Three-Axis Accelerometers and Fabrication Methods

US 20120276674A1
Filed: 05/08/2012
Published: 11/01/2012
Est. Priority Date: 05/10/2006
Status: Active Grant

First Claim

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1. A method of fabricating an accelerometer, comprising:

providing a substrate;

forming an isolation layer on the substrate;

patterning the isolation layer disposed on a front side of the substrate;

forming a sacrificial layer on the substrate;

removing the sacrificial layer on the isolation layer;

etching anchor holes and bond pad contact windows through the isolation layer to expose the underlying substrate;

forming a low-resistivity structural layer on the substrate;

patterning the low-resistivity structural layer on the front side of the substrate to define suspension arms, sense and actuation electrodes, and bond pads;

patterning the sacrificial layer on a back side of the substrate if such is formed;

etching the back side of the substrate to expose the sacrificial layer disposed beneath the low-resistivity structural layer on the front side of the substrate and to define outer edge of a proof mass; and

releasing the proof mass by dissolving the sacrificial layer.

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Abstract

MEMS accelerometers have a substrate, and a proof mass portion thereof which is separated from the substrate surrounding it by a gap. An electrically-conductive anchor is coupled to the proof mass, and a plurality of electrically-conductive suspension anus that are separated from the proof mass extend from the anchor and are coupled to the substrate surrounding the proof mass. A plurality of sense and actuation electrodes are separated from the proof mass by gaps and are coupled to processing electronics. The fabrication methods use deep reactive ion etch bulk micromachining and surface micromachining to form the proof mass, suspension arms and electrodes. The anchor, suspension arms and electrodes are made in the same process steps from the same electrically conductive material, which is different from the substrate material.

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19 Claims

1. A method of fabricating an accelerometer, comprising:
- providing a substrate;
  
  forming an isolation layer on the substrate;
  
  patterning the isolation layer disposed on a front side of the substrate;
  
  forming a sacrificial layer on the substrate;
  
  removing the sacrificial layer on the isolation layer;
  
  etching anchor holes and bond pad contact windows through the isolation layer to expose the underlying substrate;
  
  forming a low-resistivity structural layer on the substrate;
  
  patterning the low-resistivity structural layer on the front side of the substrate to define suspension arms, sense and actuation electrodes, and bond pads;
  
  patterning the sacrificial layer on a back side of the substrate if such is formed;
  
  etching the back side of the substrate to expose the sacrificial layer disposed beneath the low-resistivity structural layer on the front side of the substrate and to define outer edge of a proof mass; and
  
  releasing the proof mass by dissolving the sacrificial layer.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The method recited in claim 1 wherein the sacrificial layer comprises oxide, and etching the back side of the substrate comprises dry reactive ion etching.
  - 3. The method recited in claim 1 wherein the substrate comprises a semiconductor substrate.
  - 4. The method recited in claim 1 wherein the substrate comprises a silicon substrate.
  - 5. The method recited in claim 1 wherein the substrate comprises a semiconductor-on-insulator substrate.
  - 6. The method recited in claim 1 wherein the substrate comprises a metal in which deep trenches may be fabricated by reactive ion etching.
  - 7. The method recited in claim 1 wherein the structural layer comprises a semiconductor layer.
  - 8. The method recited in claim 1 wherein the structural layer comprises doped polysilicon.
  - 9. The method recited in claim 1 wherein the structural layer comprises metal.
  - 12. The method recited in claim 1 wherein the sacrificial layer comprises oxide, and etching the back side of the substrate comprises dry reactive ion etching.
  - 13. The method recited in claim 1 wherein the substrate comprises a semiconductor substrate.
  - 14. The method recited in claim 1 wherein the substrate comprises a silicon substrate.
  - 15. The method recited in claim 1 wherein the substrate comprises a semiconductor-on-insulator substrate.
  - 16. The method recited in claim 1 wherein the substrate comprises a metal in which deep trenches may be fabricated by reactive ion etching.
  - 17. The method recited in claim 1 wherein the structural layer comprises a semiconductor layer.
  - 18. The method recited in claim 1 wherein the structural layer comprises doped polysilicon.
  - 19. The method recited in claim 1 wherein the structural layer comprises metal.

10. A method of fabricating an accelerometer, comprising:
- providing a substrate;
  
  forming an isolation layer on the substrate;
  
  patterning the isolation layer disposed on the front side of the substrate;
  
  removing the back side isolation layer when necessary;
  
  forming a sacrificial layer on the substrate;
  
  removing the sacrificial layer on the isolation layer;
  
  etching anchor holes and bond pad contact windows through the isolation layer to expose the underlying substrate;
  
  forming a low-resistivity structural layer on the substrate;
  
  patterning the low-resistivity structural layer on the front side of the structure to define suspension arms, sense and actuation electrodes, and bond pads;
  
  removing the back side low-resistivity layer when necessary;
  
  patterning the sacrificial layer on the back side of the substrate if such is formed;
  
  etching the back side of the substrate to expose the sacrificial layer disposed beneath the low-resistivity structural layer on the front side of the substrate and to define outer edge of a proof mass; and
  
  releasing the proof mass by dissolving the sacrificial layer.

11. A method of fabricating an accelerometer, comprising:
- forming a patterned isolation layer disposed on a front side of a substrate;
  
  forming a sacrificial layer on the substrate;
  
  removing the sacrificial layer on the isolation layer;
  
  forming a patterned low-resistivity structural layer on the front side of the substrate to define suspension arms, sense and actuation electrodes, and bond pads;
  
  patterning the sacrificial layer on a back side of the substrate;
  
  etching the back side of the substrate to expose the sacrificial layer disposed beneath the low-resistivity structural layer on the front side of the substrate and to define outer edge of a proof mass; and
  
  releasing the proof mass by dissolving the sacrificial layer.

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Current Assignee
Panasonic Corporation (Panasonic Holdings Corporation)
Original Assignee
Qualtre Incorporated (Panasonic Holdings Corporation)
Inventors
Mehregany, Mehran

Granted Patent

US 8,372,677 B2
Time in Patent Office

Days
Field of Search
US Class Current

438/50
CPC Class Codes

B81B 2201/0235   Accelerometers

B81C 1/00182   Arrangements of deformable ...

B81C 2201/0111   Bulk micromachining

G01P 15/0802   Details

G01P 15/125   by capacitive pick-up

G01P 15/131   with electrostatic counterb...

G01P 15/18   in two or more dimensions

G01P 2015/084   the mass being suspended at...

Y10T 29/49156   with selective destruction ...

Three-Axis Accelerometers and Fabrication Methods

First Claim

3 Assignments

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Abstract

8 Citations

19 Claims

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Three-Axis Accelerometers and Fabrication Methods

First Claim

3 Assignments

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Accused Products

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Abstract

8 Citations

19 Claims

Specification

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Solutions

Use Cases

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