ENEA series detectors, as a result of advanced technologies based on new-generation microprocessors, represent the most advanced technology that fire detection equipment can offer today.
They provide a vast spectrum of options and flexible functions, all configurable from the control panel (Versa++ technology). ENEA series detectors are capable of implementing a sophisticated set of algorithms, custom created by Inim’s R&D professionals, which ensure unequalled reliability and the highest immunity to false alarms.
Thanks to INIM’s leading-edge LoopMap technology, you can now connect to the control panel by means of a computer or EDRV1000 driver and reconstruct the exact installation topology and obtain an easy-to-use, interactive loop layout map which greatly simplifies and speeds up searches relating to faults and maintenance work.
These detectors have passed - with flying colours - all the tests taken at the LPCB test facility, the prestigious English certification service. And, thus hold the right to use this mark in addition to the obligatory CPD certification for the commercialization of fire detectors.
ENEA series detectors, as a result of advanced technologies based on new-generation microprocessors, represent the most advanced technology that fire detection equipment can offer today.
They provide a vast spectrum of options and flexible functions, all configurable from the control panel (Versa++ technology). ENEA series detectors are capable of implementing a sophisticated set of algorithms, custom created by Inim’s R&D professionals, which ensure unequalled reliability and the highest immunity to false alarms.
Thanks to INIM’s leading-edge LoopMap technology, you can now connect to the control panel by means of a computer or EDRV1000 driver and reconstruct the exact installation topology and obtain an easy-to-use, interactive loop layout map which greatly simplifies and speeds up searches relating to faults and maintenance work.
These detectors have passed - with flying colours - all the tests taken at the LPCB test facility, the prestigious English certification service. And, thus hold the right to use this mark in addition to the obligatory CPD certification for the commercialization of fire detectors.
Parameter |
ED100 |
ED200 |
ED300 |
Operating voltage |
19-30 Vdc |
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Consumption during standby |
200 uA |
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Consumption during alarm |
Max 10 mA |
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Sensitivity |
0.08 – 0.10 – 0.12 – 0.15 dB/m |
A1R (58°C + RoR) – B (72°C) – BR(72°C + RoR) – A2S (58°C) |
0.08 – 0.10 – 0.12 – 0.15 dB/m ------------------------------------- A1R (58°C + RoR) – B (72°C) – BR(72°C + RoR) – A2S (58°C) ----------------------------------------- AND –OR – PLUS Mode |
Operating temperature |
-5°C + 40°C |
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Height including base |
46mm |
54mm |
|
Diameter |
110mm |
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Weight (with base) |
160g |
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Weight (without base) |
90g |
Main Features
- Newly designed optical chamber with sealed upper-part and 500 μm holes diameter mesh insect screen.
- Tricolour LED: Red for alarm; Green flash for standby (optional) and for identification after manual activation from the control panel; Yellow for trouble (fault or high level of contamination in the optical smoke chamber)
- Integrated short-circuit isolator.
- Up to 240 devices connectable to the loop.
- Automatic addressing (each device is identified by a factory-assigned serial number).
- Supervised remote output configurable from the control panel.
- Automatic recognition of remote signaller connection.
- Drift compensation for sensor drift caused by dust in the chamber.
- Sensitivity selection for smoke and heat thresholds.
- Operating mode selection (for ED300 version): Only smoke; Only Heat.
- AND mode; OR mode; Plus mode.
- Complete Diagnostics: view the contamination level in the optical chamber and verify real-time values.
- Memory of the smoke and temperature levels measured in the five-minute period prior to the last alarm detected.
- Vast range of options.
- Bypass plate on base guarantees continuity in the event of removal of the detector from the line.