Sensore presenza microonde 24GHz incasso nero 6m Kanlux
Sensore presenza microonde 24GHz incasso nero 6m Kanlux
Disponibile in magazzino (10+)
per questo prodotto con il programma fedeltà BravoLove. Accedi
- Consegna tra il 17 Luglio e il 21 Luglio
Descrizione
Descrizione
The Kanlux PRESENSOR 24GHz is a recessed microwave presence sensor designed to manage automatic lighting control with significantly higher sensitivity than typical microwave detectors. Thanks to 24GHz technology, it can detect not only walking movement, but also small micro-movements (such as working at a desk) and even static presence (for example when watching TV). This makes it an excellent choice for spaces where comfort, safety, and energy savings depend on keeping lights on only when people are truly present.
Built for indoor ceiling recessed installation, this model features a modern black finish and a wide 360° horizontal detection angle, offering reliable coverage in corridors, offices, bathrooms, utility rooms, and living areas. With adjustable settings for time delay and ambient light sensitivity (lux), you can fine-tune switching behavior to match the room’s usage and daylight conditions—helping to reduce wasted energy while maintaining a seamless lighting experience.
- Sensor type: 24GHz microwave presence detector for advanced detection performance
- Detection coverage: 360° horizontal angle with up to 6 m range
- Time adjustment: configurable from 10 seconds to 12 minutes
- Light sensitivity (LUX): adjustable from 3 to 2000 lx
- Max load: supports lighting circuits up to 1200 W (depending on installation conditions)
- Power supply: 220–240 V, 50 Hz
- Ingress protection: IP54/20 for added protection in demanding interior areas
- Build & finish: durable plastic housing in black
- Dimensions: approx. 7.6 × 7.6 × 6.6 cm; weight 0.096 kg
- Warranty: 2 years
Choose the Kanlux PRESENSOR recessed 24GHz microwave sensor when you want a professional solution for smart lighting automation—ideal for improving comfort, enhancing security, and optimizing electricity consumption. It is particularly effective in areas where traditional sensors may switch off too early because they fail to register subtle movements, ensuring your lighting stays responsive to real-life presence.