Micromechanical sensor
First Claim
1. A micromechanical sensor comprising a plurality of cantilever sensing elements supported on a substrate at respective support regions, a first set of said sensing elements having respective sensing portions and arranged to define a sensing gap there between and a second set of said sensing elements forming a counterpart set, the sensing elements being substantially similar one to another, and each sensing element comprising an outgoing elongate leg extending away from its respective support region and a return leg substantially parallel to the outgoing leg, extending towards the respective support region, each said outgoing elongate leg of said sensing elements of said first set having a first end fixed to said respective support region and a second longitudinal end remote therefrom each said return leg of said sensing elements of said first set having a first longitudinal end provided so as to be fixed with respect to and substantially continuous with said second longitudinal end of said outgoing elongate leg and a second, free end proximate said respective support region, said second, free end being free from attachment to another, supported structure.
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Accused Products
Abstract
A micromechanical sensor has a plurality of sensing elements (14a-14d) which are supported at respective support regions (12a-12d). A first set of the sensing elements defines the sensing gap. In one arrangement this is defined by sensing elements supported by adjacent support regions. In another embodiment the sensing gap is defined between one sensing element and a reference beam formed by connection of the return legs of two diametrically opposed sensing elements. The sensing elements are substantially similar one to another and each sensing element comprises an outgoing elongate leg extending away from its associated support region and a return leg substantially parallel to the outgoing leg extending towards the support region. By providing sensing elements which are substantially similar in shape and arranged in this way, the effects of thin film stress are minimized.
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Citations
10 Claims
- 1. A micromechanical sensor comprising a plurality of cantilever sensing elements supported on a substrate at respective support regions, a first set of said sensing elements having respective sensing portions and arranged to define a sensing gap there between and a second set of said sensing elements forming a counterpart set, the sensing elements being substantially similar one to another, and each sensing element comprising an outgoing elongate leg extending away from its respective support region and a return leg substantially parallel to the outgoing leg, extending towards the respective support region, each said outgoing elongate leg of said sensing elements of said first set having a first end fixed to said respective support region and a second longitudinal end remote therefrom each said return leg of said sensing elements of said first set having a first longitudinal end provided so as to be fixed with respect to and substantially continuous with said second longitudinal end of said outgoing elongate leg and a second, free end proximate said respective support region, said second, free end being free from attachment to another, supported structure.
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10. A micromechanical sensor comprising a plurality of cantilever sensing elements supported on a substrate at respective support regions, a first set of said sensing elements having respective sensing portions and arranged to define a sensing gap and a second set of said sensing elements forming a counterpart set, the sensing elements being substantially similar one to another, and each sensing element comprising an outgoing elongate leg extending away from its respective support region and a return leg substantially parallel to the outgoing leg, extending towards the respective support region, each said outgoing elongate leg of said sensing elements of said first set having a first end fixed to said respective support region and a second longitudinal end remote therefrom each said return leg of said sensing elements of said first set having a first longitudinal end provided so as to be fixed with respect to and substantially continuous with said second longitudinal end of said outgoing elongate leg and a second, free end proximate said respective support region, said second, free end being free from attachment to another, supported structure, wherein the first set of sensing elements comprises sensing elements supported by regions diametrically opposed with respect to one another, the second, free ends of the return legs of the sensing elements of the first set carrying the sensing portions and wherein the counterpart sensing elements are supported by respective support regions also arranged diametrically opposed to one another and adjacent to the support regions supporting the sensing elements of the first set, the return legs of the sensing elements of the counterpart set being connected to one another to form a suspended beam, which acts as a reference element with which each sensing portion of said sensing elements of the first set defines a sensing gap.
Specification
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- Resources
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Current AssigneeBritish Technology Group Ltd. (Boston Scientific Corporation)
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Original AssigneeBritish Technology Group Ltd. (Boston Scientific Corporation)
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InventorsHoole, Andrew Charles Frederick, Heaver, Alan, Moore, David Frank
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Primary Examiner(s)CHAPMAN JR, JOHN E
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Application NumberUS08/794,488Time in Patent Office490 DaysField of Search73/497, 73/514.16, 73/514.18, 73/514.21, 73/514.32, 73/514.36, 73/31.05, 73/31.06, 73/862.61, 73/862.625, 73/632.626, 324/207.13, 361/278, 361/280, 361/283.2, 310/309US Class Current73/514.18CPC Class CodesB81B 3/0072 For controlling internal st...G01B 7/00 Measuring arrangements char...G01B 7/14 for measuring distance or c...G01P 15/0802 DetailsG01P 15/0894 by non-contact electron tra...
