The sensitivity of a pressure sensor refers to the proportional relationship between the change in the output signal of the sensor and the change in the input pressure, usually expressed in mV/V or other standardized units. Within the linear operating range of the sensor, high sensitivity means that for the same pressure change, the sensor can produce greater output signal changes, which is conducive to subsequent signal processing and measurement accuracy improvement.
However, high sensitivity is not without cost. The sensitivity of the sensor will also amplify the noise and interference signals, which will affect the accuracy of the measurement. Therefore, when modern pressure sensors are designed, they must not only pursue high sensitivity, but also take into account anti-interference ability and noise ratio to ensure that they can still provide stable and reliable data in complex situations.
Windtuner Intelligent Ethernet Intelligent Pressure Scanners is a leader in the industry, and the sensitivity design of its pressure sensor has reached a good level in the industry. Windtuner focuses on the field of flow field measurement and control. Its intelligent Ethernet Intelligent Pressure Scanners uses high-sensitivity sensing elements, which can respond quickly to small pressure changes and capture subtle pressure fluctuations in hydrodynamic tests.
Windtuner's intelligent Ethernet Intelligent Pressure Scanners are not only sensitive, but also stable, with an accuracy of 0.05% FS. This means that within the full range, the measurement error can be controlled within a very small range, which is crucial for strict scientific research experiments and industrial production.
In addition, the sensor design of Windtuner Intelligent Ethernet Intelligent Pressure Scanners pays attention to detail, by optimizing the material selection and structural layout, the impact of temperature changes and fluid property differences on the measurement results. Combined with advanced signal processing technology, Windtuner Intelligent Ethernet Intelligent Pressure Scanners can effectively suppress noise, improve signal-to-noise ratio, and ensure accurate data in various scientific research situations.
