Electromagnetic energy-flux reactor

US 10,243,405 B2
Filed: 09/09/2016
Issued: 03/26/2019
Est. Priority Date: 09/23/2011
Status: Expired due to Fees

First Claim

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1. A system for providing power to a load, comprising:

a first reactor comprising a first coil configured to generate a first magnetic field and at least one second coil configured to generate a plurality of second magnetic fields that vary an intensity of the first magnetic field;

a second reactor comprising at least one second reactor coil configured to tune the first reactor to the load, the at least one second reactor comprising a third coil connected to one of the at least one second coil and to the load and a fourth coil magnetically coupled to the third coil, wherein the first reactor comprises a fifth coil, and wherein the fourth coil of the second reactor is shunted to the fifth coil of the first reactor, and wherein the second reactor is configured to tune the fifth coil of the first reactor to the load;

an input inverter configured to receive power from a DC power source and convert the power into AC power for use as an excitation energy for at least one of the first reactor or the second reactor;

a rectifier configured to receive AC output power at an output of at least one of the first reactor or the second reactor, and convert the AC output power into DC output power; and

an output inverter configured to synchronize the system with the load, wherein the output inverter is further configured to receive the DC output power, convert the DC output power into AC load power, and provide the AC load power to the load;

wherein the first reactor is configured to provide the power to the load, and the second reactor is configured to increase the power provided to the load by the first reactor by increasing an intensity of the plurality of second magnetic fields generated by the at least one second coil and tuning the first reactor to the load.

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Abstract

Systems and methods for providing power to a load are provided. One system includes a first reactor including a first plurality of coils. A first coil of the first plurality of coils is configured to generate a first magnetic field, and a plurality of second coils of the first plurality of coils are configured to generate a plurality of second magnetic fields that vary an intensity of the first magnetic field. The system further comprises a second reactor comprising a second plurality of coils, wherein the second plurality of coils are configured to tune the first reactor to the load. The first reactor is configured to provide the power to the load, and the second reactor is configured to increase the power provided to the load by increasing an intensity of the second magnetic fields generated by the second coils and tuning the first reactor to the load.

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16 Claims

1. A system for providing power to a load, comprising:
- a first reactor comprising a first coil configured to generate a first magnetic field and at least one second coil configured to generate a plurality of second magnetic fields that vary an intensity of the first magnetic field;
  
  a second reactor comprising at least one second reactor coil configured to tune the first reactor to the load, the at least one second reactor comprising a third coil connected to one of the at least one second coil and to the load and a fourth coil magnetically coupled to the third coil, wherein the first reactor comprises a fifth coil, and wherein the fourth coil of the second reactor is shunted to the fifth coil of the first reactor, and wherein the second reactor is configured to tune the fifth coil of the first reactor to the load;
  
  an input inverter configured to receive power from a DC power source and convert the power into AC power for use as an excitation energy for at least one of the first reactor or the second reactor;
  
  a rectifier configured to receive AC output power at an output of at least one of the first reactor or the second reactor, and convert the AC output power into DC output power; and
  
  an output inverter configured to synchronize the system with the load, wherein the output inverter is further configured to receive the DC output power, convert the DC output power into AC load power, and provide the AC load power to the load;
  
  wherein the first reactor is configured to provide the power to the load, and the second reactor is configured to increase the power provided to the load by the first reactor by increasing an intensity of the plurality of second magnetic fields generated by the at least one second coil and tuning the first reactor to the load.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The system of claim 1, wherein the first coil is configured to generate an AC current in response to a third magnetic field generated by the load, wherein the first coil is tuned to the load by the second reactor and the fifth coil.
  - 3. The system of claim 1, further comprising a third reactor configured to receive excess energy from the first reactor and feed the excess energy back into an input of the first reactor.
  - 4. The system of claim 1, wherein the output inverter is further configured to transmit a portion of the AC load power into an input of the first reactor.
  - 5. The system of claim 1, wherein the load comprises one of a power grid or a power distribution and transmission network.

6. A system for providing power to a load, comprising:
- a first plurality of coils, wherein a first coil of the first plurality of coils is configured to generate a first magnetic field, and wherein a plurality of second coils of the first plurality of coils are configured to generate a plurality of second magnetic fields that vary an intensity of the first magnetic field;
  
  a second plurality of coils, wherein the second plurality of coils are configured to tune at least one tuned coil of the first plurality of coils to the load;
  
  an input inverter configured to receive power from a DC power source and convert the power into AC power for use as an excitation energy for at least one of the first plurality of coils or the second plurality of coils;
  
  a rectifier configured to receive AC output power at an output of at least one of the first plurality of coils or the second plurality of coils, and convert the AC output power into DC output power; and
  
  an output inverter configured to synchronize the system with the load, wherein the output inverter is further configured to receive the DC output power, convert the DC output power into AC load power, and provide the AC load power to the load;
  
  wherein the first plurality of coils is configured to provide the power to the load, and wherein the second plurality of coils is configured to increase the power provided to the load by the first plurality of coils by increasing an intensity of the plurality of second magnetic fields generated by the plurality of second coils and tuning the tuned coil to the load.
- View Dependent Claims (7, 8, 9, 10, 11)
- - 7. The system of claim 6, wherein the at least one second reactor coil comprises:
    - a third coil connected to one of the plurality of second coils and to the load; and
      
      a fourth coil magnetically coupled to the third coil;
      
      wherein the first plurality of coils comprises a fifth coil, and wherein the fourth coil is shunted to the fifth coil, and wherein the fourth coil is configured to tune the fifth coil to the load.
  - 8. The system of claim 7, wherein the first coil is configured to generate an AC current in response to a third magnetic field generated by the load, wherein the first coil is tuned to the load by the second plurality of coils and the fifth coil.
  - 9. The system of claim 6, further comprising a reactor configured to receive excess energy from the first coil and feed the excess energy back into an input of the first plurality of coils.
  - 10. The system of claim 6, wherein the output inverter is further configured to transmit a portion of the AC load power into an input of the first reactor.
  - 11. The system of claim 6, wherein the load comprises one of a power grid or a power distribution and transmission network.

12. A method of providing power to a load, comprising:
- generating, using a first coil of a first reactor, a first magnetic field;
  
  generating, using a plurality of second coils of the first reactor, one or more second magnetic fields configured to vary an intensity of the first magnetic field;
  
  tuning, using a second reactor, the first reactor to the load; and
  
  receiving, using a rectifier, AC output power at an output of at least one of the first reactor or the second reactor and converting the AC output power into DC output power; and
  
  synchronizing, using an output inverter, with the load, wherein the output inverter is configured to receive the DC output power, convert the DC output power into AC load power, and provide the AC load power to the load.
- View Dependent Claims (13, 14, 15, 16)
- - 13. The method of claim 12, further comprising receiving, using an input inverter, power from a DC power source and converting the power into AC power for use as an excitation energy for at least one of the first reactor or the second reactor.
  - 14. The method of claim 12, further comprising receiving, by a third reactor, excess energy from the first reactor and feeding the excess energy back into an input of the first reactor.
  - 15. The method of claim 12, further comprising transmitting, by the output inverter, a portion of the AC load power into an input of the first reactor.
  - 16. The method of claim 12, wherein the load comprises one of a power grid and a power distribution and transmission network.

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Current Assignee
Bonifacio J. Eyales
Original Assignee
Bonifacio J. Eyales
Inventors
Eyales, Bonifacio J.
Primary Examiner(s)
Kaplan, Hal

Application Number

US15/261,275
Publication Number

US 20160380484A1
Time in Patent Office

928 Days
Field of Search

307104
US Class Current
CPC Class Codes

H02J 5/00   Circuit arrangements for tr...

H02J 50/12   of the resonant type

H02K 53/00   Alleged dynamo-electric per...

H02M 3/24   by static converters

H02M 5/42   by static converters

Y02E 10/72   Wind turbines with rotation...

Electromagnetic energy-flux reactor

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Electromagnetic energy-flux reactor

First Claim

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Abstract

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