Class / Patent application number | Description | Number of patent applications / Date published |
307110000 | Parallel-charge, series-discharge (e.g., voltage doublers) | 11 |
20080211316 | Electric power converter - The invention provides an optimal electric power converter for a DC/DC converter which variably steps up a voltage successively with an optional magnification of one to two times or more and/or step down a voltage successively with a step-down ratio of one time or less. The converter includes a first input-output part, an inductor connected with a positive or a negative electrode side of the first input-output part, plural switches, plural capacitors, a second input-output part connected with plural capacitors, and a control circuit, wherein the control circuit controls the plural switches with operation mode and makes the inductor and plural capacitors selectively functional, wherein the electric power converter is of a switched capacitance type that performs any operation out of step-up, step-down, regeneration, and continuity, and wherein the control circuit controls to have a period for which two switches out of the plural switches are simultaneously turned ON. | 09-04-2008 |
20090108681 | Automatic Power Source Configuration - A circuit to supply power to a detachable load incorporates a power source, a power converter and an array of capacitors. Upon connection of the detachable load, the capacitors of the array of capacitors are automatically configured into a desired series, parallel or combination series and parallel configuration of interconnections to accommodate limitations in the voltage ranges of the capacitors in being coupled to the load and/or to achieve other desired characteristics of electrical power to be provided to the load. Further, upon connection of the detachable load, a limit on current flow imposed by the power converter may be set to a desired level to achieve desired characteristics of electrical power to be provided to the load and/or desired characteristics of charging and discharging behaviors of the array of capacitors. | 04-30-2009 |
20090152954 | RF energy harvesting circuit - A voltage doubler rectifier RF power harvesting system is provided having at least one power harvesting module with a voltage doubler rectifier that includes a DC voltage input and output, signal input, first and second floating gate transistors that are connected in series between the DC voltage input and output, and a gate control of the floating gate is connected to a drain of the transistor. The voltage double rectifier includes a first capacitor disposed between the input signal and the drain of the first floating gate transistor, and a second capacitor disposed between a ground and the drain of the second floating gate transistor. The system includes an input antenna and a transmitter with a transmitter antenna, where a full-wave peak-to-peak voltage of an incoming RF signal is rectified. The system also includes a powered device connected to the DC voltage output to utilize the rectified signal. | 06-18-2009 |
20100038972 | VOLTAGE-BOOSTING STAGE - The invention relates to a voltage-boosting stage ( | 02-18-2010 |
20100237710 | PASSIVE DIFFERENTIAL VOLTAGE DOUBLER - Techniques for generating a differential output voltage between first and second output voltages that is double a differential input voltage between first and second input voltages. In one aspect, first and second capacitors of a constituent voltage doubler are charged to a differential input voltage during a charging phase. During an output phase non-overlapping in time with the charging phase, the first and second capacitors are stacked in series to generate the differential output voltage. The first and second capacitors are both coupled to a single common-mode voltage to provide a predefined common-mode output voltage. Further techniques for providing two or more constituent voltage doublers to extend the output phase are described. | 09-23-2010 |
20100253154 | SWITCH CIRCUIT OF DC/DC CONVERTER CONFIGURED TO CONDUCT VARIOUS MODES FOR CHARGING/DISCHARGING - A DC/DC converter includes an input terminal for receiving an input voltage; an output terminal for providing an output voltage; a ground terminal for providing a reference voltage; a plurality of charge pump capacitors including at least a first charge pump capacitor, a second charge pump capacitor, and a third charge pump capacitor; and a switch circuit. The switch circuit includes a plurality of switches configured to allow the plurality of charge pump capacitors connected in a hybrid parallel-series arrangement between the input terminal and the ground terminal or between the input terminal and the output terminal by selectively conducting a specified portion of the switches. | 10-07-2010 |
20110121661 | POWER CONVERSION DEVICE - In a power conversion device which performs DC/DC conversion, an inverter circuit ( | 05-26-2011 |
20110127850 | Semiconductor device having internal volatage generating circuit - To include an internal voltage generating circuit that includes a capacitor having a first electrode and a second electrode and generates an internal voltage by repeating a charge operation for charging the capacitor to a VDD level and a discharge operation for applying the VDD level to the first electrode of the capacitor to generate a voltage of two times the VDD level on the second electrode, and a control circuit that performs a control to apply a voltage that is lower than the VDD level to the capacitor when the internal voltage generating circuit is in a standby state. According to the present invention, when the internal voltage generating circuit is in a standby state, because a voltage applied to both ends of the capacitor is reduced, it is possible to reduce the power consumption due to a leakage current. | 06-02-2011 |
20130257176 | METHODS TO REDUCE CURRENT SPIKES IN CAPACITIVE DC-DC CONVERTERS EMPLOYING GAIN-HOPPING - A capacitive voltage converter providing multiple gain modes comprising a switched capacitor array having a voltage input and a voltage output. A skip gating control coupled to the switched capacitor array and configured to control a switch resistance value of the switched capacitor array, and to control a switching sequence of the switched capacitor array. An override control coupled to the skip gating control and the switched capacitor array, the override control configured to detect transitions in a gain mode and to modify the switch resistance value of the switched capacitor array and the switching sequence of the switched capacitor array for a finite amount of time following the gain mode transition. | 10-03-2013 |
20150015088 | Capacitive DC Power Transformer - The present document relates to power transformers for electronic computing devices. In particular, a power converter configured to convert electrical power at a DC input voltage Vin into electrical power at a DC output voltage is described. The power converter comprises a plurality of flying capacitors, and a plurality of switches which are configured to arrange the plurality of flying capacitors in accordance to a sequence of operation phases. The power converter comprises a control unit configured to control the plurality of switches to repeat the sequence of operation phases at a duty cycle frequency. The plurality of flying capacitors is arranged in series during the operation phases of the sequence of operation phases. The sequence of operation phases comprises at least two operation phases during which the plurality of flying capacitors is arranged in a different order. | 01-15-2015 |
20150318783 | CHARGE PUMP CIRCUIT - The present invention has: a pump capacitor ( | 11-05-2015 |