Microwave power control apparatus for linear accelerator using hybrid junctions

US 5,661,377 A
Filed: 02/17/1995
Issued: 08/26/1997
Est. Priority Date: 02/17/1995
Status: Expired due to Term

First Claim

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1. A linear accelerator system comprising:

a linear accelerator comprising a charged particle source for generating charged particles, and first and second accelerator guide sections operatively connected in series for accelerating said charged particles therethrough, said charged particle source being coupled to said first accelerator guide to feed electrons to said first accelerator guide section;

a first hybrid junction having a first port for receiving input RF power, a second port coupled to said first accelerator guide section, a third port coupled to a dummy load, and a fourth port;

a second symmetric hybrid junction having a first port coupled to the fourth port of said first hybrid junction, a third port coupled to said second accelerator guide section to apply the input RF power to said second accelerator guide section in parallel to the input RF power applied to said first accelerator guide section, and second and fourth ports;

a first variable short circuit element coupled to the second port of said second symmetric hybrid junction; and

a second variable short circuit element coupled to the fourth port of said second symmetric hybrid junction, wherein the input RF power reflected by said first and second variable short circuit elements is directed through the third port of said second symmetric hybrid junction to said second accelerator guide section to produce an adjustable output electron beam from said second accelerator guide section.

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Abstract

A control apparatus for controlling RF power supplied to first and second loads is provided. The control apparatus includes a first symmetric hybrid junction having a first port for receiving input RF power, a second port coupled to the first load and a third port coupled to a dummy load. The control apparatus further includes a second symmetric hybrid junction having a first port coupled to a fourth port of the first symmetric hybrid junction and a third port coupled to the second load. First and second variable shorts are respectively coupled to second and fourth ports of the second symmetric hybrid junction. RF power reflected by the first and second variable shorts is controllably directed through the second symmetric hybrid junction to the second load. The amplitude and phase of the RF power supplied to the second load can be controlled independently. In a preferred embodiment, the first and second loads are first and second accelerator guide sections of a linear accelerator, and the control apparatus is used to control the output beam energy of the linear accelerator.

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16 Claims

1. A linear accelerator system comprising:
- a linear accelerator comprising a charged particle source for generating charged particles, and first and second accelerator guide sections operatively connected in series for accelerating said charged particles therethrough, said charged particle source being coupled to said first accelerator guide to feed electrons to said first accelerator guide section;
  
  a first hybrid junction having a first port for receiving input RF power, a second port coupled to said first accelerator guide section, a third port coupled to a dummy load, and a fourth port;
  
  a second symmetric hybrid junction having a first port coupled to the fourth port of said first hybrid junction, a third port coupled to said second accelerator guide section to apply the input RF power to said second accelerator guide section in parallel to the input RF power applied to said first accelerator guide section, and second and fourth ports;
  
  a first variable short circuit element coupled to the second port of said second symmetric hybrid junction; and
  
  a second variable short circuit element coupled to the fourth port of said second symmetric hybrid junction, wherein the input RF power reflected by said first and second variable short circuit elements is directed through the third port of said second symmetric hybrid junction to said second accelerator guide section to produce an adjustable output electron beam from said second accelerator guide section.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A linear accelerator system as defined in claim 1 wherein said control means includes means, operatively connected to said first and second short circuit elements, for adjusting said variable short circuit elements so as to vary the amplitude of said input RF power supplied to said second accelerator guide section while maintaining a constant phase relationship between said input RF power supplied to said first and second accelerator guide sections.
  - 3. A linear accelerator system as defined in claim 1 wherein said control means includes means, operatively connected to said first and second short circuit elements, for adjusting said first and second variable short circuit elements by equal increments so as to vary a phase difference between said input RF power supplied to said first and second accelerator guide sections.
  - 4. A linear accelerator system as defined in claim 1 further including control means, operatively connected to said first and second short circuit elements, for adjusting said first and second variable short circuit elements so as to control said input RF power supplied to said second accelerator guide section.
  - 5. A linear accelerator system as defined in claim 4 wherein said control means comprises a first linear stepping motor for adjusting said first variable short circuit element and a second linear stepping motor for adjusting said second variable short circuit element.
  - 6. A linear accelerator system as defined in claim 4 in which said second port of said first hybrid junction is coupled to a first directional coupler connected to said first accelerator guide section.
  - 7. A linear accelerator system as defined in claim 6 in which said third port of said second symmetric hybrid junction is coupled to a second directional coupler connected to said second accelerator guide section.
  - 8. A linear accelerator in accordance with claim 1 including an output beam window and in which said first and said second accelerator guide sections are in line and said charged particles travel in a straight line path from said source through said first and second accelerator sections and out said output beam window.

9. Control apparatus for a linear accelerator comprising a charged particle source for generating charged particles, and first and second accelerator guide sections operatively connected in series for accelerating said charged particles therethrough, said control apparatus comprising:
- a first hybrid junction having a first port for receiving input RF power, a second port coupled to said first accelerator guide section, a third port coupled to a dummy load, and a fourth port;
  
  a second symmetric hybrid junction having a first port coupled to the fourth port of said first hybrid junction, a third port coupled, in parallel, to the connection of the first hybrid junction to the first accelerator guide section by being connected to said second accelerator guide section, and second and fourth ports;
  
  a first variable short circuit element coupled to the second port of said second symmetric hybrid junction;
  
  a second variable short circuit element coupled to the fourth port of said second symmetric hybrid junction, wherein the input RF power reflected by said first and second variable short circuit elements is controllably directed through the third port of said second symmetric hybrid junction to said second accelerator guide section in parallel with the input RF power fed to said first accelerator; and
  
  control means, operatively connected to said first and second short circuit elements, for adjusting, said first and second variable short circuit elements so as to control said input RF power supplied to said accelerator guide sections to output an adjustable electron beam from said accelerator.
- View Dependent Claims (10, 11, 12)
- - 10. Control apparatus as defined in claim 9 wherein said control means, is operatively connected to said first and second short circuit elements, for adjusting said variable short circuit elements so as to vary the amplitude of said input RF power supplied to said second accelerator guide section while maintaining a constant phase relationship between said input RF power supplied to said first and second accelerator guide sections.
  - 11. Control apparatus as defined in claim 9 wherein said operatively connected means comprises a first linear stepping motor, operatively connected to said first short circuit elements, for adjusting said first variable short circuit elements and a second linear stepping motor, operatively connected to said second short circuit elements, for adjusting said second variable short circuit elements.
  - 12. Control apparatus as defined in claim 9 wherein said control means includes means, operatively connected to said first and second short circuit elements, for adjusting said first and second variable short circuit elements by equal increments so as to vary a phase difference between said input RF power supplied to said first and second accelerator guide sections.

13. Control apparatus for controlling input RF power supplied to a first load and to a second load, said apparatus comprising:
- a first hybrid junction having a first port for receiving said input RF power, a second port coupled to said first load, a third port coupled to a dummy load, and a fourth port;
  
  a second hybrid junction having a first port coupled to the fourth port of said first hybrid junction, a third port coupled to said second load, and second and fourth ports;
  
  a first variable short circuit element coupled to the second port of said second hybrid junction;
  
  a second variable short circuit element coupled to the fourth port of said second hybrid junction, wherein said input RF power fed to and reflected by said first and second variable short circuit elements is controllably directed through the third port of said second hybrid junction to said second load; and
  
  control means, operatively connected to said first and second short circuit elements, for adjusting said first and second variable short circuit elements so as to control the input RF power supplied to said second load.
- View Dependent Claims (14, 15, 16)
- - 14. Control apparatus as defined in claim 13 wherein said first load comprises a first accelerator guide section of a linear accelerator and said second load comprises a second accelerator guide section of said linear accelerator.
  - 15. Control apparatus as defined in claim 13 wherein said control means includes means for adjusting said first and second variable short circuit elements by equal increments so as to vary a phase difference between RF voltages supplied to said first and second loads.
  - 16. Control apparatus as defined in claim 13 wherein said control means includes means for adjusting said variable short circuit elements so as to vary the amplitude of the input RF power supplied to said second load and to maintain a constant phase relationship between the input RF power supplied to said first and second loads.

Specification

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Current Assignee
Pacific Republic Capital Corp.
Original Assignee
Intraop Medical, Inc. (IntraOp Medical Corporation)
Inventors
Mishin, Andrey, DeRuyter, Hank, Schonberg, Russell G.
Primary Examiner(s)
Lee, Benny T.

Application Number

US08/390,122
Time in Patent Office

921 Days
Field of Search

333/117, 333/17.1, 315/5.41, 315/5.42, 315/500, 315/505
US Class Current

315/505
CPC Class Codes

H05H 7/02 Circuits or systems for sup...

H05H 7/12 Arrangements for varying fi...

Microwave power control apparatus for linear accelerator using hybrid junctions

First Claim

7 Assignments

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Abstract

Citations

16 Claims

Specification

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Microwave power control apparatus for linear accelerator using hybrid junctions

First Claim

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Accused Products

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Abstract

Citations

16 Claims

Specification

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Solutions

Use Cases

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