Hello, when ordering, please let us know the style you need (433MHz, independent), and we will configure the right product for you according to your needs.
product description
The independent photoinductor smoke and fire detection alarm (hereinafter referred to as the alarm) is produced with a special structured infrared photoelectric sensor, a reliable performance MCU, and an SMT chip processing technology. It has high sensitivity, stability and reliability, low power consumption, and is beautiful and durable. , Easy to use and so on.
Application: Suitable for smoke detection and alarm in factories, homes, shops, machine rooms, warehouses and other places.
Unsuitable places:
1. Places where smoke is trapped under normal circumstances.
2. Places with large dust, water mist, steam, oil mist pollution and corrosive gas.
3. Places with relative humidity greater than 95%.
4. Places with a ventilation speed greater than 5m / s.
Features:
• Fast-sensing photoelectric sensor: stable and reliable, sensitive draft, quick alarm in the bud stage of fire
• Preferable flame retardant PVC high-strength environmental protection material, high temperature resistance, not easy to burn, excellent electrical performance, beautiful and practical
• Ultra-low power consumption, power saving, standby time is about 1 year
• Dust-proof, insect-proof, anti-white light interference design
• SMT process manufacturing, strong stability
• Easy installation: wireless design to avoid wiring trouble
Technical Parameters:
433MHz
• Rated voltage: DC3V, CR123A lithium battery
• Alarm sound pressure:> 80dB / 3m
• Quiescent current: ≤10uA
• Alarm current: ≤100mA
• Working environment temperature: -10 ℃ ~ 50 ℃
• Ambient humidity: ≤95% RH
• Installation: ceiling
• Monitoring area: 20m2
• Indicator frequency: Flash once every 60 seconds
• Output form: need to be used with the host
• Sensor type: infrared photocell
• Alarm volume: ≥85dB (within 3m)
• Wireless mode: 433MHz
• Size: 9.0x9.0x3.8cm
Product alarm principle
When the smoke enters the alarm, the light source scatters, the light receiving element feels the light intensity, and the received light intensity has a certain linear relationship with the smoke concentration. The alarm continuously collects, analyzes and judges field parameters. When the light intensity reaches a predetermined threshold, the alarm's red LED lights up and the buzzer alarm is activated. When the smoke in the environment where the alarm works is gone, the alarm will automatically return to normal working state.