Photolithographically-patterned variable capacitor structures and method of making

US 6,396,677 B1
Filed: 05/17/2000
Issued: 05/28/2002
Est. Priority Date: 05/17/2000
Status: Expired due to Term

First Claim

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1. A capacitor, comprising:

a substrate;

a first electrically conductive layer fixed to the substrate;

a release layer fixed to a portion of the electrically conductive layer; and

a second electrically conductive layer comprising an anchor portion and a free portion, the anchor portion being fixed to the release layer, wherein the free portion is initially fixed to the release layer, but is released from the release layer to become separated from the release layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the release layer;

wherein, when a bias voltage is applied between the first electrically conductive layer and the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor.

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Abstract

A new type of high-Q variable capacitor includes a substrate, a first electrically conductive layer fixed to the substrate, a dielectric layer fixed to a portion of the electrically conductive layer, and a second electrically conductive layer having an anchor portion and a free portion. The anchor portion is fixed to the dielectric layer and the free portion is initially fixed to the dielectric layer, but is released from the dielectric layer to become separated from the dielectric layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the dielectric layer. When a bias voltage is applied between the first electrically conductive layer and the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor.

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11 Claims

1. A capacitor, comprising:
- a substrate;
  
  a first electrically conductive layer fixed to the substrate;
  
  a release layer fixed to a portion of the electrically conductive layer; and
  
  a second electrically conductive layer comprising an anchor portion and a free portion, the anchor portion being fixed to the release layer, wherein the free portion is initially fixed to the release layer, but is released from the release layer to become separated from the release layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the release layer;
  
  wherein, when a bias voltage is applied between the first electrically conductive layer and the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor.
- View Dependent Claims (2, 3, 4)
- - 2. The capacitor of claim 1, wherein the release layer comprises an electrically insulating material.
  - 3. The capacitor of claim 1, further comprising a dielectric layer between the release layer and the first electrically conductive layer, wherein the dielectric layer extends substantially between the free portion and the first electrically conductive layer.
  - 4. The capacitor of claim 1, wherein the free portion is biased away from the first electrically conductive layer along a radius of curvature.

5. A capacitor, comprising:
- a substrate;
  
  a first electrically conductive layer fixed to the substrate;
  
  a release layer fixed to a portion of the electrically conductive layer; and
  
  a second electrically conductive layer comprising an anchor portion and a free portion, the anchor portion being fixed to the release layer, wherein the free portion is initially fixed to the release layer, but is released from the release layer to become separated from the release layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the release layer;
  
  wherein, when a bias voltage is applied between the first electrically conductive layer and the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor;
  
  wherein the free portion is biased away from the first electrically conductive layer along a radius of curvature; and
  
  wherein a tip of the first portion of the first electrically conductive layer is tapered.

6. A capacitor, comprising:
- a substrate;
  
  a first electrically conductive layer fixed to the substrate;
  
  a dielectric layer fixed to a portion of the electrically conductive layer; and
  
  a plurality of second electrically conductive layers, each second electrically conductive layer comprising an anchor portion and a free portion, the anchor portion being fixed to the dielectric layer, wherein the free portion is initially fixed to the dielectric layer, but is released from the dielectric layer to become separated from the dielectric layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the a dielectric layer;
  
  wherein, when a bias voltage is applied between the first electrically conductive layer and each of the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor.
- View Dependent Claims (8, 9)
- - 8. The capacitor of claim 6, wherein the second electrically conductive layers are disposed in rows adjacent to one another.
  - 9. The capacitor of claim 6, wherein the second electrically conductive layers are disposed in columns adjacent to one another.

7. A capacitor, comprising:
- a substrate;
  
  a first electrically conductive layer fixed to the substrate;
  
  a dielectric layer fixed to a portion of the electrically conductive layer; and
  
  a plurality of second electrically conductive layers, each second electrically conductive layer comprising an anchor portion and a free portion, the anchor portion being fixed to the dielectric layer, wherein the free portion is initially fixed to the dielectric layer, but is released from the dielectric layer to become separated from the dielectric layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the a dielectric layer;
  
  wherein, when a bias voltage is applied between the first electrically conductive layer and each of the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor;
  
  wherein the dielectric layer comprises a first dielectric layer fixed to the first electrically conductive layer and a release layer fixed to the dielectric layer, wherein the anchor portion is fixed to the release layer, wherein the free portion is initially fixed to the release layer, but is released from the release layer to become separated from the underlying dielectric layer.

10. A capacitor, comprising:
- a substrate;
  
  a first electrically conductive layer fixed to the substrate;
  
  a dielectric layer fixed to a portion of the electrically conductive layer; and
  
  a plurality of second electrically conductive layers, each second electrically conductive layer comprising an anchor portion and a free portion, the anchor portion being fixed to the dielectric layer, wherein the free portion is initially fixed to the dielectric layer, but is released from the dielectric layer to become separated from the dielectric layer, and wherein an inherent stress profile in the second electrically conductive layer biases the free portion away from the a dielectric layer;
  
  wherein, when a bias voltage is applied between the first electrically conductive layer and each of the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor;
  
  wherein the first electrically conductive layer comprises a plurality of electrically conductive layers, one for each second electrically conductive layer.

11. A capacitor, comprising:
- a substrate;
  
  a first electrically conductive layer fixed to the substrate;
  
  a dielectric layer fixed to a portion of the electrically conductive layer; and
  
  a second electrically conductive layer comprising an anchor and a free portion, the anchor portion being fixed to the dielectric layer, the free portion being biased away from the dielectric layer;
  
  wherein, when a bias voltage is applied between the first electrically conductive layer and the second electrically conductive layer, electrostatic forces in the free portion bend the free portion towards the first electrically conductive layer, thereby increasing the capacitance of the capacitor.

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Current Assignee
Xerox Corporation (Xerox Holdings Corp.)
Original Assignee
Xerox Corporation (Xerox Holdings Corp.)
Inventors
Smith, Donald L., Chua, Christopher L., Peeters, Eric, Van Schuylenbergh, Koenraad F.
Primary Examiner(s)
Reichard, Dean A.
Assistant Examiner(s)
HA, NGUYEN T

Application Number

US09/573,363
Time in Patent Office

741 Days
Field of Search

361/327,278,277,298.2,280,281,290,772,774,776
US Class Current

361/278
CPC Class Codes

H01F 17/0006   Printed inductances printed...

H01F 17/02   without magnetic core

H01G 5/16   using variation of distance...

H01G 5/18   due to change in inclinatio...

Photolithographically-patterned variable capacitor structures and method of making

First Claim

6 Assignments

0 Petitions

Accused Products

Abstract

69 Citations

11 Claims

Specification

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Photolithographically-patterned variable capacitor structures and method of making

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

69 Citations

11 Claims

Specification

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Solutions

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