Systems and methods of optical path protection for distributed antenna systems

US 7,805,073 B2
Filed: 04/28/2006
Issued: 09/28/2010
Est. Priority Date: 04/28/2006
Status: Active Grant

First Claim

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1. A remote node comprising:

an interface by which an uplink radio frequency signal is received at the remote node and from which a downlink radio frequency is output;

an optical transceiver communicatively coupled to the interface to output an uplink optical signal derived from the uplink radio frequency signal and to receive a downlink optical signal;

a splitter to couple the optical transceiver to a primary uplink optical communication medium and a second uplink optical communication medium in order to communicate the uplink optical signal on the primary uplink optical communication medium and the second uplink optical communication medium; and

a combiner to couple the optical transceiver to a primary downlink optical communication medium and a second downlink optical communication medium, wherein the combiner combines any optical signal received on the primary downlink optical communication medium and any optical signal received on the second downlink optical communication medium to output the downlink optical signal;

wherein the optical transceiver outputs a downlink electrical signal derived from the downlink optical signal, wherein the downlink radio frequency signal is derived from the downlink electrical signal;

a manager monitoring a signal quality of the downlink optical signal, wherein the manager communicates to an upstream device for switching the downlink optical signal and the upstream optical signal based on the signal quality.

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Abstract

Systems and methods for optical path protection for distributed antenna systems are provided. In one embodiment, a method is provided. The method comprises receiving an electrical uplink radio frequency signal; generating an uplink optical signal derived from the electrical uplink radio frequency signal; splitting the uplink optical signal for transmission on a primary uplink optical fiber and a secondary uplink optical fiber; combining any downlink optical signal received on a primary downlink optical communication medium and any downlink optical signal received on a second downlink optical communication medium in order to output a downlink optical signal; and generating a downlink radio frequency signal derived from the downlink optical signal.

322 Citations

15 Claims

1. A remote node comprising:
- an interface by which an uplink radio frequency signal is received at the remote node and from which a downlink radio frequency is output;
  
  an optical transceiver communicatively coupled to the interface to output an uplink optical signal derived from the uplink radio frequency signal and to receive a downlink optical signal;
  
  a splitter to couple the optical transceiver to a primary uplink optical communication medium and a second uplink optical communication medium in order to communicate the uplink optical signal on the primary uplink optical communication medium and the second uplink optical communication medium; and
  
  a combiner to couple the optical transceiver to a primary downlink optical communication medium and a second downlink optical communication medium, wherein the combiner combines any optical signal received on the primary downlink optical communication medium and any optical signal received on the second downlink optical communication medium to output the downlink optical signal;
  
  wherein the optical transceiver outputs a downlink electrical signal derived from the downlink optical signal, wherein the downlink radio frequency signal is derived from the downlink electrical signal;
  
  a manager monitoring a signal quality of the downlink optical signal, wherein the manager communicates to an upstream device for switching the downlink optical signal and the upstream optical signal based on the signal quality.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The remote node of claim 1, wherein one or both of the downlink optical signal and the uplink optical signal comprise multiple wavelength optical signals.
  - 3. The remote node of claim 1, wherein the optical transceiver communicates information indicative of an attribute of the downlink optical signal through the uplink optical signal.
  - 4. The remote node of claim 1, wherein one or both of the uplink radio frequency signal and the downlink radio frequency signal comprises an analog radio frequency signal.
  - 5. The remote node of claim 1, wherein one or both of the primary downlink optical communication medium and the second downlink optical communication medium communicate the downlink optical signal via an analog transport;
    - andone or both of the primary uplink optical communication medium and the second uplink optical communication medium communicate the uplink optical signal via an analog transport.
  - 6. The remote node of claim 1, wherein one or both of the uplink radio frequency signal and the downlink radio frequency signal comprises a digital radio frequency signal.
  - 7. The remote node of claim 1, wherein one or both of the primary downlink optical communication medium and the second downlink optical communication medium communicate the downlink optical signal via a digital transport;
    - andwherein one or both of the primary uplink optical communication medium and the second uplink optical communication medium communicate the uplink optical signal via a digital transport.

8. A method comprising:
- receiving an electrical uplink radio frequency signal;
  
  generating an uplink optical signal derived from the electrical uplink radio frequency signal;
  
  splitting the uplink optical signal for transmission on a primary uplink optical fiber and a secondary uplink optical fiber;
  
  combining any downlink optical signal received on a primary downlink optical communication medium and any downlink optical signal received on a second downlink optical communication medium in order to output a downlink optical signal;
  
  generating a downlink radio frequency signal derived from the downlink optical signal;
  
  monitoring a signal quality of the downlink optical signal; and
  
  generating a signal to an upstream device for switching the downlink optical signal and the upstream optical signal based on the signal quality.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The method of claim 8, wherein the uplink radio frequency signal is received from an antenna.
  - 10. The method of claim 8, wherein the downlink radio frequency signal is output to an antenna.
  - 11. The method of claim 8, wherein one or both of the downlink optical signal and the uplink optical signal comprise multiple wavelength optical signals.
  - 12. The method of claim 8, further comprising communicating information indicative of an attribute of the downlink optical signal to a hub.
  - 13. The method of claim 8, switching from transmitting a downlink optical signal on the primary downlink optical fiber to transmitting a downlink optical signal on the secondary primary optical fiber based on information indicative of an attribute of the downlink optical signal.

14. An apparatus comprising:
- means for receiving an electrical uplink radio frequency signal;
  
  means for generating an uplink optical signal derived from the electrical uplink radio frequency signal;
  
  means for splitting the uplink optical signal for transmission on a primary uplink optical fiber and a secondary uplink optical fiber;
  
  means for combining any downlink optical signal received on a primary downlink optical communication fiber and any downlink optical signal received on a secondary downlink optical communication fiber in order to output a downlink optical signal; and
  
  means for generating a downlink radio frequency signal derived from the downlink optical signal;
  
  means for monitoring a signal quality of the downlink optical signal;
  
  means for switching between the primary uplink optical fiber and secondary uplink optical fiber, and between the primary downlink optical communication fiber and secondary downlink optical communication fiber, the means for switching responsive to the means for monitoring.
- View Dependent Claims (15)
- - 15. The apparatus of claim 14, wherein one or both of the downlink optical signal and the uplink optical signal comprise multiple wavelength optical signals.

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Current Assignee
CommScope Technologies, LLC (CommScope Holding Company, Inc.)
Original Assignee
ADC Telecommunications Incorporated (TE Connectivity Limited)
Inventors
Hebert, Thomas G., Sabat, John Jr.
Primary Examiner(s)
Tran; Dzung D

Application Number

US11/380,798
Publication Number

US 20070264009A1
Time in Patent Office

1,614 Days
Field of Search

398/5, 398/9, 398/45, 398/74, 398/79, 398/12, 398/17, 398/19, 398/33
US Class Current

398/5
CPC Class Codes

H04B 10/1127 using two distinct parallel...

H04B 10/25752 Optical arrangements for wi...

Systems and methods of optical path protection for distributed antenna systems

First Claim

12 Assignments

0 Petitions

Accused Products

Abstract

322 Citations

15 Claims

Specification

Solutions

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Systems and methods of optical path protection for distributed antenna systems

First Claim

12 Assignments

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0 Petitions

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Accused Products

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Abstract

322 Citations

15 Claims

Specification

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Solutions

Use Cases

Quick Links