COMPONENT AND METHOD FOR ITS MANUFACTURE
First Claim
1. A component for measuring pressure, comprising:
- a glass carrier; and
a micromechanical sensor element that is bonded onto the glass carrier, an upper side of the glass carrier acting as a connection surface for the sensor element, and a rear side, opposite the upper side, of the glass carrier acting as an mounting surface for the component, and the glass carrier having lateral surfaces that connect the upper side and the rear side;
wherein the glass carrier is formed by a segment of a glass wafer into which at least contours of the glass carrier were stamped, so that at least the areas produced in this way of the lateral surfaces of the glass carrier and the rear side of the glass carrier have a surface that is largely closed and free of microcracks.
1 Assignment
0 Petitions
Accused Products
Abstract
A method for reducing microcrack formation and crack growth in the glass carrier of a component having a micromechanical sensor element that is bonded to the glass carrier. The upper side of the glass carrier acts as a bonding surface for the sensor element. The rear side of the glass carrier, situated opposite the upper side, acts as a mounting surface for the component, and the glass carrier has side surfaces that connect the upper side and the rear side. In particular, the glass carrier is formed by a segment of a glass wafer into which at least the contours of the glass carrier have been stamped, so that at least the areas produced in this way of the side surfaces of the glass carrier and the rear side of the glass carrier form a surface that is largely closed and free of microcracks.
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Citations
9 Claims
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1. A component for measuring pressure, comprising:
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a glass carrier; and a micromechanical sensor element that is bonded onto the glass carrier, an upper side of the glass carrier acting as a connection surface for the sensor element, and a rear side, opposite the upper side, of the glass carrier acting as an mounting surface for the component, and the glass carrier having lateral surfaces that connect the upper side and the rear side; wherein the glass carrier is formed by a segment of a glass wafer into which at least contours of the glass carrier were stamped, so that at least the areas produced in this way of the lateral surfaces of the glass carrier and the rear side of the glass carrier have a surface that is largely closed and free of microcracks. - View Dependent Claims (2, 3, 7, 8, 9)
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4. A method for manufacturing components, the method comprising:
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producing a multitude of sensor element structures in a semiconductor wafer; bonding the semiconductor wafer, which is structured in this way, onto a glass wafer; and separating the components; wherein the glass wafer is pre-structured in a hot stamping process, and wherein at least the contours of the glass carriers are stamped into the rear side of the glass wafer corresponding to a situation and dimensioning of the sensor element structures in the semiconductor wafer, and wherein each of the components is for measuring pressure, and includes; a glass carrier; and a micromechanical sensor element that is bonded onto the glass carrier, an upper side of the glass carrier acting as a connection surface for the sensor element, and a rear side, opposite the upper side, of the glass carrier acting as an mounting surface for the component, and the glass carrier having lateral surfaces that connect the upper side and the rear side; wherein the glass carrier is formed by a segment of a glass wafer into which at least contours of the glass carrier were stamped, so that at least the areas produced in this way of the lateral surfaces of the glass carrier and the rear side of the glass carrier have a surface that is largely closed and free of microcracks. - View Dependent Claims (5, 6)
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Specification