Claims
- 1. A method of operating a duplexer including a first tunable bandpass filter, a second tunable bandpass filter and means for coupling the first bandpass filter and the second bandpass filter to an antenna, the method comprising the steps of:
tuning the first tunable bandpass filter to provide a passband corresponding to an assigned transmit frequency, and tuning the second tunable bandpass filter to provide a passband offset from an assigned receive frequency, when the duplexer is operated in a transmit mode; and tuning the first tunable bandpass filter to provide a passband offset from an assigned transmit frequency, and tuning the second tunable bandpass filter to provide a passband corresponding to the assigned receive frequency, when the duplexer is operated in a receive mode.
- 2. A method of operating a duplexer according to claim 1, wherein the first passband and the second passband are set by controlling tunable capacitors in each of the first and second tunable bandpass filters.
- 3. A method of operating a duplexer according to claim 2, wherein the tunable capacitors each comprise:
a tunable dielectric varactor.
- 4. A method of operating a duplexer according to claim 2, wherein the tunable capacitors each comprise:
a microelectromechanical variable capacitor.
- 5. A method of operating a duplexer according to claim 1, wherein the means for coupling the first bandpass filter and the second bandpass filter to an antenna comprises one of:
a circulator, a T-junction, and an orthomode transducer.
- 6. A method of operating a duplexer according to claim 3, wherein each of the tunable capacitor comprises:
a substrate having a first dielectric constant and having generally a planar surface; a tunable dielectric layer positioned on the generally planar surface of the substrate, the tunable dielectric layer having a second dielectric constant greater than said first dielectric constant; and first and second electrodes positioned on a surface of the tunable dielectric layer opposite the generally planar surface of the substrate, said first and second electrodes being separated to form a gap therebetween.
- 7. A method of operating a duplexer according to claim 6, wherein the first tunable capacitor further comprises:
an insulating material in said gap.
- 8. A method of operating a duplexer according to claim 1, wherein each of first bandpass filter and the second bandpass comprises:
a substrate; a ground conductor; an input; an output; a first microstrip line positioned on the substrate, and electrically coupled to the input and the output; and a first tunable dielectric varactor electrically connected between the microstrip line and the ground conductor.
- 9. A method of operating a duplexer according to claim 8, wherein the input comprises a second microstrip line positioned on the substrate and having a first portion lying parallel to the first microstrip line; and
the output comprises a third microstrip line positioned on the substrate and having a first portion lying parallel to the first microstrip line.
- 10. A method of operating a duplexer according to claim 8, wherein said first microstrip line includes a first end and a second end, the first end of said first microstrip line being open circuited and said varactor being connected between the second end of said first microstrip line and the ground conductor.
- 11. A method of operating a duplexer according to claim 1, wherein each of first bandpass filter and the second bandpass comprises one of:
a waveguide cavity filter, a dielectric resonator cavity filter, a lumped element filter, and a planar structure resonator filter.
CROSS REFERENCE TO A RELATED APPLICATION
[0001] This application claims the benefit of U.S. Provisional Application Serial No. 60/245,538, filed Nov. 3, 2000.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60245538 |
Nov 2000 |
US |
Continuations (1)
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Number |
Date |
Country |
Parent |
10000490 |
Nov 2001 |
US |
Child |
10268198 |
Oct 2002 |
US |