Downconverter for the combined reception of linear and circular polarization signals from collocated satellites

US 6,931,245 B2
Filed: 08/09/2002
Issued: 08/16/2005
Est. Priority Date: 08/09/2002
Status: Expired due to Fees

First Claim

Patent Images

1. An apparatus for downconversion of linearly and circularly polarized signals, wherein the linearly polarized signals have a different frequency than the circularly polarized signals, said apparatus for use in conjunction with an antenna or waveguide, said antenna or waveguide operative to receive vertically and horizontally polarized components of said linearly and circularly polarized signals, said apparatus comprising:

(a) a first LNB input and a second LNB input, said first LNB input operative to receive the vertically polarized components of the linearly and circularly polarized signals and said second LNB input operative to receive the horizontally polarized components of the linearly and circularly polarized signals;

(b) a first amplifier and a second amplifier coupled to said first LNB input and said second LNB input, respectively, said first amplifier operative to receive and amplify a signal from said first LNB input and said second amplifier operative to receive and amplify a signal from said second LNB input;

(c) a first diplexer coupled to said first amplifier, said first diplexer comprising a low pass filter and a high pass filter, said first diplexer operative to receive said signal from said first amplifier and to separate said signal from said first amplifier into a first frequency band and a second frequency band, said first frequency band corresponding to said linearly polarized signal and said second frequency band corresponding to said circularly polarized signal, said first diplexer additionally having a first output and a second output, said first output for outputting said first frequency band and said second output for outputting said second frequency band;

(d) a second diplexer coupled to said second amplifier, said second diplexer comprising a low pass filter and a high pass filter, said second diplexer operative to receive said signal from said second amplifier and to separate said signal from said second amplifier into a first frequency band and a second frequency band, said first frequency band corresponding to said linearly polarized signal and said second frequency band corresponding to said circularly polarized signal, said second diplexer additionally having a first output and a second output, said first output for outputting said first frequency band and said second output for outputting said second frequency band;

(e) a pair of linear mixers, each one of said pair of linear mixers coupled to a first local oscillator, a first mixer of said pair of linear mixers having an input coupled to said first output of said first diplexer, and a second mixer of said pair of linear mixers having an input coupled to said first output of said second diplexer, said pair of linear mixers operative to downconvert said first frequency bands from said first outputs of said first and second diplexers;

(f) a 90 degree combiner having a first input and a second input, said first and second inputs coupled to said second outputs of said first and second diplexers, respectively, said 90 degree combiner operative to introduce phase shifts into the signals entering said first and second inputs so as to separate left-hand and right-hand circularly polarized signals of said circularly polarized signals, said 90 degree combiner having a first output and a second output, said first output for outputting said left-hand circularly polarized signal and said second output for outputting said right-hand circularly polarized signal; and

(g) a pair of circular mixers, each one of said pair of circular mixers coupled to a second local oscillator, a first mixer of said pair of circular mixers having an input coupled to said first output of said 90 degree combiner, and a second mixer of said pair of circular mixers having an input coupled to said second output of said 90 degree combiner, said pair of circular mixers operative to downconvert said left-hand and right-hand circularly polarized signals.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A microwave downconverter apparatus and scheme is hereby presented for the simultaneous reception of both linearly and circularly polarized signals from collocated satellites. A single antenna and waveguide feed is used for reception from two collocated satellites, wherein one satellite employs both right and left hand circular polarizations and the other employs both vertical and horizontal linear polarizations. The vertical and horizontal components of the linearly polarized signals and the vertical and horizontal components of the circularly polarized signals are separated by the antenna feed apparatus and applied to the input of the downconverter of this invention. Following a stage of RF amplification, both the horizontal and vertical components are further separated into two distinct paths by means of a diplexer. Since the linearly and circularly polarized signals are displaced one from the other by means of frequency, the diplexer provides a means of separating the two polarization techniques. The vertical and horizontal components of the linearly polarized signals are then downconverted to an intermediate frequency by means of a local oscillator and mixers. The vertical and horizontal components of the circularly polarized signals are likewise downconverted to an intermediate frequency.

41 Citations

View as Search Results

21 Claims

1. An apparatus for downconversion of linearly and circularly polarized signals, wherein the linearly polarized signals have a different frequency than the circularly polarized signals, said apparatus for use in conjunction with an antenna or waveguide, said antenna or waveguide operative to receive vertically and horizontally polarized components of said linearly and circularly polarized signals, said apparatus comprising:
- (a) a first LNB input and a second LNB input, said first LNB input operative to receive the vertically polarized components of the linearly and circularly polarized signals and said second LNB input operative to receive the horizontally polarized components of the linearly and circularly polarized signals;
  
  (b) a first amplifier and a second amplifier coupled to said first LNB input and said second LNB input, respectively, said first amplifier operative to receive and amplify a signal from said first LNB input and said second amplifier operative to receive and amplify a signal from said second LNB input;
  
  (c) a first diplexer coupled to said first amplifier, said first diplexer comprising a low pass filter and a high pass filter, said first diplexer operative to receive said signal from said first amplifier and to separate said signal from said first amplifier into a first frequency band and a second frequency band, said first frequency band corresponding to said linearly polarized signal and said second frequency band corresponding to said circularly polarized signal, said first diplexer additionally having a first output and a second output, said first output for outputting said first frequency band and said second output for outputting said second frequency band;
  
  (d) a second diplexer coupled to said second amplifier, said second diplexer comprising a low pass filter and a high pass filter, said second diplexer operative to receive said signal from said second amplifier and to separate said signal from said second amplifier into a first frequency band and a second frequency band, said first frequency band corresponding to said linearly polarized signal and said second frequency band corresponding to said circularly polarized signal, said second diplexer additionally having a first output and a second output, said first output for outputting said first frequency band and said second output for outputting said second frequency band;
  
  (e) a pair of linear mixers, each one of said pair of linear mixers coupled to a first local oscillator, a first mixer of said pair of linear mixers having an input coupled to said first output of said first diplexer, and a second mixer of said pair of linear mixers having an input coupled to said first output of said second diplexer, said pair of linear mixers operative to downconvert said first frequency bands from said first outputs of said first and second diplexers;
  
  (f) a 90 degree combiner having a first input and a second input, said first and second inputs coupled to said second outputs of said first and second diplexers, respectively, said 90 degree combiner operative to introduce phase shifts into the signals entering said first and second inputs so as to separate left-hand and right-hand circularly polarized signals of said circularly polarized signals, said 90 degree combiner having a first output and a second output, said first output for outputting said left-hand circularly polarized signal and said second output for outputting said right-hand circularly polarized signal; and
  
  (g) a pair of circular mixers, each one of said pair of circular mixers coupled to a second local oscillator, a first mixer of said pair of circular mixers having an input coupled to said first output of said 90 degree combiner, and a second mixer of said pair of circular mixers having an input coupled to said second output of said 90 degree combiner, said pair of circular mixers operative to downconvert said left-hand and right-hand circularly polarized signals.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The apparatus of claim 1, further comprising a waveguide having a first probe and a second probe, said first probe for receiving the vertically polarized components and said second probe for receiving the horizontally polarized components, wherein said first probe is coupled to said first input and said second probe is coupled to said second input.
  - 3. The apparatus of claim 1, further comprising first, second, third and fourth intermediate frequency amplifiers, wherein an output of each one of said circular mixers and said linear mixers is coupled to one of said intermediate frequency amplifiers.
  - 4. The apparatus of claim 3, further comprising:
    - a) a first splitter, wherein an input of said first splitter is coupled to said first intermediate frequency amplifier, said first splitter having a first output and a second output;
      
      b) a second splitter, wherein an input of said second splitter is coupled to said second intermediate frequency amplifier, said second splitter having a first output and a second output;
      
      c) a third splitter, wherein an input of said third splitter is coupled to said third intermediate frequency amplifier, said third splitter having a first output and a second output; and
      
      d) a fourth splitter, wherein an input of said third splitter is coupled to said third intermediate frequency amplifier, said fourth splitter having a first output and a second output.
  - 5. The apparatus of claim 4, further comprising:
    - a) a first switch having an output and a first input and a second input, said first input coupled to said first output of said first splitter, and said second input coupled to said first output of said second splitter;
      
      b) a second switch having an output and a first input and a second input, said first input coupled to said second output of said first splitter, and said second input coupled to said second output of said second splitter;
      
      c) a third switch having an output and a first input and a second input, said first input coupled to said first output of said third splitter, and said second input coupled to said first output of said fourth splitter; and
      
      d) a fourth switch having an output and a first input and a second input, said first input coupled to said second output of said third splitter, and said second input coupled to said second output of said fourth splitter.
  - 6. The apparatus according to claim 5, said apparatus further comprising:
    - a) a first secondary switch having an output and a first input and a second input, said first input coupled to said output of the first switch, and said second input coupled to said output of said third switch; and
      
      b) a second secondary switch having an output and a first input and a second input, said first input coupled to said output of the first switch, and said second input coupled to said output of said fourth switch.
  - 7. An apparatus according to claim 6, wherein said apparatus is operative to selectively output two of the following:
    - the right hand circularly polarized signal, the left hand circularly polarized signal, the vertically polarized signal and the horizontally polarized signal.
  - 8. The apparatus of claim 1, wherein said apparatus is operative to downconvert a linearly polarized signal having a frequency in a range of 10.95-11.2 GHz and a circularly polarized signal having a frequency in a range of 12.2-12.7 GHz.
  - 9. The apparatus of claim 1, wherein said apparatus is operative to downconvert linearly and circularly polarized signals transmitted by a single satellite.
  - 10. The apparatus of claim 1, wherein said apparatus is operative to simultaneously downconvert a right-hand circularly polarized signal, a left-hand circularly polarized signal, a vertical linearly polarized signal, and a horizontal linearly polarized signal.
  - 11. The apparatus of claim 1, wherein said apparatus is operative to simultaneously downconvert a plurality of signals, wherein each one of said plurality of signals is a different one of a right-hand circularly polarized signal, a left-hand circularly polarized signal, a vertical linearly polarized signal, and a horizontal linearly polarized signal.
  - 12. The apparatus of claim 1, wherein the linearly polarized signal is of a lower frequency than the circularly polarized signal, and wherein said first outputs of said first and second diplexers are coupled to said low pass filters of said first and second diplexers, and said second outputs of said first and second diplexers are coupled to said high pass filters of said first and second diplexers.
  - 13. The apparatus of claim 1, wherein said apparatus is operative to downconvert the linearly polarized signal to 1200-1450 MHz and to downconvert the circularly polarized signal to 1600-2100 MHz.

14. A method for downconverting linearly and circularly polarized signals received by a single antenna or waveguide, wherein the linearly polarized signals have a different frequency than the circularly polarized signals, said method comprising:
- (a) receiving vertically polarized components of the linearly and circularly polarized signals and receiving horizontally polarized components of the linearly and circularly polarized signals;
  
  (b) amplifying the vertically and horizontally polarized components;
  
  (c) separating each of the vertically and horizontally polarized components into first and second frequency bands, said first frequency bands corresponding to said linearly polarized signals and said second frequency bands corresponding to said circularly polarized signals;
  
  (d) downconverting said first frequency bands;
  
  (e) introducing phase shifts into said second frequency bands so as to separate left-hand and right-hand circularly polarized signals; and
  
  (f) downconverting said left-hand and right-hand circularly polarized signals.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21)
- - 15. The method of claim 14, wherein the linearly and circularly polarized signals are received by a waveguide having a first probe and a second probe, said first probe for receiving the vertically polarized components and said second probe for receiving the horizontally polarized components.
  - 16. The method of claim 14, wherein the linearly polarized signal has a frequency in a range of 10.95-11.2 GHz and the circularly polarized signal has a frequency in a range of 12.2-12.7 GHz.
  - 17. The method of claim 14, wherein the linearly and circularly polarized signals are transmitted by a single satellite.
  - 18. The method of claim 14, wherein a right-hand circularly polarized signal, a left-hand circularly polarized signal, a vertical linearly polarized signal, and a horizontal linearly polarized signal are simultaneously downconverted.
  - 19. The method of claim 14, wherein a plurality of signals are simultaneously downconverted, and wherein each one of said plurality of signals is a different one of a right-hand circularly polarized signal, a left-hand circularly polarized signal, a vertical linearly polarized signal, and a horizontal linearly polarized signal.
  - 20. The method of claim 14, wherein the linearly polarized signal is of a lower frequency than the circularly polarized signal.
  - 21. The method of claim 14, wherein the linearly polarized signals are downconverted to 1200-1450 MHz and the circularly polarized signals are downconverted to 1600-2100 MHz.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Norsat International Incorporated (Hytera Communications Corp. Ltd.)
Original Assignee
Norsat International Incorporated (Hytera Communications Corp. Ltd.)
Inventors
Fikart, Josef Ludvik
Primary Examiner(s)
Trinh, Sonny

Application Number

US10/215,032
Publication Number

US 20040029549A1
Time in Patent Office

1,103 Days
Field of Search

455/323, 455/12.1, 455/3.02, 455/21, 455/131, 455/13.1, 455/22, 455/23, 370/310, 370/330, 343/756
US Class Current

455/323
CPC Class Codes

H04H 40/90 specially adapted for satel...

Downconverter for the combined reception of linear and circular polarization signals from collocated satellites

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

41 Citations

21 Claims

Specification

Solutions

Use Cases

Quick Links

Downconverter for the combined reception of linear and circular polarization signals from collocated satellites

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

41 Citations

21 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links