Method for containing a device and a corresponding device
First Claim
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1. A method of enclosing a micromechanical element formed between a base layer and one or more metallization layers comprising:
- forming a first encapsulating layer over at least part of the micromechanical element;
depositing a second encapsulating layer over the first encapsulating layer and providing an encapsulating wall surrounding the micromechanical element to form a lateral sealing wall extending between the base layer and the one or more encapsulating layers;
depositing the one or more metallization layers over the first encapsulating layer;
providing electrical connection between the base layer and the one or more metallization layers formed above the micromechanical element;
etching through the first encapsulating layer and a sacrificial layer disposed therebelow to form an opening through the first encapsulating layer and the sacrificial layer;
introducing an etching agent through the opening; and
removing the sacrificial layer, wherein the micromechanical element is disposed in a cavity that is at least partially bordered by the encapsulating wall.
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Abstract
A method of enclosing a micromechanical element formed between a base layer and one or more metallization layers includes forming one or more encapsulating layers over the micromechanical element and providing an encapsulating wall surrounding the element extending between the base layer and the one or more encapsulating layers. An electrical connection is provided between the base layers and the one or more metallization layers formed above the micromechanical element.
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Citations
22 Claims
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1. A method of enclosing a micromechanical element formed between a base layer and one or more metallization layers comprising:
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forming a first encapsulating layer over at least part of the micromechanical element; depositing a second encapsulating layer over the first encapsulating layer and providing an encapsulating wall surrounding the micromechanical element to form a lateral sealing wall extending between the base layer and the one or more encapsulating layers; depositing the one or more metallization layers over the first encapsulating layer; providing electrical connection between the base layer and the one or more metallization layers formed above the micromechanical element; etching through the first encapsulating layer and a sacrificial layer disposed therebelow to form an opening through the first encapsulating layer and the sacrificial layer; introducing an etching agent through the opening; and removing the sacrificial layer, wherein the micromechanical element is disposed in a cavity that is at least partially bordered by the encapsulating wall. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of forming and enclosing a micromechanical element between a base layer and one or more metallization layers, comprising:
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applying a first sacrificial layer of an etchable material over at least a portion of the base layer; patterning the first sacrificial layer to define at least a portion of the shape of the micromechanical element; applying at least one layer of a micromechanical element material over at least a portion of the first sacrificial layer; patterning the micromechanical element material to form at least a portion of the micromechanical element; applying a second sacrificial layer of an etchable material over the micromechanical element; applying a first encapsulating layer over at least a portion of the second sacrificial layer; depositing a second encapsulating layer over the first encapsulating layer and providing an encapsulating wall surrounding the micromechanical element to form a lateral sealing wall extending between the base layer and the one or more encapsulating layers; depositing the one or more metallization layers over the first encapsulating layer; providing electrical connection between the base layer and the one or more metallization layers; etching through the first encapsulating layer and the second sacrificial layer to form an opening through the first encapsulating layers and the second sacrificial layer; introducing an etching agent through the opening; and removing at least part of the first and second sacrificial layers to at least partly free the micromechanical element, wherein the micromechanical element is disposed in a cavity that is at least partially bordered by the encapsulating wall. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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Specification