Coupling of telecommunications signals to a balanced power distribution network

US 5,949,327 A
Filed: 02/21/1997
Issued: 09/07/1999
Est. Priority Date: 08/26/1994
Status: Expired due to Fees

First Claim

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1. A balanced electricity distribution and/or power transmission network, the network including input means for the input onto the network of a telecommunications signal having a carrier frequency greater than 1 MHz from an unbalanced source and output means for removing said telecommunications signal from the network, wherein said input means and said output means each include an impedance matching transformer to provide impedance matching between said network and said source, and wherein each transformer includes a primary and a secondary winding and the turns ratio between the primary and secondary winding being such as to provide an impedance match between the network and the source, with one of the primary and the secondary windings being operatively connected to the source and the other of the primary and secondary windings being operatively connected to two phase conductors of the network or one phase conductor and earth or neutral.

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Abstract

The present invention provides an overhead balanced electricity distribution and/or power transmission network (1201), the network including input means (1301) for the input onto the network of a telecommunications signal having a carrier frequency greater than approximately 1 MHz from an unbalanced source and output means (1301) for removing said telecommunications signal from the network, wherein said input means and said output means provide impedance matching between said network and said source. Thus, propagation of HF communication signals over such networks is optimised, and the input and output means ("conditioning units") provide for interconnection between a source e.g. a relatively low impedance unbalanced HF (possibly coaxial) termination and a high impedance balanced OH EDN, and provide efficient unbalanced to balanced impedance transformation and termination.

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21 Claims

1. A balanced electricity distribution and/or power transmission network, the network including input means for the input onto the network of a telecommunications signal having a carrier frequency greater than 1 MHz from an unbalanced source and output means for removing said telecommunications signal from the network, wherein said input means and said output means each include an impedance matching transformer to provide impedance matching between said network and said source, and wherein each transformer includes a primary and a secondary winding and the turns ratio between the primary and secondary winding being such as to provide an impedance match between the network and the source, with one of the primary and the secondary windings being operatively connected to the source and the other of the primary and secondary windings being operatively connected to two phase conductors of the network or one phase conductor and earth or neutral.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A network according to claim 1 wherein said input means includes means for connecting to a source which is a relatively low impedance unbalanced HF coaxial source.
  - 3. A network according to claim 1 wherein said network is an overhead network.
  - 4. A network according to claim 1 wherein at least part of the network is external to any building and the signal is transmissible along said external part.
  - 5. A network according to claim 1 wherein the network includes connection means located at an interconnection point between the network and an interconnecting unbalanced network, said connection means providing an impedance matched HF connection between the two networks to permit efficient propagation of HF communication signals therebetween.
  - 6. A network according to claim 5 wherein said interconnecting unbalanced network is an underground power network.
  - 7. A network according to claim 1 including two sections of network separated by a power transformer, further including HF by-pass means for transmitting said signal from one of said network sections to the other, by-passing said transformer.
  - 8. A network according to claim 1 wherein the carrier frequency is between 1-60 MHz.

9. A method of signal transmission including input of a telecommunications signal having a carrier frequency of greater than 1 MHz from an unbalanced source onto a balanced electricity power distribution and/or transmission network and subsequent reception of the signal, wherein said source and said network are coupled by coupling means which include an impedance matching transformer to provide impedance matching therebetween, and wherein each transformer includes a primary and a secondary winding and the turns ratio between the primary and secondary winding being such as to provide an impedance match between the network and the source, with one of the primary and the secondary windings being operatively connected to the source and the other of the primary and secondary windings being operatively connected to two phase conductors of the network or one phase conductor and earth or neutral.

10. Communications apparatus for use with a balanced electricity distribution and/or power transmission network, said communications apparatus including a balanced low pass filter portion for allowing, in use, a low frequency high amplitude mains electricity power signal to pass through the apparatus, a balanced high pass filter portion for coupling HF signals having a carrier frequency of greater than 1 MHz onto the network, and impedance matching means including an impedance matching transformer for impedance matching between reception/transmission devices and the electricity power distribution and/or transmission network, wherein each transformer includes a primary and a secondary winding and the turns ratio between the primary and secondary winding being such as to provide an impedance match between the network and the source, with one of the primary and the secondary windings being operatively connected to the source and the other of the primary and secondary windings being operatively connected to two phase conductors of the network or one phase conductor and earth or neutral.
- View Dependent Claims (11, 12, 13, 14)
- - 11. Communications apparatus according to claim 10 including means for connecting the apparatus to both a balanced and an unbalanced electricity distribution and/or transmission network, and allowing said low frequency high amplitude mains electricity signal to pass therebetween.
  - 12. Communications apparatus according to claim 10 including means for connecting a balanced and an unbalanced HF signal to the network.
  - 13. Communications apparatus according to claim 10 connected to an electricity power distribution and/or transmission network.
  - 14. Communications apparatus according to claim 13 wherein said network is a balanced electricity and/or power transmission network.

15. A method of signal transmission including input of a telecommunications signal having a carrier frequency of at least 1 MHz from a telecommunications signal source onto a section of balanced electricity power distribution and/or transmission network and subsequent reception of the telecommunications signal by a reception device, wherein the section of balanced electricity power distribution and/or transmission network is substantially isolated at said carrier frequency from a source of electrical power by a balanced low pass filter passing a low frequency high amplitude mains electricity power signal from the source of electrical power to the section of the balanced electricity power distribution and/or transmission network, said telecommunications signal passing through a first balanced high pass filter coupling the telecommunications signal onto the section of balanced electricity power distribution and/or transmission network, and said telecommunications signal passing from said source of the telecommunications signal to said balanced high pass filter through at least one impedance matching transformer, said impedance matching transformer having a turns ratio between a primary winding and a secondary winding providing an impedance match between the source of the telecommunications signal and the section of balanced electricity power distribution and/or transmission network, wherein one of the primary and the secondary windings is operatively connected to the source of the telecommunications signal and the other of the primary and secondary windings is operatively connected to two phase conductors of the network or one phase conductor and earth or neutral.
- View Dependent Claims (16)
- - 16. A method according to claim 15, which includes passing said low frequency high amplitude mains electricity power signal through a power transformer, and bypassing said telecommunications signal around said power transformer through a high frequency bypass transformer having primary and secondary windings coupled through capacitors to primary and secondary windings of said power transformer.

17. A method of signal transmission including input of a telecommunications signal having a carrier frequency of at least 1 MHz from a telecommunications signal source onto a section of balanced electricity power distribution and/or transmission network and subsequent reception of the telecommunications signal by a reception device, wherein the section of balanced electricity power distribution and/or transmission network is substantially isolated at said carrier frequency from a source of electrical power by a balanced low pass filter passing a low frequency high amplitude mains electricity power signal from the source of electrical power to the section of the balanced electricity power distribution and/or transmission network, said telecommunications signal passing through a first balanced high pass filter coupling the telecommunications signal onto the section of balanced electricity power distribution and/or transmission network, and said telecommunications signal passing from said source of the telecommunications signal to said balanced high pass filter through at least one impedance matching transformer, said impedance matching transformer having a turns ratio between a primary winding and a secondary winding providing an impedance match between the source of the telecommunications signal and the section of balanced electricity power distribution and/or transmission network, wherein one of the primary and the secondary windings is operatively connected to the source of the telecommunications signal and the other of the primary and secondary windings is operatively connected to two phase conductors of the network or one phase conductor and earth or neutral, and which includes passing said low frequency high amplitude mains electricity power signal through an inductor from a phase conductor of said section of balanced electricity power distribution and/or transmission network to a section of unbalanced electricity power distribution and/or transmission network, and passing said telecommunications signal through a high-frequency transformer from said section of balanced electricity power distribution and/or transmission network to said section of unbalanced electricity power distribution and/or transmission network, said high-frequency transformer being coupled through capacitors to said balanced electricity power distribution and/or transmission network and to said section of unbalanced electricity power distribution and/or transmission network for passing said telecommunication signal and blocking said low frequency high amplitude mains electricity power signal.

18. Communication apparatus for coupling a balanced electricity power distribution and/or transmission network to a section of unbalanced electricity power distribution and/or transmission network powered by a single phase conductor of said balanced electricity power distribution and/or transmission network, said communications apparatus including:
- an inductor connecting said single phase conductor to said section of unbalanced electricity power distribution and/or transmission network for passing a low frequency high amplitude mains electricity power signal from the single phase conductor of said section of balanced electricity power distribution and/or transmission network to said section of unbalanced electricity power distribution and/or transmission network;
  
  a high-frequency transformer having a first winding and a second winding for coupling a telecommunications signal between said first winding and said second winding;
  
  a first capacitor connected in series with said first winding to said balanced electricity power distribution and/or transmission network for passing said telecommunications signal and blocking said low frequency high amplitude mains electricity power signal; and
  
  a second capacitor connected in series with said second winding to said unbalanced electricity power distribution and/or transmission network for passing said telecommunications signal and blocking said low frequency high amplitude mains electricity power signal.
- View Dependent Claims (19, 20, 21)
- - 19. Communications apparatus as claimed in claim 18, further including a first fuse connected in series with said first capacitor, and a second fuse connected in series with said second capacitor.
  - 20. Communications apparatus as claimed in claim 18, wherein a first end of said second winding is connected through said second capacitor to a first phase conductor of said balanced electricity power distribution and/or transmission network, and a second end of said second winding is connected through a third capacitor to a second phase conductor of said balanced electricity power distribution and/or transmission network.
  - 21. Communications apparatus as claimed in claim 20, further including a first fuse connected in series with said first capacitor, a second fuse connected in series with said second capacitor between said first end of said second winding and said first phase conductor, and a third fuse connected in series with said third capacitor between said second end of said second winding and said second phase conductor.

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Current Assignee
Norweb PLC
Original Assignee
Norweb PLC
Inventors
Brown, Paul A.
Primary Examiner(s)
Hofsass, Jeffery A.
Assistant Examiner(s)
LA, ANH V

Application Number

US08/793,189
Time in Patent Office

928 Days
Field of Search

340/310.01, 340/310.05, 340/310.02, 340/310.06, 340/310.07, 455/3.3, 455/3.1, 455/280, 375/257, 375/258, 375/259, 307/104
US Class Current

375/258
CPC Class Codes

H04B 2203/5491 using filtering and bypassing

H04B 3/56 Circuits for coupling, bloc...

Coupling of telecommunications signals to a balanced power distribution network

First Claim

1 Assignment

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Abstract

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21 Claims

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Coupling of telecommunications signals to a balanced power distribution network

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

21 Claims

Specification

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Solutions

Use Cases

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