| Description |
- Includes a 1A @ 24 VDC relay controlled by detector’s remote LED output
- Ideal for switching CCTV, security and door retaining systems
- Third-party certified to the relevant parts of EN54 in conjunction with our ActiV detectors
- Easy to fit with lots of working space
- Can be ceiling mounted in any orientation due to the true 360° degree viewing angle of the LED indicator strips on all ActiV detectors
- Integrated detector/base locking mechanism, head removal tool and ID tag
- Simple ‘click and twist’ design
- Remote LED terminals for the optional connection to a BF318 Remote indicator
- C4408R non-diode relay base also available for use on systems that do not require head out monitoring
| The Enhanced Infinity ID2 detector provides a comprehensive and customizable fire detection solution with its wide range of detection options... |
- Battery operated CO (carbon monoxide) alarm.
- Powered by a sealed Lithium Battery with 10 year life.
- Self test on sensor & self diagnostic.
- Advanced long life.
- Electrochemical sensor.
- Reset feature.
- Low battery warning.
- Power/alarm indicator.
|
- Battery operated smoke alarm.
- Loud 85dB alarm.
- 9v Battery included.
- Insect proof.
- Test button.
- Low battery warning.
- Easy installation.
| Low profile or deep diode mounting base for the Fyreye MKII range of conventional detectors. | The self-extinguishing case of this detector houses a pair of negative temperature co-efficient thermistors to sense heat – one exposed to the ambient temperature and the other thermally insulated. |
| Content | ActiV Relay Base with Diode
The C-Tec C4408DR ActiV Relay Base with Diode is compatible with C-TEC’s entire range of ActiV fire detectors. | Introducing the Enhanced Infinity ID2 Detector with Optional Integral Sounder
The Enhanced Infinity ID2 detectors are designed to provide superior fire detection capabilities, offering various options to cater to fire detection needs. Available in multiple configurations, these detectors are equipped with advanced technology to ensure reliable and efficient fire detection. Moreover, they now have the added option of an integral sounder for enhanced alarm notification.
Optical Smoke Detection:
The Infinity ID2 detector is equipped with an advanced optical smoke sensor that utilizes state-of-the-art technology to detect the presence of smoke particles. This highly sensitive sensor can promptly detect even the smallest smoke particles, ensuring early fire detection and minimizing the risk of false alarms.
Rate or Rise Heat Detection:
The Rate or Rise Heat detection option is ideal for areas prone to fast-developing fires. The Infinity ID2 detector utilizes a high-precision heat sensor that can quickly detect sudden temperature increases or a rise above a predefined threshold. This enables rapid fire detection, ensuring swift response and early fire suppression.
Fixed Heat Detection:
In environments where slow-developing fires are more likely, the Fixed Heat detection feature of the Infinity ID2 detector is invaluable. The fixed heat sensor is designed to detect a gradual increase in temperature over time, accurately identifying fire hazards and initiating the necessary actions to mitigate the risk.
Combined Optical & Heat Detection:
The Infinity ID2 detector offers a combined Optical & Heat detection option to provide comprehensive fire detection capabilities. This dual-sensor configuration combines optical smoke and heat detection advantages, ensuring optimal performance in diverse fire scenarios. The synergy between the two sensors increases the reliability and accuracy of fire detection, enabling early and precise fire alarm activation.
Optional Integral Sounder:
The Enhanced Infinity ID2 detector now offers an optional integral sounder, greatly enhancing alarm notification capabilities. When the detector detects a fire, the integral sounder is triggered, emitting a loud and attention-grabbing sound to alert occupants. This additional audio alert ensures that people are promptly notified of the fire hazard, facilitating quick evacuation and minimizing potential risks.
The Enhanced Infinity ID2 detector provides a comprehensive and customizable fire detection solution with its wide range of detection options and the optional integral sounder. These detectors are designed to ensure the highest safety and peace of mind in various environments, including residential, commercial, and industrial settings. Stay protected with the Enhanced Infinity ID2 detector, offering advanced fire detection and alarm features for maximum safety. | Hispec Battery Operated Carbon Monoxide Alarm with 10 Year Lithium Battery
The HSA/BC/10 from Hispec is a standalone CO (carbon monoxide) alarm with sealed 10 year lithium battery. | Hispec Battery Operated Smoke Detector
The HSA/BP from Hispec is a standalone battery-operated smoke alarm. | Fyreye MKII Diode Base in Black
Low profile or deep diode mounting base for the Fyreye MKII range of conventional detectors. | Apollo Series 65 Conventional Heat Detector
Apollo Series 65 Heat Class A1R
The Apollo Series 65 Heat Class A1R is a rate of rise (ROR) heat detector. The self-extinguishing case of this detector houses a pair of negative temperature co-efficient thermistors to sense heat – one exposed to the ambient temperature and the other thermally insulated.
In normal conditions, the thermistors will be in thermal equilibrium. If there's a fire, the external thermistor will record an increase of temperature resulting in lower resistance – this resistance imbalance will cause the detector to activate an alarm if it reaches a factory pre-set level.
There is also a fixed resistor in the detector. When the resistance level of the resistor and the insulated thermistor combined is greater than that of the exposed thermistor, an alarm will be activated. This gives you confidence that an alarm will still be triggered even if the temperature rise is too slow to activate the ROR part of the detector. The maximum static response temperature of this heat detector is 65°C.
Upon entering an alarm state, the external red LED will illuminate for quick identification. A signal is sent to the conventional fire alarm system control panel via an increased current drawn from the supply.
Apollo Series 65 Heat Class BR
The Apollo Series 65 Heat Class BR measures heat's rate of rise (ROR). A rapid and significant increase in heat generally means a fire is in the vicinity.
This heat detector houses two thermistors to monitor the temperature of the surrounding environment – one is thermally insulated, whereas the other is exposed to the air around the detector. Under normal circumstances, both thermistors will be of an equal thermal state.
When the air temperature outside the heat detector rises, the external thermistor will experience a drop in resistance. At the point at which the imbalance in resistance between the two thermistors reaches a pre-set level, an alarm will be triggered.
If the temperature rise is very slow and gradual, this method of heat detection will not always work. A fixed resistor has also been built into the detector to prevent an alarm from being missed. If the resistance level of the insulated thermistor and the resistor together exceeds that of the external thermistor, an alarm will also be activated. This will occur when the external temperature reaches 85°C.
In both cases, a signal will be sent to the conventional fire control panel in the form of an increase in current drawn by the detector from the supply. An external LED will illuminate red to indicate the detector has been activated.
Apollo Series 65 Heat Detector CS Static 80°C To 100°C
The Apollo Series 65 Heat Detector CS Static 80°C to 100°C is a fixed heat detector. The self-extinguishing case of this detector houses just one thermistor, which will activate an alarm state when the air temperature in the surrounding vicinity reaches a pre-set level – in this static heat detector; the temperature will have to be reached before an alarm is triggered in 100°C.
Upon detecting that the temperature has reached or exceeded this level, the Apollo Series 65 CS heat detector will signal the conventional fire alarm system control panel. This signal takes the form of the detector drawing more current from the supply than usual – anywhere from about 50μA to a maximum of 75mA.
During an alarm state, a light-emitting diode (LED) on the exterior of the heat detector's white self-extinguishing polycarbonate housing will illuminate red to indicate that it has detected heat from the fire.
Apollo Series 65 Heat Detector CR Rate of rising 80°C to 100°C.
Rate of rise (ROR) heat detectors measure the rapid increases in temperature resulting from a fire in the immediate area. The Apollo Series 65 Heat Detector CR is one example of this ROR heat detector.
Two negative co-efficient thermistors in the detector monitor the surrounding ambient temperature and any change. One thermistor is exposed to the ambient air temperature, while the other is thermally insulated as a control. When conditions are normal, these thermistors will be in thermal equilibrium.
If there's a fire, the temperature rise will cause the resistance of the external thermistor to drop. The detector records this resistance imbalance, and an alarm will be triggered if it reaches a pre-set level.
If the temperature rise is too slow to be recorded, a fixed heat resistor is also included in the detector. If the resistance of the external thermistor is less than that of the insulated thermistor and the resistor combined, an alarm will be activated. In this Apollo Series 65 heat detector, the maximum static temperature before the alarm signal is sent is 100°C. An external LED will illuminate red when an alarm signal has been sent to the conventional fire alarm control panel. |
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