Basic pressure transducers, also known as pressure sensors or pressure transmitters, are devices used to measure fluid pressure in various applications. They operate on the principle that pressure applied to a certain surface area creates a force, which can then be converted into an electrical signal that represents the pressure being measured. There are several types of pressure transducers, but one common method is based on the piezoresistive effect. Here's how basic pressure transducers typically work:
Piezoresistive Effect: Many pressure transducers use the piezoresistive effect, which is the change in electrical resistance of certain materials when subjected to mechanical strain or stress. Silicon is commonly used for this purpose because it exhibits piezoresistive properties and can be easily processed to create a sensitive and reliable pressure sensor.
Diaphragm and Wheatstone Bridge: The core component of a pressure transducer is a diaphragm, typically made of a piezoresistive material like silicon. The diaphragm is a thin, flexible membrane that is exposed to the fluid pressure being measured. As the fluid pressure changes, the diaphragm deforms slightly due to the applied force. This deformation causes a change in the resistance of the piezoresistive material.
Wheatstone Bridge Circuit: The pressure-sensitive diaphragm is connected to a Wheatstone bridge circuit. A Wheatstone bridge is a network of resistors arranged in a diamond shape, with the piezoresistive elements forming two of the arms. The bridge is initially balanced, meaning the voltage across its output terminals is zero when no pressure is applied.
Output Signal Generation: When fluid pressure is applied to the diaphragm, it causes the resistive elements to change their resistance values. This imbalance in the Wheatstone bridge circuit leads to an output voltage proportional to the change in resistance. This output voltage is typically very small and needs amplification to be useful.
Amplification and Signal Conditioning: The small voltage change generated by the Wheatstone bridge is amplified using electronic components like operational amplifiers (op-amps) to produce a measurable output signal. Signal conditioning may also involve filtering and other processing to improve the accuracy and reliability of the measured pressure reading.
Conversion and Display: The amplified and conditioned signal is then converted to a suitable format, such as analog voltage, current, or digital signals (e.g., through analog-to-digital converters), depending on the application's requirements. This converted signal can then be displayed on a gauge, transmitted to a control system, or processed by a microcontroller or computer.
In summary, basic pressure transducers measure fluid pressure by utilizing the piezoresistive effect in a diaphragm made of a piezoresistive material like silicon. The change in resistance due to the applied pressure is converted into an electrical signal using a Wheatstone bridge circuit, which is then amplified, conditioned, and converted into a readable format for display or further processing.