Bathroom occupancy sensor

Bathroom Occupancy Sensor VS330

Bathroom Occupancy Sensor VS330

The VS330 is an innovative LoRaWAN® bathroom occupancy sensor, integrating Time-of-Flight (ToF) and Passive Infrared (PIR) technologies. It excels in monitoring the occupancy status of bathrooms with over 99.5% accuracy, ensuring complete anonymity and efficient power consumption.

Applications or Uses

The VS330 Bathroom Occupancy Sensor is perfect for use in public restrooms, office buildings, and other facilities requiring precise occupancy monitoring. It provides reliable data for managing restroom usage, improving cleanliness, and optimizing maintenance schedules.

Advantages of Using the Product

Using the VS330 Bathroom Occupancy Sensor offers several benefits, including high accuracy of over 99.5% due to its advanced ToF and PIR technologies. It ensures privacy with no image capturing, offers long battery life of approximately 4 years, and provides real-time updates. The sensor is easy to install with a ceiling or wall mount and features an adjustable sensor angle for optimal performance. Its compatibility with standard LoRaWAN® gateways and network servers further enhances its usability.


  • Wireless Protocol: LoRaWAN®
  • Frequency Range: Multiple bands including EU868, US915
  • Sensing Technologies: Time-of-Flight (ToF), Passive Infrared (PIR)
  • Detection Accuracy: Over 99%
  • Power: 3 x 4000 mAh ER18505 Li-SOCl2 batteries, approximately 4 years lifespan
  • Operating Conditions: Temperature -20°C to 60°C, Humidity 0-95% (non-condensing)
  • Ingress Protection: IP30
  • Dimensions: Ф100 x 24 mm
  • Installation: Ceiling or wall mount, adaptable sensor angle
  • Features: Damp-proof coating, real-time updates, adjustable sensor angle, easy configuration via NFC, compatible with standard LoRaWAN® gateways and network servers


The VS330 Bathroom Occupancy Sensor is a highly accurate, GDPR-compliant solution for bathroom occupancy monitoring, offering long battery life, easy installation, and robust performance in various environmental conditions.