Antenna switch control method for analog radio over fiber systems

US 9,647,752 B2
Filed: 10/13/2015
Issued: 05/09/2017
Est. Priority Date: 10/13/2015
Status: Active Grant

First Claim

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1. A first network node operatively connected to a second network node via at least one optical fiber, the first network node configured to wirelessly communicate with one or more wireless terminals via an antenna, the first network node comprising:

a fiber input;

a fiber output;

an antenna switch configured to selectively connect an antenna port to either a transmission port or a reception port, the transmission port operatively connecting to the fiber input via a transmission circuit path, the reception port operatively connecting to the fiber output via a reception circuit path, and the antenna port operatively connecting to the antenna; and

a detection circuit configured to;

detect a direct current (DC) level of a transmission signal output by the fiber input;

control the antenna switch to connect the antenna port to the reception port when the detected DC level satisfies a predetermined condition; and

otherwise, control the antenna switch to connect the antenna port to the transmission port to transmit the transmission signal via the antenna;

wherein the detection circuit comprises;

a DC extraction circuit configured to extract the DC level from the transmission signal; and

a comparator configured to compare the extracted DC level to a reference level to determine whether the detected DC level satisfies the predetermined condition; and

a reference circuit configured to set the reference level relative to an optimal DC level and responsive to an effective impedance of the transmission circuit path, wherein the optimal DC level comprises a DC bias value selected to optimize a quality of the transmission signal.

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Abstract

A central node connected to a remote network node via a fiber optic link controls an antenna switch in the remote network node by controlling the DC bias current of the laser providing an optical transmission signal from the central network node to the remote network node via the fiber optic link. The remote network node converts the received optical transmission signal to an electrical transmission signal, and detects the DC level of the electrical transmission signal. If the detected DC level satisfies a predetermined condition, the remote network node connects the antenna port of the antenna switch, and thus the antenna, to a reception signal path of the remote network node. Otherwise, the remote network node connects the antenna port of the antenna switch, and thus the antenna, to a transmission signal path of the remote network node.

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15 Claims

1. A first network node operatively connected to a second network node via at least one optical fiber, the first network node configured to wirelessly communicate with one or more wireless terminals via an antenna, the first network node comprising:
- a fiber input;
  
  a fiber output;
  
  an antenna switch configured to selectively connect an antenna port to either a transmission port or a reception port, the transmission port operatively connecting to the fiber input via a transmission circuit path, the reception port operatively connecting to the fiber output via a reception circuit path, and the antenna port operatively connecting to the antenna; and
  
  a detection circuit configured to;
  
  detect a direct current (DC) level of a transmission signal output by the fiber input;
  
  control the antenna switch to connect the antenna port to the reception port when the detected DC level satisfies a predetermined condition; and
  
  otherwise, control the antenna switch to connect the antenna port to the transmission port to transmit the transmission signal via the antenna;
  
  wherein the detection circuit comprises;
  
  a DC extraction circuit configured to extract the DC level from the transmission signal; and
  
  a comparator configured to compare the extracted DC level to a reference level to determine whether the detected DC level satisfies the predetermined condition; and
  
  a reference circuit configured to set the reference level relative to an optimal DC level and responsive to an effective impedance of the transmission circuit path, wherein the optimal DC level comprises a DC bias value selected to optimize a quality of the transmission signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The first network node of claim 1 wherein the detection circuit is further configured to deactivate one or more circuits of the transmission circuit path when the detected DC level satisfies the predetermined condition.
  - 3. The first network node of claim 1 wherein the predetermined condition is the DC level being less than the reference level.
  - 4. The first network node of claim 1 wherein the predetermined condition is the DC level meeting or exceeding the reference level.
  - 5. The first network node of claim 1 wherein the detection circuit is further configured to deactivate one or more circuits of the reception circuit path when the detected DC level does not satisfy the predetermined condition.
  - 6. The first network node of claim 1 wherein the reference circuit is configured to set the reference level to a value less than the optimal DC level by at least a delta derived from the effective impedance of the transmission circuit path.
  - 7. The first network node of claim 6 wherein the delta is derived from the effective impedance of the transmission circuit path and a maximum amplitude of the transmission signal.

8. A method of controlling an antenna switch in a first network node operatively connected to a second network node via at least one optical fiber and configured to wirelessly communicate with one or more wireless terminals via an antenna, the method comprising:
- receiving an optical transmission signal from the second network node at a fiber input of the first network node;
  
  converting the received optical transmission signal into an electrical transmission signal;
  
  detecting a direct current (DC) level of the electrical transmission signal; and
  
  selectively connecting an antenna port of the antenna switch to a reception port of the antenna switch when the detected DC level satisfies a predetermined condition, the reception port operatively connecting to a fiber output of the first network node via a reception circuit path, and the antenna port operatively connecting to the antenna; and
  
  otherwise selectively connecting the antenna port to a transmission port of the antenna switch to transmit a radio frequency version of the electrical transmission signal via the antenna, the transmission port operatively connecting to the fiber input of the first network node via a transmission circuit path;
  
  wherein detecting the DC level of the transmission circuit comprises;
  
  extracting the DC level from the electrical transmission signal; and
  
  comparing the extracted DC level to a reference level to determine whether the extracted DC level satisfies the predetermined condition; and
  
  setting the reference level relative to an optimal DC level and responsive to an effective impedance of the transmission circuit path, wherein the optimal DC level comprises a DC bias value selected to optimize a quality of the optical transmission signal.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. The method of claim 8 wherein the predetermined condition is the DC level being less than the reference level.
  - 10. The method of claim 8 wherein the predetermined condition is the DC level meeting or exceeding the reference level.
  - 11. The method of claim 8 wherein setting the reference level comprises setting the reference level to a value less than the optimal DC level by at least a delta derived from the effective impedance of the transmission circuit path.
  - 12. The method of claim 11 wherein the delta is derived from the effective impedance of the transmission circuit path and a maximum amplitude of the electrical transmission signal.
  - 13. The method of claim 8 further comprising deactivating one or more circuits of the transmission circuit path when the detected DC level satisfies the predetermined condition.
  - 14. The method of claim 8 further comprising deactivating one or more circuits of the reception circuit path when the detected DC level does not satisfy the predetermined condition.

15. A computer program product stored in a non-transitory computer readable medium for controlling a processing circuit in a first network node, the first network node operatively connected to a second network node via at least one optical fiber and configured to wirelessly communicate with one or more wireless terminals via an antenna, the computer program product comprising software instructions which, when run on the processing circuit, causes the processing circuit to:
- receive an electrical transmission signal from a fiber input of the first network node, the electrical transmission signal representing an optical transmission signal received from the second network node at the fiber input of the first network node;
  
  detect a direct current (DC) level of the electrical transmission signal;
  
  selectively control an antenna port of an antenna switch to connect a reception port of the antenna switch when the detected DC level satisfies a predetermined condition, the reception port operatively connecting to a fiber output of the first network node via a reception circuit path, and the antenna port operatively connecting to the antenna; and
  
  otherwise, selectively control the antenna port to connect a transmission port of the antenna switch to transmit a radio frequency version of the electrical transmission signal via the antenna, the transmission port operatively connecting to the fiber input of the first network node via a transmission circuit path;
  
  wherein the DC level of the electrical transmission signal is detected by;
  
  extracting the DC level from the electrical transmission signal; and
  
  comparing the extracted DC level to a reference level to determine whether the extracted DC level satisfies the predetermined condition; and
  
  set the reference level relative to an optimal DC level and responsive to an effective impedance of the transmission circuit path, wherein the optimal DC level comprises a DC bias value selected to optimize a quality of the optical transmission signal.

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Current Assignee
Telefonaktiebolaget LM Ericsson
Original Assignee
Telefonaktiebolaget LM Ericsson
Inventors
Sjland, Henrik, Ahmad, Waqas
Primary Examiner(s)
PASCAL, LESLIE C

Application Number

US14/881,212
Publication Number

US 20170104524A1
Time in Patent Office

574 Days
Field of Search
US Class Current
CPC Class Codes

H04B 1/48   in circuits for connecting ...

H04B 10/079   using measurements of the d...

H04B 10/07953   Monitoring or measuring OSN...

H04B 10/25752   Optical arrangements for wi...

H04B 10/25758   between a central unit and ...

Antenna switch control method for analog radio over fiber systems

First Claim

2 Assignments

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Abstract

9 Citations

15 Claims

Specification

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Antenna switch control method for analog radio over fiber systems

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

9 Citations

15 Claims

Specification

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Solutions

Use Cases

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