Antenna diversity techniques

US 5,742,583 A
Filed: 11/03/1994
Issued: 04/21/1998
Est. Priority Date: 11/03/1994
Status: Expired due to Term

First Claim

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1. A receiver system comprising:

at least two antennas each capable of generating an antenna signal in response to a transmitted signal, said transmitted signal centered at a designated frequency,means for isolating each one of said antenna signals with a frequency offset from each of the others of said antenna signals, thereby generating a plurality of offset signals, said frequency offset being less than the bandwidth of said transmitted signal,means for combining said offset signals into a backhaul signal for transmission over a backhaul cable,means, coupled to said backhaul cable, for receiving said backhaul signal and splitting said backhaul signal into a plurality of duplicate signals, one duplicate signal for each of said antennas, andmeans for shifting a frequency of one or more of said duplicate signals such that each one of said frequency shifted signals comprises a different one of said antenna signals centered at said designated frequency.

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Abstract

A receiver system for antenna diversity employing a single backhaul cable. A single backhaul cable couples a receiver to a plurality of antennas. The signals from the antennas are combined onto the single backhaul cable using frequency offsets, spread spectrum code division, time division, or a combination thereof. At the receiver, the signals from the antennas are decoupled. In the case of frequency offsets, the antenna signals are decoupled by splitting the backhaul signal into a plurality of duplicate signals, frequency shifting selected ones of the duplicate signals, and correlating said frequency shifted signals. In the case of spread spectrum code division, the antenna signals are decoupled by splitting the backhaul signal into a plurality of duplicate signals and demultiplexing each of the duplicate signals with a different spread spectrum code. One or more antennas may be selected for communication in response decoupling the antenna signals.

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21 Claims

1. A receiver system comprising:
- at least two antennas each capable of generating an antenna signal in response to a transmitted signal, said transmitted signal centered at a designated frequency,means for isolating each one of said antenna signals with a frequency offset from each of the others of said antenna signals, thereby generating a plurality of offset signals, said frequency offset being less than the bandwidth of said transmitted signal,means for combining said offset signals into a backhaul signal for transmission over a backhaul cable,means, coupled to said backhaul cable, for receiving said backhaul signal and splitting said backhaul signal into a plurality of duplicate signals, one duplicate signal for each of said antennas, andmeans for shifting a frequency of one or more of said duplicate signals such that each one of said frequency shifted signals comprises a different one of said antenna signals centered at said designated frequency.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The system of claim 1 wherein said means for isolating comprises at least one single sideband mixer.
  - 3. The system of claim 2 wherein said single sideband mixer provides said frequency offset to one of said antenna signals, and wherein said means for shifting a frequency comprises a second single sideband mixer which provides an inverse frequency offset to one of said duplicate signals.
  - 4. The system of claim 1 wherein said frequency offset is not less than the inverse of two times a coherent processing interval of said transmitted signal.
  - 5. The system of claim 1 further comprising a receiver coupled to said frequency shifted signals.
  - 6. The system of claim 5 wherein said receiver comprises a spread spectrum correlator.
  - 7. The system of claim 5 wherein said receiver, in response to a measurement of a reception quality of each of said frequency shifted signals, selects one of said frequency shifted signals for communication.

8. A receiving system comprisinga plurality of antennas each capable of generating an antenna signal,means, coupled to each of said antennas, for combining a plurality of antenna signals into a backhaul signal for transmission over a backhaul cable, said backhaul signal having a bandwidth substantially less than the sum of the bandwidths of said antenna signals,a receiver, andmeans, coupled to said receiver, for decoupling a plurality of antenna signals from said backhaul signal, said means for decoupling comprisingmeans, coupled to said backhaul cable, for receiving said backhaul signal and splitting said backhaul signal into a plurality of duplicate signals, one duplicate signal for each of said antennas,means for shifting a frequency of one or more of said duplicate signals such that each one of said frequency shifted signals comprises a different one of said antenna signals centered at designated frequency, andat least one correlator receiving a frequency shifted signal.

9. A receiving system comprisinga plurality of antennas each capable of generating an antenna signal,means, coupled to each of said antennas, for combining a plurality of antenna signals into a backhaul signal for transmission over a backhaul cable, said backhaul signal having a bandwidth substantially less than the sum of the bandwidths of said antenna signals, and said means for combining comprising means for isolating each of said antenna signals by a frequency offset,a receiver, andmeans, coupled to said receiver, for decoupling a plurality of antenna signals from said backhaul signal.

10. An apparatus for receiving a plurality of antenna signals, comprising:
- a plurality of antennas each capable of generating an antenna signal in response to a transmitted spread spectrum signal,a first single sideband mixer coupled to a first of said antenna signals, said single sideband mixer providing a frequency offset to said first antenna signal and thereby generating an offset signal, said frequency offset being less than the bandwidth of said transmitted spread spectrum signal,a summer combining said offset signal and a second of said antenna signals into a backhaul signal,a backhaul cable over which said backhaul signal is carried,a second single sideband mixer receiving said backhaul signal from said backhaul cable, said second single sideband mixer providing an inverse frequency offset to said backhaul signal, anda receiver receiving said backhaul signal from said backhaul cable, and receiving an output of said second single sideband mixer.
- View Dependent Claims (11, 12, 13, 14)
- - 11. The apparatus of claim 10 wherein said receiver comprises at least one spread spectrum correlator.
  - 12. The apparatus of claim 10 wherein said receiver selects for communication one of said backhaul signal and said output of said second signal sideband mixer.
  - 13. The apparatus of claim 10 wherein said frequency offset is not less than the inverse of two times a coherent processing interval of said spread spectrum signal.
  - 14. The apparatus of claim 10 wherein said offset signal and said second of said antenna signals are frequency isolated from one another.

15. An apparatus for receiving a plurality of antenna signals, comprising:
- a plurality of antenna branches, each antenna branch comprisingan antenna capable of outputting an antenna signal in response to a transmitted signal, anda spread spectrum modulator coupled to said antenna signal, said spread spectrum modulator generating a spread spectrum signal using a spread spectrum code distinct from all of the other antenna branches,means, coupled to one end of a backhaul cable, for combining said spread spectrum signals into a backhaul signal for transmission over said backhaul cable,means, coupled to another end of said backhaul cable, for splitting said backhaul signal over a plurality of correlation branches, each correlation branch comprising a spread spectrum correlator and outputting a recovered signal, anda receiver coupled to a plurality of said correlation branches.
- View Dependent Claims (16, 17)
- - 16. The apparatus of claim 15 wherein said receiver further comprises means for selecting from among said correlation branches based on a relative signal quality of said recovered signals.
  - 17. The apparatus of claim 15 wherein said spread spectrum code for each one of said antenna branches is orthogonal to the spread spectrum codes for all the others of said antenna branches.

18. A method of receiving a plurality of antenna signals, comprising the steps of:
- receiving a transmitted signal using a plurality of antennas, each antenna capable of generating an antenna signal in response thereto,modulating each antenna signal with a different spread spectrum code, to generate a plurality of spread spectrum signals,combining said spread spectrum signals into a backhaul signal suitable for transmission over a backhaul cable,at the opposite end of said backhaul cable, splitting said backhaul signal into a plurality of duplicate signals,correlating each duplicate signal with a spread spectrum code, andselecting at least one of said correlated signals for communication.
- View Dependent Claims (19, 20)
- - 19. The method of claim 18 wherein said step of selecting comprises the step of measuring a relative signal quality of said correlated signals.
  - 20. The method of claim 18 wherein said spread spectrum code used to modulate each one of said antenna signals is orthagonal to the spread spectrum codes used to modulate all of the others of said antenna signals.

21. A receiver system comprising:
- at least two spatially separated antennas each capable of generating an antenna signal in response to a transmitted signal, said transmitted signal centered at a designated frequency,at least one mixer for at least one of said at least two antennas having an input for receiving said antenna signal from said at least one antenna and having an output, said at least one mixer outputting an offset antenna signal having a center frequency offset from said antenna signal center frequency, said offset being less than the bandwidth of said transmitted signal,said antenna signal and said offset signal connected to at least two inputs of a summer, said summer outputting a backhaul signal for transmission over a backhaul cable,said backhaul cable_-- coupled to a splitter, said splitter outputting at least two duplicate signals, one duplicate signal for each of said antennas, andmeans for shifting a frequency of one or more of said duplicate signals such that each one of said frequency shifted signals comprises a different one of said antenna signals centered at said designated frequency.

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Current Assignee
Intel Corporation
Original Assignee
Omnipoint Corp. (Deutsche Telekom AG)
Inventors
Scott, Logan
Primary Examiner(s)
Olms, Douglas W.
Assistant Examiner(s)
TON, DANG T

Application Number

US08/334,587
Time in Patent Office

1,265 Days
Field of Search

370/18-23, 370/95.1, 370/94.1, 370/95.3, 370/94.3, 370/94.2, 370/95.2, 370/8-12, 375/205, 375/207, 375/200, 375/324, 375/303, 375/308, 375/335, 375/334, 348/6, 455/3.1, 455/6.1, 455/6.2, 455/23, 455/42, 342/357, 380/34, 380/40, 380/46, 380/28
US Class Current

370/342
CPC Class Codes

H04B 7/0837   using pre-detection combini...

H04B 7/12   Frequency diversity

H04W 88/085   Access point devices with r...

Antenna diversity techniques

First Claim

6 Assignments

0 Petitions

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Abstract

60 Citations

21 Claims

Specification

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Antenna diversity techniques

First Claim

6 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

60 Citations

21 Claims

Specification

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Solutions

Use Cases

Quick Links