System and method for distributing RF signals over power lines within a substantially closed environment

US 6,151,480 A
Filed: 06/27/1997
Issued: 11/21/2000
Est. Priority Date: 06/27/1997
Status: Expired due to Term

First Claim

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1. A system for distributing RF signals to users over power lines in a structure, the system comprising:

a head end unit that receives RF signals in a first frequency range to be distributed to users in the structure;

the head end unit coupled to the power lines of the structure wherein RF signals are transmitted over the power lines in a second frequency range;

the head end unit including a frequency converter that translates RF signals between the first frequency range and the second frequency range;

wherein the frequency converter comprises a circuit that converts the first frequency range to a range between 100 and 500 MHZ;

a number of remote units, coupled to the power lines and disposed throughout the structure to provide RF coverage within the structure, the remote units including frequency converters that convert signals between the first and second frequency ranges; and

an antenna coupled to each remote unit to transmit signals to and receive signals from the users in the first frequency range.

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Abstract

A system for distributing RF signals to users over power lines in a structure. The system includes a head end unit that receives RF signals in a first frequency range to be distributed to users in the structure. The head end unit is coupled to the power lines of the structure. RF signals are transmitted over the power lines in a second frequency range. The head end unit includes a frequency converter that translates RF signals between the first frequency range and the second frequency range. The system also includes a number of remote units. The remote units are coupled to the power lines and disposed throughout the structure to provide RF coverage within the structure. The remote units include frequency converters that convert signals between the first and second frequency ranges. Further, an antenna is coupled to each remote unit to transmit signals to and receive signals from the users in the first frequency range.

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28 Claims

1. A system for distributing RF signals to users over power lines in a structure, the system comprising:
- a head end unit that receives RF signals in a first frequency range to be distributed to users in the structure;
  
  the head end unit coupled to the power lines of the structure wherein RF signals are transmitted over the power lines in a second frequency range;
  
  the head end unit including a frequency converter that translates RF signals between the first frequency range and the second frequency range;
  
  wherein the frequency converter comprises a circuit that converts the first frequency range to a range between 100 and 500 MHZ;
  
  a number of remote units, coupled to the power lines and disposed throughout the structure to provide RF coverage within the structure, the remote units including frequency converters that convert signals between the first and second frequency ranges; and
  
  an antenna coupled to each remote unit to transmit signals to and receive signals from the users in the first frequency range.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The system of claim 1, and further including a base station coupled to the head end unit to provide the forward RF signals and to receive the reverse RF signals.
  - 3. The system of claim 1, and further including an antenna coupled to the head end unit to provide the forward RF signals to the head end unit and to receive the reverse RF signals from the head end unit.
  - 4. The system of claim 1, wherein the frequency converter includes a pair of mixers that are controlled by a common local oscillator.
  - 5. The system of claim 1, wherein the head end unit and the remote units include variable amplifiers in a reverse path and a forward path.
  - 6. The system of claim 1, wherein the antenna associated with a remote unit is disposed separate from the remote unit.
  - 7. The system of claim 1, wherein the head end unit and the remote units are coupled to a controlled access AC power distribution system within the structure.
  - 8. The system of claim 1, wherein the head end unit includes an AC power line interface that matches the head end unit with the load of the AC power lines.
  - 9. The system of claim 1, wherein the head-end unit includes:
    - a control processor that generates a frequency locking signal for the remote units; and
      
      a modem coupled to the control processor that modulates a carrier with the locking signal so as to provide the signal to the remote units.
  - 10. The system of claim 9, wherein each remote unit includes a modem for communicating with the control processor of the head end unit.

11. A system for distributing RF signals in a structure, the system comprising:
- a head end unit that receives RF signals in a first frequency range to be distributed over AC power lines to a number of remote units disposed throughout the structure to provide RF coverage within the structure for RF transmission to users;
  
  the head end unit including;
  
  a frequency converter that translates RF signals between the first frequency range and a second frequency range,a power line interface circuit that couples the head end unit to the AC power lines of the structure and that matches the head end unit with the load of the AC power lines,a control processor that generates a frequency locking signal for the remote units,a modem coupled to the control processor that modulates a carrier with the frequency locking signal so as to provide the frequency locking signal to the remote units, andeach remote unit including;
  
  a power line interface circuit that couples the remote unit to the AC power lines of the structure and that matches the remote unit with the load of the AC power lines,a frequency converter that translates RF signals between the first and second frequency ranges, andan antenna coupled to the remote unit to transmit signals to and receive signals from the users in the first frequency range.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19)
- - 12. The system of claim 11, and further including a base station coupled to the head end unit to provide the forward RF signals and to receive the reverse RF signals.
  - 13. The system of claim 11, and further including an antenna coupled to the head end unit to provide the forward RF signals to the head end unit and to receive the reverse RF signals from the head end unit.
  - 14. The system of claim 11, wherein the frequency converter includes a pair of mixers that are controlled by a common local oscillator.
  - 15. The system of claim 11, wherein the frequency converter comprises a circuit that converts the first frequency range to a range between 100 and 500 MHZ.
  - 16. The system of claim 11, wherein the head end unit and the remote units include variable amplifiers in a reverse path and a forward path.
  - 17. The system of claim 11, wherein the antenna associated with a remote unit is disposed separate from the remote unit.
  - 18. The system of claim 11, wherein each remote unit includes a modem for communicating with the control processor of the head end unit.
  - 19. The system of claim 11, wherein the head end unit and the remote units are coupled to a controlled access AC power distribution system within the structure.

20. A head end unit for an RF distribution system that transmits signals over AC power lines, the head end unit comprising:
- a block converter that is coupled to receive signals from an RF source in a first frequency range, wherein the block converter converts RF signals between first and second frequency ranges; and
  
  wherein the block converter includes;
  
  a mixer, an amplifier and a filter coupled in series between the RF source and the AC power line interface in a forward path;
  
  a filter, an amplifier and a mixer coupled in series between the AC power line interface and the RF source in a reverse path;
  
  a local oscillator coupled to the mixers; and
  
  a reference oscillator coupled to provide a reference signal to the local oscillator and the control processor;
  
  a control processor that generates a control signal for remote units in the RF distribution system; and
  
  an AC power line interface coupled to the block converter and the control processor that provides signals to and receives signals from the AC power lines in the second frequency range.
- View Dependent Claims (21)
- - 21. The head end unit of claim 20, wherein the AC power line interface includes a transformer coupled between the power lines and the block converter.

22. A head end unit for an RF distribution system that transmits signals over AC power lines, the head end unit comprising:
- a block converter that is coupled to receive signals from an RF source in a first frequency range, wherein the block converter converts RF signals between first and second frequency ranges;
  
  a control processor that generates a control signal for remote units in the RF distribution system; and
  
  an AC power line interface coupled to the block converter and the control processor that provides signals to and receives signals from the AC power lines in the second frequency range, wherein the AC power line interface includes a number of tunable capacitors coupled between the power lines and the block converter.

23. A head end unit for an RF distribution system that transmits signals over AC power lines, the head end unit comprising:
- a block converter that is coupled to receive signals from an RF source in a first frequency range, wherein the block converter converts RF signals between first and second frequency ranges;
  
  a control processor that generates a control signal for remote units in the RF distribution system; and
  
  an AC power line interface coupled to the block converter and the control processor that provides signals to and receives signals from the AC power lines in the second frequency range, wherein the control processor is further coupled to the forward and reverse paths so as to establish the gain of the forward and reverse paths.

24. A remote unit for an RF distribution system that transmits signals over AC power lines, the remote unit comprising:
- an antenna that communicates with wireless terminals using RF signals in a first frequency range;
  
  a block converter coupled to the antenna that converts RF signals between the first frequency range and a second frequency range; and
  
  wherein the block converter includes;
  
  a mixer, an amplifier and a filter coupled in series between the antenna and the AC power line interface in a reverse path;
  
  a filter, an amplifier and a mixer coupled in series between the AC power line interface and the antenna in a forward path;
  
  a local oscillator coupled to the mixers; and
  
  a reference oscillator coupled to provide a reference signal to the local oscillator and the control processora control processor that receives a control signal from a head end unit and controls the operation of the remote unit; and
  
  an AC power line interface coupled to the block converter and the control processor for providing signals to and receiving signals from the AC power lines in the second frequency range.
- View Dependent Claims (25, 26)
- - 25. The remote unit of claim 24, wherein the AC power line interface includes a transformer coupled between the power lines and the block converter.
  - 26. The method of claim 24, and further comprising locking the frequency of a block converter at the remote units with a reference oscillator at the head end.

27. A remote unit for an RF distribution system that transmits signals over AC power lines, the remote unit comprising:
- an antenna that communicates with wireless terminals using RF signals in a first frequency range;
  
  a block converter coupled to the antenna that converts RF signals between the first frequency range and a second frequency range;
  
  a control processor that receives a control signal from a head end unit and controls the operation of the remote unit; and
  
  an AC power line interface coupled to the block converter and the control processor for providing signals to and receiving signals from the AC power lines in the second frequency range, wherein the AC power line interface includes a number of tunable capacitors coupled between the power lines and the block converter.

28. A remote unit for an RF distribution system that transmits signals over AC power lines, the remote unit comprising:
- an antenna that communicates with wireless terminals using RF signals in a first frequency range;
  
  a block converter coupled to the antenna that converts RF signals between the first frequency range and a second frequency range;
  
  a control processor that receives a control signal from a head end unit and controls the operation of the remote unit, wherein the control processor is further coupled to a forward path and a reverse path so as to establish the gain of the forward and reverse paths; and
  
  an AC power line interface coupled to the block converter and the control processor for providing signals to and receiving signals from the AC power lines in the second frequency range.

Specification

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Current Assignee
CommScope Technologies, LLC (CommScope Holding Company, Inc.)
Original Assignee
ADC Telecommunications Incorporated (TE Connectivity Limited)
Inventors
Fischer, Larry G., Russell, David S.
Primary Examiner(s)
Miller, John W.

Application Number

US08/884,533
Time in Patent Office

1,243 Days
Field of Search

348/6, 348/10, 348/11, 348/7, 348/12, 348/13, 348/8, 455/3.1, 455/3.3, 455/4.1, 455/4.2, 455/5.1, 455/6.1, 455/6.2, 455/6.3, 455/14, 455/20-22, 455/63, 455/66, 455/205, 455/208, 455/209, 455/313-319, 455/7.1, 455/11.1
US Class Current

340/12.33
CPC Class Codes

H04B 2203/5437   Wired telephone

H04B 2203/5441   Wireless systems or telephone

H04B 3/54   Systems for transmission vi...

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

System and method for distributing RF signals over power lines within a substantially closed environment

First Claim

8 Assignments

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Abstract

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28 Claims

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System and method for distributing RF signals over power lines within a substantially closed environment

First Claim

8 Assignments

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Accused Products

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Abstract

Citations

28 Claims

Specification

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