Abstract: A system (200) comprises a regulator (250), a battery unit (220), a voltage sensitive circuit (210, e.g., memory circuit) and a switchable sensor (280). The battery unit (220), the memory circuit (210) and the switchable sensor (280) are parallel coupled to terminals (266 and 264) of the regulator (250). The switchable sensor (280) itself has a serially coupled voltage sensor (230) and switch (240). In a first operating mode, the regulator (250) provides a voltage V.sub.2 to the memory circuit (210) and to the switchable sensor (280). The switch (240) is closed. The voltage sensor (230) measures the voltage V.sub.2 and communicates the result to the regulator (250) via a signal input (267). In a second operating mode, the regulator (250) does not provide the voltage V.sub.2. The switch (240) is open. The battery unit (220) provides a voltage V.sub.4 to the memory circuit (210), but not to the voltage sensor (230).

Abstract: An arrangement is disclosed for ensuring an uninterrupted current supply to at least one electrical consumer which draws energy from an alternating voltage network and is supplied with energy in the event of a network failure by a fuel cell. The fuel cell (8) is connected at its electrical outputs to at least one current inverter (7) whose output is connected to the minimum of one alternating voltage consumer (1, 2) and to a branch containing a switch (4) on the consumer side of the switch; the switch is connected to an alternating voltage network (6) and is opened in the event of the voltage in the alternating voltage network falling below a predetermined level and closed if the alternating voltage is above that threshold; and the fuel cell operates in stand-by mode if the network voltage is above the threshold, and, if voltage is below the threshold, in a mode in which the energy required by the consumer is supplied via the current inverter (7).

Abstract: A power supply integrated module includes a metal substrate having a surface and a body of a dielectric material, such as a glass or ceramic, mounted on and bonded to the surface of the substrate. The body is formed of a plurality of layers of the dielectric material bonded together. Areas of a conductive material and a resistive material are coated on the surfaces of the layers of the body to form passive electronic components, such as capacitors, resistors and inductors. At least one transformer is on or in the body. The transformer and passive electronic components are electrically connected by conductive interconnects on the layers of the body and vias of a conductive material extending through the layers of the body to form a power supply integrated circuit. Active electronic components, such as diodes and transistors, may also be mounted on the body and electrically connected in the power supply circuit.

Abstract: A time delay power controller has a power input for receiving alternating electrical power from an external source; a timer activation device connected in parallel to a one or more timers, each timer having an associated delay time and an output for delivering power after the delay time has elapsed and a plurality of contactors, with a first contactor coupled to the timer activation device and the remaining contactors coupled to the output of a respective timer. Each contactor is coupled to one or more associated circuits. The first contactor allows delivery of alternating electrical power to its associated circuits when the timer activation device is enabled and the remaining contactors allow delivery of alternating electrical power to their associated circuits when the respective timer's delay time has elapsed. The controller may be enclosed in a housing. The controller may be configured to sequentially power lighting circuits.

Abstract: An AC transfer switch is provided for switching between a first line cord and a second line cord. The AC transfer switch is designed to be fault tolerant and ensures that continuous operating power is supplied to a load during the transfer process. The system includes a first input from a first power line cord, a second input from a second power line cord, a switch for switching an output between the first and second power line cord, wherein the switch further includes a first contactor set for selecting the first line cord and a second contactor set for selecting the second line cord, the first and second contactor sets including two contactors in series and a control circuit for controlling the switch to select between the first and second power line cords.

Abstract: A rotary switch for providing deicing power to the heaters of a helicopter rotor includes a conductive rotor with conductive protrusions located thereon. Conductive fingers are arranged such that a pair of conductive fingers are in electrical communication with a pair of conductive protrusions for a given position of the conductive rotor. The pair of conductive fingers are in electrical communication with the heaters of a helicopter rotor such that if one the pair of electrical fingers fails to make electrical contact with its respective conductive protrusion electrical power is still delivered to the heater.

Abstract: A switching circuit (50) comprising cascaded transistor stages (52a, 52b. . . 52n and 54), connected between a high voltage terminal (62) and a sense resistor (RS) coupled to a low voltage terminal (64). The transistor stage (54) closest to the sense resistor (RS) is referred to as a current gain stage (54), and all the other transistor stages (52a, 52b. . . 52n) are referred to as component stages (52a, 52b. . . 52n). Blocking diodes (DD) are connected across all stages (52a, 52b. . . 52n and 54), forming a continuous path between the high voltage terminal (62) and the low voltage terminal (64). When an enable signal is provided to the current gain stage (54), the transistor stages (52a, 52b. . . 52n and 54) sequentially enter conduction, beginning with the current gain stage (54) and proceeding through the component stages (52a, 52b. . . 52n). As each transistor stage (52a, 52b. . .

Abstract: A switching system having a plurality of positions for separating or interconnecting a generator, a network transformer, and a starter device, the system including a circuit breaker for the generator and a busbar disconnector for separating or interconnecting the generator and the network transformer, and a starter disconnector for separating or interconnecting the generator and the starter device. The busbar disconnector includes a first fixed contact and a first moving contact that co-operates by sliding with the first fixed contact, the first fixed contact and the first moving contact being integrated with the circuit breaker of the generator. The starter disconnector includes a second fixed contact and a second moving contact that co-operates with the second fixed contact by rotation. This organization remains economical to implement even for applications in which the generator is an alternator in a combined cycle or a gas turbine power station.

Abstract: A wireless remote control lock system for residential and commercial building pedestrian doors includes an electrically powered striker plate assembly having a striker plate member moveable between positions for engagement and disengagement with a door latch member. The striker assembly is adapted to be connected to a control unit which supplies low voltage DC power to the striker assembly and includes a radio frequency range signal receiver and a circuit responsive to receiving signals from an operator controlled radio transmitter to effect indefinite or momentary operation of the striker assembly to unlock a door. The control unit circuit includes a first self-latching relay, a selector switch and a second relay for selecting an operating mode of the system wherein the door may be unlatched momentarily (for about 3.5 seconds, for example) or indefinitely until a second signal is transmitted by the transmitter to the receiver.

Abstract: A linear voltage regulator includes a pass device for supplying current to a load, and an error amplifier for generating a control signal for controlling the pass device for regulating an output voltage at the load. The error amplifier is connected to a first power supply having a first voltage and a second power supply having a second voltage greater than the first voltage. The error amplifier preferably includes an output stage for providing a greater amount of current to the pass device from the first power supply than from the second power supply when the control signal is below a predetermined value, and for providing a greater amount of current to the pass device from the second power supply than the first power supply when the control signal is above the predetermined value. The predetermined value may be slightly above the typical drive or control voltage needed for a bipolar pass device.

Abstract: A battery backed-up power supply and a method of operating the same to test a battery therein. In one embodiment, the power supply includes: (1) a transformer having a main power primary winding, an auxiliary power primary winding and a secondary winding, (2) a main power converter, coupled to the main power primary winding, that provides main power received from a main power source to the main power primary winding and (3) an auxiliary power converter, coupled to the auxiliary power primary winding, that provides auxiliary power received from a battery to the auxiliary power primary winding when the main power source is interrupted and is further selectively activatable while the main power source is operational to discharge the battery through the transformer and thereby test the battery.

Abstract: A microelectromechanical switch having a beam cantilevered from a switch base, a first control electrode, having no path to ground, in contact with the fixed end of the cantilevered beam and a second control electrode, also having no path to ground, mounted to the switch base underneath the cantilevered beam, but not in contact therewith. A contact electrode is located underneath the free end of the cantilevered beam. The first and second control electrodes are manipulated to actively effect both the ON and OFF states of the microelectromechanical switch by forcing the beam in and out of contact with the contact electrode.

Abstract: A circuit is provided to ensure that even when a drive circuit system for a power window is wetted with water due to the entering of water or the condensatin of water, the opening and closing of the power window can be performed without hindrance. Coils of an opening relay and a closing relay are selectively connected at one end thereof to a power source or ground through a control switch and at the other end to the power source or ground through an electronic circuit which has been subjected to a water-proofing treatment. Even if leakage current flows from a high-potential portion of the coils to ground, the leakage current is caught by electric current flowing from the power source. In addition, even if leakage current flows from the power source to a lower-potential portion of the coils, the leakage current flows to ground without passing through the coils. Therefore, the unintended excitation and de-excitation of the coils can be prevented to thereby reliably open and close the power window.

Abstract: A uninterruptible power system in which separate inverters are connected to separate d.c. power sources established by independent power supplies, a.c., d.c. or both, and have their a.c. outputs connected to separate transformer primary windings with the primary to secondary turns ratios of the primary windings establishing different effective secondary voltages for determining the power source for normally supplying the power from the system and the sequence in which the other power sources are used on power failure, the magnitudes of the effective voltages determining the power source for initially supplying the power with any other power source supplying the power when its effective voltage is higher than any other available power source.

Abstract: An electronic SPDT switch (1) has, a series FET (9) in a first circuit arm (4) between a common port (2) and a first port (3), a shunt FET (10) in a second circuit arm (6) between the common port (2) and a second port (5), the shunt FET (10) being isolated 90 degrees or 1/4 wavelength from the common port (2), a source applying pull-up voltage to sources of respective FETs (9, 10) and to the common port (2), to provide a connection of the common port (2) with said second port (5), a source applying a first control voltage of opposite logic state to said gates, and the FETs (9, 10) being depletion mode FETs that conduct at a zero sum of said bias voltage and said control voltage, and that conduct when DC power is interrupted, to provide a connection of the common port (2) with the first port (3).

Abstract: An apparatus for preventing peripherals from back powering a host computer is disclosed. The apparatus use a timer and associated logic circuitry to determine the time period between signals being sent to the host computer from the peripheral device. Under predetermined time-out conditions, the current output by the peripheral is disabled to prevent the peripheral from back powering a main computer.

Abstract: An electronically controlled micro-dispensing apparatus (10 or 210) is described. The apparatus includes a liquid storage container (12), a propellant container (16), a control circuit (34 or 42) and an ejector (28). In a second embodiment, the liquid and propellant are in the same container (212). The control circuits control the length of pulse and the time duration between each pulse. By controlling these factors, the apparatus dispenses a precise amount of liquid over a set time period. The ejector allows for controlled dispensing and allows the liquid to be sprayed a greater distance. In the preferred embodiment, the apparatus are used to dispense a pheromone in an outdoor setting, such as an orchard, to control insects.

Abstract: One or more capacitive actuators are controlled by a device that charges the actuators via a capacitor and from a switched mode power supply SMPS that operates according to the flyback converter principle. The secondary coil of the switched mode power supply functions as the charging coil and the discharging coil, i.e., it simultaneously undertakes the function of the large, heavy charging coil. This saves space and weight.

Abstract: A system for controlling the connection of power from a main supply (11) to electrical devices (22) by way of switching devices (19). The system includes a low voltage, direct current power supply (10), a plurality of command units (15) connected to and powered from the power supply by way of an electrical connection (14), and a plurality of switching devices (19) connected to and powered from the power supply by way of the electrical connection (14). Each of the command units (15A, 15B and 15C) is arranged to generate a uniquely coded pulse-form command signal to a central processing unit (18) by way of the electrical connection (14), and the central processing unit is arranged to generate pulse-form actuating signals having codes determined by the command signals. The central processing unit is arranged to feed the actuating signals to the switching devices (19) by way of the electrical connection (14).

Abstract: A power supply circuit drives a load with first and second power sources. The power supply circuit has a switching network comprising a first switch and an interlock switch. A first circuit section connects the first power source to the load only when both the first switch and the interlock switch are on, and a second circuit section connects the second power source to the load only when both the first switch and the interlock switch are on. The switching network provides isolation between the first and second circuit sections.