Method and apparatus for adjusting power delivered from a central power unit to a remote unit via a supply cable

US 6,125,048 A
Filed: 12/28/1998
Issued: 09/26/2000
Est. Priority Date: 12/28/1998
Status: Expired due to Term

First Claim

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1. A power control system comprising:

at least one remote unit, said at least one remote unit including a reference voltage producer;

a central power unit connected to said at least one remote unit by a supply cable, said central power unit comprising;

a power source for supplying power to said remote unit via said supply cable;

a control circuit for providing a signal representing an impedance of said supply cable, said control circuit including a voltage drop detector; and

a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source to said at least one remote unit in response to said signal,wherein said power control system further comprises at least one calibration line connected between said reference voltage producer and said voltage drop detector, and wherein said reference voltage producer outputs a reference voltage on said at least one calibration line to said voltage drop detector, and said voltage drop detector determines said impedance of said supply cable based upon a measured voltage drop across said at least one calibration line.

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Abstract

A power delivery apparatus and method which calibrates a voltage delivered from a central unit to a remote unit to compensate for losses in the supply lines between the central unit and remote unit is disclosed. The impedance of the supply lines is determined utilizing a reference voltage conducted by a calibration line, a sweep tone transmitted down the supply line, or a time domain reflectometer technique. Based upon the determined impedance of the supply lines, the voltage delivered from the central unit can be calibrated accordingly. Alternatively, the impedance can be determined and the voltage calibrated based on the measured input voltage to the remote unit or the measured power level of a signal transmitted from the remote unit.

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47 Claims

1. A power control system comprising:
- at least one remote unit, said at least one remote unit including a reference voltage producer;
  
  a central power unit connected to said at least one remote unit by a supply cable, said central power unit comprising;
  
  a power source for supplying power to said remote unit via said supply cable;
  
  a control circuit for providing a signal representing an impedance of said supply cable, said control circuit including a voltage drop detector; and
  
  a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source to said at least one remote unit in response to said signal,wherein said power control system further comprises at least one calibration line connected between said reference voltage producer and said voltage drop detector, and wherein said reference voltage producer outputs a reference voltage on said at least one calibration line to said voltage drop detector, and said voltage drop detector determines said impedance of said supply cable based upon a measured voltage drop across said at least one calibration line.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The power control system according to claim 1, wherein said supply cable comprises a plurality of conductors.
  - 3. The power control system according to claim 2, wherein said plurality of conductors in said supply cable includes said at least one calibration line.
  - 4. The power control system according to claim 1, wherein said control circuit further comprises:
    - a processor connected to said voltage drop detector for generating said signal.
  - 5. The power control system according to claim 4, wherein said processor includes a microprocessor.
  - 6. The power control system according to claim 1, wherein said remote unit is a remote radio unit used in a wireless telecommunication system.

7. A power control system comprising:
- at least one remote unit;
  
  a central power unit connected to said at least one remote unit by a supply cable, said central power unit comprising;
  
  a power source for supping power to said remote unit via said supply cable;
  
  a control circuit for providing a signal representing an impedance of said supply cable, said control circuit comprising;
  
  a sweep tone generator coupled to said supply cable, said sweep tone generator generating a sweep tone of a known magnitude, said sweep tone being transmitted down said supply cable to said remote unit and being reflected back to said central unit by said at least one remote unit; and
  
  a sweep tone measuring device coupled to said supply cable, said sweep tone measuring device measuring a magnitude of said reflected sweep tone and outputting a signal representing said magnitude of said measured reflected sweep tone,said control circuit receiving said signal representing said measured magnitude of said reflected sweep tone and generating said signal representing said impedance of said supply cable based on said measured magnitudes, anda regulator for receiving said signal representing said impedance from said control circuit and adjusting said power supplied by said power source to said at least one remote unit in response to said signal representing said impedance.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The power control system according to claim 7, wherein said sweep tone generator and said sweep tone measuring device are coupled to said supply cable by a hybrid transformer.
  - 9. The power control system according to claim 7, wherein said at least one remote unit further comprises:
    - a reflective termination unit for reflecting said sweep tone back to said central unit.
  - 10. The power control system according to claim 7, wherein said control circuit includes a processor.
  - 11. The power control system according to claim 10 wherein said processor includes a microprocessor.
  - 12. The power control system according to claim 7, wherein said remote unit is a remote radio unit used in a wireless telecommunication system.

13. A power control system comprising:
- at least one remote unit;
  
  a central power unit connected to said at least one remote unit by a supply cable, said central power unit comprising;
  
  a power source for supplying power to said remote unit via said supply cable;
  
  a control circuit for providing a signal representing an impedance of said supply cable; and
  
  a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source to said at least one remote unit in response to said signal,wherein said control circuit comprises;
  
  a coupler having an input connected to a controller and an output connected to said supply cable, said output further connected to said controller,wherein a pulse is sent from said controller through said coupler down said supply cable to said at least one remote unit and reflected back to said central unit, and said controller generates said signal based on a time delay between said pulse sent by said controller and said pulse reflected back to said central unit.
- View Dependent Claims (14, 15, 16, 17)
- - 14. The power control system according to claim 13, wherein said coupler includes a tri-state buffer.
  - 15. The power control system according to claim 13, wherein said controller includes a processor.
  - 16. The power control system according to claim 15, wherein said processor includes a microprocessor.
  - 17. The power control system according to claim 13, wherein said remote unit is a remote radio unit used in a wireless telecommunication system.

18. A power control system comprising:
- at least one remote unit, said at least one remote unit including a transmitter and a power sensing unit for measuring a signal being output by said transmitter and outputting a signal representing a power of said measured output signal;
  
  a central power unit connected to said at least one remote unit by a supply cable, said central power unit comprising;
  
  a power source for supplying said power to said remote unit via said supply cable;
  
  a control circuit for providing a signal representing an impedance of said supply cable; and
  
  a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source to said at least one remote unit in response to said signal from said control circuit,wherein said control circuit of said central power unit receives said signal output from said power sensing unit and generates said signal representing said impedance of said supply cable based on said signal output from said power sensing unit.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. The power control system according to claim 18, wherein said central power unit further comprises:
    - a signal source unit connected to said transmitter of said at least one remote power unit, said signal source unit being adapted to prompt said transmitter to output said signal.
  - 20. The power control system according to claim 18, wherein said signal representing said power of said measured output signal is transmitted to said control circuit via a telemetry link.
  - 21. The power control system according to claim 18, wherein said signal representing said power of said measured output signal is transmitted to said control circuit via said supply cable.
  - 22. The power control system according to claim 18, wherein said control circuit includes a processor.
  - 23. The power control system according to claim 22, wherein said processor includes a microprocessor.
  - 24. The power control system according to claim 18, wherein said remote unit is a remote radio unit used in a wireless telecommunication system.

25. A central power control unit for supplying power over a supply cable to a remote unit, said central power control unit comprising:
- a power source for supplying said power;
  
  a control circuit for providing a signal representing an impedance of said supply cable; and
  
  a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source over said supply cable in response to said signal,wherein said control circuit further comprises;
  
  a sweep tone generator coupled to said supply cable, said sweep tone generator generating a sweep tone of a known magnitude, said sweep tone being transmitted down said supply cable to said remote unit and being reflected back to said central unit by said remote unit; and
  
  a sweep tone measuring device coupled to said supply cable, said sweep tone measuring device measuring a magnitude of said reflected sweep tone and outputting a signal representing said magnitude of said measured reflected sweep tone,said control circuit receiving said signal representing said measured magnitude of said reflected sweep tone and generating said signal representing said impedance of said supply cable based on said measured magnitude.
- View Dependent Claims (26, 27, 28)
- - 26. The central power control unit according to claim 25, further comprising:
    - a hybrid transformer for coupling said sweep tone generator and said sweep tone measuring device to said supply cable.
  - 27. The central power unit according to claim 25, wherein said control circuit includes a processor.
  - 28. The central power unit according to claim 27, wherein said processor includes a microprocessor.

29. A central power unit for supplying power over a supply cable to a remote unit, said central power control unit comprising:
- a power source for supplying said power;
  
  a control circuit for providing a signal representing an impedance of said supply cable; and
  
  a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source over said supply cable in response to said signal,wherein said control circuit further comprises;
  
  a coupler having an input connected to a controller and an output connected to said supply cable, said output further connected to said controller,wherein a pulse is sent from said controller through said coupler down said supply cable to said remote unit and reflected back to said central unit, and said controller generates said signal based on a time delay between said pulse sent by said controller and said pulse reflected back to said central unit.
- View Dependent Claims (30, 31, 32)
- - 30. The central power unit according to claim 29, wherein said coupler includes a tri-state buffer.
  - 31. The central power unit according to claim 29, wherein said controller includes a processor.
  - 32. The central power unit according to claim 31, wherein said processor includes a microprocessor.

33. A central power control unit for supplying power over a supply cable to a remote unit, said central power control unit comprising:
- a power source for supplying said power;
  
  a control circuit for providing a signal representing an impedance of said supply cable; and
  
  a regulator receiving said signal from said control circuit and adjusting said power supplied by said power source over said supply cable in response to said signal,wherein said control circuit further comprises;
  
  a controller adapted to receive a signal output from said remote unit and adjust said power supplied by said power source over said supply cable in response to said signal received from said remote unit.
- View Dependent Claims (34, 35, 36, 37, 38, 39, 40)
- - 34. The central power unit according to claim 33, wherein said signal indicates a voltage being input to said remote unit.
  - 35. The central power unit according to claim 33, wherein said signal indicates a power level being output by a transmitter in said remote unit.
  - 36. The central power control unit according to claim 35, further comprising:
    - a signal source unit connected to said transmitter of said at least one remote power unit, said signal source unit being adapted to prompt said transmitter to output said signal.
  - 37. The central power control unit according to claim 33, wherein said signal is sent from said remote unit to said controller via a telemetry link.
  - 38. The central power control unit according to claim 33, wherein said signal is sent from said remote unit to said controller via said supply cable.
  - 39. The central power unit according to claim 33, wherein said controller includes a processor.
  - 40. The central power unit according to claim 39, wherein said processor includes a microprocessor.

41. A method of controlling a power level delivered from a central power control unit to at least one remote unit, said method comprising the steps of:
- supplying power from a power unit in said central power control unit to said at least one remote power unit via a supply cable;
  
  determining an impedance of said supply cable; and
  
  adjusting said level of said power supplied to said at least one remote unit by said central power control unit based upon said determined impedance of said supply cable,wherein said step of determining further comprises;
  
  generating a sweep tone of a known magnitude;
  
  transmitting said generated sweep tone via said supply cable to said at least one remote unit, said at least one remote unit reflecting said generated sweep tone back to said central unit;
  
  measuring a magnitude of said reflected sweep tone; and
  
  determining said impedance of said supply cable based on said measured magnitude of said reflected sweep tone.

42. A method of controlling a power level delivered from a central power control unit to at least one remote unit, said method comprising the steps of:
- supplying power from a power unit in said central power control unit to said at least one remote power unit via a supply cable;
  
  determining an impedance of said supply cable; and
  
  adjusting said level of said power supplied to said at least one remote unit by said central power control unit based upon said determined impedance of said supply cable,wherein said determining step further comprises;
  
  generating a pulse in said central power control unit;
  
  transmitting said generated pulse to said at least one remote unit via said supply cable, said generated pulse being reflected back to said central power control unit by said at least one remote unit; and
  
  measuring a time delay between said transmission of said generated pulse and receipt of said reflected pulse by said central power control unit; and
  
  determining said impedance of said supply cable based on said time delay between said transmission of said generated pulse and receipt of said reflected pulse by said central power control unit.

43. A method of controlling a power level delivered from a central power control unit to at least one remote unit, said method comprising the steps of:
- supplying power from a power unit in said central power control unit to said at least one remote power unit via a supply cable;
  
  determining an impedance of said supply cable; and
  
  adjusting said level of said power supplied to said at least one remote unit by said central power control unit based upon said determined impedance of said supply cable,wherein said determining step further comprises;
  
  measuring a level of said power at said at least one remote unit;
  
  sending a signal indicating said measured power level from said at least one remote unit to said central power control unit; and
  
  determining said impedance of said supply cable based on said signal indicating said measured power level from said at least one remote.
- View Dependent Claims (44, 45, 46, 47)
- - 44. The method according to claim 43, wherein said measuring step further comprises:
    - measuring a voltage being input to said at least one remote power unit.
  - 45. The method according to claim 43, wherein said measuring step further comprises:
    - measuring a power level of a signal being transmitted from a transmitter in said at least one remote power unit.
  - 46. The method according to claim 43, wherein said sending step further comprises:
    - sending said signal via a telemetry link between said central power control unit and said at least one remote unit.
  - 47. The method according to claim 43, wherein said sending step further comprises:
    - sending said signal via said supply cable between said central power control unit and said at least one remote unit.

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Current Assignee
Lucent Technologies, Inc. (Nokia Corporation)
Original Assignee
Lucent Technologies, Inc. (Nokia Corporation)
Inventors
Ward, Robert B., Loughran, Kevin
Primary Examiner(s)
Berhane, Adolf Deneke

Application Number

US09/220,894
Time in Patent Office

638 Days
Field of Search

363/95, 363/78, 323/205, 323/206
US Class Current

363/78
CPC Class Codes

H02J 1/06 Two-wire systems

Method and apparatus for adjusting power delivered from a central power unit to a remote unit via a supply cable

First Claim

2 Assignments

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Accused Products

Abstract

87 Citations

47 Claims

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Method and apparatus for adjusting power delivered from a central power unit to a remote unit via a supply cable

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

87 Citations

47 Claims

Specification

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