Capacitive acceleration sensor and its application in a non-servoed accelerometer
First Claim
1. A capacitive acceleration sensor comprising an insulating substrate having a surface with a first measurement electrode supported thereon, and comprising a flexible measurement arm of conductive or semiconductor material, having a first end portion secured to the substrate and a second end portion forming a second measurement electrode facing the first measurement electrode, wherein flexibility of the arm allows the second measurement electrode to be displaced towards and away from the substrate in response to acceleration in a direction transverse to said surface of the substrate,wherein said first end portion is secured to the substrate via a beam having a bending modulus at least ten times greater than that of the measurement arm and substantially parallel to the measurement arm, and via a foot rigidly secured to the substrate and situated between the two end portions of the measurement arm, the connections of the beam to the measurement arm and to the foot being of fixed-end type, and wherein the beam is also secured to a reference arm which is parallel to and of the same length as the measurement arm, but which has a bending modulus at least 10 times that of the measurement arm, the reference arm facing a reference electrode of the same surface area as that of the first measurement electrode.
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Accused Products
Abstract
The miniaturizable sensor comprises an insulating substrate (10) supporting first measurement electrode (24) and comprising a flexible measurement arm (18) of conductive or semiconductor material, one end of which is secured to the substrate (10) and the other end of which constitutes a second electrode facing the first electrode. The first end of the measurement arm is secured to the substrate via a beam (16) having a bending modulus at least ten times greater than that of the measurement arm (18) and substantially parallel to the measurement arm and via a foot (14) rigidly secured to the substrate (10) and situated between the two ends of the measurement arm, the connections of the beam (16) to the measurement arm (18) and to the foot (14) being of the fixed-end type.
15 Citations
7 Claims
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1. A capacitive acceleration sensor comprising an insulating substrate having a surface with a first measurement electrode supported thereon, and comprising a flexible measurement arm of conductive or semiconductor material, having a first end portion secured to the substrate and a second end portion forming a second measurement electrode facing the first measurement electrode, wherein flexibility of the arm allows the second measurement electrode to be displaced towards and away from the substrate in response to acceleration in a direction transverse to said surface of the substrate,
wherein said first end portion is secured to the substrate via a beam having a bending modulus at least ten times greater than that of the measurement arm and substantially parallel to the measurement arm, and via a foot rigidly secured to the substrate and situated between the two end portions of the measurement arm, the connections of the beam to the measurement arm and to the foot being of fixed-end type, and wherein the beam is also secured to a reference arm which is parallel to and of the same length as the measurement arm, but which has a bending modulus at least 10 times that of the measurement arm, the reference arm facing a reference electrode of the same surface area as that of the first measurement electrode.
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6. An accelerometer including a sensor comprising an insulating substrate having a surface with a first measurement electrode supported thereon and comprising a flexible measurement arm of conductive or semiconductor material, having a first end portion secured to the substrate and a second end portion forming a second measurement electrode facing the first measurement electrode, wherein flexibility of the arm allows the second measurement electrode to be displaced towards and away from the substrate in response to acceleration in a direction transverse to said surface of the substrate,
wherein said first end portion is secured to the substrate via a beam having a bending modulus at least en times greater than that of the measurement arm and substantially parallel to the measurement arm, and via a foot rigidly secured to the substrate and simulated between the two end portions of the measurement arm, the connections of the beam to the measurement arm and to the foot being of fixed-end type, wherein the beam is also secured to a reference arm which is parallel to and of the same length as the measurement arm, but which has a bending modulus at least 10 times that of the measurement arm, the reference arm facing a reference electrode of the same surface area as that of the first measurement electrode, and wherein capacitors constituted by the measurement and reference arms are placed in a bridge circuit, having a measuring diagonal which is supplied with an alternating periodic signal, the accelerometer further including means for amplifying the alternating differential voltage which appears across the other diagonal of the bridge, synchronous demodulation means, and means for reinjecting two rebalancing d.c. voltages into the measuring diagonal.
Specification