Acceleration detector
First Claim
1. An acceleration detector for detecting an acceleration component along a detection axis, said detector comprising:
- a fixed body and a displacement body, said displacement body being resiliently supported by said fixed body so that said displacement body is displaced with respect to said fixed body in a direction of said detection axis when acceleration is applied,a first capacitance element including a first fixed electrode fixed to said fixed body and a first displacement electrode fixed to said displacement body,a second capacitance element including a second fixed electrode fixed to said fixed body and a second displacement electrode fixed to said displacement body, andan output unit for outputting information indicating an acceleration component along said detection axis,wherein an electrode distance of said first capacitance element is decreased and an electrode distance of said second capacitance element is increased when said displacement body is displaced in a positive direction along said detection axis and the electrode distance of said first capacitance element is increased and the electrode distance of said second capacitance element is decreased when said displacement body is displaced in a negative direction along said detection axis,wherein said output unit outputs an acceleration component along said detection axis based on a difference between a capacitance value of said first capacitance element and a capacitance value of said second capacitance element, andwherein said fixed body and said displacement body are made of silicon.
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Abstract
An electrode layer is formed on the upper surface of a first substrate, and a processing for partially removing the substrate is carried out in order to allow the substrate to have flexibility. To the lower surface of the first substrate, a second substrate is connected. Then, by cutting the second substrate, a working body and a pedestal are formed. On the other hand, a groove is formed on a third substrate. An electrode layer is formed on the bottom surface of the groove. The third substrate is connected to the first substrate so that both the electrodes face to each other with a predetermined spacing therebetween. Finally, the first, second and third substrates are cut off every respective unit regions to form independent sensors, respectively. When an acceleration is exerted on the working body, the first substrate bends. As a result, the distance between both the electrodes changes. Thus, an acceleration exerted is detected by changes in an electrostatic capacitance between both the electrodes.
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Citations
6 Claims
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1. An acceleration detector for detecting an acceleration component along a detection axis, said detector comprising:
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a fixed body and a displacement body, said displacement body being resiliently supported by said fixed body so that said displacement body is displaced with respect to said fixed body in a direction of said detection axis when acceleration is applied, a first capacitance element including a first fixed electrode fixed to said fixed body and a first displacement electrode fixed to said displacement body, a second capacitance element including a second fixed electrode fixed to said fixed body and a second displacement electrode fixed to said displacement body, and an output unit for outputting information indicating an acceleration component along said detection axis, wherein an electrode distance of said first capacitance element is decreased and an electrode distance of said second capacitance element is increased when said displacement body is displaced in a positive direction along said detection axis and the electrode distance of said first capacitance element is increased and the electrode distance of said second capacitance element is decreased when said displacement body is displaced in a negative direction along said detection axis, wherein said output unit outputs an acceleration component along said detection axis based on a difference between a capacitance value of said first capacitance element and a capacitance value of said second capacitance element, and wherein said fixed body and said displacement body are made of silicon. - View Dependent Claims (2)
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3. An acceleration detector for detecting acceleration components along a first detection axis and a second detection axis perpendicular to said first detection axis, said detector comprising:
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a fixed body and a displacement body, said displacement body being resiliently supported by said fixed body so that said displacement body is displaced with respect to said fixed body in a direction of said first detection axis and a direction of said second detection axis when acceleration is applied, a first capacitance element including a first fixed electrode fixed to said fixed body and a first displacement electrode fixed to said displacement body, a second capacitance element including a second fixed electrode fixed to said fixed body and a second displacement electrode fixed to said displacement body, a third capacitance element including a third fixed electrode fixed to said fixed body and a third displacement electrode fixed to said displacement body, a fourth capacitance element including a fourth fixed electrode fixed to said fixed body and a fourth displacement electrode fixed to said displacement body, and an output unit for outputting information indicating acceleration components along said first and second detection axes, wherein an electrode distance of said first capacitance element is decreased and an electrode distance of said second capacitance element is increased when said displacement body is displaced in a positive direction along said first detection axis and the electrode distance of said first capacitance element is increased and the electrode distance of said second capacitance element is decreased when said displacement body is displaced in a negative direction along said first detection axis, wherein an electrode distance of said third capacitance element is decreased and an electrode distance of said fourth capacitance element is increased when said displacement body is displaced in a positive direction along said second detection axis and the electrode distance of said third capacitance element is increased and the electrode distance of said fourth capacitance element is decreased when said displacement body is displaced in a negative direction along said second detection axis, wherein said output unit outputs an acceleration component along said first detection axis based on a difference between a capacitance value of said first capacitance element and a capacitance value of said second capacitance element and outputs an acceleration component along said second detection axis based on a difference between a capacitance value of said third capacitance element and a capacitance value of said fourth capacitance element, and wherein said fixed body and said displacement body are made of silicon. - View Dependent Claims (4, 5, 6)
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Specification