Apparatus and method for electronically controlled admittance matching network

US 5,424,691 A
Filed: 02/03/1994
Issued: 06/13/1995
Est. Priority Date: 02/03/1994
Status: Expired due to Fees

First Claim

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1. Apparatus for dynamically matching a radio frequency signal source having a characteristic admittance to a load having a variable admittance, comprising:

an admittance matching network comprising a plurality of electronically variable impedance elements, said network having a first terminal coupled to said signal source and a second terminal coupled to said load and having an input responsive to a control current for varying an admittance of at least one of said plurality of variable impedance elements,power monitor means coupled between said signal source and said load, for providing first and second detected signals corresponding to rf power reflected from said load and rf output potential applied to said load,detection means, coupled between said power monitor means and said admittance matching network and responsive to said power monitor means, for providing signals respectively corresponding to a phase error and an amplitude error, said phase error signal and said amplitude error signal being representative of an admittance mismatch between said signal source characteristic admittance and said load admittance, andcurrent control means coupled to receive said phase error and said amplitude error signals to provide dc control currents proportional thereto to said variable impedance elements, for adjusting said impedance elements so that said network provides a predetermined impedance coinciding with said signal source impedance at said first terminal of said network,said electronically variable impedance elements comprising at least one inductor having a closed core of ferromagnetic material, a first winding on a centrally disposed leg of said core coupled intermediate said signal source and said load, a plurality of coils respectively disposed on opposing legs of said core, said plurality of coils polarized so as to enhance an applied dc magnetic field in said core and so as to oppose induced rf currents coupled to said core and applied to said current control means, and having a plurality of winding layers coaxially disposed so as to minimize voltage differential between turns of said windings.

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Abstract

An apparatus for dynamically matching a radio-frequency source for semiconductor processing to a load, and particularly adapted for plasma sputtering and etching processes, comprises an admittance matching network utilizing magnetically saturable inductors. A dc bias signal is provided to optimize the operating point of the saturable reactor with respect to the hysteresis characteristic of the core material. A control signal characterized by a phase error and a magnitude derived from the signal reflected from the load is applied to control the magnetizing current flowing through the inductors. The invention discloses a structure for the inductors which provides efficient coupling of the control current, while inherently rejecting rf currents reflected back from the load to the inductor current source.

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16 Claims

1. Apparatus for dynamically matching a radio frequency signal source having a characteristic admittance to a load having a variable admittance, comprising:
- an admittance matching network comprising a plurality of electronically variable impedance elements, said network having a first terminal coupled to said signal source and a second terminal coupled to said load and having an input responsive to a control current for varying an admittance of at least one of said plurality of variable impedance elements,power monitor means coupled between said signal source and said load, for providing first and second detected signals corresponding to rf power reflected from said load and rf output potential applied to said load,detection means, coupled between said power monitor means and said admittance matching network and responsive to said power monitor means, for providing signals respectively corresponding to a phase error and an amplitude error, said phase error signal and said amplitude error signal being representative of an admittance mismatch between said signal source characteristic admittance and said load admittance, andcurrent control means coupled to receive said phase error and said amplitude error signals to provide dc control currents proportional thereto to said variable impedance elements, for adjusting said impedance elements so that said network provides a predetermined impedance coinciding with said signal source impedance at said first terminal of said network,said electronically variable impedance elements comprising at least one inductor having a closed core of ferromagnetic material, a first winding on a centrally disposed leg of said core coupled intermediate said signal source and said load, a plurality of coils respectively disposed on opposing legs of said core, said plurality of coils polarized so as to enhance an applied dc magnetic field in said core and so as to oppose induced rf currents coupled to said core and applied to said current control means, and having a plurality of winding layers coaxially disposed so as to minimize voltage differential between turns of said windings.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 16)
- - 2. The apparatus as set forth in claim 1, said current control means further comprising means for applying a dc bias signal to determine a predetermined operating point on the hysteresis characteristic of said core, said operating point selected to provide an admittance variation corresponding to a range of admittance variation of said load, said bias signal being combined with said phase error signal or said amplitude error signal respectively to generate said dc control currents.
  - 3. An apparatus as set forth in claim 1, further comprising a multiwinding E-core transformer, including at least first, second and third legs, said second leg being intermediate said first and third legs and having a cross-sectional area substantially equal to the sum of the cross-sectional areas of said first and second legs, said second leg having a circumferential contour adapted to receive a circular turn of said first winding, said first and third coils connected in series aiding with respect to a magnetic flux induced in said core, and effectively in series opposing with respect to a rf flux induced in said core.
  - 4. An apparatus as set forth in claim 3, said first and third coils respectively comprised of a plurality of coaxial tiers of solenoidal windings, each said tier being comprised of an odd number of multilayer windings, each of said tiers having a start and a finish termination, and respective start and finish terminations of adjacent tiers being connected in series aiding.
  - 5. An apparatus as set forth in claim 4, wherein each coil of said first and third legs is comprised of three coaxial tiers of solenoidal windings.
  - 6. An apparatus as set forth in claim 5, wherein said core is comprised of ferrite material having a magnetic permeability of about 125 Henry/meter.
  - 7. An apparatus as set forth in claim 6, wherein said core is comprised of a pair of opposing monolith E cores having a plurality of contacting faces corresponding to said first, second and third legs.
  - 8. An apparatus as set forth in claim 6, wherein said core is comprised of an assembly of five legs, said first, second and third legs being sequentially disposed intermediate opposing fourth and fifth legs, said fourth and fifth legs respectively bridging opposing ends of said first, second and third legs so as to provide a complete magnetic path.
  - 9. An apparatus as set forth in claim 3, wherein said circumferential contour comprises a plurality of planar faces.
  - 10. An apparatus as set forth in claim 9, wherein said circumferential contour comprises a circle.
  - 11. An apparatus as set forth in claim 9, wherein said circumferential contour comprises a polygon.
  - 12. An apparatus as set forth in claim 9, wherein said circumferential contour comprises an ellipse.
  - 13. An apparatus as set forth in claim 11, wherein said circumferential contour comprises a hexagon.
  - 16. An apparatus as set forth in claim 1, said core being comprised of an assembly of five legs, wherein first and second legs thereof are disposed in parallel and abut ends of third and fourth legs, also disposed in parallel, thereby defining a rectangle, a fifth leg thereof being disposed at a midpoint between said third and fourth legs to complete a magnetic flux path therebetween.

14. Apparatus for dynamically matching a radio frequency signal source having a characteristic admittance to a load having a variable admittance, comprising:
- an admittance matching network comprising a plurality of electronically variable impedance elements, said network having a first terminal coupled to said signal source and a second terminal coupled to said load and having an input responsive to a control current for varying at least one of said plurality of variable impedance elements,power monitor means coupled between said signal source and said load, for providing first and second detected signals corresponding to rf power reflected from said load and rf output potential applied to said load,detection means, coupled between said power monitor means and said admittance matching network, for providing signals respectively corresponding to a phase error and an amplitude error, said phase error signal and said amplitude error signal being representative of an admittance mismatch between said signal source characteristic admittance and said load admittance, andcurrent control means coupled to receive said phase error and said amplitude error signals to provide dc control currents proportional thereto to said variable impedance elements, for adjusting said impedance elements so that said network provides a predetermined impedance coinciding with said signal source impedance at said first terminal of said network,said electronically variable impedance elements comprising at least one inductor having a closed core of ferromagnetic material, a first winding on a centrally disposed leg of said core coupled intermediate said signal source and said load, a plurality of coils respectively disposed on opposing legs of said core, said plurality of coils polarized so as to enhance an applied magnetic field in said centrally disposed leg and so as to oppose induced rf currents coupled to said core and applied to said current control means, and having a plurality of winding layers coaxially disposed so as to minimize voltage differential between turns of said windings, said inductor further comprising a multiwinding E-core transformer, including at least first, second and third legs, wherein said core is comprised of a pair of opposing monolithic E-cores having a plurality of contacting faces corresponding to said first, second, and third legs, said second leg being intermediate said first and third legs and having a cross-sectional area at least equal to the sum of the cross-sectional areas of said first and second legs, said second leg having a substantially circular circumferential contour adapted to receive an arcuate turn of said first rf winding, said first and third coils connected in series aiding with respect to a magnetic flux induced in said core and effectively in series opposing with respect to a rf flux induced in said first and third legs,said first and third coils respectively comprised of at least three coaxial tiers of solenoidal windings, each said tier being comprised of an odd number of multilayer windings, each of said multilayer windings having a start and a finish termination, and respective start and finish terminations of adjacent tiers being connected in series aiding.

15. A method for electronically matching a radio frequency signal source having a characteristic admittance to a load having a variable admittance, comprising:
- providing an admittance matching network comprising a plurality of electronically variable admittance elements,providing a control current for varying the admittance of at least one of said plurality of variable admittance elements,providing a current path through said variable admittance elements such that a closed, composite flux path is generated to enhance dc induced flux while diminishing rf induced flux,providing a voltage path through said variable admittance elements such that an applied control voltage is serially distributed over a plurality of coaxially disposed inductances,measuring the magnitude of rf reflected power and rf potential at said load and deriving signals corresponding thereto,applying said derived signals to synchronous demodulator means thereby to generate a phase error signal and an amplitude error signal corresponding to an admittance mismatch between said signal source and said load,providing a source of bias potential for adjusting the operating point of said variable impedance elements,applying said bias potential and said generated signals to a source of variable dc current, the amplitude of said variable dc current being representative of a disparity corresponding to said admittance mismatch, andapplying said variable dc current to said variable impedance elements so as to urge said matching network to provide a substantially exact admittance match between said signal source and said load, whereby said phase error and said amplitude error signals are urged to a nullity.

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Current Assignee
Samuel Sadinsky
Original Assignee
Samuel Sadinsky
Inventors
Sadinsky, Samuel
Primary Examiner(s)
GENSLER, PAUL L

Application Number

US08/192,296
Time in Patent Office

495 Days
Field of Search

333/17.3, 333/99 PL, 334/11, 334/12, 334/14, 334/71
US Class Current

333/17.3
CPC Class Codes

H01F 2029/143   with control winding for ge...

H01F 21/08   by varying the permeability...

H01J 37/32183   Matching circuits

H03H 7/40   Automatic matching of load ...

Apparatus and method for electronically controlled admittance matching network

First Claim

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Abstract

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16 Claims

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Apparatus and method for electronically controlled admittance matching network

First Claim

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Accused Products

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Abstract

71 Citations

16 Claims

Specification

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