Material analysis of the Philips Hue Contact Sensor confirms a robust mounting architecture that supports both adhesive and mechanical screw-fixation. Technical specifications indicate the use of a custom Silicon Labs chipset optimized for Zigbee 3.0 and Matter-over-Bridge compliance. Unlike standard coin-cell peripherals, this unit is powered by a CR2 battery, providing higher milliamp-hour capacity and increased voltage stability in varying thermal conditions.
Aggregated specification data reveals a secondary integrated ambient temperature sensor, allowing for concurrent environmental monitoring alongside entry state detection. Operational throughput is optimized for the Hue Bridge environment; while the Zigbee 3.0 protocol is utilized, firmware updates and advanced reporting metrics are managed via the proprietary controller. Structural dimensions are larger than minimalist competitors to accommodate the high-capacity power cell.
System reporting confirms that full functional depth, including temperature data and Matter routing, is contingent upon the presence of a dedicated ecosystem bridge.
Performance metrics indicate that this dual-action hardware supports both lighting automation triggers and security-state reporting within a unified software suite. The inclusion of mechanical spacers allows for standardized gap tolerances across irregular door frame geometries.
The Philips Hue Smart Contact Sensor serves as a high-capacity alternative for users who prioritize battery longevity and environmental sensing over a minimal footprint.
For more advanced architectural alternatives, this unit belongs to the professional-grade contact sensors category designed for multi-variable home monitoring.
