Electrostatic chuck using A.C. field excitation

US 5,103,367 A
Filed: 01/03/1990
Issued: 04/07/1992
Est. Priority Date: 05/06/1987
Status: Expired due to Fees

First Claim

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1. An electrostatic chuck for semiconductor wafers comprising:

a first electrode having a planar upper surface,a second electrode having a planar upper surface said upper surfaces of said first and second electrodes being substantially in the same plane,and a third electrode,a first thin insulating layer disposed over said upper surfaces of said first and second electrodes for supporting a wafer substrate thereby defining a first substrate supporting surface;

a first excitation circuit for exciting said first electrode with a sinusoidal a.c. potential,said first excitation circuit having a first a.c. signal output connected to said first electrode and a reference signal output connected to said third electrode;

a second excitation circuit for exciting said second electrode with a sinusoidal a.c. potential,said second excitation circuit having a second a.c. signal output connected to said second electrode and a second reference signal output connected to said third electrode;

said third electrode being a reference electrode to said first and second electrodes;

said sinusoidal a.c. potentials of said first and said second electrodes being substantially balanced thereby minimizing a voltage gradient across the substrate wafer held by said chuck.

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Abstract

An electrostatic chuck for semiconductor wafers (10) uses at least three electrodes (12, 13, 14). Two electrodes (13, 14) defining a substantially planar surface and embedded in a thin dielectric film (11), are respectively excited by a low-frequency A.C. supply (15, 16, 17, 18, 23) to produce sinewave fields of controlled amplitude and phase, provided a low resultant voltage on the wafer surface. A third electrode (12) acts as a shield electrode or as a reference point for the other two electrodes (13, 14). In addition, by controlled rates of voltage application and removal, low voltage gradients are obtained on the wafer (10); and no retentive forces exist in the dielectric medium (11). A low A.C. amplitude excitation of the chuck enables capacitive current sensing of the relative positions of the wafer (10) and the dielectric film (11), enabling simple control of voltage application to the two electrodes (13, 14).

128 Citations

17 Claims

1. An electrostatic chuck for semiconductor wafers comprising:
- a first electrode having a planar upper surface,a second electrode having a planar upper surface said upper surfaces of said first and second electrodes being substantially in the same plane,and a third electrode,a first thin insulating layer disposed over said upper surfaces of said first and second electrodes for supporting a wafer substrate thereby defining a first substrate supporting surface;
  
  a first excitation circuit for exciting said first electrode with a sinusoidal a.c. potential,said first excitation circuit having a first a.c. signal output connected to said first electrode and a reference signal output connected to said third electrode;
  
  a second excitation circuit for exciting said second electrode with a sinusoidal a.c. potential,said second excitation circuit having a second a.c. signal output connected to said second electrode and a second reference signal output connected to said third electrode;
  
  said third electrode being a reference electrode to said first and second electrodes;
  
  said sinusoidal a.c. potentials of said first and said second electrodes being substantially balanced thereby minimizing a voltage gradient across the substrate wafer held by said chuck.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. An electrostatic chuck as claimed in claim 1 further including balance control means for said first and second excitation circuits for balancing said first and second sinusoidal potentials to minimize voltage gradients in the substrate being held by said chuck.
  - 3. An electrostatic chuck as claimed in claim 1 wherein said first thin insulating layer is a wafer of sapphire (AL₂ O₃).
  - 4. An electrostatic chuck as claimed in claim 1 wherein said first thin insulating layer is a wafer of Boron Nitride.
  - 5. An electrostatic chuck as claimed in claim 1 wherein said first and second electrodes under said first thin insulating layer are thin conductive films supported on said third electrode and separated therefrom by a second thin insulating layer.
  - 6. An electrostatic chuck as claimed in claim 1 wherein said first electrode is a circular electrode and said second electrode is an annular electrode concentric with said first electrode.
  - 7. An electrostatic chuck as claimed in claim 6 wherein said third electrode is an annular electrode concentric with said first electrode and surrounding said second electrode, said third electrode having an upper surface substantially co-planar with the surface of said first thin insulating layer and acting as a shield ring providing an equipotential extension to a substrate held in said chuck and acting as an r.f. reference electrode when said chuck is used in a sputter etching chamber.
  - 8. An electrostatic chuck as claimed in claim 1 further including means for measuring electric current flow to said first and second electrodes at a low electrode excitation amplitude to determine the presence or absence of a substrate which is to be held using large-signal excitation of the electrodes.
  - 9. An electrostatic chuck as claimed in claim 1 wherein said first and second electrodes are driven via respective excitation circuits with opposite polarities such that the potentials on the electrodes are balanced about the reference potential of the third electrode, the two excitation circuits being driven by a signal from a common signal source.
  - 10. An electrostatic chuck as claimed in claim 9 wherein said signal applied to one of said first and second excitation circuits from said signal source is fed via an amplitude and phase control means for balance adjustment between the potentials applied to said first and second electrodes.
  - 11. An electrostatic chuck as claimed in claim 1 wherein a central portion of said first substrate supporting surface of the chuck is arranged to be projected and retracted vertically upwardly above the remainder of the substrate supporting surface to facilitate removal from and placement on the chuck of a substrate.
  - 12. An electrostatic chuck as claimed in claim 11 wherein the central projectable portion of said chuck has fourth and fifth electrodes, respectively held at the same potential as any two of the first, second and third electrodes of the chuck, said fourth and fifth electrodes being covered with an insulating layer to form a second substrate supporting surface such that said second substrate supporting surface is co-planar with said first substrate supporting surface when said central portion is retracted.
  - 13. A electrostatic chuck as claimed in claim 1, having said first and second electrodes located parallel to one another and separated by a predetermined gap, such that the arrangement may be placed about a narrow supporting surface to allow a substrate to be transferred between said supporting surface of the arrangement and said narrow supporting surface.
  - 14. An electrostatic chuck as claimed in claim 1 wherein said third electrode is being connected to ground.

15. An electrostatic chuck for semiconductor wafers comprising:
- a first electrode having a planar upper surface,a second electrode having a planar upper surface said upper surfaces of said first and second electrodes being substantially in the same plane,and a third electrode,a first thin insulating layer disposed over said upper surfaces of said first and second electrodes for supporting a wafer substrate;
  
  an excitation circuit for exciting said first electrode with a first sinusoidal a.c. potential, and said second electrode with a second sinusoidal a.c. potential,said excitation circuit including an amplifier and a transformer with a center tapped output, providing said first sinusoidal signal and said second sinusoidal signal relative to the center tap of said output, said center tap being connected to said third electrode.said third electrode being a reference electrode to said first and second electrodes;
  
  said sinusoidal a.c. potentials of said first and said second electrodes being substantially balanced thereby minimizing a voltage gradient across the substrate wafer held by said chuck.
- View Dependent Claims (16, 17)
- - 16. An electrostatic chuck as claimed in claim 15 wherein said excitation circuit further includes resistive and capacitive elements connected between said outputs of said transformer and said first and second electrodes for balancing said first and second sinusoidal signals.
  - 17. An electrostatic chuck as claimed in claim 15 wherein said third electrode is being connected to ground.

Specification

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Litigation Campaign Assessment

Current Assignee
Unisearch Limited (University Of New South Wales)
Original Assignee
Unisearch Limited (University Of New South Wales)
Inventors
Horwitz, Christopher M., Boronkay, Stephen
Primary Examiner(s)
Pellinen, A. D.
Assistant Examiner(s)
Gaffin, Jeffrey A.

Application Number

US07/449,831
Time in Patent Office

825 Days
Field of Search

361/230, 361/233, 361/234, 361/235, 361/145, 269/8, 269/903
US Class Current

361/234
CPC Class Codes

H01L 21/6831   using electrostatic chucks

H01L 21/6833   Details of electrostatic ch...

Y10S 269/903   Work holder for electrical ...

Electrostatic chuck using A.C. field excitation

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

128 Citations

17 Claims

Specification

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Electrostatic chuck using A.C. field excitation

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

128 Citations

17 Claims

Specification

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Solutions

Use Cases

Quick Links