Load control apparatus with peak reduction in aggregate behavior
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0233173
(2011-09-15)
|
등록번호 |
US-8766491
(2014-07-01)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
9 |
초록
▼
When load control is activated by a local or remote mechanism to control a load, the method and system use a usage profile of the load and one or more of (1) interval start times, (2) ON/OFF or OFF/ON cycling and (3) predefined periods during which load must not be allowed to run (e.g., dead zones)
When load control is activated by a local or remote mechanism to control a load, the method and system use a usage profile of the load and one or more of (1) interval start times, (2) ON/OFF or OFF/ON cycling and (3) predefined periods during which load must not be allowed to run (e.g., dead zones) to determine when a particular piece of equipment is allowed to shed or run thereby reducing the probability of occurrence of cyclical and non-cyclical aggregate peaking of usage wherein cyclical peaking is manifested as an artifact of the local load control rules during a load control event.
대표청구항
▼
1. A load control apparatus for use with an electrical distribution system by which a utility supplies electricity to one or more pieces of equipment at a plurality of utility's customer's location, each piece of equipment placing an electrical load on the system when it is operating, said load cont
1. A load control apparatus for use with an electrical distribution system by which a utility supplies electricity to one or more pieces of equipment at a plurality of utility's customer's location, each piece of equipment placing an electrical load on the system when it is operating, said load control apparatus for connection to the pieces of equipment for controlling the shedding of electrical load placed on the system by the respective pieces of equipment, said load control apparatus comprising: a power sensor for connection to a piece of equipment and sensing when electricity is being supplied to the piece of equipment;a load control logic device responsive to inputs from the sensor for determining a usage profile indicative of the electricity usage of the piece of equipment, said usage profile being characterized over successive periods of time comprising a total characterization; anda load control switch for shutting OFF electricity to the piece of equipment, said load control switch controlled by the load control logic device; wherein, during occurrence of a load control event in which load on the system must be shed, at least one of the following:the load control logic device controls the switch to shed load as a function of the usage profile and as a function of a predefined subinterval for defining the beginning of the predetermined interval thereby providing for diversification in the aggregate load control behavior of the apparatus as compared to other apparatus having a different predefined subinterval for defining the beginning of the predetermined interval;the load control logic device controls the switch to shed the load as a function of the usage profile and as a function of the order of the switch cycling; andthe load control logic device controls the switch to shed load as a function of the usage profile and as a function of at least one predefined period of time during which the load control switch shuts OFF electricity to the piece of equipment thereby allowing for reduction in potential peaking of loads, cyclical or non-cyclical, during the load control event, so that the shedding is insulated from changes in the load usage profile of the piece of equipment, and so that other pieces of equipment having at least one different predefined period of time for shutting OFF electricity would start shedding their loads at the at least one different period of time. 2. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile and as a function of the predefined subinterval for defining the beginning of the predetermined interval. 3. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile and as a function of the order of the switch cycling. 4. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile and as a function of the at least one predefined period of time during which the load control switch shuts OFF electricity the piece of equipment. 5. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile, as a function of the predefined subinterval for defining the beginning of the predetermined interval, and as a function of the order of the switch cycling. 6. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile, as a function of the predefined subinterval for defining the beginning of the predetermined interval and as a function of the at least one predefined period of time during which the load control switch shuts OFF electricity the piece of equipment. 7. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile, as a function of the order of the switch cycling and as a function of the at least one predefined period of time during which the load control switch shuts OFF electricity to the piece of equipment. 8. The apparatus of claim 1 wherein the load control logic controls the switch to shed the load as a function of the usage profile, as a function of the predefined subinterval for defining the beginning of the predetermined interval, as a function of the order of the switch cycling and as a function of the at least one predefined period of time during which the load control switch shuts OFF electricity the piece of equipment. 9. The apparatus of claim 2 wherein the predefined subinterval is defined by at least one of a number associated with the apparatus and a random number. 10. The apparatus of claim 2 wherein the predefined subinterval is defined by a serial number of the apparatus. 11. The apparatus of claim 3 wherein said load control logic determines whether to begin allowing load or begin shedding load at the start of the load control interval as a function of the actual sensed usage just prior to the start time. 12. The apparatus of claim 3 wherein the order of cycling is defined by at least one of a number associated with the apparatus and a random number. 13. The apparatus of claim 3 wherein the order of cycling is defined by a serial number of the apparatus. 14. The apparatus of claim 4 wherein the at least one predefined period is defined by a number associated with the apparatus. 15. The apparatus of claim 4 wherein the at least one predefined period is defined by a serial number of the apparatus. 16. A method executed by logic or a processor, said method for use with an electrical distribution system by which a utility supplies electricity to one or more pieces of equipment at a plurality of utility's customer's locations, each piece of equipment placing an electrical load on the system when it is operating, said method for controlling the shedding of electrical load placed on the system by the respective pieces of equipment, said method comprising: sensing when electricity is being supplied to the piece of equipment;determining a usage profile indicative of the electricity usage of the piece of equipment, said usage profile being characterized over successive periods of time comprising the total characterization; andselectively shutting OFF electricity to the piece of equipment during occurrence of a load control event in which load on the system must be shed, in accordance with at least one of the following: shedding the load as a function of the usage profile and as a function of a predefined subinterval for defining the beginning of the predetermined interval thereby providing for diversification in the aggregate load control behavior of the apparatus as compared to other apparatus having a different predefined subinterval for defining the beginning of the predetermined interval;shedding the load as a function of the usage profile and as a function of the order of the switch cycling; andshedding the load as a function of the usage profile and as a function of at least one predefined period of time during which the load control switch shuts OFF electricity the piece of equipment thereby allowing for reduction in potential peaking of loads, cyclical or non-cyclical, during the load control event, so that the shedding is insulated from changes in the load usage profile of the piece of equipment, and so that other pieces of equipment having at least one different predefined period of time for shutting off electricity would start shedding their loads at the at least one different period of time. 17. The method of claim 16 wherein shedding the load comprises shedding the load as a function of the usage profile and as a function of the predefined subinterval for defining the beginning of the predetermined interval. 18. The method of claim 16 wherein shedding the load comprises shedding the load as a function of the usage profile and as a function of the order of the switch cycling. 19. The method of claim 16 wherein shedding the load comprises shedding the load as a function of the usage profile and as a function of the at least one predefined period of time during which the load control switch shuts OFF electricity the piece of equipment. 20. A system of a plurality of load control apparatus for use with an electrical distribution system by which a utility supplies electricity to one or more pieces of equipment at a plurality of utility's customer's locations, each piece of equipment placing an electrical load on the system when it is operating, said load control apparatus for connection to the pieces of equipment for controlling the shedding of electrical load placed on the system by the respective pieces of equipment, each said load control apparatus comprising: a power sensor for connection to a piece of equipment and sensing when electricity is being supplied to the piece of equipment;a load control logic device responsive to inputs from the sensor for determining a usage profile indicative of the electricity usage of the piece of equipment, said usage profile being characterized over successive periods of time comprising the total characterization; anda load control switch for shutting OFF electricity to the piece of equipment, said load control switch controlled by the load control logic device; wherein, during occurrence of a load control event in which load on the system must be shed, at least one of the following:the load control logic device controls the switch to shed load as a function of the usage profile and as a function of at least one predefined subinterval used to determine the beginning of the predetermined interval and/or cycling order to minimize cyclical peaks in an aggregation of the apparatus of the system; andthe load control logic device controls the switch to shed load as a function of the usage profile and as a function of at least one predefined period of time during which the load control switch shuts OFF electricity to the piece of equipment to eliminate cyclical and non-cyclical peaks in an aggregation of the apparatus of the system.
이 특허에 인용된 특허 (9)
-
Leo P. Christiansen, Air compressor control sequencer.
-
Donnelly,Matthew K.; Chassin,David P.; Dagle,Jeffery E.; Kintner Meyer,Michael; Winiarski,David W.; Pratt,Robert G.; Boberly Bartis,Anne Marie, Electrical appliance energy consumption control methods and electrical energy consumption systems.
-
Chassin,David P.; Donnelly,Matthew K.; Dagle,Jeffery E., Electrical power distribution control methods, electrical energy demand monitoring methods, and power management devices.
-
Right Robert W. ; Costa Hilario S. ; Braam Jan A., Load shed scheme for two wire data transmission.
-
Mattiocco, Attilio; Sciacca, Vincenzo; Villani, Massimo, Method and system for electricity consumption profile management for consumer devices.
-
Crichlow, Henry, Method and system for energy management using intelligent agents over the internet.
-
Sullivan ; II C. Gardner (Phoenix AZ) Hedges Walter P. (Laveen AZ), System and method for optimizing shed/restore operations for electrical loads.
-
Papalia,Daniel T.; Morris,Doug, System and method to control distributed power generation network.
-
Cannon,Joel R.; Ockert,William R.; Cox,Robert; Allmaras,Kevin, Thermostat device with line under frequency detection and load shedding capability.
이 특허를 인용한 특허 (1)
-
Geng, Xiaoxiang; Zhang, Lei, Power management system for integrated circuits.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.