Transfer switch for automatically switching between alternative energy source and utility grid
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-003/02
H02J-009/06
출원번호
US-0350964
(2012-01-16)
등록번호
US-9583942
(2017-02-28)
발명자
/ 주소
Czarnecki, Neil A.
출원인 / 주소
Reliance Controls Corporation
대리인 / 주소
Boyle Fredrickson, S.C.
인용정보
피인용 횟수 :
0인용 특허 :
29
초록▼
An automatic transfer switch configured for connection to a non-traditional, full-time or intermittent power source, such as a wind turbine or solar panel, selectively connects the non-traditional power source as a primary power source and a utility-derived power source as a secondary power source.
An automatic transfer switch configured for connection to a non-traditional, full-time or intermittent power source, such as a wind turbine or solar panel, selectively connects the non-traditional power source as a primary power source and a utility-derived power source as a secondary power source. The intermittent power source includes an energy storage device, such as a bank of DC batteries, to supplement power delivery during periods of low energy production. The power is provided to an AC load via a DC-to-AC inverter. The transfer switch includes an input to monitor the voltage level on the energy storage device and will switch from the primary power source to the utility power source when the voltage level on the energy storage device drops below a preset level. Thus, a loading condition that exceeds the rating of the inverter will not fault the inverter or limit the power available to the loads.
대표청구항▼
1. A switch for selectively connecting a grid independent alternative energy source and an energy storage device, operatively connected to the alternative energy source, as a primary power source and a utility supply as a secondary power source to a load, the switch comprising: a first input configu
1. A switch for selectively connecting a grid independent alternative energy source and an energy storage device, operatively connected to the alternative energy source, as a primary power source and a utility supply as a secondary power source to a load, the switch comprising: a first input configured to receive a signal corresponding to a voltage level in the energy storage device;a second input configured to receive a signal corresponding to a magnitude of current drawn by the load;a third input configured to receive a signal corresponding to the operating conditions of the secondary power source;at least one actuator selectively connecting one of the primary power source and the secondary power source to the load, wherein the at least one actuator prevents connection of the primary power source to the secondary power source; andan electrical circuit generating a control signal for the actuator to connect the primary power source to the load when the voltage level in the energy storage device is greater than a threshold value and when the magnitude of current drawn by the load is below a maximum current level and to connect the secondary power source to the load when either the voltage level in the energy storage device is less than the threshold value or the magnitude of current drawn by the load is greater than the maximum current level, wherein the threshold value is a voltage level at which an inverter connected between the energy storage device and the load can continue to provide power to the load when the energy storage device provides, at least in part, the power input to the inverter and wherein the electrical circuit further generates the control signal for the actuator as a function of the operating conditions of the secondary power source. 2. The switch of claim 1 wherein the control signal generated by the electrical circuit initiates a transition from the primary power source to the secondary power source if the operating conditions of the secondary power source are within a predetermined range. 3. The switch of claim 1 wherein the electrical circuit includes analog electrical devices. 4. An automatic transfer switch for selectively connecting a first power source and a second power source to a load, comprising: a first input terminal electrically connected to an inverter, wherein the inverter is connected to a shared DC bus to which a grid independent alternative energy source and an energy storage system are operatively connected, wherein the grid independent alternative energy source and the energy storage system comprise the first power source;a second input terminal electrically connected to the second power source;an output terminal electrically connected to the load;at least one actuator selectively connecting one of the first input terminal and the second input terminal to the output terminal, wherein the at least one actuator prevents connection of the first input terminal and the second input terminal;a first sensor measuring a first operating parameter corresponding to an energy level in the energy storage system;a second sensor measuring a second operating parameter of the second power source;a third sensor measuring a third operating parameter of the load; andan electrical circuit providing a control signal to the actuator to connect either the first input terminal or the second input terminal to the output terminal as a function of the first, second, and third operating parameters. 5. The automatic transfer switch of claim 4 wherein the first sensor measures a DC voltage level of the energy storage system and the electrical circuit initiates a transition from the first power source to the second power source if the DC voltage level is below a predetermined threshold. 6. The automatic transfer switch of claim 5 wherein the second power source is a utility grid, the second sensor measures an AC voltage level of the utility grid, and the electrical circuit aborts the transition from the first power source to the second power source if the AC voltage level is outside of a desired operating range and the electrical circuit completes the transition from the first power source to the second power source if the AC voltage level is within the desired operating range. 7. The automatic transfer switch of claim 6 wherein the third operating parameter is a current value drawn by the load and the electrical circuit initiates a transition from the first power source to the second power source if the current value is above a predetermined threshold. 8. The automatic transfer switch of claim 7 wherein the second power source is a utility grid, the second sensor measures an AC voltage level of the utility grid, and the electrical circuit aborts the transition from the first power source to the second power source if the AC voltage level is outside of a desired operating range and the electrical circuit completes the transition from the first power source to the second power source if the AC voltage level is within the desired operating range. 9. The automatic transfer switch of claim 4 wherein the electrical circuit includes analog electrical devices. 10. A method of selectively connecting a load to either a first power source, wherein the first power source includes a grid independent alternative energy source and an energy storage device, or a second power source, comprising the steps of: measuring a voltage level in the energy storage device;measuring an amplitude of current drawn by the load;measuring operating conditions of the second power source;connecting the load to the first power source with an actuator when the voltage level in the energy storage device is greater than a predetermined threshold and the amplitude of current drawn by the load is less than a maximum current level; andconnecting the load to the second power source with the actuator when either the voltage level in the energy storage device is less than the predetermined threshold or the amplitude of current drawn by the load is greater than the maximum current level, wherein:the predetermined threshold is a voltage level at which an inverter connected between the energy storage device and the load can continue to provide power to the load when the energy storage device provides, at least in part, the power input to the inverter,the actuator prevents connection between the first power source and the second power source, andthe step of connecting the load to the second power source is performed as a function of the operating conditions of the secondary power source. 11. The method of claim 10 wherein the second power source is the utility grid and further comprising the step of measuring an amplitude of voltage present on the utility grid and wherein the step of connecting the load to the second power source is performed only if the voltage present on the utility grid is within an acceptable range. 12. A switch for selectively connecting a grid independent alternative energy source, an energy storage device, and a utility supply to a load, wherein the grid independent alternative energy source is operatively connected to a DC bus, the energy storage device is operatively connected to the DC bus, and the utility supply is isolated from the DC bus, the switch comprising: a first input terminal configured to receive power from an inverter connected to the DC bus;a second input terminal configured to receive power from the utility supply;a third input configured to receive a signal corresponding to a voltage level in the energy storage device;at least one actuator selectively connecting one of the first input terminal and the second input terminal to the load, wherein the at least one actuator prevents connection of the utility supply with the energy storage device;a first sensor configured to generate a signal corresponding to a magnitude of current drawn by the load;a second sensor configured to generate a signal corresponding to operating conditions of the utility supply; andan electrical circuit generating a control signal for the actuator to selectively connect either the first input terminal or the second input terminal to the load as a function of the voltage level in the energy storage device, as a function of the magnitude of current drawn by the load, and as a function of the operating conditions of the utility supply.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (29)
Powell, Earl G.; Hadar, Ron, Apparatuses and methods to connect power sources to an electric power system.
Lathrop, Todd M.; Popovich, Bert; Hartzel, Ronald D.; Alchier, David N.; Weister, Nathan J., Automatic transfer switch for microturbine and method of operation.
Smith George A. (N. Huntingdon PA) Fogle Thomas K. (Shaler PA) Hanna James R. (London KY) Lakes Larry S. (Tyner KY), Electric power system with maintenance bypass for uninterruptible power supply using closed transition operation.
Turner, David Curtis; Woods, Jeffrey Lowell; Olszewski, David Michael; Beatty, Jr., William Ellsworth, Fast acting transfer switch with confronting power switches oppositely actuated by single coil solenoid.
Turner, David Curtis; Woods, Jeffrey Lowell; Olszewski, David Michael; Beatty, Jr., William Ellsworth; Hartzel, Ronald Dale, Fast acting, electrically powered operator for transfer switch and transfer switch incorporating same.
Phelps, David R.; Tamjidi, Fred, Method and apparatus for transfer of a critical load from one source to a back up source using magnetically latched relays.
Smith George A. (N. Huntingdon Township ; Westmoreland County PA) Fogle Thomas K. (Pittsburgh PA) Lotzmann Mark L. (Irwin PA) Krevokuch Robert N. (West Newton PA), Transfer switch.
Lathrop, Todd M.; Popovich, Bert; Hjemvick, Jacob A.; Faylo, Samuel E., Transfer switch controller employing active inductive load control and transfer switch including the same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.