초록 ▼

A method of Demand Response (DR) utilizing a Load Control Transponder (LCT) installed at the location of an electricity consumer. A DR program, in conjunction with the LCT, allows a consumer to determine, in advance, when they will reduce their demand on an electricity supply system. The consumer is

A method of Demand Response (DR) utilizing a Load Control Transponder (LCT) installed at the location of an electricity consumer. A DR program, in conjunction with the LCT, allows a consumer to determine, in advance, when they will reduce their demand on an electricity supply system. The consumer is informed of price points at which the cost of energy increases due to overall demand. The consumer then determines if, and when, they will reduce their demand on the system when a price point is reached. In addition, when an unplanned, critical event occurs, the method enables the utility to bypass any intermediate consumer established settings and immediately and directly drop the level of energy consumption to the consumer's lowest selected level for continuing service thereby to shed sufficient load on the system to maintain an adequate level of electricity supply. Once the event has been resolved, the method enables the utility to restore the consumer's previous level of usage.

대표청구항 ▼

1. In an electricity supply system by which electricity is supplied by a utility to consumers, a method of controlling a demand response of consumers comprising: informing consumers as to a price of electricity, including increases in the price thereof as demand increases, via price signals transmit

1. In an electricity supply system by which electricity is supplied by a utility to consumers, a method of controlling a demand response of consumers comprising: informing consumers as to a price of electricity, including increases in the price thereof as demand increases, via price signals transmitted from the utility to the consumer over a communications channel available to the consumer;a consumer, using means for interpreting the price signals, assessing a desirability of maintaining a selected load level for an appliance installed at a consumer's location and at what level, if any, the consumer wishes to maintain that load level whenever a price increase occurs or a consumer's individual situation changes;programming a control device responsive to an input from the utility that a price increase point has been reached at which the consumer wants to change a level of continuing service from that previously selected by the consumer for that price point, the consumer being capable of overriding an output from the control device based on their individual situation so to operate the appliance at a different load level;the utility, if an unplanned, critical event occurs that affects the utility's ability to continue to supply electricity to its consumers, being able to reduce a level of energy consumption by the consumer to a consumer's lowest selected level for continuing service, thereby to shed sufficient load on a system to maintain an adequate level of electricity supply for the system; and,whenever an appliance which is “off” at a start of a critical event is turned “on” during the event, a duty cycle of the appliance is whatever is programmed for the then current status of the utility for the duty cycle to immediately be at less than a 100% duty cycle. 2. The method of claim 1 in which the utility, when an unplanned, critical event occurs, goes immediately and directly to a consumer's lowest selected level for continuing service, and bypasses any intermediate consumer established levels of service. 3. The method of claim 2 in which the utility, when the critical event is resolved, restores a consumer's level of usage to their previous level of usage. 4. The method of claim 1 in which there are multiple price points including an initial price point, a maximum price point, and one or more intermediate price points, and the consumer selects a level of continuing service for each price point. 5. The method of claim 4 in which the consumer, for each price point, selects the same level of usage as for the previous price point, sequentially reduces their level of usage each time a higher price point is reached, or discontinues their level of usage altogether. 6. The method of claim 5 in which the consumer reduces their level of usage by selecting to reduce a duty cycle of their appliances and/or equipment to which electricity is supplied by the utility. 7. The method of claim 6 in which the consumer reduces the duty cycle of their appliances and/or equipment each time the price of electricity increases. 8. The method of claim 7 in which the consumer has a flow of electricity to their appliances and/or equipment shut off as the price of electricity reaches a maximum. 9. The method of claim 5 in which the level of usage is controlled by a load control transponder and an extent to which the load control transponder reduces the level of usage each time a price point is reached is selected, in advance, by the consumer. 10. The method of claim 9 further including the utility communicating with the load control transponder using a two way automatic communications system. 11. The method of claim 10 further including the utility communicating with the load control transponder for the load control transponder to bypass all intermediate levels of service selected by the consumer and proceed directly to the consumer's level for service selected for a highest price point for electricity. 12. The method of claim 1 by which, when an unplanned critical event occurs, the control device can self-declare an emergency condition and reduce the level of energy consumption by the consumer to the consumer's lowest selected level for continuing service.