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0 <br />A Advat­�i(,,_-.,e(J <br />A 0 <br />xis AX [lite 111gerit" photoelectrlc, Detef"Jor <br />The low -profile Intelligent Photoelectric Detector, with built-in <br />dedicated microprocessor, offers a wide range of capabilities to <br />suit any commercial, industrial, or institutional application. <br />Distinguished by it's clear dual -alarm LEDs which illuminate red <br />during alarm, the detector provides a complete 360 0 view of <br />device status. The detector's dual -alarm LEDs can also be <br />programmed for flashing during quiescent mode. <br />The Intelligent Photoelectric Detector incorporates a unique <br />industry method of addressing the detector. Each detector is <br />individually addressed through it's associated base by a patented <br />address ("XPerT") card. The address is quickly and easily set by <br />removing "pips" on the XPerT card according to a chart supplied <br />with each base. Once the address is set on the XPerT card, it can <br />be slid into place and locked into the detector base. By addressing <br />the detector at the base rather than internally to the detector, the <br />all -too -common errors associated with detector removal and <br />maintenance are eliminated. <br />Designed to adapt to changing environments and protect against <br />unwanted false alarms, the response characteristics of the <br />detectors have been carefully set to comply with the stringent <br />requirements of UL 268 and NFPA 72. Each detector is <br />continuously monitored and tested for proper sensitivity and <br />operation. If a problem is detected with either the device's <br />sensitivity or proper operation, a trouble or maintenance signal is <br />reported back to the fire alarm control panel. In addition, the <br />detector will compensate for any sensitivity drift of the initial <br />programmed response/sensitivity value due to environmental <br />contamination and/or dust build-up. Each detector will maintain the <br />initially set sensitivity at a constant level even when the chamber is <br />severely contaminated. When compensation levels exceed normal <br />values, a maintenance signal will be generated. <br />In addition to the detector's superior false alarm reduction <br />features, each detector is capable of being field programmed for <br />one of five response/sensitivity modes (see Table 1). <br />Response modes correspond to unique response behaviors of a <br />detector and the type of environment it is protecting, which can be <br />broadly related to the characteristics of a fire. The detector <br />response modes relate to different combinations of smoke <br />sensitivity characteristics and transient rejection/stabilization times <br />(see Table 2). Response mode 1 is more sensitive than response <br />mode 5. Detectors set to response mode 1 would be for <br />environments in which sources of unwanted alarms are rare. <br />Response mode 5 set detectors would be suitable for more dusty <br />or smoky environments (i.e.: factory, light industry areas). <br />Response mode 3 (default programmed) would be the <br />mid -sensitivity level used for most normal ionization detector <br />applications. <br />W <br />Patented XPerT Detector Base Addressing <br />Built-in Dedicated Microprocessor <br />Five Selectable Response/Sensitivity Modes <br />Ten 7-Day Response/Sensitivity Mode Timers <br />Sub -Addressing of Ancillary Functions <br />Dual -Alarm LEDs with 360 0 View <br />* 100% Digital Communication Protocol <br />* Integral XPerT Card Address Labeling Tab <br />. ETL ANSIIUL 864 Listed: 101 564744NYM-001 <br />. UL file: UOXX.S5022 / ML file: S24459 <br />CSFM Approved: 7271-1713:104 <br />NYC MEA: 294-95-E-4 <br />