoke the chamber to provide more responsive detection 4 Continuity Base 4 Continuity Base provides the features a Standard Mounting Base and allows for internal short isolation in the sensors to protect them from shorts on the SLC Photoelectric Sensor with Heat Sensing and Multi Sensors provide the features of the photoelectric sensor with the addition of the sensor from the 4098 5253 so the 4098 5251 can detection applications with multiple risks Triple Sensor Triple Sensor with Isolator incorporates same 850 series optical and heat sensors combined a CO sensor The Triple Sensor uses powerful for use in life safety applications and those environmental conditions present challenges to sensors It is a multi sensor device which smoke heat and CO levels simultaneously to determine the presence of fire Remote LED Indicator Remote LED Alarm Indicator Red LED provides a remote indication that the sensor is in Refer to Specifications on page 5 for dimensions MX Loop Mo