Strain Gauge vs Capacitive Transducers
Setra is best known for pioneering the variable capacitance principle, the technological innovation behind capacitance-based pressure transducers. Variable capacitance transducers demonstrate industry-leading accuracy especially in low pressure HVAC and critical care applications with accuracies as high as ±0.25" water column (±0.009 PSI).
But while Setra may be known for variable capacitive transducers, there is another viable pressure sensing technology we use for some industrial and OEM products – strain gauge.
What is a strain gauge sensor?
During the manufacturing process, a mechanism is built upon the backside of the transducer's sensing diaphragm. Through a sputtering process, a small circuit is created that contains on it a Wheatstone-bridge resistance network. As pressure is applied to the diaphragm and unbalances (or strains) the bridge, its electrical resistance is changed and results in a voltage output.
This is comparable to capacitance transducers, where pressure flexes the diaphragm away or towards an electrode, changing its capacitance and converting it to a voltage or current. So why would one choose a strain gauge sensor over a capacitive one in an industrial application? Or vice versa?
Benefits of Strain Gauge Sensors
Excellent resistance to shock, vibration, and dynamic pressure changes
Measurement cell is hermetically sealed and does not require additional sealing materials
Economical to manufacture
Benefits of Capacitive Sensors
Better for applications that are susceptible to over-pressurization
Very good hysteresis, linearity, stability, and repeatability, in addition to static pressure measurement capability
Excellent accuracy in low pressure ranges – as low as 1 PSI.
Not sure what kind of transducer your project needs? CLICK HERE to get in contact with one of our application engineers today.