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A Novel MEMS Inertial Sensor with the Actuators Drived by Lorentz Force for Increasing the Initial Sensing Capacitance

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ã€Authorã€‘ DONG Lin-xi1,2,JIAO Ji-wei2,YAN Hai-xia3,SUN Ling-ling1(1.Key Laboratory of RF Circuits and System of Ministry of Education,Hangzhou Dianzi University,Hangzhou,Zhejiang 310018,China;2.State Key Laboratories of Transducer Technology,Chinese Academy of Sciences,Shanghai 200050,China;3.Toshiba Hydro-Electro Equipments Company,Hangzhou,Zhejiang 311504,China)

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ã€Abstractã€‘ The noise of capacitive MEMS inertial sensor system can be depressed by increasing the mass of the seismic and initial sensing capacitance,which can not be obtained by deep ion etch process when the aspect ratio of comb capacitance is very large.Accordingly,a novel super high precision MEMS inertial sensor with the actuators drived by Lorentz force for increasing the initial sensing capacitance is developed in this paper.The initial sensitive capacitance is increased largely by the actuators,the mechanical noise is reduced to 0.61ug per square root Hz by etching damping slots in the sensitive combs of actuators.The resonant frequency obtained by ANSYS is 598Hz,and the static displacement sensitivity is 0.7Î¼m per g acceleration of gravity.The grid capacitive inertial sensor is fabricated by MEMS silicon-glass bonding process,and the quality factor tested by which the sensor is drived by Lorentz force is 715 in air,which proves the feasibility of the idea that the novel MEMS sensor can be fabricated by silicon-glass bonding process and its initial sensing capacitance can be increased by Lorentz force actuators.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ capacitive accelerometerï¼› inertial sensorï¼› high precisionï¼› deep RIEï¼›

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A Novel MEMS Inertial Sensor with the Actuators Drived by Lorentz Force for Increasing the Initial Sensing Capacitance

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