Satellite communication system using multiple ground station RF power control in a single downlink beam

US 6,397,039 B1
Filed: 09/14/1998
Issued: 05/28/2002
Est. Priority Date: 09/14/1998
Status: Expired due to Term

First Claim

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1. A communication system, comprising:

a plurality of spacecraft in geosynchronous orbit, each spacecraft providing a plurality of beams on the surface of the earth; and

a plurality of ground stations individual ones of which are located in one of said beams for transmitting uplink signals to one of said spacecraft;

wherein each spacecraft is comprised of a plurality of receivers for receiving a plurality of the uplinked signals from ground stations, a frequency translator for translating the received uplink signals to a transmission frequency of a plurality of downlink signals, a plurality of channel amplifiers, each channel amplifier being separately gain controlled by a corresponding one of the ground stations, and a plurality of transmitters for transmitting the plurality of downlink signals within the same beams as the corresponding uplink signals; and

wherein each said transmitter is comprised of a combiner for combining together a plurality of frequency translated input signals and a power amplifier for amplifying the combined plurality of frequency translated input signals, each said transmitter using the same type and size of amplifier.

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Abstract

A satellite communication system includes a plurality of spacecraft in geosynchronous orbit, where each spacecraft provides a plurality of beams on the surface of the earth, and a plurality of ground stations individual ones of which are located in one of the beams for transmitting uplink signals to one of the spacecraft. Each spacecraft has a plurality of receivers for receiving a plurality of the uplinked signals from ground stations, a frequency translator for translating the received uplink signals to a transmission frequency of a plurality of downlink signals, and a plurality of transmitters for transmitting the plurality of downlink signals within the same beams as the corresponding uplink signals. Each transmitter includes a combiner for combining together a plurality of frequency translated signals and a power amplifier, such as a TWTA, for amplifying the combined plurality of frequency translated signals. Each of the plurality of receivers is gain controlled by a corresponding one of the ground stations for providing immunity to rain attenuation. Preferably the beams have different sizes and shapes, and are non-contiguous over a least a portion of the earth'"'"'s surface. It is also preferred that the uplink beams to a first one of the satellites have a first polarization and downlink beams have a second, opposite polarization, and that uplink beams to a second one of the satellites have the second polarization and downlink beams have the first polarization. The uplink and downlink signals may be digital television signals, and each of the spot beams overlies a predetermined designated television market area.

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18 Claims

1. A communication system, comprising:
- a plurality of spacecraft in geosynchronous orbit, each spacecraft providing a plurality of beams on the surface of the earth; and
  
  a plurality of ground stations individual ones of which are located in one of said beams for transmitting uplink signals to one of said spacecraft;
  
  wherein each spacecraft is comprised of a plurality of receivers for receiving a plurality of the uplinked signals from ground stations, a frequency translator for translating the received uplink signals to a transmission frequency of a plurality of downlink signals, a plurality of channel amplifiers, each channel amplifier being separately gain controlled by a corresponding one of the ground stations, and a plurality of transmitters for transmitting the plurality of downlink signals within the same beams as the corresponding uplink signals; and
  
  wherein each said transmitter is comprised of a combiner for combining together a plurality of frequency translated input signals and a power amplifier for amplifying the combined plurality of frequency translated input signals, each said transmitter using the same type and size of amplifier.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. A system as in claim 1, wherein said power amplifier is comprised of a single TWTA or multiple paralleled TWTAs.
  - 3. A system as in claim 1, wherein said beams have different sizes and shapes, and are non-contiguous over a least a portion of the earth'"'"'s surface.
  - 4. A system as in claim 1, wherein uplink beams to a first one of said satellites have a first polarization and downlink beams have a second, opposite polarization, and wherein uplink beams to a second one of said satellites have said second polarization and downlink beams have said first polarization.
  - 5. A system as in claim 1, wherein the uplink and downlink signals comprise digital data signals.
  - 6. A system as in claim 1, wherein the uplink and downlink signals comprise digital television signals.
  - 7. A system as in claim 6, wherein said beams are spot beams having non-uniform sizes and shapes, and wherein individual ones of said spot beams overlie a predetermined one of a designated television market area.
  - 8. A system as in claim 1, wherein each spacecraft is comprised of a plurality of different sized reflector antennas for both transmitting and receiving said beams.
  - 9. A system as in claim 1, wherein each spacecraft is comprised of a plurality of reflector antennas for both transmitting and receiving said beams, wherein at least two of said reflector antennas have different shapes.
  - 10. A system as in claim 1, wherein each spacecraft is comprised of a plurality of reflector antennas for both transmitting and receiving said beams, wherein said plurality of reflector antennas are each comprised of a Gregorian antenna.
  - 11. A system as in claim 1, wherein each spacecraft is comprised of a plurality of reflector antennas for both transmitting and receiving said beams, wherein said plurality of reflector antennas are each comprised of a cassegrain antenna.
  - 12. A system as in claim 1, wherein uplink beams to a first one of said satellites have a right hand circular polarization (RHCP) and downlink beams have a left hand circular polarization (LHCP), and wherein uplink beams to a second one of said satellites have LHCP and downlink beams have RHCP.
  - 13. The system as in claim 1, wherein power adjustment is performed in a particular transponder channel prior to combination in said combiner.

14. A communication satellite for providing a plurality of beams on the surface of the earth and for receiving uplink signals transmitted from a plurality of ground stations individual ones of which are located in one of said beams, said satellite comprising a plurality of receivers for receiving a plurality of the uplinked signals from ground stations, a frequency translator for translating the received uplink signals to a transmission frequency of a plurality of downlink signals, a plurality of channel amplifiers in the receiver, each channel amplifier being separately gain controlled by a respective ground station, and a plurality of transmitters for transmitting the plurality of downlink signals within the same beams as the corresponding uplink signals;
- wherein each said transmitter is comprised of a combiner for combining together a plurality of frequency translated input signals corresponding to a plurality of ground stations located within the same beam, and at least one linearized TWTA for amplifying the combined plurality of frequency translated input signals, each said transmitter using the same type and size of amplifier.
- View Dependent Claims (15)
- - 15. The communication satellite of claim 14, wherein power adjustment is performed in a particular transponder channel prior to combination in said combiner.

16. A communication system, comprising:
- a plurality of spacecraft in geosynchronous orbit, each spacecraft providing a plurality of beams on the surface of the earth; and
  
  a plurality of ground stations individual ones of which are located in one of said beams for transmitting uplink signals to one of said spacecraft;
  
  wherein each spacecraft is comprised of a plurality of receivers for receiving a plurality of the uplinked signals from ground stations, a frequency translator for translating the received uplink signals to a transmission frequency of a plurality of downlink signals, a plurality of channel amplifiers, each of said plurality of channel amplifiers being separately gain controlled by a corresponding one of said ground stations, and a plurality of transmitters for transmitting the plurality of downlink signals within the same beams as the corresponding uplink signals; and
  
  wherein each said transmitter is comprised of a combiner for combining together a plurality of frequency translated signals and a power amplifier for amplifying the combined plurality of frequency translated signals, each said transmitter using the same type and size of amplifier.

17. A communication satellite for providing a plurality of beams on the surface of the earth and for receiving uplink signals transmitted from a plurality of ground stations individual ones of which are located in one of said beams, said satellite comprising a plurality of receivers for receiving a plurality of the uplinked signals from ground stations, each of said plurality of receivers having channel amplifiers being separately gain controlled by a corresponding ground station, a frequency translator for translating the received uplink signals to a transmission frequency of a plurality of downlink signals, and a plurality of transmitters for transmitting the plurality of downlink signals within the same beams as the corresponding uplink signals;
- wherein each said transmitter is comprised of a combiner for combining together a plurality of frequency translated signals corresponding to a plurality of ground stations located within the same beam, and at least one linearized TWTA for amplifying the combined plurality of frequency translated signals, each said transmitter using the same type and size of amplifier.
- View Dependent Claims (18)
- - 18. The satellite as in claim 17, wherein each said amplifier has the same power rating.

Specification

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Current Assignee
Space Systems/Loral Incorporated (Loral Space and Communications Incorporated)
Original Assignee
Space Systems/Loral Incorporated (Loral Space and Communications Incorporated)
Inventors
Butte, Eric G, Tyner, Randall D
Primary Examiner(s)
Maung, Nay
Assistant Examiner(s)
Gelin, Jean Alland

Application Number

US09/152,580
Time in Patent Office

1,352 Days
Field of Search

455/13.2,12.1,427,430,23,20,443,17,25,13.4,522 370/281,320,319,316,335,323 343/761,781 P,781 R,839
US Class Current

455/12.1
CPC Class Codes

H04B 7/18515 Transmission equipment in s...

Satellite communication system using multiple ground station RF power control in a single downlink beam

First Claim

7 Assignments

0 Petitions

Accused Products

Abstract

62 Citations

18 Claims

Specification

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Satellite communication system using multiple ground station RF power control in a single downlink beam

First Claim

7 Assignments

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0 Petitions

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Accused Products

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Abstract

62 Citations

18 Claims

Specification

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Solutions

Use Cases

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