Entries |
Document | Title | Date |
20080218136 | Power supply circuit - A disclosed power supply circuit ( | 09-11-2008 |
20080224672 | DC/DC converter controlled by pulse width modulation with high efficiency for low output current - An embodiment of a DC voltage converter, producing an output voltage (VS) at an output terminal from an energy source, comprises: | 09-18-2008 |
20090027016 | AUXILIARY LIGHTING CIRCUIT FOR A GASEOUS DISCHARGE LAMP - A non-arcing electrical switch comprising means for sensing current, means for impressing a source potential across the electrical switch, means for controlling voltage; and means for controlling phase, wherein the means for sensing current, the means for impressing a source potential across the electrical switch, the means for controlling phase and the means for controlling voltage are operably connected. | 01-29-2009 |
20090051335 | Multi-phase DC-DC converter and method for balancing channel currents - A multi-phase DC-DC converter is provided. A plurality of switching sets are coupled to an output, wherein each switching set includes a phase node. A plurality of inductors are separately coupled between the phase nodes and the output. A sense circuit has a plurality of sense units separately coupled to the phase nodes, each sensing a signal from the corresponding phase node and generating a sensing signal. A PWM generator includes a plurality of subtracting units, each subtracting a first signal from one of the sensing signals to generate a difference signal, wherein the first signal is generated by summing each of the sensing signals divided by a predetermined value except for the one of the sensing signals. The PWM generator generates a plurality of PWM signals to balance the currents of the inductors according to the difference signals. | 02-26-2009 |
20090072799 | Voltage generator - A voltage generator is provided. The voltage generator includes a voltage pump and a voltage controller. The voltage pump generates a target voltage using a clock signal. The voltage controller compares a temporary voltage input from the voltage pump with a reference voltage to generate a control signal controlling the voltage pump. The voltage controller includes a string of a plurality of resistors connected in series to change a level of the temporary voltage to a voltage level of a corresponding comparison voltage. When the plurality of resistors are in a string, a resistance of a resistor closest to one end of the string is greater than resistances of other resistors of the string. The voltage controller may further include a jumping unit controlling connection or disconnection of two arbitrary nodes among first to n-th nodes (where n is a natural number) defined as connection points of the adjacent resistors of the string. Accordingly, the voltage generator can generate a voltage of with a more accurate level. | 03-19-2009 |
20090085533 | Parallel supply current sharing using thermal feedback - The current sharing using thermal feedback, in accordance with various embodiments, includes controlling an amount of current output from each of a plurality of power modules based on the thermal characteristics of each respective power module. | 04-02-2009 |
20090153109 | MULTI-CELL VOLTAGE REGULATOR - In some embodiments, the number of active cells in a multi-cell voltage regulator is controlled so that the current-per-active-cell approaches a predefined target or to be within an acceptable range so that the active cells operate with suitable efficiency. | 06-18-2009 |
20090160411 | FAST VOLTAGE REGULATORS FOR CHARGE PUMPS - A digital multilevel memory system includes a charge pump and a voltage regulator for generating regulated high voltages for various memory operations. The charge pump may include a plurality of boost circuits to boost the output of the charge pump during a fast start up. Afterwards, the boost circuits are disabled to allow the charge pump to generate high voltages without boosting. The boost circuits may be successively enabled to boost the voltage. The boost circuits may be loadless. The voltage regulator may operate in an open loop and may include a resistive divider as a reference voltage for regulating the high voltage from the charge pump. The charge pump may include spread spectrum pump clocking to reduce electromagnetic inference for capacitor or inductor on-chip charge pumping. | 06-25-2009 |
20090212751 | Controller for a Power Converter and Method of Operating The Same - A controller for use with a power converter including a switch configured to conduct to provide a regulated output characteristic at an output of the power converter, and method of operating the same. In one embodiment, the controller includes a linear control circuit, coupled to the output, configured to provide a first control signal for the switch as a function of the output characteristic. The controller also includes a nonlinear control circuit, coupled to the output, configured to provide a second control signal for the switch as a function of the output characteristic. The controller is configured to select one of the first and second control signals for the switch in response to a change in an operating condition of the power converter. | 08-27-2009 |
20090267577 | High voltage start-up circuit with constant current control - A high voltage start-up circuit with constant current control applied to a switching mode power converter is provided. The high voltage start-up circuit includes a high voltage junction transistor, a control transistor, a current detecting resistor and a bias resistor. The drain of the junction transistor is connected to a high power supply, the gate of the junction transistor is connected to the drain of the control transistor, and the source of the junction transistor is connected to the current detecting resistor. The voltage drop crossing the current detecting resistor is kept constant to have the junction transistor output a constant current. The bias resistor which is connected between the gate of the junction transistor and the output end of the high voltage start-up circuit has the gate to source bias voltage of the junction transistor kept constant to output constant current. | 10-29-2009 |
20100109621 | CURRENT BALANCING CIRCUIT AND METHOD - A multi-phase power converter and a method for balancing a plurality of currents in the multi-phase power converter. The multi-phase power converter has a pulse width modulation circuit, a current ordering circuit, and a plurality of currents, wherein each current of the plurality of currents has an associated phase. The converter determines the phase associated with one or more currents of a plurality of currents and whether a phase associated with one or more currents of the plurality of currents is active. The current levels of the plurality of currents are determined and a phase associated with a current having one of a lowest current level or a highest current level is activated. | 05-06-2010 |
20100277142 | On-Chip Current Sensing - One embodiment of the invention includes an on-chip current-sense system for measuring a magnitude of an output current through a power transistor. The system includes a first sense transistor that conducts a first reference current to or from a phase node and a second sense transistor configured to conduct a second reference current to or from a power rail. The first and second sense transistors can be substantially identical and can be proportionally matched to the power transistor. An OTA receives the first and second reference currents and a third reference current that flows to or from the phase node and generates a sense current that is proportional to the output current in response to the first, second, and third reference currents. A sense circuit compares the sense current with a predetermined magnitude and generates an over-current signal in response to the sense current being greater than the predetermined magnitude to indicate an over-current condition of the output current. | 11-04-2010 |
20100283438 | OUTPUT COMPENSATOR FOR A REGULATOR - An output compensator for a regulator is provided that can improve the dynamic response of a regulator, and which does not require the redesigning of the power conversion stage or control stage of the regulator, but simple circuit connection of the compensator circuit to the output stage of the regulator. The compensator senses an output signal at a passive component at an output of the regulator; generates a compensating signal based on a difference signal, the difference being a difference between a level of a reference signal for the regulator and the sensed output signal; and applies the compensating signal to the passive output component to reduce the difference between the level of the reference signal and the sensed output signal. The passive output component may be, for example, a capacitor or an inductor, depending on the operation of the regulator. | 11-11-2010 |
20100320976 | DC-DC CONVERTERS HAVING IMPROVED CURRENT SENSING AND RELATED METHODS - A DC-DC converter includes a chip including an error amplifier and a pulse width modulator (PWM) having an input connected to an output of the error amplifier, and an inductor driven by said PWM in series with an output node (V | 12-23-2010 |
20110018506 | H-BRIDGE CIRCUIT AND METHOD FOR OPERATING SUCH CIRCUIT - A H-bridge circuit for supplying a load with a defined current comprises a first transistor for coupling a first terminal of the load to a positive potential of a power source; a second transistor for coupling the first terminal of the load to a negative potential of the power source; a third transistor for coupling a second terminal of the load to the positive potential of the power source; and a fourth transistor for coupling the second terminal of the load to the negative potential of the power source. The circuit further comprises a current sensing circuitry for sensing a current flowing through the load and for generating a voltage signal representative of the current, and a control circuit for individually controlling the operation of the first, second, third and fourth transistors by respective first, second, third and fourth control signals. The control circuit is configured for operating two transistors of the first, second, third and fourth transistors in switching mode and the remaining two transistors in linear mode. Each of the linear mode transistors has a feedback circuit associated therewith, which is operatively coupled to the control circuit and to the current sensing circuitry. Each such feedback circuit comprises a resistive element coupled between the gate/base of the associated linear mode transistor and the power source. The feedback circuits comprise a feedback transistor coupled between the gate/base of the associated linear mode transistor and the current sensing circuitry, the base/gate of the feedback transistor being connected to the control circuit for receiving the control signal for the associated linear mode transistor. The feedback transistor controls the voltage on the gate/base of the associated linear mode transistor so that a difference between the voltage signal of said current sensing circuitry and the respective control signal from said control circuit is maintained at a constant level | 01-27-2011 |
20110068756 | BAND-GAP REFERENCE VOLTAGE GENERATION CIRCUIT - A band-gap reference voltage generation circuit and methods thereof. A band-gap reference voltage generation circuit may include a current generator configured to generate a first current and/or a second current. A band-gap reference voltage generation circuit may include a current controller including a first resistor, through which a first current may flow, a first bipolar transistor connected with a first resistor at an emitter of a first bipolar transistor and/or connected with a node at a base of a first bipolar transistor, and/or a second bipolar transistor connected with a node at a base of a second bipolar transistor. A band-gap reference voltage generation circuit may include a current controller to generate a proportional to absolute temperature current, a feedback unit to control first and second currents to be substantially equal, and a band-gap voltage output unit to generate a reference voltage in response to a PTAT current. | 03-24-2011 |
20110121799 | Fast Voltage Regulators For Charge Pumps - A digital multilevel memory system includes a charge pump and a voltage regulator for generating regulated high voltages for various memory operations. The charge pump may include a plurality of boost circuits to boost the output of the charge pump during a fast start up. Afterwards, the boost circuits are disabled to allow the charge pump to generate high voltages without boosting. The boost circuits may be successively enabled to boost the voltage. The boost circuits may be loadless. The voltage regulator may operate in an open loop and may include a resistive divider as a reference voltage for regulating the high voltage from the charge pump. The charge pump may include spread spectrum pump clocking to reduce electromagnetic inference for capacitor or inductor on-chip charge pumping. | 05-26-2011 |
20110241632 | POWER SOURCE APPARATUS, CONTROL CIRCUIT, AND METHOD OF CONTROLLING POWER SOURCE APPARATUS - A power source apparatus includes: a switch circuit to receive an input voltage; a control circuit to switch the switch circuit from a second state to a first state at a timing corresponding to a comparison result between a feedback voltage generated based on a first voltage corresponding to an output voltage and a reference voltage generated based on a standard voltage set in accordance with the output voltage; and a voltage generation circuit to add a compensation voltage generated by voltage-converting a time period in which the switch circuit switches from the second state to the first state to one of the first voltage and the standard voltage, to generate the feedback voltage, to add a slope voltage which changes at a slope to one of the first voltage and the standard voltage, and to generate the reference voltage. | 10-06-2011 |
20110316499 | Current Source Regulator - A current source regulator for controlling an output device (Mp) of current source, the output device (Mp) providing an output current (Isrc) to a load. The current source regulator comprises a first feedback loop ( | 12-29-2011 |
20110316500 | CONTROLLED DELIVERY OF A CHARGING CURRENT TO A BOOST CAPACITOR OF A VOLTAGE REGULATOR - Disclosed are devices, apparatus, circuitry, components, mechanisms, modules, units, systems, and processes for controlling a power switch of a voltage regulator. A capacitor is coupled to an output of the power switch. Charge delivery circuitry is coupled to the capacitor and configured to provide a charging current to the capacitor. Charge control circuitry can be coupled to the charge delivery circuitry and configured to selectively allow the providing of the charging current to the capacitor. | 12-29-2011 |
20110316501 | Controller for a Power Converter and Method of Operating the Same - A controller for use with a power converter including a switch configured to conduct to provide a regulated output characteristic at an output of the power converter, and method of operating the same. In one embodiment, the controller includes a linear control circuit, coupled to the output, configured to provide a first control signal for the switch as a function of the output characteristic. The controller also includes a nonlinear control circuit, coupled to the output, configured to provide a second control signal for the switch as a function of the output characteristic. The controller is configured to select one of the first and second control signals for the switch in response to a change in an operating condition of the power converter. | 12-29-2011 |
20120013315 | CIRCUITS AND METHODS FOR CONTROLLING A DC/DC CONVERTER - A converter circuit includes a converter and a controller. The converter converts an input voltage to an output voltage. The controller receives a reference voltage, generates a slew voltage having a substantially constant first slew rate if the reference voltage changes from a first level to a second level, and controls the converter based on the slew voltage to cause the output voltage to change from a third level to a fourth level at a substantially constant second slew rate. | 01-19-2012 |
20120032655 | MULTISTAGE VOLTAGE REGULATOR CIRCUIT - A circuit including a multistage voltage regulator having a plurality of stages each including a regulated node and a bias transistor. The bias transistors and regulated nodes are configured to control the voltage of the regulated nodes. For at least some of the stages, the regulated nodes are coupled to voltage supply terminals of circuit modules of the stages. | 02-09-2012 |
20120032656 | VOLTAGE REGULATOR FOR IMPEDANCE MATCHING AND PRE-EMPHASIS, METHOD OF REGULATING VOLTAGE FOR IMPEDANCE MATCHING AND PRE-EMPHASIS, VOLTAGE MODE DRIVER INCLUDING THE VOLTAGE REGULATOR, AND VOLTAGE-MODE DRIVER USING THE METHOD - Disclosed herein are a voltage regulator for impedance matching and pre-emphasis, a method of regulating voltage for impedance matching and pre-emphasis, and a voltage mode driver using the voltage regulator and the method. The voltage regulator includes a first loop circuit configured to regulate a supply voltage for a pre-driver of a main tap, a second loop circuit configured to regulate a supply voltage for a pre-driver of a pre-emphasis tap, and a driver voltage determination unit configured to include a reference resistor and to determine supply voltage for the voltage mode driver. The first loop circuit includes a variable resistor, a first main tap replica, and a first OP amp, and the second loop circuit includes a resistor having a resistance value identical to that of the reference resistor of the voltage regulator, a second main tap replica, a pre-emphasis tap replica, and a second OP amp. | 02-09-2012 |
20120169305 | MULTI-VOLTAGE REGULATOR - Disclosed herein is a multi-voltage regulator. The multi-voltage regulator includes an error amplifier amplifying a difference voltage between a predetermined reference voltage and a received feedback voltage; a first voltage adjusting part connected to an output terminal of the error amplifier, the first voltage adjusting part regulating a level of a voltage at a power input terminal to output the regulated voltage to a first output terminal; a second voltage adjusting part connected to the output terminal of the error amplifier, the second voltage adjusting part regulating the level of the voltage at the power input terminal to output the regulated voltage to a second output terminal; and a voltage detector detecting a voltage according to a voltage at the first output terminal and a voltage at the second output terminal to supply the detected voltage as the feedback voltage. | 07-05-2012 |
20120212194 | REFERENCE VOLTAGE CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - A reference voltage circuit includes a first amplifier, a first load device and a first PN junction device, second and third load devices and a second PN junction device, an offset voltage reduction circuit, a coupling node potential takeout circuit, and an area adjustment circuit. The offset voltage reduction circuit is configured to reduce an offset voltage between the first and second input terminals at the first amplifier, and the coupling node potential takeout circuit is configured to take out potentials of the first and second coupling nodes. The area adjustment circuit is configured to adjust an area of the second PN junction device in accordance with the potentials of the first and second coupling nodes which are taken out by the coupling node potential takeout circuit. | 08-23-2012 |
20120223684 | VOLTAGE REGULATOR AND INTEGRATED CIRCUIT INCLUDING THE SAME - A voltage regulator includes a power supply unit configured to generate a power supply voltage based on a reference voltage and a feedback voltage, configured to control a current level of a power supply line based on a first control signal, and configured to generate a driving signal based on a second control signal, the power supply voltage being provided to an external logic circuit through the power supply line, and the current level of the power supply line being additionally controlled outside the power supply unit based on the driving signal, and a feedback unit configured to generate the feedback voltage based on the power supply voltage, and configured to control a level of the feedback voltage based on a third control signal. | 09-06-2012 |
20120256607 | SEMICONDUCTOR DEVICE - A semiconductor device includes: a voltage-control-type clock generation circuit having a plurality of stages of first delay elements and whose oscillation frequency is controlled according to a control voltage applied to the first delay elements; a delay circuit having a plurality of stages of second delay elements connected serially; and a selection circuit selecting one from pulse signals output by the plurality of stages of respective second delay elements. The first delay elements and the second delay elements have a same structure formed on a same semiconductor substrate, and a delay amount of the second delay elements is adjusted according to the control voltage. | 10-11-2012 |
20130033242 | VOLTAGE REGULATOR WITH CHARGE PUMP - In one embodiment, a regulator circuit is provided. The regulator circuit includes a control circuit configured and arranged to adjust an oscillation frequency of a variable frequency oscillator in response to a feedback signal indicating the regulated output voltage. A charge pump is coupled to an output of the variable frequency oscillator and is configured to charge one or more energy storage elements in response to the output of the variable frequency oscillator. The regulator circuit includes a plurality of output stages, each having an input driven by the output of the charge pump and being configured to drive the regulated output voltage. Each output stage is selectably enabled or disabled in response to respective enable signal provided to the output regulator by an enable control circuit. | 02-07-2013 |
20130057236 | LOW VOLTAGE RIDE-THROUGH CONTROL METHOD FOR GRID-CONNECTED CONVERTER OF DISTRIBUTED ENERGY RESOURCES - An LVRT control method for a grid-connected converter of distributed energy resources comprises steps of: obtain a positive sequence electrical component and a negative sequence electrical component during an LVRT period; outputting a compensation signal according to a power threshold withstood by a grid-connected converter to undertake reactive power compensation; and constraining the output power lower than the power threshold. The present invention uses the positive and negative sequence electrical components to undertake reactive power compensation, whereby to improve balance and stability of voltage during the LVRT period, avoid reverse torque and mechanical resonance, and prolong the service life of the power generator. Moreover, the present invention constrains the sum of the compensation currents below the power threshold to prevent the circuit of the power generator from being overloaded and damaged, whereby is prolonged the service life of the power system. | 03-07-2013 |
20130063103 | Leakage-Current Compensation For A Voltage Regulator - In one embodiment, a method includes generating a drive current. Generation of the drive current results in a first leakage current, and the drive current and first leakage current each flow into a first node. The method also includes generating a second leakage current and amplifying the second leakage current to generate a leakage-compensation current. The leakage-compensation current flows away from the first node. | 03-14-2013 |
20130127427 | REGULATOR, ELECTRONIC DEVICE INCLUDING THE REGULATOR - A regulator includes an output circuit receives a feedback voltage and provides an output current based on the feedback voltage, an output voltage of the regulator is based on the output current; a first MOSFET coupled to the output circuit and receives the output voltage of the regulator; a second MOSFET coupled to the first MOSFET provides the feedback voltage based on, at least in part, the output voltage; a current sink coupled to the first MOSFET and the second MOSFET and receive jointly a current from the first MOSFET and a current from the second MOSFET; a current source coupled to the second MOSFET and provides the second MOSFET with the current, a connection of the current source and the second MOSFET is further coupled to the output circuit and provides the feedback voltage based on, at least in part, the current in the second MOSFET. | 05-23-2013 |
20130162229 | CHARGE PUMP FEEDBACK CONTROL DEVICE AND METHOD USING THE SAME - Charge pump feedback control device and method are provided. The device is coupled to the charge pump unit which receives an input voltage so as to generate an output voltage and has switches and at least one capacitor, the device includes: a compensation unit, a modulation unit, and a phase control unit. The compensation unit receives the output voltage, compensates the output voltage for stability, and generates an error signal. The modulation unit receives the error signal, modulates the error signal, and correspondingly generates a modulation signal. The phase control unit receives the modulation signal so as to generate phase signal, and controls the plurality of switches of the charge pump unit according to the plurality of phase signal so as to generate the output voltage through the input voltage charging/discharging at least one capacitor of the charge pump unit. | 06-27-2013 |
20130193935 | VOLTAGE REFERENCE GENERATION CIRCUIT USING GATE-TO-SOURCE VOLTAGE DIFFERENCE AND RELATED METHOD THEREOF, AND VOLTAGE REGULATION CIRCUIT HAVING COMMON-SOURCE CONFIGURATION AND RELATED METHOD THEREOF - A voltage reference generation circuit includes a current supply circuit and a core circuit. The current supply circuit is arranged to provide a plurality of currents. The core circuit is coupled to the current supply circuit, and arranged to receive the currents and accordingly generate a voltage reference. The core circuit includes a first transistor, a second transistor and a third transistor, wherein the first transistor and the third transistor generate a first gate-to-source voltage and a third gate-to-source voltage, respectively, according to a first current of the received currents; the second transistor generates a second gate-to-source voltage according to a second current of the received currents; and the voltage reference is generated according to the first gate-to-source voltage, the second gate-to-source voltage and the third gate-to-source voltage. | 08-01-2013 |
20140253057 | Compensation Scheme to Improve the Stability of the Operational Amplifiers - A right-half plane (RHP) zero (RHZ) compensation scheme to improve the stability of the operational amplifier. A resistance R | 09-11-2014 |
20140253058 | CONTROLLER FOR A POWER CONVERTER AND METHOD OF OPERATING THE SAME - A controller for use with a power converter including a switch configured to conduct to provide a regulated output characteristic at an output of the power converter, and method of operating the same. In one embodiment, the controller includes a linear control circuit, coupled to the output, configured to provide a first control signal for the switch as a function of the output characteristic. The controller also includes a nonlinear control circuit, coupled to the output, configured to provide a second control signal for the switch as a function of the output characteristic. The controller is configured to select one of the first and second control signals for the switch in response to a change in an operating condition of the power converter. | 09-11-2014 |
20140266089 | CONTROLLED START-UP OF A LINEAR VOLTAGE REGULATOR WHERE INPUT SUPPLY VOLTAGE IS HIGHER THAN DEVICE OPERATIONAL VOLTAGE - A controlled start-up circuit mechanism in a linear voltage regulator can handle a higher supply voltage at start-up and limits the voltage seen at the devices to be lower than the maximum allowed operation voltage. The circuit may regulate voltage for operating a device coupled to a host when the host supply exceeds that necessary for device operation. The controlled start-up mechanism handles a sudden ramp up or spike of supply voltage relative to the device's operational voltage. | 09-18-2014 |
20140327418 | Extended Current Capability for Power Sourcing Equipment - A current mirror (e.g., an N or P channel MOSFET current mirror) is present in a load current delivery path. The current delivery path typically includes a network connection, e.g., for power over Ethernet applications. The current mirror provides a reference output, and the load current flows through a primary transistor in the current mirror from a load current input to a load current output of the primary transistor. A mirror transistor generates a sense current on the reference output that is a fractional amount of the load current. A power controller monitors the reference output and controls the current mirror to allow or prevent the load current flowing through the network connection. For example, the power controller may disable the primary transistor and the delivery of load current, when the load is demanding too much load current. | 11-06-2014 |
20140340058 | NMOS LDO PSRR IMPROVEMENT USING POWER SUPPLY NOISE CANCELLATION - Power-supply ripple rejection (PSRR) at high frequencies is improved for an LDO voltage regulator with an NMOS pass transistor (MN | 11-20-2014 |
20150028828 | VOLTAGE CONVERSION CIRCUIT AND ELECTRONIC SYSTEM USING THE SAME - A voltage conversion circuit is disclosed. The voltage conversion circuit includes an inductor, a first switch transistor, a second switch transistor, a first resistor, a second resistor and a P type transistor. When an input voltage is larger than an output voltage and a switch signal is transited to low voltage level, a control signal is a clamping voltage and the P type transistor enters into a saturation region, so that a drain voltage of the first switch transistor is a sum of the clamping voltage and a source-gate voltage of the P type transistor. When an output voltage is larger than an input voltage and a switch signal is changed to low voltage level, the control signal is the switch signal and the P type transistor enters into a linear region, so that a drain voltage of the first switch transistor is sum of the output voltage and voltage-drop of the P type transistor. | 01-29-2015 |
20150054476 | VOLTAGE ADJUSTING CIRCUIT - A circuit comprises a detection node and a feedback node adapted to communicate with a reference circuit. A clamping, transistor comprises current conducting terminals and a gate coupled to the detection node. An amplifier transistor comprises current conducting terminals in series with the current conducting terminals of the clamping transistor and a gate coupled to the detection node. The amplifier transistor is configured to cause a second voltage to be provided to the feedback node in response to the clamping transistor receiving a first voltage from the detection node. | 02-26-2015 |
20150077071 | LOW POWER CONVERSION AND MANAGEMENT OF ENERGY HARVESTING APPLICATIONS - A method and apparatus for low voltage conversion and energy storage uses a charge pump array including a first set of capacitors in parallel with a second set of capacitors and switches for selectively coupling the first and second set of capacitors to a variable input DC voltage. A data processor programmably controls one or more of the switches to couple the first and second set of capacitors to the variable input DC voltage for a variable first time period during which the input DC voltage charges the first and second set of capacitors to a DC voltage level. An energy storage device is switchably coupled to an output of the charge pump array. The data processor programmably controls one or more of the switches to couple the charge pump array output to the energy storage device for a variable second time period during which a voltage stored across each of the capacitors during the first time period is combined to produce a higher voltage significantly higher than the input DC voltage, the higher voltage being provided to the energy storage device. | 03-19-2015 |
20150108953 | VOLTAGE REGULATOR - Provided is a voltage regulator including a leakage current sink circuit capable of suppressing an influence of a leakage current of an output transistor at high temperature, and reducing power consumption of the voltage regulator at normal temperature. The voltage regulator includes: a reference voltage circuit configured to output a reference voltage; an output transistor configured to output an output voltage; a voltage divider circuit configured to divide the output voltage to output a feedback voltage; an error amplifier circuit configured to amplify a difference between the reference voltage and the feedback voltage, and output the amplified difference to control a gate of the output transistor; and a leakage current sink circuit connected to an output terminal and configured to be prevented from operating at normal temperature, and suppress an influence of a leakage current from the output transistor only at high temperature. | 04-23-2015 |
20160020696 | POWER SYSTEM AND CONTROL DEVICE - According to a power system includes a linear regulator, a step-down switching regulator, and a controller. The linear regulator supplies electrical power to a load. The step-down switching regulator supplies electrical power to the load. Based on input voltage of the linear regulator and the step-down switching regulator and based on load current representing electrical current flowing to the load, the controller performs control to supply electrical power to the load from one of the linear regulator and the switching regulator. | 01-21-2016 |
20160062378 | DC-DC SWITCHED CAPACITOR VOLTAGE CONVERTER WITH SERIES AND PARALLEL SWITCHED CAPACITORS DURING DISCHARGE - A switched capacitor voltage converter is provided that includes an array of switches configured to alternately switch multiple capacitors between a charge configuration in which the multiple capacitors are coupled in series with each other and in parallel with the source voltage and a discharge configuration in which a first set of capacitors having n capacitors are coupled in parallel with each other and in series with the load and a second set of capacitors having m capacitors coupled in parallel with the load. | 03-03-2016 |
20160065071 | Buck DC/DC Converter and Control IC Thereof, Communication Machine for Office, Electric Bicycle - The present invention relates to improving the reliability of the control IC of DC/DC converters. The present invention provides a control IC | 03-03-2016 |
20160091916 | Bandgap Circuits and Related Method - A device includes a bandgap reference stage, a mirror current source, a voltage control circuit, and a resistive device. The mirror current source has a control terminal electrically coupled to an internal node of the bandgap reference stage. The voltage control circuit includes a first terminal electrically coupled to a second internal node of the bandgap reference stage, and a second terminal electrically coupled to a first terminal of the mirror current source. The resistive device has a first terminal electrically coupled to a third terminal of the voltage control circuit. | 03-31-2016 |
20160111950 | REDUCED SLEEP CURRENT IN POWER CONVERTERS - A low standby power DC-DC converter can be powered down during standby mode. The DC-DC converter can be periodically awakened between sleep cycles to check if the output voltage needs to be recharged (refreshed). The duration of the sleep cycles can be varied to accommodate for changing load conditions that would affect the output voltage. | 04-21-2016 |
20160118884 | System and Apparatus for Improving the Utility of Regulators and Associated Methods - An integrated circuit (IC) includes a first circuit that is powered by a first supply voltage, and a second circuit that is powered by a second supply voltage. The second supply voltage has a lower level than the first supply voltage. The IC further includes a power management circuit. The power management circuit includes a switch-mode DC-DC regulator that is coupled to a plurality of pins of the IC in a pre-defined configuration. The power management circuit provides the first and second supply voltages to power up the IC in a default configuration without knowledge of the pre-defined configuration. | 04-28-2016 |
20160124448 | CAPACITOR-LESS LOW DROP-OUT (LDO) REGULATOR - An integrated circuit including a low drop out (LDO) regulator configured to implement transient response and loop stability in a capacitor-less configuration, including an error amplifier configured to receive a bandgap reference input; first and second pass elements configured to receive outputs from the error amplifier; first and second resistor feedback networks, the first resistor network configured to provide a feedback output as an input to the error amplifier; an overshoot protection circuit; and an output connected to the pass transistors; wherein the capacitor-less low dropout (LDO) regulator is operable without an output capacitor. | 05-05-2016 |
20160195885 | VALIDATION CIRCUIT FOR REFERENCE VOLTAGE SHIFTED DATA | 07-07-2016 |
20160252920 | APPARATUSES AND METHODS FOR TEMPERATURE INDEPENDENT CURRENT GENERATIONS | 09-01-2016 |