Transmission line power controller with a continuously controllable voltage source responsive to a real power demand and a reactive power demand

US 5,734,257 A
Filed: 04/04/1996
Issued: 03/31/1998
Est. Priority Date: 07/22/1994
Status: Expired due to Fees

First Claim

Patent Images

1. A transmission line power controller for controlling the flow of electric power in an alternating current transmission system including a three-phase transmission line, comprising:

continuously controllable voltage sources connected in series with each of the phases of said three-phase transmission line to provide an injected voltage;

signal identification devices connected to said three-phase transmission line to produce a current signal representative of the instantaneous current values of each of said phases of said three-phase transmission line and to produce a voltage signal representative of the instantaneous voltage values of each of said phases of said three-phase transmission line;

a real power flow specification device to receive a real power flow demand;

a reactive power flow specification device to receive a reactive power flow demand; and

a power control circuit connected to said continuously controllable voltage sources, said signal identification devices, said real power flow specification device, and said reactive power flow specification device, said power control circuit including;

a power controller to process said voltage signal, said real power flow demand, and said reactive power flow demand and generate a current control reference signal, anda vector control loop compensator to process said current signal and said current control reference signal and generate a voltage source reference signal that is applied to said continuously controllable voltage sources to generate an injected voltage that forces the transmission line current to a desired value corresponding to said real power demand and said reactive power demand.

View all claims

0 Assignments

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A transmission line power controller for controlling the flow of electric power in an alternating current three-phase transmission system is described. The power line controller includes a parallel inverter connected to a series inverter through a dc link. The parallel inverter is connected in shunt to the transmission system through a shunt transformer. The series inverter is connected in series with the transmission system through a series transformer. A transmission line power control circuit is used to specify a desired real power demand and reactive power demand for the transmission system. The power control circuit processes this information along with a transmission line voltage vector and a transmission line current vector to produce a voltage source reference signal that is applied to the series inverter. In response to the voltage source reference signal, the series inverter produces an injected voltage vector into the transmission system. The injected voltage vector forces the transmission line current vector to a desired value corresponding to the specified real power and reactive power demand. Thus, desired real power and reactive power flow is rapidly achieved on the transmission system.

60 Citations

View as Search Results

16 Claims

1. A transmission line power controller for controlling the flow of electric power in an alternating current transmission system including a three-phase transmission line, comprising:
- continuously controllable voltage sources connected in series with each of the phases of said three-phase transmission line to provide an injected voltage;
  
  signal identification devices connected to said three-phase transmission line to produce a current signal representative of the instantaneous current values of each of said phases of said three-phase transmission line and to produce a voltage signal representative of the instantaneous voltage values of each of said phases of said three-phase transmission line;
  
  a real power flow specification device to receive a real power flow demand;
  
  a reactive power flow specification device to receive a reactive power flow demand; and
  
  a power control circuit connected to said continuously controllable voltage sources, said signal identification devices, said real power flow specification device, and said reactive power flow specification device, said power control circuit including;
  
  a power controller to process said voltage signal, said real power flow demand, and said reactive power flow demand and generate a current control reference signal, anda vector control loop compensator to process said current signal and said current control reference signal and generate a voltage source reference signal that is applied to said continuously controllable voltage sources to generate an injected voltage that forces the transmission line current to a desired value corresponding to said real power demand and said reactive power demand.
- View Dependent Claims (2, 3)
- - 2. The apparatus of claim 1 wherein said continuously controllable voltage sources are voltage sourced dc-to-ac inverters connected to said transmission line by a transformer.
  - 3. The apparatus of claim 2 wherein said voltage sourced dc-to-ac inverters include dc terminals to absorb and supply real power.

4. A transmission line power flow controller to control the flow of electric power on an alternating current transmission system, comprising:
- a transmission line power control circuit includinga power controller to generate a current control reference signal from a transmission line voltage signal, a real power flow demand signal, and a reactive power flow demand signal, anda vector control loop compensator to generate a voltage source reference signal from a transmission line current signal and said current control reference signal; and
  
  a series inverter connected to said transmission line power control circuit to process said voltage source reference signal and generate an injected voltage that is applied to said alternating current transmission system to force the current of said alternating current transmission system to a desired value corresponding to said real power flow demand signal and said reactive power flow demand signal.
- View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 5. The transmission line power flow controller of claim 4 wherein said power controller includes:
    - a voltage magnitude and phase angle processor to receive said transmission line voltage signal and generate a transmission line phase angle signal and a transmission line voltage magnitude signal;
      
      a power demand processor to receive said real power flow demand signal and said reactive power flow demand signal and generate a complex power demand signal and a power factor demand signal;
      
      a divider to divide said complex power flow demand signal by said transmission line voltage magnitude signal to produce an intermediate current control reference signal; and
      
      an adder to add said power factor demand signal to said transmission line phase angle signal to produce a current vector reference angle signal.
  - 6. The transmission line power flow controller of claim 5 wherein said power controller includes:
    - a transformation device to combine said intermediate current control reference signal and said current vector reference angle signal to generate said current control reference signal.
  - 7. The transmission line power flow controller of claim 4 wherein said vector control loop compensator includesa three-to-two phase transformer to convert said transmission line current vector signal into d-q transmission line current signals.
  - 8. The transmission line power flow controller of claim 7 wherein said vector control loop compensator includesa subtraction circuit to subtract said d-q transmission line current signals from said current control reference signal to produce d-q current control error signals.
  - 9. The transmission line power flow controller of claim 8 wherein said vector control loop compensator includesa signal rotation device to convert said d-q current control error signals to synchronous d-q current control error signals.
  - 10. The transmission line power flow controller of claim 9 wherein said signal rotation device is a stationary-to-rotating processor.
  - 11. The transmission line power flow controller of claim 9 wherein said signal rotation device is a negative vector rotator.
  - 12. The transmission line power flow controller of claim 9 wherein said vector control loop compensator includesa synchronous reference frame processor to convert said synchronous d-q current control error signals to processed synchronous d-q current control error signals.
  - 13. The transmission line power flow controller of claim 12 wherein said synchronous reference frame processor includes an integrator and a proportional gain element to process said synchronous d-q current control error signals and generate said processed synchronous d-q current control error signals.
  - 14. The transmission line power flow controller of claim 11 further comprising a positive vector rotator to process the negative sequence fundamental frequency component of said transmission line voltage vector signal.
  - 15. The transmission line power flow controller of claim 12 wherein said vector control loop compensator includesa reverse signal rotation device to convert said processed synchronous d-q current control error signals into stationary reference frame processed d-q current control error signals.
  - 16. The transmission line power flow controller of claim 15 wherein said vector control loop compensator includesa two-to-three phase transformer to convert said stationary reference frame processed d-q current control error signals into said voltage source reference signal.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Electric Power Research Institute Incorporated
Original Assignee
Electric Power Research Institute Incorporated
Inventors
Williams, Scott L., Gyugyi, Laszlo, Schauder, Colin D.
Primary Examiner(s)
Wong, Peter S.
Assistant Examiner(s)
Riley, Shawn

Application Number

US08/627,483
Time in Patent Office

726 Days
Field of Search

323/205, 323/207, 323/212, 363/34, 363/35, 363/37, 363/39, 307/105
US Class Current

323/207
CPC Class Codes

H02J 3/1814 wherein al least one reacti...

Y02E 40/10 Flexible AC transmission sy...

Transmission line power controller with a continuously controllable voltage source responsive to a real power demand and a reactive power demand

First Claim

0 Assignments

0 Petitions

Accused Products

Abstract

60 Citations

16 Claims

Specification

Solutions

Use Cases

Quick Links

Transmission line power controller with a continuously controllable voltage source responsive to a real power demand and a reactive power demand

First Claim

0 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

60 Citations

16 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links