GFE-SWR Flame Detectors

UG-7/Std-H Smoke Detector Housing High Lid:

• GFE-SWR flame detector range utilizes a microprocessor for sophisticated electronic signal analysis. Its advanced discrimination technology and rugged construction makes it suitable for almost all installations scenarios as it’s presented in application table below.
• GFE-SWR-UV flame detector is suitable for indoor applications, such as fume hoods and hydrogen storages. Because of its non-corrosive housing it is suitable for indoor industrial areas where corrosion may occur. UV light is emitted in practically every fire, both hydrocarbon and non-hydrocarbon fires.
• GFE-SWR-UVIR flame detector is a combination of UV and IR detections, it uses an additional alarm criterion: the analysis of the flame flicker frequency. The UV and IR sensor must both exceed their alarm threshold to initiate a fire alarm. The GFE-SWR-UVIR flame detector has a good false alarms immunity since the UV and IR sensor do not share false alarm sources.
• GFE-SWR-IR3 flame detector must exceed its alarm threshold to initiate a fire alarm. The GFE-SWR-IR3 flame detector also use additional alarm criterion: the analysis of the flame flicker-frequency. This version also exhibits good false alarm rejection capabilities.

Key Features:

• Suitable for heavy and light Hydrocarbons such as Gasoline, Diesel, Methanol and Ethanol
• Resistant to artificial and sunlight
• Suitable for indoor and outdoor applications
• GRP IP65 housing
• Relay output for Alarm and Fault conditions
• CPR/EN54-10 certified
• ATEX zone 2/22 certified
• FM3260 & 3611 Approvals
• Rugged sensors make the detector suitable for virtually all fire types
• Sophisticated software enhances the reliability and availability of the detector
• Design of the housing and the swivel mount avoid mounting errors with regards to grounding
• Automatic Sensor Test (Built-in Self-Test) enhances the reliability and availability of the flame detector
• Pressure Compensating Element avoids additional cost of maintenance caused by moisture build up and increases the life time.

Technical Specification:

• POWER:- 12-24 Vdc (10-28 Vdc)
• CURRENT NORMAL:- 25 mA at 24 Vdc
• CURRENT IN ALARM (24 Vdc):- +/- 75 mA at 24 Vdc
• STARTUP TIME:- <10 sec
• ALARM OUTPUT SETTING:- Selectable LEDs and relays latching/non latching, factory setting: latching
• RELAY OUTPUTS / ALARM RELAY:- De-energized during normal operation, no alarm, SPDT, 30 Vdc – 2 A, 60 W max.
• RELAY OUTPUTS / FAULT RELAY:- Energized during normal operation, no fault, SPDT, 30 Vdc – 2 A, 60 W max.
• CURRENT OUTPUT:- Standard available 0-20 mA (stepped, sinking, non-isolated)
• ALARM RESPONSE TIME:- < 8 sec.
• CONE OF VISION:- 90º minimum
• HOUSING:- Glass Reinforced Polyester (GRP), Lid screw tightening torque 2 nm minimum
• INGRESS PROTECTION:- IP65
• OPERATING TEMPERATURE:- -40ºC to 70ºC
• AMBIENT TEMPERATURE:- ATEX and FM class 3611: -25ºC to 70ºC
• AUTOMATIC AND MANUAL SELF-TEST:- Automatic Sensor Test (Built in Self-Test) and manual self-test
• DETECTION RANGE GFE-SWR-UV & GFE-SWR-UVIR:- 17 m (n-heptane; 33×33 cm); 25m (alcohol; 50×50 cm)
• GFE-SWR-IR3:- 35 m (n-heptane; 33×33 cm); 35 m (alcohol; 50×50 cm)
• DIMENSIONS:- 125 x 80 x 57 mm
• WEIGHT:- 465 g
• COLOR:- Red & White
• CABLE GLAND:- M20 (cable conduit diameter 5.5-13 mm, two steps 5.5-8 mm and 8-13 mm)
• PRESSURE COMPENSATING ELEMENT:- PCE (Pressure Compensating Element) avoids moisture build up in the detector housing, caused by pressure differences as a consequence of temperature fluctuations
• TERMINALS:- Suitable for massive cores 0.5 to 1.5 mm² (24 to 16 AWG), tightening torque 0.4 Nm minimum
• (OPTIONAL) GFE-SWR-BKT MATERIAL:- PA66, 316SS nuts and bolts
• (OPTIONAL) GFE-SWR-BKT WEIGHT:- 280 g