Capacitive pick-off and electrostatic rebalance accelerometer having equalized gas damping
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Accused Products
Abstract
A Micro Electro-Mechanical System (MEMS) acceleration sensing device, formed of a an elongated sensing element of substantially uniform thickness suspended for motion relative to a rotational axis offset between first and second ends thereof such that a first portion of the sensing element between the rotational axis and the first end is longer than a shorter second portion between the rotational axis and the second end; a stationary silicon substrate spaced away from the sensing element; a capacitor formed by a surface of the substrate and each of the first and second portions of the sensing element; and a valley formed in the substrate surface opposite from the first longer portion of the sensing element and spaced away from the rotational axis a distance substantially the same as the distance between the rotational axis and the second end of the sensing element.
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Citations
40 Claims
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1-16. -16. (canceled)
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17. A method for forming a capacitive pick-off acceleration-sensing device, the method comprising:
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operating a first etching process on a silicon substrate for;
i) releasing from a bulk portion of the substrate an elongated teeter-totter type sensing element having substantially planar and parallel surfaces spaced apart by a substantially uniform thickness of the substrate, and a first relatively longer and more massive sensing portion and a second relatively shorter and less massive sensing portion separated by one or more flexures positioned therebetween and arranged substantially crosswise to a longitudinal axis of the sensing element, the first relatively longer and more massive sensing portion having a first sensing portion extended adjacent to the one or more flexures and a length substantially the same as a length of the second relatively shorter and less massive sensing portion and a second mass portion at distal end thereof extended at a length that is greater than the length of the second relatively shorter and less massive sensing portion, ii) forming one or more mesas integral with the sensing element and supporting the one or more flexures at attachment points integral with the bulk portion of the substrate, iii) forming first and second relatively narrow gas damping gaps between the bulk portion of the substrate and each of the first and second sensing portions of the teeter-totter type sensing element by forming first and second substantially planar surfaces on the bulk portion of the substrate spaced away a short distance from the respective first and second sensing portions of the sensing element; and
operating a second etching process on a silicon substrate for forming a gap relatively wider than the first and second relatively narrow gas damping gaps and positioned between the bulk portion of the substrate and the second mass portion at the distal end of the first relatively longer and more massive sensing portion of the sensing element. - View Dependent Claims (18, 19, 20)
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21-24. -24. (canceled)
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25. A method for forming a capacitive pick-off acceleration-sensing device, the method comprising:
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forming an elongated sensing element of substantially uniform thickness suspended for motion relative to a rotational axis offset between first and second ends thereof such that a first portion of the sensing element between the rotational axis and the first end is longer than a shorter second portion between the rotational axis and the second end;
forming a stationary substrate surface spaced away from the sensing element;
forming a capacitor between the stationary substrate surface and each of the first and second portions of the sensing element; and
forming a valley in the stationary substrate surface opposite from the first longer portion of the sensing element and spaced away from the rotational axis a distance substantially the same as the distance between the rotational axis and the second end of the sensing element. - View Dependent Claims (26, 27, 28, 29, 30)
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31. A method for forming a capacitive pick-off acceleration-sensing device, the method comprising:
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in a silicon substrate having a substantially planar surface, etching a pendulous sensing element of substantially constant cross-section to be suspended in close proximity to the substrate surface for motion relative to a rotational axis that is offset between a longer and a shorter portion of the pendulous sensing element with the longer and shorter portions of the pendulous sensing element being structured forming different capacitors with respective first and second corresponding opposing portions of the substrate surface, the longer portion of the pendulous sensing element including a distal extended portion that is spaced away from the rotational axis at a distance that is substantially the same as the a length of the shorter portion measured between the rotational axis and a distal end thereof, between respective the longer and shorter portions of the pendulous sensing element and the respective first and second corresponding opposing portions of the substrate surface, etching first and second gaps each structured for gas damping; and
between the distal extended portion of the longer portion of the pendulous sensing element and an opposing third portion of the substrate surface corresponding thereto, etching a third gap structured for gas damping. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39, 40)
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Specification