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In medical care, decubitus prevention systems demand strict pressure monitoring. A sensor that delivers precise, stable pressure readings enables real-time adjustments in mattresses or support devices. The WF100E series, with its MEMS-based design and CMOS mixed-signal processing, offers high accuracy and minimal drift making it an ideal solution for customers looking for both performance and cost-effectiveness.
1. Product Overview
The WF100E series is designed for both medical and consumer applications. Operating on a 5V supply with an output range from 0.5V to 4.5V, the sensor delivers a conditioned analog signal ready for pressure measurement. Its compact SOP6 package simplifies system integration, providing a stable monitoring solution for decubitus prevention.
2. Technical Features
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With an accuracy of ±1 full scale and a zero drift of only ±0.03 FS/°C, the sensor delivers reliable data even in environments with significant temperature fluctuations.
Temperature Compensation
The sensor operates within a wide temperature range from -40°C to 125°C, ensuring stability over long-term use.
Output Conversion
Using the formula: Pressure (kPa) = (Voltage – 0.5V) / 0.04, users can directly convert the sensor’s output into accurate pressure readings.
3. User Experience
Feedback from real world applications reveals that this sensor responds swiftly and maintains stable data, effectively helping care devices adjust pressure distribution in real time. Users appreciate its high sensitivity, which not only improves monitoring accuracy but also preempts potential discomfort or injury from excessive localized pressure.
4. Cost Effectiveness and Market Adaptability
Balancing price and performance is crucial for many medical institutions and smart home markets. The WF100E series delivers exceptional technical performance at a reasonable cost, making it accessible to a wide range of customers. For those with budget constraints yet high standards, this sensor offers excellent value without compromise.
5. Integration and Ease of Use
Thanks to its SOP6 package, the sensor can be directly mounted onto standard PCB without the need for extra compensation circuitry. This results in a straightforward installation process and reduced maintenance, lowering both technical barriers and long term operating costs.
6. Application Feedback
Field deployments have shown that integrating the WF100E sensor into decubitus prevention systems leads to more stable operation and real-time pressure monitoring. Many customers bulk procurement and feedback that the sensors performance remains outstanding over prolonged use, affirming its reliability in everyday environments.
Conclusion
Overall, the WF100E series pressure sensor offers an effective pressure monitoring solution for decubitus prevention systems by combining precise measurement, temperature compensation, and easy integration. For users who value long term stability and reasonable cost, this product strikes the perfect balance between technology and practical application—delivering both professional performance and real-world reliability.
The above introduction only scratches the surface of the applications of pressure sensor technology. We will continue to explore the different types of sensor elements used in various products, how they work, and their advantages and disadvantages. If you’d like more detail on what’s discussed here, you can check out the related content later in this guide. If you are pressed for time, you can also click here to download the details of this guides air pressure sensor product PDF data.
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