Installation Guide for SYSTEM SENSOR models including: 52051E-RF, 52051RE-RF, 52051E-RF 52051RE-RF Wireless Thermal Fire Sensor, 52051E-RF 52051RE-RF, Wireless Thermal Fire Sensor, Thermal Fire Sensor, Fire Sensor
20 нояб. 2024 г. — DESCRIPTION. These heat sensors are battery operated RF devices designed for use with the M200G-RF radio gateway. They contain a wireless.
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DocumentDocument52051E-RF AND 52051RE-RF WIRELESS THERMAL FIRE SENSOR INSTALLATION AND MAINTENANCE INSTRUCTIONS E N G L I S H 32 mm 104 mm B501RF 70 mm 40°C -30°C 124 g + 48 g (66 g) = 238 g Figure 1: B501RF Mounting 50-60 mm M4 107 mm Figure 2: Attaching Sensor Head to Base LINE UP MARK ON SENSOR HEAD WITH BULGE ON BASE AND TURN CLOCKWISE BULGE MARK ON SENSOR HEAD Figure 3a: Activation of Tamper Resist Feature PLASTIC LEVER BREAK TAB AT DOTTED LINE BY TWISTING TOWARDS CENTRE OF BASE Figure 3b: Removing Sensor Head From Base USE A SMALL-BLADED SCREWDRIVER TO PUSH PLASTIC IN THE DIRECTION OF THE ARROW DESCRIPTION These heat sensors are battery operated RF devices designed for use with the M200G-RF radio gateway. They contain a wireless transceiver and run on an addressable fire system (using a compatible proprietary communication protocol). The 52051E-RF provides fixed 58oC temperature sensing (A1S). The 52051RE-RF provides 58oC rate-of-rise (10oC/minute) temperature sensing (A1R). The sensors plug into the B501RF wireless base. These devices conform to EN 54-25 and EN 54-5 (categories A1S and A1R). They comply with the requirements of 2014/53/EU for conformance with the RED directive. SPECIFICATIONS Supply Voltage: 3.3 V Direct Current max. Standby Current: @ 3 V: 120 µA (typical in normal operating mode) Red LED Current Max: 4 mA Re-sync time: 35 s (max time to normal RF communication from device power on) Batteries: 4 x Duracell Ultra123 or Panasonic Industrial 123 Battery Life: 4 years @ 25oC Radio Frequency: 865-870 MHz RF output power: 14 dBm (max) Range: 500 m (typ. in free air) Relative Humidity: 10% to 93% (non-condensing) INSTALLATION This equipment and any associated work must be installed in accordance with all relevant codes and regulations. Figure 1 details the installation of the B501RF base. Spacing between radio system devices must be a minimum of 1 m Figure 2 details attaching the sensor head to the base. Anti-Tamper Features The base includes a feature that, when activated, prevents removal of the sensor from the base without the use of a tool. See Figures 3a and 3b for details on this. Head Removal Warning - An alert message is signalled to the CIE via the Gateway when a head is removed from its base. Figure 4 details the battery installation and the location of the rotary address switches. Important Batteries should only be installed at the time of commissioning Warning Using these battery products for long periods at temperatures below -20°C can reduce the battery life considerably (by up to 30% or more) Observe the battery manufacturer's precautions for use and requirements for disposal Only use the batteries recommended in this manual and do not mix batteries from different manufacturers SETTING THE ADDRESS Set the loop address by turning the two rotary decade switches on the underside of the sensor (see figure 4), using a screwdriver to rotate the wheels to the desired address. The device will take one sensor address on the loop. Select a number between 01 and 159 (Note: The number of addresses available will be dependent on panel capability, check the panel documentation for information on this). D200-302-00 Honeywell Building Technologies, Building 5 Carlton Park, King Edward Avenue, Narborough, Leicester LE19 3EQ I56-3891-004 Figure 4: Battery Installation and Rotary Address Switches +1 +3 2+ 4+ ROTARY ADDRESS SWITCHES 4a NOTE Do not run more than one interface at a time to commission devices in an area. + NOTE POLARITY PROGRAMMING To load network parameters into the RF sensor, it is necessary to link the RF gateway and the RF sensor in a configuration operation. At commissioning time, with the RF network devices powered on, the RF gateway will connect and program them with network information as necessary. The RF sensor then synchronises with its other associated devices as the RF mesh network is created by the gateway. (For further information, see the Radio Programming and Commissioning Manual - ref. D200-306-00.) LED INDICATORS AND FAULT DESCRIPTION Sensor Status LEDs Sensor Status Power-on initialisation (no fault) Fault Un-commissioned Sync Normal Idle (low power mode) The radio sensor has two LED indicators that show the status of the device. LED State Long Green pulse 3 Green blinks Blink Amber every 1s. Red/Green double-blink every 14s (or just Green when communicating). Green/Amber double-blink every 14s (or just Green when communicating). Controlled by panel; can be set to Red ON, periodic blink Red or OFF. Amber/Green double-blink every 14s Meaning Device is un-commissioned (factory default) Device is commissioned Device has an internal trouble Device is powered and is waiting to be programmed. Device is powered, programmed and trying to find/join the RF network. RF communications are established; device is working properly. Commissioned RF network is in standby; used when the gateway is powered off. Magnet test 1s green pulse when test magnet activates the internal switch. Device signals Alarm, all delays are removed for 10 minutes. 4b 4d LINE ON BASE TEST MAGNET 4c Figure 5: Test Magnet Position EU Declaration of Conformity Hereby, Honeywell Products and Solutions Sàrl declares that the radio equipment types 52051E-RF and 52051RE-RF are in compliance with directive 2014/53/EU The full text of the EU DoC is available at the following internet address: https://www.systemsensoreurope.com/products/category/ wireless-fire-systems/ 0359 22 0333 16 52051E-RF DOP-IRF003 52051RE-RF DOP-IRF004 Honeywell Products and Solutions Sàrl (Trading as System Sensor Europe) Zone d'activités La Pièce 16 CH-1180 ROLLE, Switzerland EN 54-25: 2008 / AC: 2010 / AC: 2012 Components Using Radio Links. EN 54-5: 2017 + A1: 2018 Categories A1S and A1R Heat Detectors for use in fire detection and fire alarm systems for buildings. TESTING Magnet Test A correctly positioned test magnet will generate an alarm. Position the magnet (M02-04-00) as shown in Figure 5, after identifying the straight line ridge on the sensor base. To aid positioning, the sensor LEDs will turn on green for 1s when the alarm switch activates. Direct Heat Testing (Hair dryer of 1000-1500 watts). Aim the heat toward the sensor from the side. Keep the heat source about 15 cm away to prevent damage to the cover during testing. The sensor should signal an alarm to the CIE via the Gateway when the temperature at the sensor reaches 58°C. Following testing, reset the alarm indication at the CIE (fire panel). CLEANING Use a vacuum cleaner and/or clean, compressed air to remove dust and debris from the thermistor and sensor cover as required (take care to avoid damaging the thermistor). Note When replacing batteries, all 4 will need to be replaced LIMITATIONS OF HEAT SENSORS These heat sensors will only work when connected to a compatible control panel. Heat detectors have operating limitations. They will not sense fires where heat does not reach the sensor, and may respond differently to varying heat conditions. Consideration must be given to the environment when selecting and siting fire sensors. Heat sensors cannot last forever, and we recommend replacement after 10 years. Patents Pending D200-302-00 Honeywell Building Technologies, Building 5 Carlton Park, King Edward Avenue, Narborough, Leicester LE19 3EQ I56-3891-004