Abstract: An electrical circuit for charging a DC voltage source from an AC voltage network. The circuit includes an input that is able to receive an AC voltage from the voltage network, and a first output able to be connected to the DC voltage source. An insulating stage formed using a plurality of capacitors is arranged so as to electrically insulate the input from the first output of the circuit. A frequency-raising stage is arranged between the input of the circuit and the insulating stage so that the capacitors of the insulating stage are in a circuit portion that has flowing through it an AC current at a frequency that is greater than that of the AC network.

Abstract: An integrated circuit has at least two power domains. A first power domain has circuitry coupled between a first power supply terminal and a second power supply terminal. A second power domain has circuitry coupled between a third power supply terminal and a fourth power supply terminal. A complementary voltage regulator includes N-type and P-type voltage regulators. The N-type voltage regulator is coupled between the first and third power supply terminals and controls a first voltage level at the second power supply terminal. The P-type voltage regulator is coupled between the third and fourth power supply terminals and controls a second voltage level at the third power supply terminal. The N-type voltage regulator produces a mid-level supply voltage to the P-type regulator and a “ground” for the circuits in the first power domain. The P-type regulator circuit produces a “ground” for the N-type regulator and a mid-level supply voltage for the circuits in the second power-domain.

Abstract: A thermal protection module includes a surge absorber, a switch unit, and a pyrocondensation belt connected to the surge absorber and the switch unit. The switch includes a casing, at least one conductive pin, at least one conductive portion, and a moving part. The conductive portion is disposed on the moving part. The moving part is stuck in the casing movably. The conductive pins are stuck in the casing. The pyrocondensation belt is configured to shrink according to the heat conduction from the surge absorber, so as to change the position of the moving part. The conductive portion is in contact with or separated from the conductive pin according to the position of the moving part.

Abstract: Various embodiments of the present invention relate to systems, devices and method of frequency synthesis that generate in-phase and quadrature-phase clock signals at a programmable frequency. The generated frequency, which can range from a fraction to multiples of the input reference frequency, is generated by dividers following a phase-locked loop, thus avoiding the use of a low input reference frequency as well as frequency doubling.

Abstract: The present invention discloses a power adapter has a power converter, a power output cable, a first DC power connector and multiple second DC power connectors. The power converter has a casing, a power converting circuit mounted in the casing, and an AC power inlet and DC power outlet electronically connected to the power converting circuit. The power output cable has a DC output and selective connector having two DC power pinholes and multiple selective pinholes surrounding the two DC power pinholes. The first DC power connector has two DC voltage pins and is selectively connected to the DC output and selective connector. Each of the second DC power connectors has a body, a DC plug formed on the body, two DC voltage pins formed on the body and one jumper pin formed on the body and corresponding to the selective pinholes of the power output cable to change voltage of the DC power output from the power converting circuit.

Abstract: Systems and methods for efficient three-phase auxiliary power supply for low power applications are disclosed herein. The system includes a capacitor divider circuit that can leverage electromagnetic interference (EMI) filter capacitors utilized in a main power converter. Further, three low voltage capacitors, connected in a star configuration (for a three-phase four-wire input) or a delta connection (for a three-phase three-wire input), can be utilized in the capacitor divider circuit. Additionally or alternatively, multiple high voltage capacitors can be paralleled. The capacitor divider circuit generates a low voltage alternate current (AC) signal that can be converted to a corresponding low voltage direct current (DC) signal by employing a rectifier circuit. Due to the three-phase input, the output DC signal has a very low output ripple voltage.

Abstract: A power supply, such as for powering and supplying communication data to devices connected with a low voltage line, is disclosed. For example, a converter device is coupled with an alternating current voltage source. The converter device down-converts an alternating current voltage to a direct current voltage. A switching device is in communication with the converter device. A processor is in communication with the switching device. The processor outputs a signal to the switching device. The switching device generates a square wave signal as a function of the signal from the processor and the direct current voltage. A remote device is controlled by data encoded in the square wave signal.

Abstract: A circuit intended to provide two D.C. voltages of inverted polarities based on an A.C. voltage, comprising: two capacitors having their respective electrodes connected to two terminals intended to receive said A.C. voltage and having their second respective electrodes connected to each other by two first diodes in anti-series; a controllable current source having a first terminal connected to the common anodes of said first diodes; two second diodes connected in anti-series between said terminals intended to receive said A.C. voltage and having their common cathodes connected to a second terminal of said controllable current source; a circuit for controlling said current source; and two third diodes connected in anti-series between said terminals intended to receive said A.C. voltage, said control circuit sampling its power supply between the common cathodes of the second diodes and the common anodes of the third ones.

Abstract: An object of the present invention is to provide a DC-DC converter control circuit capable of maintaining, even when any one of a plural number of DC-DC converters enters the abnormal state due to the occurrence of a failure, a voltage relationship between the output voltage of the faulty DC-DC converter and the output voltage of another DC-DC converter. An error amplifier ERA1G has an inverting input, a first non-inverting input, and a second non-inverting input. A first divided voltage VV1 provided from a first voltage divider circuit VD1 is fed into the inverting input; a reference voltage e1G from ground is fed into the first non-inverting input; and a second divided voltage VV2 provided from a second voltage divider circuit VD2 is fed into the second non-inverting input. The error amplifier ERA1G amplifies the error between the lower of the two voltage inputs fed into the two non-inverting inputs (i.e.

Abstract: The object is to discharge a first capacitor from a high voltage to a low voltage. To this end, the one electrode of the first capacitor is linked with the one electrode of a second capacitor via a FET path. The other two electrodes of the two capacitors are connected to reference potential. A voltage source with its internal resistance is connected in parallel to the second capacitor. A discharge path leads from the one electrode of the first capacitor from the paths of two FET and a protective resistor to the reference potential. A current path leads from the one electrode of the second capacitor to the reference potential via the paths of two additional FET. A control unit switches on the discharge path. Once the voltage of the first capacity has decreased to the required lower value, the discharge path is blocked while a holding path is opened.

Abstract: An adjustable circuit for voltage division comprises a serial resistor Rn(n=1, 2 . . . n) symmetrically mapped, connected in series, and paired in parallel with a switch Sn or Sn′ apiece, wherein the switches Sn and Sn′ are oppositely operated, namely, when the former is turned “ON/OFF”, the latter is turned “OFF/ON” to thereby hold the current unchanged to obtain desired output voltage(s) by proper control of the switches and accordingly a valid portion of voltage-dividing resistor &Dgr;R′.

Abstract: An electronic system (101/102) for use in a car has an electronic control unit (10) and, in the alternative, either a passive load (11) or an active logic (12) attached thereto. The control unit (10) comprises a push-pull arrangement (20) which can provide drive signals for the load (11) as well as for the logic (12), a multiplexer (45) to alternatively forward a load drive signal of a bus signal to the arrangement (20), and a register (90) to store a mode signal. Further, the control unit (10) automatically determines whether either the load (11) or the logic (12) is attached by analyzing electrical parameters.

Abstract: The present invention relates to a dry control cartridge for providing a plurality of voltage and impedance inputs to an electrochemical analysis instrument for verification of its proper functioning. The dry control cartridge includes a battery and a plurality of electrical circuits for providing a plurality of predetermined voltage and impedance outputs. The dry control cartridge is adapted for insertion into an electrochemical analysis device using probe electrodes to measure microvolt-range potential differences, appropriate to the input ranges inherent in the instrument. By comparing the measured voltage and impedance inputs to the predetermined outputs of the cartridge, verification of the instrument's proper functioning and accuracy may be made.

Abstract: The light flashing apparatus of the present invention is a four-button control switch in conjunction with an electronic circuit which is installed within an existing light switch junction box and replaces conventional switches. In addition to the two conventional on and off modes of a light switch, the apparatus allows for two different flashing modes; slow and fast flashing of the same light. The selection of any of the four modes overwrites the previous mode of operation, thereby having only one operating mode at a time. Any operating mode is selected by pushing a corresponding one of the four buttons. The slow flashing mode is used, for example, to help someone find your address when there is no hurry (taxi, delivery and so on) while the fast flashing mode corresponds to an emergency situation. The fast flash mode may also be remotely activated by a radio frequency RF signal transmitter.

Abstract: An apparatus and method for generating bias voltages for an LCD driver. A voltage divider including serially connected resistors of a first resistance is arranged to form a DC current path having nodes. The voltage of each node serves as a bias voltage to the LCD driver for actuating the LCD driver to generate LCD driving signals. A signal generator is used to generate a switching signal in synchronism with the LCD driving signals. A switching circuit including switches is arranged so that when the switches are closed, the resistance between two adjacent nodes has a small value, so as to provide large driving currents to the LCD driver, and when the switches are open, the resistance has a large value, so as to reduce the amount of leakage current through the DC current path.

Abstract: Loads, such as power relays controlling wipers, windows and lights are connected to an automobile battery through individual transistor drives that are controlled by a microcontroller. A switch, connected to the microcontroller, is operated to activate each drive. The microcontroller checks the load characteristic when each drive is activated and inactivated. When the load is inactivated, it is part of a resistance network producing a test voltage that is digitally converted and supplied to the microcontroller, which compares the test voltage to a stored voltage to determine if the load is correct. An analog multiplexer is controlled by the microcontroller to select the voltage produced for each load.

Abstract: A dynamic RAM provided on a semiconductor substrate comprises: a memory cell including a capacitor for storing electric charges as information, the capacitor having a storage gate electrode to which a potential other than a ground potential is applied during normal operation of the dynamic RAM; a peripheral circuit including a CMOS circuit; and grounding means for applying the ground potential to the storage gate electrode only in a predetermined period immediately after a start of application of a power supply voltage to the dynamic RAM.

Abstract: Resistive battery feed circuits are normally not used because of lack of power supply noise rejection and attendant crosstalk coupling. In this circuit the opamp and surrounding circuitry insure that power supply and ground noise do not couple into the tip and ring circuits as a metallic signal and improve crosstalk attenuation. In addition, the opamp is used to split the 48 volt supply.

Abstract: A circuit is described for controlling voltage input to a pair of resistances. A main transformer and variable auto transformer are wired in cascade between the voltage supply and the resistances. The resistances are wired in series to the output of the variable auto transformer, with the null point between the resistances being connected to the variable tap of the auto transformer.

Abstract: Circuitry for selectively sustaining a gaseous discharge display panel to splay selected information which circuitry permits the use of a single power supply.

Abstract: A transistor circuit having a plurality of CMOS circuits in which the power circuits of said CMOS circuits constitute a series circuit in which the power source circuits are in series connected to each other and the opposite ends of said series circuit is connected to the opposite ends of an electric battery cell.

Abstract: A stabilized power supply circuit has a stabilized or regulator circuit connected between an input terminal and a first output terminal and a constant voltage element for example, a Zener diode, whose one electrode is connected to the input terminal and whose other electrode is connected to the first output terminal, and a second output terminal is connected to the first-mentioned electrode of the constant voltage element.