Apparatus and method for optimizing power distributed in a broadband signal system

US 5,844,327 A
Filed: 02/18/1997
Issued: 12/01/1998
Est. Priority Date: 08/21/1996
Status: Expired due to Term

First Claim

Patent Images

1. A power-distribution optimized broadband system, comprising:

a plurality of nodes coupled to said broadband system for receiving a broadband signal, each said node comprising a power supply connected to a plurality of power outlets for supplying power to a plurality of distribution lines coupled to said node, and each said node further comprising a combiner for coupling said broadband signal to said power for transmission through said distribution line;

said power supply comprising a plurality of inverters, each having a memory for storing status parameters, and a controller for monitoring said status parameters in each said inverter; and

a transmitter for transmitting said status parameters to said broadband system, for said broadband system to maintain a status of said plurality of nodes and to detect an operation error in said broadband system.

View all claims

11 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A broadband system that simultaneously delivers output power and supplies a broadband signal and has a redundant bus power supply. The system includes a central office having a video gateway. The system further includes a plurality of nodes having a power supply and a combiner for coupling the broadband signal to the power supply output. At each node, a distribution line delivers broadcast services and power to a consumer site. The power supply comprises a battery source, rectifier, filter, inverter and generator to provide a secondary DC power source. The various elements of the power supply are diode isolated and are interconnected via a redundant power bus, thus allowing power to be maintained to the subscribers even in case of failure of one or more elements of the power supply. The power supply further includes a plurality of inverters, each inverter supplies power to a distribution line. A controller monitors the status of each inverter and secondary power source. In addition, the controller monitors output power supplied by each inverter. The controller exchanges control and status information with the power supply and secondary power source through a memory array. By issuing control data to the power supply, the controller compensates for a detected loss of power supplied to each distribution line. The controller transmits status information to the central office.

69 Citations

View as Search Results

32 Claims

1. A power-distribution optimized broadband system, comprising:
- a plurality of nodes coupled to said broadband system for receiving a broadband signal, each said node comprising a power supply connected to a plurality of power outlets for supplying power to a plurality of distribution lines coupled to said node, and each said node further comprising a combiner for coupling said broadband signal to said power for transmission through said distribution line;
  
  said power supply comprising a plurality of inverters, each having a memory for storing status parameters, and a controller for monitoring said status parameters in each said inverter; and
  
  a transmitter for transmitting said status parameters to said broadband system, for said broadband system to maintain a status of said plurality of nodes and to detect an operation error in said broadband system.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The system of claim 1 wherein each said memory includes volatile memory for storing a plurality of control parameters and nonvolatile memory for storing a plurality of parametric values representing a desired value for each said status parameters.
  - 3. The system of claim 1 further comprising means for correcting said operation error, for maintaining a continuous supply of power on said plurality of distribution lines.
  - 4. The system of claim 3, whereineach inverter supplies power to one of said distribution lines;
    - andsaid plurality of status parameters further comprises an inverter status for each of said inverters for detecting a reduction in power supplied by each said inverter.
  - 5. The system of claim 4, wherein said power supply further comprises a redundant inverter for replacing one of said plurality of inverters if said inverter status indicates an inoperable inverter.
  - 6. The system of claim 1 wherein said power supply further comprises a charger, and a motor generator, each having a memory for storing status parameters, and wherein said controller monitors said status parameters in each said inverter, charger, and motor generator.
  - 7. The system of claim 1 wherein each controller includes a scheduler that executes a plurality of tasks according to a priority level assigned to each task.
  - 8. The system of claim 7 wherein the highest priority task of each scheduler is monitoring a critical status register in the memory of each inverter.
  - 9. The system of claim 1 wherein said power supplied by said power supplied to said distribution line is a low frequency AC trapezoidal waveform.

10. A method for optimizing power distributed in a broadband system, the broadband system including a plurality of nodes coupled for receipt of a broadband signal, the nodes each comprising a power supply having a plurality of power outlets to supply power to a plurality of distribution lines coupled to the nodes, and a combiner for coupling the broadband signal to the power outlets, said method comprising the steps of:
- establishing a plurality of status parameters critical to the optimization of power distribution in the broadband system;
  
  categorizing said status parameters into a plurality of tasks, each said task of different priority;
  
  monitoring said status parameters of each said task in the nodes, according to said tasks'"'"' priority level;
  
  detecting a critical change in said status parameters, said critical change indicating a problem in the power supplied to at least one of the distribution lines;
  
  identifying a source of said critical change; and
  
  modifying an operating parameter of said source to correct said problem in the power supplied to the distribution line.
- View Dependent Claims (11, 12, 13, 14)
- - 11. The method of claim 10, further comprising the steps of:
    - inhibiting power supplied to the distribution line if said operating parameter modification at said critical change source did not correct said problem in the power supplied to the distribution line; and
      
      notifying the broadband system that the distribution line'"'"'s power has been inhibited.
  - 12. The method of claim 10, further comprising the steps of assigning top priority to said status parameters critical in maintaining and controlling power output and status parameters indicative of dangerous conditions.
  - 13. The method of claim 12, further comprising the steps of:
    - detecting a benign change in said status parameters, wherein said benign change indicates that output power is maintained, even if said output power has suffered non-critical degradation; and
      
      performing an error check for validating said benign change.
  - 14. The method of claim 13, further comprising the step of supplying unipolar power to said distribution line, in response to said detected benign change being indicated by said status parameters.

15. A method for optimizing power distributed in a broadband system comprising a power supply having a plurality of power outlets to supply power to a plurality of distributions lines, a plurality of inverters each having a memory for storing status parameters and a controller for monitoring said status parameters in said inverter, wherein each controller includes a scheduler that executes a plurality of tasks according to a priority level assigned to each task, said broadband system including a combiner for coupling a broadband signal to the power outlets said method comprising the steps of:
- storing status parameters in the memory of each respective inverter;
  
  monitoring said status parameters according to the task priority level assigned by the scheduler;
  
  detecting a change in said status parameters; and
  
  storing control data in the memory of appropriate inverters responsive to said detected change.
- View Dependent Claims (16, 17, 18, 19)
- - 16. The method of claim 15 wherein the step of storing control data in the memory comprises the steps of:
    - writing said control data to a working register in the memory;
      
      sending an acknowledgment data element to the controller;
      
      verifying that said acknowledgment data and said control data are identical; and
      
      writing said control data to a device register in the memory.
  - 17. The method of claim 15 wherein the step of detecting a change in said status parameters comprises the steps of:
    - reading a current content of a status register in the memory;
      
      transmitting said current content to the controller;
      
      verifying said current content received by the controller is identical to said current content of the status register;
      
      comparing said current content with a previous content; and
      
      indicating a status change.
  - 18. The method of claim 15 wherein said step of storing said status parameters in each memory is performed by each respective inverter.
  - 19. The method of claim 15 wherein said step of executing the task of monitoring said status parameters is performed by the controller.

20. A power supply for a power-distribution optimized broadband system, said power supply comprising:
- a rectifier comprising an input for receiving AC power, rectifying means for rectifying said input AC power, and an output for supplying said rectified power, said output comprising a positive terminal and a negative terminal;
  
  a back-up battery for providing power in case of failure of the rectifier or in case of failure of AC input power;
  
  said back-up battery comprising a positive terminal and a negative terminal;
  
  an inverter comprising an input, said input comprising a positive terminal and a negative terminal, said inverter further comprising circuitry for the inversion of a signal supplied to the inverter input, said inversion circuitry comprising a positive terminal and a negative terminal, said inverter including a memory for storing status parameters, said inverter also comprising a power output to supply power to the optimized broadband system; and
  
  a DC auxiliary power source having a DC output for providing auxiliary power to the inverter in case of failure of the rectifier or in case of failure of AC input power, and for charging said back-up battery, said output of said DC auxiliary power source comprising a positive terminal and a negative terminal;
  
  a first power bus interconnecting the positive terminals of said rectifier output, said inverter'"'"'s input, said DC auxiliary source output and said back-up battery; and
  
  a second power bus interconnecting the negative terminals of said rectifier output, said inverter'"'"'s input, said DC auxiliary source output and said back-up battery; and
  
  said inverter further comprising at least one diode for isolating the output of said rectifier from the output of said back-up battery such that said back-up battery is charged independently of said rectifier.
- View Dependent Claims (21, 22)
- - 21. The power supply of claim 20 further comprising:
    - a charger connected to said back-up battery for receiving power from said DC auxiliary power source to charge the back-up battery; and
      
      a filter connected to the input and output terminals of said rectifier for filtering the power output flowing from said rectifier to said inverter;
      
      wherein the battery is charged by the charger independent of the power output from said rectifier, and the battery power is not applied to the inverter unless the filter voltage output is less than the battery voltage.
  - 22. The power supply of claim 20 further comprising a controller for monitoring said status parameters in said inverter, wherein each controller includes a scheduler that executes a plurality of tasks according to a priority level assigned to each task.

23. A power supply for a power-distribution optimized broadband system, said power supply comprising:
- a rectifier comprising an input for receiving AC power, rectifying means for rectifying said input AC power, and an output for supplying said rectified power, said output comprising a positive terminal and a negative terminal;
  
  a back-up battery for providing power in case of failure of the rectifier or in case of failure of AC input power, said battery comprising a positive terminal and a negative terminal;
  
  an inverter comprising an input, inversion circuitry comprising a positive terminal and a negative terminal an input, said inverter input further comprising a first positive terminal, a second positive terminal and a negative terminal, said first positive terminal and said second positive terminal of said inverter'"'"'s input functionally connected to said positive terminal of said inversion circuitry, and said negative terminal or said inverter'"'"'s input functionally connected to said negative terminal of said inversion circuitry, said inverter also comprising a power output to supply power to the optimized broadband system; and
  
  said inverter further comprising a first diode having an anode and a cathode, said first diode'"'"'s anode connected to the first positive input terminal of said inverter and said first diode'"'"'s cathode connected to the positive terminal of said inversion circuitry; and
  
  said inverter further comprising a second diode having an anode and a cathode, said second diode'"'"'s anode connected to the second positive input terminal of said inverter and said second diode'"'"'s cathode connected to the positive terminal of said inversion circuitry; and
  
  a DC auxiliary power source having a DC output for providing auxiliary power to the inverter in case of failure of the rectifier, or failure of AC input power; and
  
  for charging said back-up battery;
  
  said output of said DC auxiliary power source comprising a positive terminal and a negative terminal;
  
  a first power bus comprising a first, second and third conductors, said first conductor connecting said positive terminal of said rectifier output to said first positive terminal of said inverter, said second conductor connecting the positive terminals of said DC auxiliary source output and the positive terminal of said back-up battery to said second positive terminal of said inverter, and said third conductor connecting the positive terminal of said DC auxiliary source output to the positive terminal of said rectifier output; and
  
  a second power bus comprising a first, second and third conductors, said first conductor connecting said negative terminal of said rectifier output to said negative terminal of said inverter, said second conductor connecting the negative terminal of said DC auxiliary source output to said negative terminal of said back-up, and said third conductor connecting said negative terminal of said DC auxiliary source output to the negative terminal of said rectifier output; and
  
  wherein, the diode isolation of the output of said rectifier from the output of said DC auxiliary power source allows the continued supply of power to the inverter even in case of failure or servicing of said rectifier, or failure or servicing of said DC auxiliary power source.
- View Dependent Claims (24, 25, 26)
- - 24. A power supply as recited in claim 23, said power supply further comprising a charger having a first and a second terminal, said charger'"'"'s first terminal functionally connected to the positive output terminal of said DC auxiliary source or to the positive output terminal of said rectifier and said charger'"'"'s second terminal being functionally connected to the back-up battery, said charger for receiving power from said rectifier or receiving power from said DC auxiliary power source, conditioning said received power and using said power to charge the back-up battery.
  - 25. A power supply as recited in claim 24, said power supply further comprising a filter connected to the input and output terminals of said rectifier, said filter for filtering the power output flowing from said rectifier to said inverter.
  - 26. A power supply as recited in claim 23, said power supply further comprising a filter connected to the input and output terminals of said rectifier, said filter for filtering the power output flowing from said rectifier to said inverter.

27. A power supply for use in a node of a broadband communications system, said node receiving a broadband signal and said power supply having a plurality of power outlets to supply power to a plurality of distribution lines coupled to said node, said node having a combiner for coupling said broadband signal to each distribution line, said power supply comprising:
- means for establishing a plurality of status parameters associated with power distribution;
  
  means for categorizing said status parameters into a plurality of tasks, each said task having a different priority;
  
  means for monitoring said status parameters of each said task in said node according to said task'"'"'s priority level;
  
  means for detecting a critical change in said status parameters, said critical change indicating a problem in said power supplied to at least one of said distribution lines;
  
  means for identifying a source of said critical change;
  
  means for modifying an operating parameter of said source to correct said problem in said power supplied to said distribution line; and
  
  means for transmitting said status parameters to said broadband system.
- View Dependent Claims (28, 29, 30, 31, 32)
- - 28. The system of claim 27 wherein said power supplied by said power supplied to said distribution line is a low frequency AC trapezoidal waveform.
  - 29. The power supply of claim 27 further comprising:
    - means for inhibiting power supplied to said distribution line if said operating parameter modification at said critical change source did not correct said problem in the power supplied to said distribution line; and
      
      means for notifying said broadband system that said distribution line'"'"'s power has been inhibited.
  - 30. The power supply of claim 27 further comprising means for assigning top priority to said status parameters critical in maintaining and controlling power output and status parameters indicative of dangerous conditions.
  - 31. The power supply of claim 30 further comprising:
    - means for detecting a benign change in said status parameters, wherein said benign change indicates that output power is maintained, even if said output power has suffered non-critical degradation; and
      
      means for performing an error check for validating said benign change.
  - 32. The power supply of claim 31 further comprising means for supplying unipolar power to said distribution line in response to said detected benign change indicated by said status parameters.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
ARRIS Enterprises LLC (CommScope Holding Company, Inc.)
Original Assignee
Antec Incorporated
Inventors
Batson, John Gary
Primary Examiner(s)
Elms, Richard T.
Assistant Examiner(s)
KAPLAN, JONATHAN STUART

Application Number

US08/802,026
Time in Patent Office

651 Days
Field of Search

307/64, 307/65, 307/66, 307/80, 307/11, 307/18, 307/19, 307/22, 307/21, 307/23, 307/29, 340/310.01, 340/310.02, 340/310.03, 340/310.04, 340/310.05, 340/310.06, 340/310.07, 340/310.08
US Class Current

307/64
CPC Class Codes

H02J 1/108   using diodes blocking rever...

H02J 13/00016   using a wired telecommunica...

H02J 13/00017   using optical fiber

H02J 3/38   Arrangements for parallely ...

H02J 9/062   for AC powered loads

Y02B 90/20   Smart grids as enabling tec...

Y02E 40/70   Smart grids as climate chan...

Y02E 60/00   Enabling technologies; Tech...

Y04S 10/12   Monitoring or controlling e...

Y04S 20/12   Energy storage units, unint...

Y04S 40/124   using wired telecommunicati...

Apparatus and method for optimizing power distributed in a broadband signal system

First Claim

11 Assignments

0 Petitions

Accused Products

Abstract

69 Citations

32 Claims

Specification

Use Cases

Quick Links

Others

Apparatus and method for optimizing power distributed in a broadband signal system

First Claim

11 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

69 Citations

32 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others