Electricity: power supply or regulation systems – Output level responsive – Using a three or more terminal semiconductive device as the...
Reexamination Certificate
2000-08-23
2002-09-10
Han, Jessica (Department: 2838)
Electricity: power supply or regulation systems
Output level responsive
Using a three or more terminal semiconductive device as the...
C363S039000, C323S205000, C361S118000
Reexamination Certificate
active
06448747
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to conservation of electrical energy consumption by commercial, industrial, residential and all other energy consumers using retrofitted control devices which are attached at the incoming breakers to a facility and operate to increase efficiencies in a three stage process.
2. Information Disclosure Statement
The following references are examples of the prior art relating to control of electrical energy consumption:
U.S. Pat. No. 4,163,218 relates to an electronic control system for controlling the operation of a plurality of electrical devices which are energized from AC power lines which includes a single, central unit connected to the power lines, which further includes a central transceiver means for transmitting an encoded oscillating signal of one frequency onto the power lines, a central encoding means for encoding the oscillating signal with an encoded signal in synchronization with the frequency of the AC power for selective control of electrical devices, and a central control means connected to the encoding means for selecting the electrical device to be controlled and its desired state. The invention further includes unitary switch units respectively interconnected between power lines and each electrical device being operative for both local and centralized control of the electrical device with the local control and the centralized control placing the electrical device in respective opposite states from each other, each switch unit including a switch transceiver means for receiving the encoded oscillating signal from the power lines, a switch decoding means coupled to the switch transceiver means for detecting the encoded signal, a switch control means connected to the switch decoding means for setting the selected electrical devices to the desired state, and a local control means for selectively locally operating the electrical device independently of the central unit and placing the electrical device in a state opposite from that which it was placed by the central unit.
U.S. Pat. No. 4,845,580 describes a spike elimination circuit for A.C. and D.C. power sources which comprises two gas tube and/or two semiconductor voltage limiting devices before a Bandpass Filter. The Bandpass Filter consists of 2 capacitors to ground an inductor in series with the line. The spike eliminator can be portable, mobile, or hard wired for the protection of home controls and electronics, telecommunications, commercial and industrial controls and the computer field and others.
U.S. Pat. No. 4,870,528 describes a surge suppressor which comprises a first series circuit having a first inductance and a first alternating voltage limiter, including at least a first capacitance and a bidirectionally conductive rectifying circuit for charging the first capacitance, coupled between first and second input terminals for limiting surge currents and voltage excursions coupled to first and second load output terminals. The first alternating voltage limiter further comprises a sensing circuit for sensing at least one of the charging current supplied to and the voltage developed across the first capacitance. An auxiliary energy storage circuit and a normally open switching device responsive to the sensing circuit are provided for coupling the auxiliary energy storage circuit across the first capacitance during high energy surge conditions.
U.S. Pat. No. 5,105,327 describes a power conditioner for AC power lines which has a choke and capacitor coupled in series across the power lines. The choke comprises a coil terminating in a line, with the line looped back through the coil. The power lines are thereby balanced to provide greater operating efficiency. Capacitors and transient suppressors (e.g., varistors) are used for transient suppression and power factor correction.
U.S. Pat. No. 5,420,741 relates to an arrangement for obtaining flux rate information in a magnetic circuit including passive means connected across a flux rate sensor for implementing control of said flux rate. The passive means being a tuned magnetic flux rate feedback sensing and control arrangement wherein impedance is tuned and the energy loss characteristic is adjustable. The selection of inductance and capacitance values provides tuning and the selection of resistance affects the energy loss characteristics.
U.S. Pat. No. 5,432,710 is directed to an energy supply system for supplying, in system interconnection, power at a power receiving equipment from a power plant and power generated by a fuel cell to a power consuming installation, and supplying heat generated by the fuel cell to a heat consuming installation. This system includes an operation amount computing device for computing an amount of operation of the fuel cell to minimize an equation y=aXL+bXM+cXN, in response to an energy demand of the power consuming installation and heat consuming installation. A control device controls the fuel cell to satisfy the amount of the operation computed. The system supplies energy in optimal conditions with respect to the cost borne by an energy consumer, consumption of primary energy, and release of environmental pollutants. Energy is effectively used from the standpoint of the energy consumer and a national point of view.
U.S. Pat. No. 5,436,513 relates to an information handling system which is described as having a power supply and having a switching circuit that switches a plurality of energy sources between series and parallel couplings. Associated with the switching circuit is a voltage level detecting circuit for monitoring the voltage level of the energy sources. A processor for controlling the information handling system responds to the voltage level detecting circuit and in the event of a low voltage condition, the processor activates the switching circuit to switch the energy sources and from a series to a parallel coupling. Alternatively, the processor responds to other inputs or conditions for actuating the switching circuit.
U.S. Pat. No. 5,459,459 is directed to an algorithm for implementation in a meter register and a reading device. In the one embodiment, the invention enables selecting a display table to be read from the register, updating the billing read date and time in the register, reversing the order in which load profile data is transmitted from the register to the reader, specifying the number of load profile intervals to be read from the register, and specifying the number of intervals to skip when reading from the register.
U.S. Pat. No. 5,462,225 relates to an apparatus and method for controlling energy supplied to a space conditioning load and for overriding a load control operation in response to measuring certain space temperatures within a closed environment. The load control apparatus includes a control device connected to an electrical distribution network and to a space/conditioning load and a temperature sensing device connected to the control device. The control device conducts a load shedding operation to control distribution of electrical energy to the space conditioning load in response to command signals supplied by a remote command center. The temperature sensing device operates to override the load shedding operation by outputting a control override signal to the control device in response to sensing certain space temperatures within the closed environment. If the temperature control device is connected to an air conditioning system, the temperature sensing device causes the control device to terminate the load shedding operation prior to expiration of a selected time period in response to measuring a space temperature that exceeds a maximum space temperature limit. In contrast, if the temperature control device is connected to a forced air heating system, the temperature sensing device causes the control device to terminate the load shedding operation when a measured space temperature drops below a minimum space temperature limit. The maximum space temperature limit is greater than the control
Glynn, Esq. Kenneth P.
Han Jessica
Power Saver Designs, Inc.
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