Low pass filter with embedded resonator

US 8,115,574 B2
Filed: 11/21/2008
Issued: 02/14/2012
Est. Priority Date: 11/21/2008
Status: Active Grant

First Claim

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1. A microwave filter, comprising:

a stepped impedance frequency filter section, havinga plurality of resonator sections, arranged in a succession, each resonator section coupled to at least one other resonator section,an inner conductor coupled to at least one of the resonator sections and having a distal end,wherein the plurality of resonator sections are structured to provide a given pass band having a given sharpness of a given transition band, anda notch resonator coupled to the distal end of the inner conductor, said notch resonator comprising a first transmission line having a bore, a dielectric spacer arranged in the bore, the dielectric spacer having a second bore, a projection arranged to have a length LN within the second bore and to space the projection a gap GP from the bore, the projection connecting to a second transmission line,wherein the projection extending the length LN in the bore and the gap GP form an impedance equivalent to a coupling capacitance CC coupling to a resonant circuit comprising a parallel inductance LR and capacitance CR to a ground, andwherein the notch resonator has a notch frequency proximal to said pass band to provide the microwave filter with a transition band sharper than said given sharpness.

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Abstract

An embedded resonator sharpens the frequency characteristics of a coaxial low pass filter. The resonator introduces finite transmission zeros to the response of the low pass filter, thereby suppressing spurious modes occurring just above the operating frequency. Two parameters are used to tune the operation of the embedded resonator. The length of an insert into the filter'"'"'s transmission line substantially controls the resonant frequency, and the gap width substantially controls the coupling of the embedded resonator to the low pass filter.

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9 Claims

1. A microwave filter, comprising:
- a stepped impedance frequency filter section, havinga plurality of resonator sections, arranged in a succession, each resonator section coupled to at least one other resonator section,an inner conductor coupled to at least one of the resonator sections and having a distal end,wherein the plurality of resonator sections are structured to provide a given pass band having a given sharpness of a given transition band, anda notch resonator coupled to the distal end of the inner conductor, said notch resonator comprising a first transmission line having a bore, a dielectric spacer arranged in the bore, the dielectric spacer having a second bore, a projection arranged to have a length LN within the second bore and to space the projection a gap GP from the bore, the projection connecting to a second transmission line,wherein the projection extending the length LN in the bore and the gap GP form an impedance equivalent to a coupling capacitance CC coupling to a resonant circuit comprising a parallel inductance LR and capacitance CR to a ground, andwherein the notch resonator has a notch frequency proximal to said pass band to provide the microwave filter with a transition band sharper than said given sharpness.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The microwave filter of claim 1, wherein the projection extends from a shoulder at a distal end of the first transmission line, and the second bore of the dielectric spacer extends in a longitudinal direction andwherein the dielectric spacer comprises a flange portion having a first face and a second face spaced a thickness GP from said first face, a cylindrical portion extending from the flange portion in the longitudinal direction,wherein said first face contacts said shoulder, said second face contacts a distal end of a center conductor of said seco d transmission line, and said projection extends into said bore.
  - 3. The microwave filter of claim 1, wherein said first transmission line is an extension of a distal end of said inner conductor.
  - 4. The microwave filter of claim 1, wherein said second transmission line is an extension of a distal end of said inner conductor.
  - 5. The microwave filter of claim 1, wherein said inductance LR is substantially based on said length LN, and wherein said inductance LR, said capacitance CR and said capacitance CC form a resonator having a center frequency substantially dependent on said inductance LR.
  - 6. The microwave filter of claim 1, wherein said coupling capacitance CC is based on said gap GP.
  - 7. The microwave filter of claim 1, wherein said coupling capacitance CC and said capacitance CR are based on said gap GP, and wherein said inductance LR, said capacitance CR and said capacitance CC form a resonator having a center frequency substantially dependent on said inductance LR, and a minimum impedance substantially based on said gap GP.

8. A microwave filter comprising:
- an inner transmission line having a first conductor section and a second conductor section;
  
  a stepped-impedance resonator filter coupled to said first conductor section wherein the stepped-impedance resonator filter has a given pass band having a given sharpness of a given transition band; and
  
  a notch frequency filter section comprising a reactive element coupling said first conductor section to said second conductor section, said reactive element comprising a dielectric spacer having a thickness GP, wherein the dielectric spacer;
  
  separates an axial distal end of the first conductor section from a facing distal end of the second conductor section, andseparates a length LN of a projection of the first conductor section from a bore formed in the second conductor section,wherein said reactive element forms a coupling capacitance CC coupling to an LC resonator having a capacitance CR in parallel with an inductance LR,wherein the notch resonator has a notch frequency proximal to said pass band to provide the microwave filter with a transition band sharper than said given sharpness.

9. A method of designing a stepped-impedance low pass filter, comprising the following steps:
- defining an upper limit of a pass band with a cut-off frequency;
  
  identifying spurious frequencies that occur above said cut-off frequency;
  
  identifying at least one pole value for suppression of said spurious frequencies;
  
  modeling a circuit having a coupling capacitance CC value coupling to an LC resonator, the LC resonator having a parallel inductance LR and capacitance CR, with said coupling capacitance CC, said capacitance CR and said inductance LR respectively having values providing a resonant center frequency based on said at least one pole;
  
  identifying a projection length LN and a gap dimension GP for a projection of length LN extending from a first transmission line into a bore formed in a second transmission line, based on said CC, CR and LR values;
  
  providing a dielectric spacer based on said projection length LN and said gap dimension GP values;
  
  forming a projection of said length LN on the first transmission line and a bore to accommodate the projection and the dielectric spacer in the second transmission line; and
  
  arranging the dielectric spacer on said projection and inserting said dielectric spacer and projection into said bore.

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Current Assignee
Alcatel-Lucent SA (Nokia Corporation)
Original Assignee
Alcatel-Lucent SA (Nokia Corporation)
Inventors
Adkins, Michael Joseph
Primary Examiner(s)
Lee, Benny
Assistant Examiner(s)
Sumadiwirya, Hardadi

Application Number

US12/275,523
Publication Number

US 20100127801A1
Time in Patent Office

1,180 Days
Field of Search

333/202, 333/204, 333/206, 333/207, 333/24.C, 333/219, 333/219.1, 333/222, 333/223
US Class Current

333/207
CPC Class Codes

H01P 1/202 Coaxial filters cascaded co...

Low pass filter with embedded resonator

First Claim

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Abstract

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9 Claims

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Low pass filter with embedded resonator

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

13 Citations

9 Claims

Specification

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Solutions

Use Cases

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