Silicon micro-piezoresistive accelerometer capable of reducing temperature excursion

An accelerometer and piezoresistive technology, applied in speed/acceleration/shock measurement, acceleration measurement using inertial force, fluid velocity measurement, etc., can solve problems such as increasing accelerometer error, reduce output error, and expand temperature range, the effect of reducing temperature drift

Inactive Publication Date: 2009-05-13
ZHONGBEI UNIV
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Problems solved by technology

[0005] However, since the temperature characteristics of the peripheral variable resistance material are different from those of the piezoresistor formed by the ion implantation process on the cantilever beam, this leads to the fact that the output of the accelerometer Wheatstone bridge will change with temperature in the abs

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  • Silicon micro-piezoresistive accelerometer capable of reducing temperature excursion
  • Silicon micro-piezoresistive accelerometer capable of reducing temperature excursion
  • Silicon micro-piezoresistive accelerometer capable of reducing temperature excursion

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Embodiment Construction

[0021] A silicon micro piezoresistive accelerometer capable of reducing temperature drift, including a silicon-based frame 1 processed on a silicon base by bulk silicon processing technology, a cantilever beam 2, and a cantilever beam suspended in the middle of the silicon-based frame 1 Mass block 3, a strain varistor disposed on the fixed end of the cantilever beam 2, mass block 3, and silicon-based frame 1 (that is, the area where the stress is the largest and linearly changes) processed by ion implantation technology, and disposed on The reference varistor on the silicon-based frame 1, and the peripheral zero-adjustment resistor arranged outside the silicon-based frame 1; the peripheral zero-adjustment resistor is connected with the strain varistor and the reference varistor to form a single device for measuring acceleration in the single-axis direction Wheatstone bridge, or three Wheatstone bridges that measure the acceleration in the three-axis direction, the peripheral ze...

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Abstract

The invention relates to a piezoresistive silicon-micro-accelerometer, in particular to the piezoresistive silicon-micro-accelerometer which can reduce temperature drift. The temperature property of the piezoresistive silicon-micro-accelerometer is improved, and the temperature drift is reduced. The accelerometer comprises a silicon basal framework, a socle beam, a mass block, a strain varistor arranged at the fixed end part of the socle beam, the mass block and the silicon basal framework, a reference varistor arranged on the silicon basal framework and a peripheral zero-regulating resistor arranged outside the silicon basal framework; the peripheral zero-regulating resistor, the strain varistors and the reference varistor are connected to form a wheatstone bridge, the peripheral zero-regulating resistor is independently taken as a bridge arm of the wheatstone bridge; and the peripheral zero-regulating resistor is a varistor which is produced on anther silicon substrate with the same property by adopting an ion injection technology, and the wheatstone bridge containing the varistor is zeroed by controlling the ion injection speed when the varistor is produced. The invention has the advantages of convenient zeroing, low temperature drift, small error output and large operation temperature range.

Description

technical field [0001] The invention relates to a silicon micro piezoresistive accelerometer, in particular to a silicon micro piezoresistive accelerometer capable of reducing temperature drift. Background technique [0002] The design idea of ​​the silicon micro piezoresistive accelerometer comes from the pressure sensor. As early as 1977, the silicon micro accelerometer produced by the Stanford University, the University of California, Berkley and the Draper laboratory using the micromachining process used the piezoresistive detection method. Cantilever beams and mass blocks are processed on the silicon base by using bulk silicon processing technology, and varistors are fabricated on the cantilever beams by ion implantation technology, which are connected to form a Wheatstone bridge. When there is an acceleration acting on the mass block, it will cause the strain of the cantilever beam to be proportional to the acceleration, and the resistance value of the piezoresistor em...

Claims

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Application Information

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IPC IPC(8): G01P15/12B81B7/00
Inventor 张文栋闫树斌沈三民张会新任小红荆彦峰王少辉吉喆王宝花姜国庆严英占赵军张荣彦
Owner ZHONGBEI UNIV
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