BI-DIRECTIONAL RELEASED-BEAM SENSOR
First Claim
1. A sensor, comprising:
- a semiconductor substrate;
a first layer formed on a surface of the substrate;
a first aperture within the first layer;
a beam having first and second ends, the beam being mechanically coupled at the first end to the first layer and suspended above the first layer for at least a portion of the length thereof and the second end having a region above the first aperture;
a first boss coupled to a lower surface of the second end of the beam and suspended at least partially within the first aperture; and
a second boss coupled to an upper surface of the second end of the beam.
1 Assignment
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Accused Products
Abstract
An acceleration sensor includes a semiconductor substrate, a first layer formed on the substrate, a first aperture within the first layer, and a beam coupled at a first end to the substrate and suspended above the first layer for a portion of the length thereof. The beam includes a first boss coupled to a lower surface thereof and suspended within the first aperture, and a second boss coupled to an upper surface of the second end of the beam. A second layer is positioned on the first layer over the beam and includes a second aperture within which the second boss is suspended by the beam. Contact surfaces are positioned within the apertures such that acceleration of the substrate exceeding a selected threshold in either direction along a selected axis will cause the beam to flex counter to the direction of acceleration and make contact through one of the bosses with one of the contact surfaces.
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Citations
21 Claims
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1. A sensor, comprising:
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a semiconductor substrate;
a first layer formed on a surface of the substrate;
a first aperture within the first layer;
a beam having first and second ends, the beam being mechanically coupled at the first end to the first layer and suspended above the first layer for at least a portion of the length thereof and the second end having a region above the first aperture;
a first boss coupled to a lower surface of the second end of the beam and suspended at least partially within the first aperture; and
a second boss coupled to an upper surface of the second end of the beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A sensor, comprising:
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a semiconductor substrate;
a first layer of material formed on a surface of the substrate;
a beam having first and second ends, the beam being mechanically coupled at the first end to the first layer and suspended above the first layer such that the second end forms a cantilever above the first layer;
means for increasing a bidirectional sensitivity of the cantilever to acceleration of the substrate along a first axis; and
means for detecting response of the beam to acceleration bi-directionally along the one axis. - View Dependent Claims (13, 14, 15)
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16. A system, comprising:
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a vehicle having a motor, a drive train coupled to the motor, an axle coupled to the drive train, and wheels coupled to the axle for causing movement of the vehicle powered by the motor;
a passenger seat within said vehicle;
an airbag positioned adjacent to the passenger seat;
a sensor coupled to the airbag configured to cause inflation of the airbag, the sensor including a semiconductor material substrate, a first layer above the semiconductor substrate, a beam having first and second ends, the beam being mechanically coupled at the first end to the substrate and positioned above the first layer for a portion thereof to form a cantilever in a plane that is substantially parallel to an upper surface of the substrate, and first and second bosses coupled to upper and lower surfaces, respectively, of the second end of the beam and suspended over the substrate. - View Dependent Claims (17)
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18. A method, comprising:
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subjecting a semiconductor substrate to an acceleration;
moving a first and second bosses coupled to an outer end of a cantilevered beam coupled at an inner end to the substrate, in response to the acceleration; and
sending a signal from the cantilevered beam to a sensing circuit if an absolute value of the acceleration exceeds a selected threshold along a selected vector. - View Dependent Claims (19, 20, 21)
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Specification