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Any sensor made using microelectronic fabrication methods is referred to as a MEMS, or micro electro mechanical system.
Through the use of these processes, silicon is often used to produce microscopic mechanical sensor structures. MEMS sensors can be used to measure physical properties such as acceleration when connected to microelectronic circuitry.
In order to monitor structures and detect consistent acceleration, MEMS accelerometers with variable capacitive (VC) technology are utilised. These devices have a smaller dynamic range but higher sensitivity.
A micro-machined proof mass suspended between two parallel plates makes up the sensor element of MEMS VC accelerometers. On flexures that are connected to a ring frame, the mass is suspended.
The Dytran 7583 series offers tough hermetically sealed VC-MEMS triaxial measurements. To meet your needs for acceleration measurement, a variety of ranges are available for this high-performance triaxial variable capacitance (VC) accelerometer.
Due to its improved temperature compensation design and longer frequency response, it has exceptional thermal stability.
For monitoring acceleration in commercial and industrial settings, this accelerometer module combines three integrated VC accelerometer chips with high drive and low impedance buffers.
The inbuilt 5/16-32 9-pin receptacle in the hermetically sealed titanium box is readily attached using any of the following: two M4 screws (6687A1), two 8-32 screws (6753A1), a 14-28 mounting stud (6360), or a 14-28 to M6 mounting stud, which are all included.
Units have hermetically sealed exteriors for dependable performance in soiled and humid conditions.
The Global triaxial VC MEMS accelerometer market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.