Claims
- 1. A filter comprising:a substrate; connection means for providing electrical connection; a filter circuit on a top surface of said substrate including at least a resonator electromagnetically resonating at a resonance frequency at a microwave band and a millimeter wave band, for filtering an input signal from said connection means through said resonator and outputting the filtered signal through said connection means; a metal box including a top plate confronting said top surface and said filter circuit, side walls, and a bottom plate, for containing and supporting said substrate and filter circuit, a portion of said side walls supporting said connection means, wherein a first portion of said input signal is transferred through said filter circuit and a second portion of said input signal is transferred through a portion of said metal box in the wave-guided mode, said second portion providing a spurious characteristic of said filter, an inside surface of said top plate having a shape other than a plane to control the spurious characteristic, wherein said top plate has a thickness between a top surface thereof and said inside surface and said thickness successively increases and then, successively decreases in a direction.
- 2. The filter as claimed in claim 1, wherein said inside surface has a protruding portion.
- 3. The filter as claimed in claim 1, wherein said inside surface of said top plate has a plurality of triangle poles arranged in a direction to have said shape other than a plane.
- 4. The filter as claimed in claim 1, wherein said resonator comprises a microstrip line.
- 5. A filter as claimed in claim 1, wherein a spurious resonance frequency in said spurious characteristic is shifted by said shape of said inside surface of said top plate.
- 6. The filter as claimed in claim 1, wherein said resonator comprises a dielectric resonator.
- 7. The filter as claimed in claim 1, wherein said side walls are combined with said bottom plate.
- 8. The filter as claimed in claim 1, wherein said side walls are combined with said top plate.
- 9. A filter comprising:a substrate; connection means for providing electrical connection; a filter circuit on a top surface of said substrate including at least a resonator electromagnetically resonating at a resonance frequency at a microwave band and a millimeter wave band, for filtering an input signal from said connection means through said resonator and outputting the filtered signal through said connection means; a metal box including a top plate confronting said top surface and said filter circuit, side walls, and a bottom plate, for containing and supporting said substrate and filter circuit, a portion of said side walls supporting said connection means, wherein a first portion of said input signal is transferred through said filter circuit and a second portion of said input signal is transferred through a portion of said metal box in the wave-guided mode, said second portion providing a spurious characteristic of said filter, an inside surface of said top plate having a shape other than a plane to control the spurious characteristic, wherein said top plate has a thickness between a top surface thereof and said inside surface and said thickness decreases stepwise and then, increases stepwise in a direction.
- 10. A filter comprising:a substrate; connection means for providing electrical connection; a filter circuit on a top surface of said substrate including at least a resonator electromagnetically resonating at a resonance frequency at a microwave band and a millimeter wave band, for filtering an input signal from said connection means through said resonator and outputting the filtered signal through said connection means; a metal box for containing and supporting said substrate and filter circuit, said metal box including: a top plate confronting said top surface of said substrate and said filter circuit, side walls, and a bottom plate; wherein a first portion of said input signal is transferred through said filter circuit, a second portion of said input signal is transferred through said top plate of said metal box in the wave-guided mode, said second portion provides a spurious characteristic of said filter, and an inside surface of said top plate has a protruding portion in which a thickness of said top plate successively increases and then, successively decreases in a direction to shift a spurious resonance frequency in said spurious characteristic.
- 11. A filter comprising:a substrate; connection means for providing electrical connection; a filter circuit on a top surface of said substrate including at least a resonator electromagnetically resonating at a resonance frequency at a microwave band and a millimetric wave band, for filtering an input signal from said connection means through said resonator and outputting the filtered signal through said connection means; a metal box including a top plate confronting said top surface and said filter circuit, side walls, and a bottom plate, for containing and supporting said substrate and filter circuit, a portion of said side walls supporting said connection means, wherein a first portion of said input signal is transferred through said filter circuit and a second portion of said input signal is transferred through a portion of said metal box in a guided mode, said second portion providing a spurious characteristic of said filter, said side wall having a protruding portion to control the spurious characteristic, wherein said protruding portion is arranged at a comer of successive two of said side walls and combined with said successive two of said side walls.
- 12. The filter as claimed in claim 11, wherein said resonator comprises a microstrip line.
- 13. A filter as claimed in claim 11, wherein a spurious resonance frequency in said spurious characteristic is shifted by said protruding portion.
- 14. The filter as claimed in claim 11, wherein said resonator comprises a dielectric resonator.
- 15. The filter as claimed in claim 11, wherein said side walls are combined with said bottom plate.
- 16. The filter as claimed in claim 11, wherein said side walls are combined with said top plate.
- 17. A filter comprising:a substrate; connection means for providing electrical connection; a filter circuit on a top surface of said substrate including at least a resonator electromagnetically resonating at a resonance frequency at a microwave band and a millimeter wave band, for filtering an input signal from said connection means through said resonator and outputting the filtered signal through said connection means; a metal box including a top plate confronting said top surface and said filter circuit, side walls, and a bottom plate, for containing and supporting said substrate and filter circuit, a portion of said side walls supporting said connection means, wherein a first portion of said input signal is transferred through said filter circuit and a second portion of said input signal is transferred through a portion of said metal box in the wave-guided mode, said second portion providing a spurious characteristic of said filter, further comprising a dielectric plate on an inner surface of said metal box on the side of said top surface of said substrate, wherein said second portion of said input signal is transferred through said portion of said metal box and said dielectric plate in a guided mode, said dielectric plate shifting said spurious characteristic of said filter.
- 18. The filter as claimed in claim 17, wherein said side walls are combined with said bottom plate.
- 19. The filter as claimed in claim 17, wherein said side walls are combined with said top plate.
- 20. The filter as claimed in claim 17, wherein said resonator comprises a microstrip line.
- 21. The filter as claimed in claim 17, wherein said resonator comprises a dielectric resonator.
Priority Claims (1)
Number |
Date |
Country |
Kind |
9-166960 |
Jun 1997 |
JP |
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Parent Case Info
This application is a Continuation of application Ser. No. 09/102,084 filed Jun. 22, 1998 abandoned.
US Referenced Citations (8)
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Apr 1982 |
JP |
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Non-Patent Literature Citations (1)
Entry |
Jasberg, “Improvement of Power Output from Pulsed Kystrons,” Proceedings of IRE vol. 2, No. 5, May 1954. |
Continuations (1)
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Number |
Date |
Country |
Parent |
09/102084 |
Jun 1998 |
US |
Child |
09/612965 |
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US |