Temperature Sensor
Redefining the Standard for Body Temperature Sensing
The New Standard in Precision,
Hygiene, and Compactness
Miniature Contact &
Non-Contact Sensor Options
Fast and Accurate Temperature Detection
Low Power Consumption & High Durability
Contact Temperature Sensing
Form-Fit for Wearables
Measuring just 3.0 × 4.9 × 0.96 mm, this sensor is ideal for integration in a wide range of compact health monitoring devices.
Direct Skin Contact for Higher Fidelity
Applies directly to the skin to minimize external interference and enable high-precision bio-signal tracking.
Ultra-Low Power Operation
Operates at an average of just 10μW (3.3V), maximizing battery life for uninterrupted monitoring.
Fast, High-Precision Response
Quick detection of real-time temperature changes with an impressive ±0.5°C accuracy.
Non-Contact Temperature Sensing
Broad Applications Across Industries
Medical Monitoring
Enables accurate and non-contact fever detection—ideal for infectious disease screening like COVID-19.
Wearable Health Tech
Used in smartwatches and fitness trackers for continuous health tracking, providing holistic health insights through temperature and heart rate data.
Industrial Safety & Equipment Monitoring
Helps prevent equipment failure or worksite accidents by detecting overheating in machinery or workers in real-time.
Smart Manufacturing
Ensures process control and quality assurance by detecting even minor temperature shifts in sensitive production lines.
Building & Facility Management
Tracks temperature data to optimize energy usage and maintain comfort in smart building environments.
See Where Temperature Sensors
Make a Difference
Industrial Devices
Supports temperature-sensitive equipment in diverse manufacturing and automation environments.
Smart watch
Put the smart watch in sleep mode when not detached from the user and not in use.
Technical Specifications
FAQ
Explore frequently asked questions about Temperature Sensor.
1
Where are temperature sensors most commonly used?
They're widely used in medical wearables, industrial safety systems, manufacturing control, and smart buildings.
2
What’s the difference between contact and non-contact temperature sensors?
Contact sensors attach directly to the skin for stable and high-accuracy readings, while non-contact IR sensors measure body heat from a short distance—enabling more hygienic usage.
3
How does low power design benefit wearables?
With power consumption under 10μW, the sensor maximizes battery life and supports continuous use—making it ideal for lightweight, portable wearables.
