HeartSensor HRS-06UF USB Finger-Clip Pulse Wave Sensor
Multi-purpose finger-clip pulse wave sensor for both consumer and professional health and medical research applications
Digital Pulse Wave Sensor for finger placement
HeartSensor HRS-06UF is the best solution for frequent and quick tests based on pulse measurement. Its original design makes it very easy to place on any finger. Its thin and light USB cable makes it possible to put on finger in both directions for highest comfort especially for women with long nails. Its high fidelity makes it suitable for professional medical and research applications.
- Compact and elegant design
- Easy-to-use and comfortable for extended wear
- Very light, thin and durable USB cable
- Fully digital high-precision pulse wave measurement
- High-quality light interference suppression
- Real-time pulse wave recording
- Built-in heart rate calculation
- No battery required, powered from USB port
|Weight (with cable)||0.5 oz (15 g)|
|Dimensions||1.2 x 1.0 x 0.9 in
(30 x 25 x 22 mm)
|Signal Bandwith||0.5 - 30 Hz|
|A/D conversion||16 bit|
|Sampling rate||300 Hz|
|Housing||Stable easily cleanable ABS plastic|
|Operating temperature||50 … 104F (+10 ~ +40 C)|
Software Development Kit (SDK)
SDK for the HeartSensor HRS-07UE device allows for quick and seamless integration of the heart rate monitoring functionality with custom applications and solutions.
The Heart Sensor HRS-07UE SDK enables software developers creating custom solutions without any special knowledge of biomedical measurements. It provides you with real-time digital pulse wave signal as well as stream of instantaneous heartbeat intervals.
The Heart Sensor HRS-07UE SDK includes:
- Sensor technical description
- Programmer's guide
- API Library for Windows
- Demo application source code
These materials provide everything needed to integrate our sensors into your custom software solutions for Windows platform.
Our staff is always available for technical assistance should you have any need for help with software development or device integration.