Simplex Fire Control Panel Modules, ESMX Loop Interface Module, Models 4100-6077 and 4010-9917 For 4100ES, 4100U and 4010ES Fire Alarm Control Panels [For INTERNATIONAL USE]
File Preview
Click below to download for free
Click below to download for free
File Data
Text Preview
Datasheet Control Panel Modules Loop Interface Modules for 4100ES and 4010ES Fire Alarm Control Units Listed MX Technology addressable devices to a Simplex 4100ES 4010ES fire alarm control unit FACU Connect up to 250 MX addressable devices with up to 1 A of output per ESMX Loop module Share loop power and addresses across two loops using the optional loop mezzanine card Up to 30 ESMX Loop Interface Modules per 4100ES FACU Up to four ESMX Loop Interface Modules per 4010ES FACU Provides dual isolated Class B loops that can be connected together Class A operation Device LEDs for alarm activation are selectable per loop as 5 10 20 or to be activated simultaneously LED blink on poll is also selectable loop On board LED diagnostics indicated module status for installation and convenience Compatible with 4100ES FACUs using ES PS power supplies and with FACUs You must use software revision 2.03 or higher and MX module software 2.01 or higher Supports Local Mode operation when module is mounted in MINIPLEX UL listed to Standard 864 Loop communications Compatibility with many types of existing cable for convenient retrofit typical communications distances up to 2 km 6560 ft Wiring lengths may be longer depending on wiring characteristics and conditions consult your Simplex product representative for details ESMX Loop Module features Information communicated to the control panel is analyzed using the Fastlogic algorithm The MX Fastlogic algorithm is considered an expert algorithm that uses fire data as a basis for the alarm decision WALKTEST system testing with automatic self resetting is available for mode select SIG OFF Peripherals Soft addressing of devices performed using the 850EMT programming Device addresses may be changed at the front panel addressable devices include Smoke sensors heat sensors and combination smoke heat sensors Sensor base operation is available with loop powered sounder or or with separately powered sounder Loop powered beacons and sounder beacons Single dual and multiple I O modules Relay signal monitor and separate line powered isolator modules Indoor and outdoor break glass call points Single and dual action manual stations Voltage Regulator Module 4100 5130 or 4010 9917 provides regulated DC voltage for use with Monitor ZAMs 1 ESMX Loop Interface Module Basic Reference loop with typical device types FACU shown for reference loop module compatibility applications requiring compatible Simplex FACU features to be to UL listed versions of MX Technology peripherals the ESMX Interface Module provides the necessary communications and control for up to 250 addressable MX devices per loop ESMX Loop Interface Modules can be installed for increased LEDs provide service level module status indications for earth monitoring device response and loop power Technology features Fastlogic operation for photoelectric sensors and photoelectric heat sensors This product was not ULC listed or approved by FM MEA NYC or CSFM as of document revision date Additional listings may be applicable contact your local Simplex product supplier for the latest Listings and approvals under Simplex Time Recorder Co Rev 10 7 2021 Loop Interface Modules for 4100ES and 4010ES Fire Alarm Control Units Fastlogic sensor operation Fastlogic sensor operation is an algorithm that takes into account the pattern of smoke build up over time and applies fuzzy logic to calculate the of risk This algorithm uses over 200 years of fire test data from research at the University of Duisburg Duisburg Germany to determine the that there is a real fire and is designed to achieve faster detection of real fires and slower preferably no detection of false alarm sources Fastlogic sensor basics MX Fastlogic algorithm can be described as an Expert algorithm since it uses real fire data as a basis for the alarm decision For any given we are obliged to employ the most suitable detection in terms of response to an actual fire while minimizing false alarms This general is clearly reflected in local and national standards governing fire detection system designs attempts at reducing the occurrence of false alarms have involved degrading the level of fire protection afforded either by raising the threshold of smoke sensors introducing delays or generally employing less responsive detection MX Fastlogic sensors give us the opportunity offer an improved level of protection while simultaneously increasing immunity to false alarm Fastlogic algorithm principle elements elements of the sensor output are monitored and this raw data is used by MX Fastlogic algorithm to execute a series of processes to evaluate probable presence of fire including Background filtering Instantaneous smoke density Rate of change of smoke density Smoke density weighting Smoke density peak suppression Real fire comparison synonymous with false alarms are filtered while those elements indicative of fire are weighted These results are continually compared data derived from real fires to produce a measure of fire risk It is against this risk measurement that the decision to alarm is made Sensitivity and Minimizing False Alarms Fastlogic sensors are designed to maintain sensitivity to fire while minimizing false alarms Many analog detection systems allow the user to select smoke sensor sensitivity settings e g High Normal or Low sensitivity Lowering the sensitivity setting is a typical reaction to unwanted alarms it usually means that a greater density of smoke is required to initiate an alarm This is not the case for sensors using MX Fastlogic operation which comparing the real fire experience against recognized fire patterns Changing sensitivity from to for example would delay responses to likely fire patterns while maintaining a normal response to more likely fire patterns The net result is a reduced sensitivity to possible false alarms reducing sensitivity to clearly identifiable fires Fastlogic algorithm availability Fastlogic operation is available for MX photoelectric sensors and photoelectric heat sensors These devices are used in both life protection and protection applications providing reliable early detection of real fires addressing technology sensors and addressable devices are addressed using the 850EMT programming tool which presents a simple menu driven interface that can automatically increment addresses following each write operation This simple to use soft addressing technique avoids errors that often occur when coded switches are used 850EMT programming tool can also change addresses stored in a sensor or other addressable device non volatile memory which makes errors easy to rectify information Instructions Reference Instructions Reference and 4010 9916 25 V Regulator Module Installation Instructions MX Devices 1 Additional Information to Product selection and reference 2 Rev 10 7 2021 Loop Interface Modules for 4100ES and 4010ES Fire Alarm Control Units selection and peripherals reference Loop Interface Module for 4100ES Optional Loop Mezzanine Card for FACUs Loop Interface Module for 4010ES Optional Loop Mezzanine Card for FACUs 2 ESMX Loop Interface Module the 4100ES with ES PS the module mounts in available CPU bay block spaces To power from the CPU bay to the second bay use harness 4100 0642 Order harness seperately see Table 3 The module uses only one 5 in x 4 in block up to four modules from one ES PS directly on top of the ESMX Loop Interface Module to provide a second dual Class A loop The addresses and loop power are shared between the ESMX Interface Card and the ESMX Optional Loop Mezzanine Card the 4010ES the module mounts in available CPU bay block spaces To connect from the CPU bay to the second bay use harness 4100 0642 Order the seperately see Table 3 The module uses only one 5 in x 4 in block Power to four modules from one PSU to datasheet S4010 0006 for additional mounting information directly on top of the ESMX Loop Interface Module to provide a second dual Class A loop The addresses and loop power are shared between the ESMX Interface Card and the ESM