Claims
- 1. In or for a communication system comprising a transmission media carrying a plurality of analog transmission frequencies and at least one reception frequency band, a passive intermodulation interference control circuit comprising:
a plurality of distributed elements of defined length and impedance segments of transmission media that are electrically connected into a circuit having a desired frequency response; and the circuit being directly connected to the communication system through a continuous extension of the transmission media of the communication system; and the circuit being configured to control intermodulation interference associated with the transmission frequencies that occur within the reception frequency band.
- 2. The passive intermodulation interference control circuit of claim 1, wherein the circuit is configured to indirectly control in-band intermodulation interference by directly controlling out-of-band subject frequencies comprising harmonic multiples of the transmission frequencies.
- 3. The passive intermodulation interference control circuit of claim 1 physically located on a substrate carrying an antenna power divider directing the transmission frequencies carried oh the transmission media to a plurality of antenna elements.
- 4. The passive intermodulation interference control circuit of claim 3 wherein:
the transmission media comprises microstrip with or without one or more dielectric materials; and the distributed elements comprise segments of said microstrip having a size and length selected to exhibit desired impedance and phase characteristics.
- 5. The passive intermodulation interference control circuit of claim 3 wherein the distributed elements comprise segments of transmission media selected from the group consisting essentially of microstrip, air microstrip, stripline, coaxial cable, square-ax cable, and waveguide with or without one or more dielectric materials.
- 6. The passive intermodulation interference control circuit of claim 1, further comprising one or more discrete electrical elements.
- 7. The passive intermodulation interference control circuit of claim 1, wherein the distributed elements define a shunt configuration.
- 8. The passive intermodulation interference control circuit of claim 1, wherein the distributed elements define a diplexer configuration.
- 9. The passive intermodulation interference control circuit of claim 1, wherein the distributed elements define a multi-leg shunt configuration.
- 10. The passive intermodulation interference control circuit of claim 1, wherein the distributed elements define a bi-directionally equivalent back-to-back shunt configuration.
- 11. The passive intermodulation interference control circuit of claim 1, wherein the distributed elements define a bi-directionally equivalent back-to-back diplexer configuration.
- 12. An antenna system comprising,
a transmission media carrying at least two transmission carrier frequencies and one reception frequency; a power divider connecting a plurality of antenna elements to the transmission media; a passive intermodulation interference control circuit connected to the transmission media and configured to indirectly control in-band intermodulation interference associated with the transmission frequencies that occur within the reception frequency band by directly controlling out-of-band subject frequencies comprising harmonic multiples of the transmission frequencies.
- 13. The antenna system of claim 12, wherein the passive intermodulation interference control circuit comprises a plurality of distributed elements of defined length and impedance segments of transmission media that are electrically connected into a circuit having a desired frequency response.
- 14. The passive intermodulation interference control circuit of claim 12 physically located on a substrate carrying an antenna power divider directing the transmission frequencies carried on the transmission media to a plurality of antenna elements.
- 15. The passive intermodulation interference control circuit of claim 12 wherein:
the transmission media comprises microstrip with or without one or more dielectric materials; and the distributed elements comprise segments of said microstrip having a size and length selected to exhibit desired impedance and phase characteristics.
- 16. The passive intermodulation interference control circuit of claim 12 wherein the distributed elements comprise segments of transmission media selected from the group consisting essentially of microstrip, stripline, coaxial cable, square-ax cable, and waveguide with or without one or more dielectric materials.
- 17. The passive intermodulation interference control circuit of claim 12, further comprising one or more discrete electrical elements.
- 18. The passive intermodulation interference control circuit of claim 12, wherein the distributed elements define a circuit configuration selected from the group consisting essentially of a shunt configuration, a diplexer configuration, a multi-leg shunt configuration, a bi-directionally equivalent back-to-back shunt configuration, and a bi-directionally equivalent back-to-back diplexer configuration.
- 19. A method for designing a passive intermodulation interference control circuit for a communications system, comprising the steps of:
identifying at least two transmission carrier frequencies for the communications system; identifying a reception frequency band for the communications system; identifying in-band intermodulation frequencies associated with the transmission carrier frequencies occurring within the reception band; identifying out-of-band principal components of the intermodulation frequencies occurring outside the reception band; and designing a passive intermodulation interference control circuit for indirectly controlling the in-band intermodulation frequencies by directly controlling the out-of-band principal components of the intermodulation frequencies.
- 20. The method of claim 19, further comprising the step of designing the passive intermodulation interference control circuit to comprise a plurality of distributed elements of defined length and impedance segments of transmission mediamedia that are electrically connected into a circuit having a desired frequency response.
- 21. The method of claim 20, further comprising the step of designing the passive intermodulation interference control circuit to comprise one or more discrete elements.
- 22. The method of claim 21, further comprising the step of designing the passive intermodulation interference control circuit to define a circuit configuration selected from the group consisting essentially of a shunt configuration, a diplexer configuration, a multi-leg shunt configuration, a bi-directionally equivalent back-to-back shunt configuration, and a bi-directionally equivalent back-to-back diplexer configuration.
- 23. In an antenna system comprising a transmission media supplying transmission power in a plurality of transmission frequencies and receiving reception power in a reception frequency band, an improvement comprising:
a passive intermodulation interference suppression circuit directly coupled to the communication system through a continuous extension of the transmission media of the communication system, comprising distributed elements constructed from segments of transmission media, and configured to control harmonic multiples of the transmission frequencies occurring outside the reception band in order to effect reduction of intermodulation interference occurring within the reception band.
- 24. A passive interference suppression circuit comprising distributed elements constructed from segments of transmission media, and configured to indirectly suppress interference frequencies occurring within a desired band by directly suppressing identified subject components of the interference frequencies occurring outside the desired band.
- 25. The passive interference suppression circuit of claim 24, wherein:
the interference frequencies comprise intermodulation interference resulting from a plurality of transmission frequencies; and the subject components comprise harmonic multiples of the transmission frequencies.
- 26. The passive interference suppression circuit of claim 25 directly connected to a transmission media carrying the transmission and reception frequencies through a continuous extension of the transmission media.
- 27. A passive interference suppression circuit comprising distributed elements constructed from segments of transmission media, and directly connected to a transmission media carrying transmission and reception frequencies through a continuous extension of the transmission media.
- 28. The passive interference suppression circuit of claim 27 configured to indirectly suppress interference frequencies occurring within the reception frequency by directly suppressing identified subject components of the interference frequencies occurring outside the desired band comprising harmonic multiples of the transmission frequencies.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority to commonly-owned U.S. Provisional Patent Application Serial No. 60/365,399 entitled “PIM Reduction Networks For Wireless Applications” filed Mar. 18, 2002.
Provisional Applications (1)
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Number |
Date |
Country |
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60365399 |
Mar 2002 |
US |