| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 323237000 | Phase controlled switching using electronic tube or a three or more terminal semiconductive device | 42 |
| 20090174374 | DYNAMIC MULTIPHASE OPERATION - An output regulator includes a plurality of switch arrays. A controller enables selected ones of the plurality of switch arrays in response to a sense signal. The sense signal is based on an output of the output regulator. The controller generates drive signals to control the selected ones of the plurality of switch arrays. The controller adjusts first selected pulses in an output phase of the selected ones of the plurality of switch arrays based on a first pulse width. The controller adjusts second selected pulses in the output phase of the selected ones of the plurality of switch arrays based on a second pulse width greater than or less than the first pulse width. | 07-09-2009 |
| 20100308780 | PHASE-CONTROLLED NON-ZERO-CROSS PHOTOTRIAC WITH ISOLATED FEEDBACK - An electronic component for providing optical isolation an electronic component package, a phototriac disposed within the electronic component package for providing the optical isolation, and a reverse zero-cross feedback channel integrated into the electronic component package to thereby provide zero-cross detection. The electronic component may be in a circuit which includes a phase control circuit. A method of driving an AC load and providing zero-cross detection using a single electronic component includes providing an electronic component having an electronic component package, a phototriac disposed within the electronic component package, and a reverse zero-cross feedback channel integrated into the electronic component package to thereby provide for zero-cross detection. The method further includes placing the electronic component within a circuit. | 12-09-2010 |
| 20110080146 | Power supply device and uniform current control method - A power supply device for providing an output voltage includes a first resonant converter, a second resonant converter, a first converting circuit, and a current regulating circuit. The first resonant converter is for converting a first input voltage into the output voltage. The second resonant converter is for converting a second input voltage into the output voltage. The output ends of the first and second resonant converters are coupled in parallel. The first converting circuit is coupled to the first resonant converter and is operable to provide the first input voltage to the first resonant converter. The current regulating circuit receives signals related to output currents of the first and second resonant converters, and drives operation of the first converting circuit according to the signals received thereby such that the output currents of the first and second resonant converters have substantially equal magnitudes. | 04-07-2011 |
| 20110199061 | AC VOLTAGE CONTROL DEVICE - Provided is an AC voltage control device for adjusting the voltage of a load to be connected with an AC power source, by a convenient method. | 08-18-2011 |
| 20110279099 | PHASE CONTROL APPARATUS - A phase control apparatus includes a first transistor whose source or emitter is connected to one end of an AC power supply and whose drain or collector is connected to one end of a load, a second transistor whose source or emitter is connected to the other end of the AC supply and whose drain or collector is connected to the other end of the load, a diode bridge that rectifies an AC voltage of the AC supply, and a parallel circuit of a zener diode and a capacitor. The parallel circuit generates a high potential relative to a bridge negative output terminal potential, or generates a low potential relative to a bridge positive output terminal potential. First and second transistor control terminal potentials. are switched between the high and the bridge negative output terminal potentials, or between the low and the bridge positive output terminal potentials. | 11-17-2011 |
| 20120098505 | PHASE-CUT DIMMING CIRCUIT - Methods, systems, and devices are described for sensing a phase-cut dimming signal and outputting a control signal compatible with a switching power circuit. Embodiments of the invention generate at least one of a low-frequency pulse-wave-modulated control signal, an analog output control signal, or a digital (e.g., higher-frequency pulse-wave-modulated) output control signal. Some embodiments further provide preloading and/or startup control functionality to allow proper functioning of the circuitry under small-conduction-angle (i.e., highly dimmed) conditions. | 04-26-2012 |
| 20120176105 | Multi-phase switching regulator and driver circuit and control method thereof - The present invention discloses a multi-phase switching regulator, a driver circuit of a multi-phase switching regulator, and a control method of a multi-phase switching regulator. The multi-phase switching regulator includes: at least two power stages, switching power transistors in the power stages to convert an input voltage to an output voltage according to pulse width modulation (PWM) signals generated by corresponding PWM controllers respectively; and a current balance circuit, generating a current balance signal according to the current of the corresponding power stage and a phase adjustment signal to averagely distribute current over the active power stages. In the present invention, the gain of the current balance circuit is adjustable, to avoid or reduce output voltage overshoot and undershoot when the phase number changes, while the current balance function is still achieved in normal operation. | 07-12-2012 |
| 20120293142 | PHASE-CONTROLLED AC VOLTAGE STABILIZING CIRCUIT - A phase-controlled AC voltage stabilizing circuit includes a buffer device connected between an input power side and an exciting side of a transformer to provide flywheel paths of exciting current within the positive half cycle and negative half cycle of input power. A pulse width modulation control device is connected between the buffer device at the exciting side of the transformer and a neutral point of a power supply system to switch ON and OFF a number of times within each half cycle of the input power to allow an inductor to regulate the variable voltage so that waveform of the exciting current of the transformer is smoother. By regulating the voltage at the output side of the transformer, response time of stabilizing voltage is faster and distortion of the waveform is smaller. | 11-22-2012 |
| 20130154585 | MULTIPLE PHASE SWITCHING REGULATOR WITH PHASE CURRENT SHARING - A phase current sharing network that adjusts operation of a current mode multiphase switching regulator in which the phase current sharing network includes multiple synthetic ripple networks and a current share network. The regulator develops phase currents including ripple currents through corresponding phase inductors as controlled by corresponding pulse control signals. Each synthetic ripple networks develops a corresponding ripple voltage that simulates a corresponding phase ripple current and uses the ripple voltages to develop the pulse control signals. The current share network adjusts each ripple voltage by a combined adjustment value. The combined adjustment value is a combination of phase adjustment values in which each phase adjustment value is based on a difference between a corresponding one of ripple voltage and a reference voltage. Transconductance amplifiers may be used to convert the voltage differences to current adjust values applied to the ripple capacitors developing the ripple voltages. | 06-20-2013 |
| 20130187621 | Power control circuits and methods - Power control circuits and methods are disclosed, suitable for a power supplier. A power control circuit has a clock generator, a phase controller and a power limiter. The clock generator provides a clock signal, substantially determining switching cycles of a power supply. The phase controller outputs a burst signal based on a group reference signal and a burst initiation signal, and makes a burst period corresponding to a burst signal not less than a group reference period corresponding to the group reference signal. The burst signal is capable of switching the power supplier between a switching state and a non-switching state. The power limiter limits the power transferred by the power supply in every switching cycle, during a burst-up duration after the power supply is switched from the non-switching state to the switching state. The burst initiation signal correlates to an output voltage of the power supplier. | 07-25-2013 |
| 20140145689 | MODULAR TRAVEL POWER ADAPTER AND CONVERTER SYSTEM - An adapter-converter assembly for use with an electrical outlet is disclosed including a main body having a first, second and third universal female outlets defining first, second and third outlet configurations, and a first male plug defining a first plug configuration. A second body has a fourth universal female outlet defining the second outlet configuration and a second male plug defining a second plug configuration. The second male plug is receivable in at least one of the female outlets and the fourth female outlet is configured to receive the first male plug. A third body has a fifth universal female outlet defining the third outlet configuration and a third male plug defining a third plug configuration. The third male plug receivable in at least one of the first, second and third female outlets and the fifth female outlet is configured to receive the first male plug. | 05-29-2014 |
| 20140327415 | PHASE BALANCING OF HIGH-FREQUENCY POWER GENERATION UNITS - Methods, systems, and devices for phase balancing of a plurality of high frequency (HF) power generation units of an HF power supply system. In one aspect, a method includes measuring a first signal related to a first power reflected at a load and arriving at a first HF power generation unit, obtaining at least one first value related to the measured first signal in a system control, adjusting at least one of a frequency or a phase of an output signal of the first HF power generation unit based on the at least one first value and a reference value, measuring a second signal related to a second power reflected at the load and arriving at the first HF power generation unit, obtaining at least one second value related to the measured second signal in the system control, and determining whether a specified event for the first HF power generation unit occurs. The method also includes performing phase balancing of one or more further HF power generation units. | 11-06-2014 |
| 20150028826 | Control Circuit - There is a control circuit comprising first and second DC terminals for connection to a DC network, the first and second DC terminals having a plurality of modules and at least one energy conversion element connected in series therebetween to define a current transmission path, the plurality of modules defining a chain-link converter, each module including at least one energy storage device, the or each energy storage device being selectively removable from the current transmission path to cause a current waveform to flow from the DC network through the current transmission path and the or each energy conversion element and thereby remove energy from the DC network, the or each energy storage device being selectively removable from the current transmission path to modulate the current waveform to maintain a zero net change in energy level of the chain-link converter. | 01-29-2015 |
| 323238000 | With soft start | 13 |
| 20080197821 | DC-DC CONVERSION CIRCUIT, DC-DC CONVERSION CONTROL CIRCUIT, AND DC-DC CONVERSION CONTROL METHOD - A DC-DC conversion circuit is configured by including a plurality of control signal generation circuits, a plurality of soft-start control circuits, and a start control circuit. The plurality of control signal generation circuits correspond to the plurality of control signals, and generate a corresponding control signal of the plurality of control signals based on a corresponding output value of a plurality of output values. The plurality of soft-start control circuits correspond to the plurality of control signals, and control a variation of the corresponding control signal at a start time of the DC-DC conversion circuit. The start control circuit instructs the corresponding soft-start control circuit to start operation in accordance with a change of the control signal taking part in an output control at the start time of the DC-DC conversion circuit. | 08-21-2008 |
| 20080218134 | POWER SUPPLY APPARATUS - A power supply apparatus having a soft start function that enables a startup without any overshoot within an appropriate startup time regardless of whether the load is heavy or light. Even when output direct current voltage Vo has not yet risen upon startup, switch circuit | 09-11-2008 |
| 20080246450 | Soft-Start Circuit and Method Therefor - In one embodiment, a soft-start circuit is configured to form drive pulses that increase in width independently of the current through the power switch during a first portion of the soft-start operation period. | 10-09-2008 |
| 20080265849 | CONTROL APPARATUS OF POWER CONVERSION CIRCUIT AND CONTROL METHOD THEREOF - A control apparatus for a power conversion circuit and a control method thereof are provided. The method of the control apparatus includes producing a first control signal and a second control signal; modulating the first control signal according to an output voltage of the power conversion circuit; detecting the output voltage of the power conversion circuit to attain a detecting result; if the detecting result exhibits the input voltage of the power conversion circuit below a normal operating level, using the second control signal to control the power conversion circuit; or if the detecting result exhibits the input voltage of the power conversion circuit above the normal operating level, using the first control signal to control the power conversion circuit. The duty cycle of the fist control signal is greater than that of the second control signal. | 10-30-2008 |
| 20090001944 | Soft start circuit and power supply including soft start circuit - A soft start circuit is connected to a pulse width modulation controller including an oscillator, and a functionality of modulating amplitude to a pulse width and a power supply includes the soft start circuit. The soft start circuit includes a frequency controlling unit, a duty ratio establishing unit, and a variable switching unit. The frequency controlling unit generates first and second parameter signals for determining a frequency signal frequency by a power source from the PWM controller and provides them to the PWM controller. The duty ratio establishing unit generates a third parameter for determining amplitude of the frequency signal generated by the PWM controller according to a reference voltage, and provides it to the PWM controller. The variable switching unit determines whether it is a first predetermined time from a start-up state, and controls the first parameter of the frequency controller during the first predetermined time. | 01-01-2009 |
| 20090021227 | POWER-SUPPLY DEVICE, IC CIRCUIT, AND INFORMATION PROCESSING APPARATUS, AND SOFT-START CONTROL METHOD - An electric current flowing to an upper side power MOSFET during soft-start is detected according to an on-voltage of the MOSFET and an on-pulse width of a PWM pulse for driving the upper side power MOSFET is forced to be reset in the idle and decided according to a signal generated when the voltage falls below a predetermined specified voltage. | 01-22-2009 |
| 20090058378 | CIRCUIT SYSTEM AND METHOD FOR REDUCING AN IN-RUSH CURRENT - A circuit is provided including an output stage with a pair of transistors. Further provided is a control circuit in communication with the output stage. The control circuit is capable of controlling a duration in which at least one of the transistors is actuated for reducing an in-rush current. | 03-05-2009 |
| 20090108819 | Method for controlling start time series by stages - A method for controlling start time series by stages adopted for use on a power supply consisting of a main power system and a standby power system. The power supply includes an energy storage unit to store a judgment power. The method mainly includes: setting a start voltage, setting a boosted voltage, getting a judgment power voltage and detecting whether the judgment power has reached the start voltage or the boosted voltage, and alternately starting the standby power system and the main power system. Thus the main power system and the standby power system are started at different time series. In terms of the energy storage unit the load increases by stages. Therefore the energy storage unit can be charged to increase the judgment power voltage and increase loading by stages. As a result, inrush current also rises by stages and can be harnessed as desired. | 04-30-2009 |
| 20090115379 | Soft-Start Circuit for Power Regulators - One embodiment of the present invention includes a system for providing a soft-start for a power regulator comprising a differential transistor pair that receives an input current and conducts a first current through a first transistor and a second current through a second transistor. One of the first and second current changes in response to a change in the other to maintain a sum of the first and second current being substantially equal to the input current. The system also comprises a comparator that provides an output signal based on a comparison of a first input voltage and a second input voltage associated with the first current and the second current, respectively. The system further comprises a current source activated by the output signal to charge a capacitor that increases a soft-start reference voltage associated with control of the power regulator and which controls the change in the other of the first and second current. | 05-07-2009 |
| 20090146622 | PHASE SHEDDING CONVERTER WITH RIPPLE MINIMIZATION - In an information handling system, a multi-phase electrical converter includes an electrical input, an electrical output, a plurality of converter phases coupled with the electrical input and the electrical output, and a controller to ramp operation of one or more of the converter phases as a load demand adjusts. In an embodiment the converter may be a multi-phase buck converter having a high side switch, a low side switch, and an inductor. In an embodiment, the controller may ramp operation of the converter phases by adjusting a duty cycle of the high side switch. In an embodiment, the controller may adjust a phase angle of one or more of the converter phases, wherein the adjustment may be relative to the ramping operation of the one or more of the converter phases. | 06-11-2009 |
| 20090289608 | SOFT-START CIRCUIT FOR POWER REGULATORS - One embodiment of the present invention includes a system for providing a soft-start for a power regulator comprising a differential transistor pair that receives an input current and conducts a first current through a first transistor and a second current through a second transistor. One of the first and second current changes in response to a change in the other to maintain a sum of the first and second current being substantially equal to the input current. The system also comprises a comparator that provides an output signal based on a comparison of a first input voltage and a second input voltage associated with the first current and the second current, respectively. The system further comprises a current source activated by the output signal to charge a capacitor that increases a soft-start reference voltage associated with control of the power regulator and which controls the change in the other of the first and second current. | 11-26-2009 |
| 20110115449 | Method and apparatus for controlling the powering of a transformer - A power isolation system and method is disclosed. The system includes a transformer suitable for use in the power isolation system, and a semiconductor device electrically connected to the transformer to provide a reduction of the inrush current associated with powering the transformer, wherein the semiconductor device is activated upon power up based upon the previous shutdown state of the power isolation system to provide a soft start to the transformer, and after activation of the transformer, the semiconductor device is shorted in the system. | 05-19-2011 |
| 20110248689 | PHASE SHEDDING CONVERTER WITH RIPPLE MINIMIZATION - In an information handling system, a multi-phase electrical converter includes an electrical input, an electrical output, a plurality of converter phases coupled with the electrical input and the electrical output, and a controller to ramp operation of one or more of the converter phases as a load demand adjusts. In an embodiment the converter may be a multi-phase buck converter having a high side switch, a low side switch, and an inductor. In an embodiment, the controller may ramp operation of the converter phases by adjusting a duty cycle of the high side switch. In an embodiment, the controller may adjust a phase angle of one or more of the converter phases, wherein the adjustment may be relative to the ramping operation of the one or more of the converter phases. | 10-13-2011 |
| 323239000 | Including single unidirectional element with bidirectional pass | 6 |
| 20080238377 | DEVICE FOR TRANSFORMING AND STABILIZING A PRIMARY AC VOLTAGE FOR SUPPLYING AN ELECTRIC LOAD - A device coupled to a primary AC voltage and a load includes an input, an inductive element coupled thereto, and a generator of a PWM control signal. A capacitor is coupled in parallel to the load. A first bidirectional switch couples the load and primary AC voltage during conduction phases. A second bidirectional switch discharges energy from the load during off phases of the first bidirectional switch. A first driving circuit for the second bidirectional switch, input with the PWM control signal, generates a first PWM signal applied between control and conduction terminals of the second bidirectional switch. A second driving circuit for the first bidirectional switch, input with the PWM control signal, generates a second PWN signal, in phase opposition with the first PWM signal, applied between control and conduction terminals of the first bidirectional switch. An electric decoupling circuit is between the generator and the second driving circuit. | 10-02-2008 |
| 20090237044 | Bidirectional interleaved DC to DC converter utilizing positively coupled filter inductors - A bidirectional interleaved DC to DC converter comprises positively coupled filter inductors that are coupled to a switching network that receives power from a DC power source, such as a battery. The positively coupled inductors are integrated as a single coupled inductor, which allows the DC to DC converter to convert DC voltage to various voltage levels with reduced voltage ripple, without the need for supplemental filter capacitors that are large and costly. | 09-24-2009 |
| 20100052629 | Adaptive zero current sense apparatus and method for a switching regulator - A switching regulator includes a low-side switch having a body diode. During the low-side switch is on, a zero-current sense circuit monitors the inductor current of the switching regulator and triggers a signal to turn off the low-side switch when the inductor current falls down to a zero-current threshold, to prevent reverse inductor current from the output terminal of the switching regulator. A body-diode turn-on time controller monitors the turn-on time of the body diode and adjusts the zero-current threshold according thereto, and the turn-on time of the body diode can be reduced to an optimal interval subsequently. The self-adjustable zero-current threshold is adaptive according to the application conditions, such as the inductor size, input voltage and output voltage of the switching regulator. | 03-04-2010 |
| 20120086415 | IGBT/FET-Based Energy Savings Device for Reducing a Predetermined Amount of Voltage Using Pulse Width Modulation - An IGBT/FET-based energy savings device, system and method ( | 04-12-2012 |
| 20120256603 | SYNCHRONOUS REGULATION CIRCUIT FOR TURN-ON AND TURN-OFF PHASE ANGLE OF THE AC VOLTAGE - The present invention provides a synchronous regulation circuit for turn-on and turn-off phase angle of the AC voltage, wherein a solid switch unit is installed between an AC power source and a load, and a phase angle regulation circuit is utilized to synchronously regulate both of the turn-on phase angle and turn-off phase angle of the solid switch unit, so that the sine waveform voltage of the AC power source can be kept to output in symmetrical waveforms within the range in which the turn-on and turn-off phase angles being synchronously regulated. | 10-11-2012 |
| 20140117949 | METHOD AND APPARATUS FOR SUPPLYING AND SWITCHING POWER - A dimming power supply includes a power source, a transformer, a full bridge rectifier and a control switch. | 05-01-2014 |
| 323241000 | With digital control | 2 |
| 20090058379 | Method and apparatus for equalizing phase currents in multiphase switching power converters - A method and apparatus for equalizing phase currents in multiphase switching power converters is described in which pairs of stored digital values that directly or indirectly control the values of the currents in the conversion phases are altered in equal and opposite increments. In one embodiment the digital values being controlled are the relative on-times of the power switches in pairs of conversion phase. The method is stepwise and repetitive in the sense that, instead of calculating or inferring offset values that seek to bring all of the currents in the phases toward equality, pairs of phase currents are altered repetitively and iteratively, using equal and opposite steps in the values of their respective control variables, until the phases are all sufficiently close in value. The steps may be of fixed size or the step size may be selectively modified to optimize the convergence time of the algorithm. | 03-05-2009 |
| 20130009616 | AUTO-SELECTING HOLDING CURRENT CIRCUIT - An auto-selecting holding current circuit is applicable to a converter. A primary side of the converter has a Triode for Alternating Current (TRIAC) and a bleeder circuit. The auto-selecting holding current circuit includes a first sensor module, a second sensor module and a reference voltage selecting circuit. The first sensor module detects an input current drop time or an input voltage drop time to output a sense signal. The second sensor module receives a current detector signal and outputs a critical current signal to detect a holding-current value range of the TRIAC. The reference voltage selecting circuit outputs a reference current signal to the bleeder circuit, and the reference current signal corresponds to a holding-current value of the TRIAC. Therefore, the bleeder circuit maintains normal operation of the TRIACs with different holding-current values. | 01-10-2013 |
| 323242000 | Including ramp generator or controlled capacitor charging | 4 |
| 20080246451 | POWER SUPPLY FOR A LOAD CONTROL - A power supply adapted to be coupled in series electrical connection between an AC voltage source and an electrical load for generating a DC voltage, the power supply comprising an energy storage capacitor, the DC voltage produced across the capacitor; a charging circuit adapted to be coupled in series electrical connection between the source and the load and to conduct a load current from the source to the load, the charging circuit coupled to the energy storage capacitor for charging the energy storage capacitor; a controllably conductive device coupled in parallel electrical connection with the charging circuit and having a control input for rendering the controllably conductive device conductive, the controllably conductive device adapted to carry the load current from the source to the load when the controllably conductive device is conductive; and a triggering circuit coupled to the control input of the controllably conductive device for causing the controllably conductive device to become conductive when the energy storage capacitor has charged to a desired maximum value; wherein the charging circuit is adapted to conduct the load current from the source to the load when the controllably conductive device is non-conductive, the charging circuit imposing a low voltage drop relative to the peak value of an AC voltage of the AC voltage source, such that substantially all of the AC voltage is available to the load during the time when the controllably conductive device is non-conductive. | 10-09-2008 |
| 20090091304 | CONTROL CIRCUIT FOR MULTI-PHASE, MULTI-CHANNELS PFC CONVERTER WITH VARIABLE SWITCHING FREQUENCY - A switching control circuit for multi-phases PFC converters is provided. It includes a PFC-control circuit coupled to receive a first-inductor signal and a feedback signal for generating a first-switching signal. The first-switching signal is utilized to switch the first inductor for power factor correction. A phase-detection circuit detects the first-switching signal and a second-inductor signal for generating a start signal and a phase-lock signal. The start signal is developed to enable a second-switching signal. The second-switching signal is coupled to switch a second inductor. An on-time-adjust circuit is coupled to adjust the on time of the second-switching signal in accordance with the phase-lock signal. The phase-lock signal is correlated to the period between the end of the second-inductor signal and the start of the second-switching signal. | 04-09-2009 |
| 20090251115 | Rapid Supply Voltage Ramp - In one embodiment, an apparatus is provided for a system including an integrated circuit coupled to a node to receive a supply voltage and having bypass capacitors coupled in parallel with the integrated circuit to the node. The apparatus comprises a first capacitor, a switch coupled to the first capacitor, and a voltage source configured to charge the first capacitor. The switch is coupled to receive a control signal that is asserted, during use, if the supply voltage to an integrated circuit is to be increased. The switch is configured to electrically couple the first capacitor to the node in response to an assertion of the control signal. When electrically coupled to the node, the first capacitor supplies charge to the bypass capacitors. A system comprising the apparatus, the node, the integrated circuit, and the bypass capacitors is also contemplated in some embodiments. | 10-08-2009 |
| 20120068672 | SEMICONDUCTOR INTEGRATED CIRCUIT AND METHOD OF CONTROLLING MEMS-TYPE VARIABLE CAPACITANCE CAPACITOR - A first pump circuit generates a first voltage for decreasing the distance between primary electrodes. The first voltage is limited to a predetermined limit by a first limiter circuit. A second pump circuit generates a second voltage for keeping the distance between the primary electrodes constant. A third pump circuit generates the second voltage and has a supplying capacity smaller than the first one. The second voltage is limited by second and third limiter circuits. A ripple capacitor is charged up to the second voltage by the second pump circuit and the second limiter circuit within a period of time the first voltage is being generated. When a supplying voltage of the first pump circuit reaches to the first voltage, and a deformation stops, the second voltage is supplied by the third pump circuit and the third limiter circuit instead of the second pump circuit and the second limiter circuit. | 03-22-2012 |
| 323244000 | With synchronization | 2 |
| 20100315049 | METHOD FOR CONTROLLING AN INTERLEAVING MULTIPHASE CONVERTER AND CORRESPONDING CONTROLLER - A method is provided for controlling a converter of the multiphase interleaving type. According to the method, there is detected when a change of a load applied to an output terminal of the converter occurs. When detected, all of the phases of the converter are simultaneously turned off by the generation of suitable PWM driving signals. The PWM driving signals are controlled so as to force the turn-on of the phases at the same time and to zero a time phase shift of driving of the interleaving type of the PWM driving signals. The interleaving of the driving time phase shift is recovered and a normal operation of the converter is restarted. A controller for controlling a converter of the multiphase interleaving type is also provided. | 12-16-2010 |
| 20120306462 | Electricity Generation Device and Permanent-Magnet Electric Generator - An electricity generation device includes a permanent-magnet electric generator with three or more phase windings each having an output terminal and connected to a neutral point, and bidirectional semiconductor switching circuits capable of interrupting connections between the respective phase windings and the neutral point. Each switching circuit allows current to flow in both directions. A gate signal generation circuit outputs to one of the switching circuits during a period including the time at which the AC voltage excited in the corresponding phase winding turns from positive to negative and during a period including the time at which the AC voltage excited in the corresponding phase winding turns from negative to positive. A startup gate signal output circuit outputs a startup gate signal to all of the bidirectional semiconductor switching circuits when the permanent-magnet electric generator is to be started. | 12-06-2012 |
| 323246000 | With plural condition sensing | 2 |
| 20130293205 | Control of cross-over point - There is provided an output stage comprising: a phase splitter for receiving an input signal and for generating first and second drive signals of opposite phase in dependence thereon; a DC offset signal generator for generating a DC offset signal; an adder for adding the DC offset signal to the first drive signal to provide a first modified drive signal; a subtractor for subtracting the DC offset signal from the second drive signal to provide a second modified drive signal; a first drive transistor associated with a first power supply voltage, for generating a first output signal in dependence on the first modified drive signal; a second drive transistor associated with a second power supply voltage, for generating a second output signal in dependence on the second modified drive signal; and a combiner for combining the first and second output signals to generate a phase combined output signal. | 11-07-2013 |
| 20150084606 | DC/DC CONVERTER - The present invention includes: a zero crossing detection circuit which outputs a zero crossing signal when an inductor's regeneration period is completed; a light load detection circuit which compares an amplified error signal from an error amplifier and a threshold and outputs a light load signal; a timer circuit which outputs an intermittent operation enabling signal after a predetermined period based on the light load signal and zero crossing signal and outputs an intermittent operation disabling signal when the zero crossing signal is not outputted for a predetermined period; and an ON-OFF control controller which turns off a switching element when the amplified error signal falls below the threshold while the timer circuit is outputting the intermittent operation enabling signal, and turns on the switching element when the amplified error signal at least reaches or exceeds the threshold while the timer circuit is outputting the intermittent operation enabling signal. | 03-26-2015 |
