RICHTEK TECHNOLOGY CORPORATION Patent applications |
Patent application number | Title | Published |
20160131679 | MIRCO-ELECTRO-MECHANICAL SYSTEM (MEMS) DEVICE - The invention provides a MEMS device. The MEMS device includes: a substrate; a proof mass, including at least two slots, each of the slots including an inner space and an opening, the inner space being relatively closer to a center area of the proof mass than the opening; at least two anchors located in the corresponding slots and connected to the substrate; at least two linkages located in the corresponding slots and connected to the corresponding anchors; and a multi-dimensional spring structure for assisting a multi-dimensional movement of the proof mass, the multi-dimensional spring structure surrounding a periphery of the proof mass, and connected to the substrate through the linkages and the anchors. The multi-dimensional spring structure includes first and second springs for assisting an out-of-plane movement and an in-plane movement of the proof mass. | 05-12-2016 |
20160111519 | INSULATED GATE BIPOLAR TRANSISTOR WITH A LATERAL GATE STRUCTURE AND GALLIUM NITRIDE SUBSTRATE AND MANUFACTURING METHOD THEREOF - The present invention discloses an insulated gate bipolar transistor (IGBT) and a manufacturing method thereof. The IGBT includes: a gallium nitride (GaN) substrate, a first GaN layer with a first conductive type, a second GaN layer with a first conductive type, a third GaN layer with a second conductive type or an intrinsic conductive type, and a gate formed on the GaN substrate. The first GaN layer is formed on the GaN substrate and has a side wall vertical to the GaN substrate. The second GaN layer is formed on the GaN substrate and is separated from the first GaN layer by the gate. The third GaN layer is formed on the first GaN layer and is separated from the GaN substrate by the first GaN layer. The gate has a side plate adjacent to the side wall in a lateral direction to control a channel. | 04-21-2016 |
20160100463 | LIGHT EMITTING DEVICE DRIVER CHIP - The present invention discloses a light emitting device driver chip for driving light emitting devices in series. The chip includes: plural pins electrically connected to corresponding light emitting devices, respectively, wherein an internal voltage is provided through a predetermined one of the pins; a voltage regulation circuit for providing an operation voltage according to the internal voltage; a switch circuit including plural switch groups electrically connected to corresponding pins, respectively; a current source circuit for providing a current to the light emitting devices; and a switch control circuit for controlling the switch groups to determine which light emitting device is turned ON. The light emitting device driver chip does not directly receive the rectified input voltage. | 04-07-2016 |
20160099320 | SEMICONDUCTOR COMPOSITE FILM WITH HETEROJUNCTION AND MANUFACTURING METHOD THEREOF - The present invention discloses a semiconductor composite film with a heterojunction and a manufacturing method thereof. The semiconductor composite film includes: a semiconductor substrate; and a semiconductor epitaxial layer, which is formed on the semiconductor substrate, and it has a first surface and a second surface opposite to each other, wherein the heterojunction is formed between the first surface and the semiconductor substrate, and wherein the semiconductor epitaxial layer further includes at least one recess, which is formed by etching the semiconductor epitaxial layer from the second surface toward the first surface. The recess is for mitigating a strain in the semiconductor composite film. | 04-07-2016 |
20160096728 | MEMS Chip and Manufacturing Method Thereof - A MEMS chip includes a cap layer and a composite device layer. The cap layer includes a substrate. The substrate has a first region and a second region, wherein the first region includes plural first trenches and the second region has plural second trenches. The first region has a first etch pattern density and the second region has a second etch pattern density, wherein the first etch pattern density is higher than the second etch pattern density to form chambers of different pressures. | 04-07-2016 |
20160073461 | LIGHT EMITTING DEVICE DRIVER CIRCUIT - The present invention discloses a light emitting device driver circuit. The light emitting device driver circuit drives a light emitting device circuit. The light emitting device circuit includes plural light emitting devices connected in series and a diode circuit, wherein the plural light emitting devices are divided to plural groups. The light emitting device driver circuit includes: a first switch circuit, a second switch circuit, a current source circuit, and a control circuit. The first switch circuit includes plural first switches connected in parallel to the corresponding groups respectively. The second switch circuit includes plural second switches coupled to a forward end and a reverse end of the diode circuit respectively, wherein the second switch circuit determines whether to conduct the forward end or the reverse end to the current source circuit according to the voltages of the forward end and the reverse end. | 03-10-2016 |
20160070281 | CONTROL CIRCUIT OF POWER CONVERTER - A control circuit of a power converter includes: an error detection circuit, configured to operably generate an error signal according to a reference signal and a feedback signal when coupling with an external feedback node of an external feedback circuit; an output signal detecting circuit, positioned inside the control circuit, configured to operably receive and detect an output signal of the power converter to generate a representative signal; an on time deciding circuit, coupled with the output signal detecting circuit, configured to operably generate an on time signal according to the representative signal; and a control signal generating circuit, coupled with the error detection circuit and the on time deciding circuit, configured to operably control on time of one or more power switches of the power converter according to the error signal and the on time signal. | 03-10-2016 |
20160070278 | CONTROL CIRCUIT OF POWER CONVERTER AND RELATED METHOD - A control circuit includes: a comparing circuit, having a first input terminal and second input terminal, configured to operably generate a comparison signal according signals received by the first and second input terminals, wherein the first input terminal is utilized for coupling with a reference signal and the second input terminal is utilized for coupling with a feedback signal; a periodic signal generating circuit configured to operably generate a periodic signal and to operably apply the periodic signal to the first input terminal or the second input terminal of the comparing circuit; and a control signal generating circuit configured to operably control an on time of a power switch according to the comparison signal. | 03-10-2016 |
20160025779 | METHOD AND CIRCUIT FOR CONFIRMING CORRECTNESS OF SIGNAL AND CHARGING SYSTEM USING SAME - A method for confirming correctness of a signal includes: providing a current to flow through a time-dependent impedance circuit, wherein the time-dependent impedance circuit provides at least two resistances at two different time points, the current flowing through the time-dependent impedance circuit to generate a first voltage at a first time point, and the current flowing through the time-dependent impedance circuit to generate a second voltage at a second time point, the first voltage and the second voltage being different from each other. When a predetermined relationship exists between the first voltage and the second voltage, it is confirmed that a signal provided from a node coupled to the time-dependent impedance circuit is correct. | 01-28-2016 |
20160021715 | LIGHT EMITTING DEVICE DRIVER CIRCUIT AND CONTROL CIRCUIT AND CONTROL METHOD THEREOF - The present invention provides a light emitting device driver circuit and a control circuit and a control method thereof. The light emitting device driver circuit is used for driving a light emitting device circuit according to a rectified dimming signal. The light emitting device driver circuit includes a power stage circuit and a control circuit. The control circuit includes a pulse width modulation (PWM) circuit, a current limit (CL) circuit, and a determination circuit. The CL circuit generates a CL signal according to a current sense signal and a predetermined CL threshold. The determination circuit is coupled to the PWM circuit and the CL circuit, for generating an operation signal according to a PWM signal and the CL signal. The power stage circuit maintains an absolute level of an AC dimming current not lower than a holding current in an ON phase period. | 01-21-2016 |
20160020825 | INPUT/OUTPUT SIGNAL PROCESSING CIRCUIT AND INPUT/OUTPUT SIGNAL PROCESSING METHOD - The present invention discloses an input/output (I/O) signal processing circuit and processing method. The I/O signal processing circuit includes a level adjustable I/O circuit and an adjustment circuit. The I/O signal processing circuit includes an output driver and/or an input comparator. The output driver transmits an output signal via a signal transmission line according to an output data. The output driver has an adjustable high operation voltage level and an adjustable low operation voltage level, which determine a high level and a low level of the output signal, respectively. The input comparator receives an input signal via the signal transmission line and comparing the input signal with an adjustable reference voltage, so as to generate an input data. The adjustment circuit generates an adjustment signal according to voltage drop related information, to correspondingly adjust the adjustable high and low operation voltage level and/or the adjustable reference voltage. | 01-21-2016 |
20160018469 | METHOD OF ESTIMATING THE STATE OF CHARGE OF A BATTERY AND SYSTEM THEREOF - The invention relates to a method for estimating the state of charge (SOC) of a battery when battery is in the at least states of: charging, discharging, and relaxing. The invention makes use of the battery voltage (VBAT) instead of the battery current. In order to build models in the method, we use standard charging and discharging processes to collect battery information. | 01-21-2016 |
20150372603 | FLYBACK POWER SUPPLY CIRCUIT WITH PROGRAMMABLE FUNCTION AND CONTROL METHOD THEREOF - The present invention discloses a flyback power supply circuit with a programmable function and a control method thereof. The flyback power supply circuit includes: a transformer circuit, a power switch circuit, a primary side control circuit, an opto-coupler circuit, and a secondary side control circuit. The primary side control circuit determines whether an over voltage condition occurs, and further determines whether to generate an over voltage protection signal to turn OFF a power switch of the power switch circuit according to a rate of increase of a feedback signal and a control level, or according to the rate of increase of the feedback signal and a rate of change of a target control signal. | 12-24-2015 |
20150372601 | POWER SUPPLY SYSTEM AND SHORT CIRCUIT AND/OR BAD CONNECTION DETECTION METHOD THEREOF, AND POWER CONVERTER THEREOF - The present invention discloses a short circuit and/or bad connection detection method for use in a power supply system. The power supply system includes a power converter which converts an input voltage to an output voltage and supplies an output current to an electronic device. In the short circuit detection method, the conversion from the input voltage to the output voltage is disabled in a disable time period, and whether a short circuit occurs is determined according to the decreasing speed of the output voltage. In the bad connection detection method, an actual voltage and an actual current received by the electronic device are compared with the output voltage and the output current, to determine whether a bad connection occurs. | 12-24-2015 |
20150366032 | RETAINING CIRCUIT AND LIGHT EMITTING DEVICE DRIVER CIRCUIT WITH RETAINING CIRCUIT - A retaining circuit includes: a low dropout regulator (LDO) circuit for generating a primary operation voltage, a secondary operation voltage generation (SOVG) circuit, and a memory circuit. The SOVG circuit generates a secondary operation voltage, and the memory circuit is powered by the secondary operation voltage to store at least one operation parameter, such that when the primary operation voltage is lower than a non-controlled level, the memory circuit holds the operation parameter to sustain operation. | 12-17-2015 |
20150366028 | LIGHT EMITTING DEVICE DRIVER CIRCUIT AND DRIVING METHOD OF LIGHT EMITTING DEVICE CIRCUIT - The present invention discloses a light emitting device driver circuit and a driving method of a light emitting device circuit. The light emitting device driver circuit is for driving a light emitting device circuit with plural light emitting devices connected in series. The light emitting device driver circuit determines a number of the conductive light emitting devices according to a rectified input voltage. The light emitting device driver circuit includes: a switch module, a current source circuit, and a total harmonic distortion (THD) compensation circuit. The THD compensation circuit generates an adjustment current according to the rectified input voltage. The current source circuit provides a light emitting device current to the light emitting device circuit according to the adjustment current, such that the THD is reduced. | 12-17-2015 |
20150364460 | TRANSIENT VOLTAGE SUPPRESSION DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a transient voltage suppression (TVS) device and a manufacturing method thereof. The TVS device limits a voltage drop between two terminals thereof not to exceed a clamp voltage. The TVS device is formed in a stack substrate including a semiconductor substrate, a P-type first epitaxial layer, and a second epitaxial layer stacked in sequence. In the TVS device, a first PN diode is connected to a Zener diode in series, wherein the series circuit is surrounded by a first shallow trench isolation (STI) region; and a second PN diode is connected in parallel to the series circuit, wherein the second PN diode is surrounded by a second STI region. The first STI region and the second STI region both extend from an upper surface to the second epitaxial layer, but not to the first epitaxial layer. | 12-17-2015 |
20150362937 | CONSTANT ON-TIME OR CONSTANT OFF-TIME SWITCHING POWER CONVERTER AND CONTROL CIRCUIT THEREOF - A constant ON-time or constant OFF-time switching power converter includes a control circuit for controlling a power switch. The control circuit includes: a constant ON-time or constant OFF-time calculation circuit, for calculating a constant ON-time or constant OFF-time; a logic circuit having inputs for receiving an output of the constant ON-time or constant OFF-time calculation circuit and a clock signal, respectively, wherein the clock signal has a frequency which is the desired fixed frequency; and a flip-flop for generating an output signal according to a set input and a reset input, wherein one of the set input and the reset input receives an output of the logic circuit, and the other one of the set input and the reset input receives a trigger signal which determines a start time of the ON-time or OFF-time. | 12-17-2015 |
20150355523 | SIGNAL PROCESSING METHOD OF MULTIPLE MIRCO-ELECTRO-MECHANICAL SYSTEM (MEMS) DEVICES AND COMBO MEMS DEVICE APPLYING THE METHOD - This invention provides a signal processing method of multiple micro-electro-mechanical system devices. The signal processing method includes: providing at least two MEMS devices; applying driving or modulating signals of different frequencies to the MEMS devices such that the MEMS devices generate respective MEMS signals with respective frequencies; and combining the MEMS signals with respective frequencies into one or more multi-frequency signals and outputting the multi-frequency signals, wherein a number of the multi-frequency signals is less than a number of the MEMS signals with respective frequencies. This invention also provides a combo MEMS device integrating two or more MEMS devices and two or more vibration sources. | 12-10-2015 |
20150340944 | LIGHT EMITTING DEVICE DRIVER CIRCUIT, CURRENT RIPPLE REJECTER THEREIN, AND CURRENT RIPPLE REJECTION METHOD THEREFOR - The present invention discloses a light emitting device driver circuit, a current ripple rejecter therein, and a current ripple rejection method therefor. The light emitting device driver circuit includes: a power converter circuit, for converting an input voltage carrying an AC component to an output voltage and supplying an output current; and a current ripple rejecter, which is coupled to the power converter circuit, for filtering a ripple of the output current to generate a light emitting device current, and supplying the light emitting device current to a light emitting device circuit. The current ripple rejecter includes: a low-pass-filter circuit, for filtering the ripple of the output current to generate a filtered current; and a current amplification circuit, which is coupled to the low-pass-filter circuit, for amplifying the filtered current to generate an amplified current; wherein the light emitting device current includes the amplified current. | 11-26-2015 |
20150326129 | FLYBACK POWER CONVERTER AND CONTROL CIRCUIT THEREOF - The present invention provides a flyback power converter and a control circuit. The flyback power converter includes a transformer which has a primary winding, a secondary winding, and an auxiliary winding; a power switch controlling the conduction of the primary winding; and a control circuit generating a control signal to control the power switch, wherein the control circuit is an integrated circuit having a current sensing pin for obtaining a current sensing signal of a current through the power switch. The flyback power converter further includes a temperature-sensitive resistor or a mode detection resistor coupled between the auxiliary winding and the current sensing pin, for providing a temperature-related signal for the control circuit to perform an over-temperature protection, or for providing a mode detection signal for the control circuit to determine an operation mode of the flyback power converter. | 11-12-2015 |
20150312025 | SINGLE-WIRE TRANSMISSION INTERFACE AND SINGLE-WIRE TRANSMISSION METHOD AND POWER SUPPLY SYSTEM ADOPTING SINGLE-WIRE TRANSMISSION METHOD - The present invention discloses a single-wire transmission method, which includes: providing a transmission signal including alternating high and low levels through a single-wire, wherein a period of one of the high and low levels defining a reference time and a period of the other of the high and low levels defining a content time; determining a relative relationship between the reference time and the content time; when the content time is smaller than a proportion of the reference time, defining the content time to express a first meaning; and when the content time is larger than the proportion of the reference time, defining the content time to express a second meaning. | 10-29-2015 |
20150311778 | FLYBACK POWER CONVERTER AND CONTROL CIRCUIT AND CONTROL METHOD THEREOF - The present invention provides a flyback power converter and a control circuit and a control method thereof. The flyback power converter includes: a power stage circuit, a voltage sense circuit, a current sense circuit, and a control circuit. When the flyback power converter operates in a quasi-resonant mode, the control circuit determines a time point of turning OFF a power switch in the power stage circuit according to a current sense signal, a pulse width modulation (PWM) frequency of a PWM signal, and a predetermined threshold, wherein the control circuit adaptively adjusts an ON period of the power switch, or adaptively adjusts an operation bandwidth or an amplifier gain of an error amplifier circuit in a feedback control loop according to the PWM frequency to mitigate an output voltage ripple. | 10-29-2015 |
20150293141 | MIRCO-ELECTRO-MECHANICAL SYSTEM DEVICE - The present invention discloses a micro-electro-mechanical system (MEMS) device. The MEMS device includes: a substrate; a proof mass which defines an internal space inside and forms at least two capacitors with the substrate; at least two anchors connected to the substrate and respectively located in the capacitor areas of the capacitors from a cross-sectional view; at least one linkage truss located in the hollow structure, wherein the linkage truss is directly connected to the anchors or indirectly connected to the anchors through buffer springs; and multiple rotation springs located in the hollow structure, wherein the rotation springs are connected between the proof mass and the linkage truss, such that the proof mass can rotate along an axis formed by the rotation springs. There is no coupling mass which does not form a movable electrode in the connection between the proof mass and the substrate. | 10-15-2015 |
20150288288 | ISOLATED POWER SUPPLY CIRCUIT WITH PROGRAMMABLE FUNCTION AND CONTROL METHOD THEREOF - The present invention provides an isolated power supply circuit with a programmable function and a control method thereof. The isolated power supply circuit includes: a transformer circuit, a power switch circuit, a control circuit, and a discharge circuit. The control circuit generates an operation signal and a bleeding signal according to a setting signal. The discharge circuit is coupled to an output node, for generating a discharging current. When the programmable output voltage at the output node switches between different predetermined levels, in a transition period, the bleeding signal adjusts the discharging current to discharge the output node, such that the transition period is shortened. | 10-08-2015 |
20150270780 | CONSTANT CURRENT REGULATOR - A constant current regulator includes a first transistor having a first terminal coupled with an input voltage; a second transistor having a first terminal coupled with a control terminal of the first transistor; a third transistor having a first terminal coupled with the first terminal of the first transistor and having a control terminal coupled with the first terminal of the second transistor; a first resistor having a first terminal coupled with a second terminal of the third transistor and having a second terminal coupled with a control terminal of the second transistor; a second resistor having a first terminal coupled with the control terminal of the second transistor and having a second terminal coupled with a second terminal of the second transistor; and a third resistor having a first terminal coupled with the second terminal of the third transistor and having a second terminal coupled with a fixed-voltage terminal. | 09-24-2015 |
20150260593 | MIRCO-ELECTRO-MECHANICAL SYSTEM PRESSURE SENSOR AND MANUFACTURING METHOD THEREOF - The invention provides a micro-electro-mechanical system pressure sensor. The micro-electro-mechanical system pressure sensor includes: a substrate, including at least one conductive wiring; a membrane disposed above the substrate to form a semi-open chamber between the membrane and the substrate, the semi-open chamber having an opening to receive an external pressure; and a cap, disposed above the membrane and forming an enclosed space with the membrane, the cap including a top electrode corresponding to the membrane and at least one portion of the membrane forming a bottom electrode, wherein the top and bottom electrodes form a sensing capacitor to sense the external pressure. | 09-17-2015 |
20150259195 | MIRCO-ELECTRO-MECHANICAL SYSTEM MODULE AND MANUFACTURING METHOD THEREOF - The invention provides a micro-electro-mechanical system (MEMS) module, which includes a MEMS die stacked on an electronic circuit die. The electronic circuit die includes a substrate, the substrate including at least one through-silicon via (TSV) penetrating through the substrate; and at least one electronic circuit. The electronic circuit includes a circuit region, and a signal transmission layer directly connecting the TSV. At least one wire is connected between a middle part of the MEMS die and the TSV. There is no signal communication at the interfacing location where the MEMS die is stacked on and bonded with the electronic circuit die. | 09-17-2015 |
20150257228 | Backlight Control Circuit with Flexible Configuration - The present invention discloses a backlight control circuit with flexible configuration, comprising: a light emitting device path; a current source for controlling the current amount on the light emitting device path, the current source receiving a relatively high reference voltage in a first state, and receiving a relatively low reference voltage in a second state; and a current source control circuit for controlling the current source, whereby when the light emitting device path is in normal use, the current source is set to the first state, and when the light emitting device path is not in normal use, the current source is set to the second state. | 09-10-2015 |
20150229153 | POWER MANAGEMENT CIRCUIT, AND CONTROL CIRCUIT AND CONTROL METHOD THEREOF - The present invention discloses a power management circuit, and a control circuit and a control method thereof. The power management circuit converts an input voltage at an input terminal to an output voltage at an output terminal, and charges a battery from the output terminal. The present invention detects a power supplying capability of the input terminal to generate an adjustment signal, and adjusts the output voltage according to the adjustment signal. | 08-13-2015 |
20150214736 | CONTROL METHOD FOR SUPPLYING POWER - The present invention discloses a control method for supplying power, including (a) determining whether a power-receiving device requires power and whether the power supply apparatus is coupled to the charging node; (b) when both questions of step (a) are determined yes, determining whether a power supply capability of the power supply apparatus is higher than a current threshold; (c) when it is determined yes in step (b), supplying power from the power supply apparatus to the power-receiving device; (d) when it is determined no in step (b), determining whether a charge storage quantity of the battery is higher than a threshold; (e) when it is determined yes in step (d), supplying power from the battery to the power-receiving device; and (f) when it is determined no in step (d), supplying power from the power supply apparatus to the battery. | 07-30-2015 |
20150210541 | MEMS Chip and Manufacturing Method Thereof - A MEMS chip includes a cap layer and a composite device layer. The cap layer includes a substrate. The substrate has a first region and a second region, wherein the first region includes plural first trenches and the second region has plural second trenches. The first region has a first etch pattern density and the second region has a second etch pattern density, wherein the first etch pattern density is higher than the second etch pattern density to form chambers of different pressures. | 07-30-2015 |
20150162843 | CONTROL CIRCUIT FOR POWER CONVERTING CIRCUIT - A control circuit for a power converting circuit includes a multifunctional pin, a pulse-width-modulation (PWM) signal generating circuit, a voltage detecting circuit and a zero current detecting circuit. The voltage detecting circuit detects a signal on the multifunctional pin. When the signal on the multifunctional pin is greater than a predetermined value, the voltage detecting circuit configures the PWM signal generating circuit to intermittently conduct a current switch of the power converting circuit. The zero current detecting circuit detects the signal of the multifunctional pin to determine the conduction status of the current switch. When the signal of the multifunctional pin is less than the predetermined value, the voltage detecting circuit configures the PWM signal generating circuit to turn off the current switch. | 06-11-2015 |
20150162821 | POWER FACTOR CORRECTION CIRCUIT OF POWER CONVERTER - A power factor correction (PFC) circuit of a power converter is disclosed. The power converter includes a primary side coil, a secondary side coil, an inductive coil, and a power switch. The PFC circuit includes a zero current detection circuit for detecting an inductive signal of the inductive coil to generate a detection signal; an error detection circuit for generating an error signal corresponding to an output voltage signal or an output current signal according to a reference signal; a ramp signal generating circuit for generating a ramp signal; a comparison circuit for comparing the ramp signal with the error signal to generate a comparison signal; and a trigger circuit for generating a control signal to control the power switch and for controlling the ramp signal generating circuit to adjust a slope of the ramp signal according to the detection signal and the comparison signal. | 06-11-2015 |
20150145585 | Sample Rate Converter and Rate Estimator Thereof and Rate Estimation Method Thereof - A sample rate converter receives an input signal with an input sample rate, and generates an output signal with an output sample rate. The sample rate converter includes: a rate estimator, a polynomial interpolation calculation circuit, an up sampling filter, and a down sampling filter. The rate estimator includes: a subtractor, which generates an error signal according to an input clock signal and a second order rate signal; a first order integrator, which generates a first order rate signal according to the error signal; and a second order integrator, which generates the second order rate signal according to the first order rate signal. | 05-28-2015 |
20150137232 | LATERAL DOUBLE DIFFUSED METAL OXIDE SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a lateral double diffused metal oxide semiconductor (LDMOS) device and a manufacturing method thereof. The LDMOS device includes: drift region, an isolation oxide region, a first oxide region, a second oxide region, a gate, a body region, a source, and a drain. The isolation oxide region, the first oxide region, and the second oxide region have an isolation thickness, a first thickness, and a second thickness respectively, wherein the second thickness is less than the first thickness. The present invention can reduce a conduction resistance without decreasing a breakdown voltage of the LDMOS device by the first oxidation region and the second oxidation region. | 05-21-2015 |
20150130067 | OHMIC CONTACT STRUCTURE AND SEMICONDUCTOR DEVICE HAVING THE SAME - This invention provides an ohmic contact structure including: a semiconductor substrate having a top surface which includes a plurality of micro-structures; and a conductive layer, which is formed on the micro-structures. An ohmic contact is formed by the conductive layer and the semiconductor substrate. The present invention also provides a semiconductor device having the ohmic contact structure. | 05-14-2015 |
20150123198 | HIGH VOLTAGE DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a high voltage device and a manufacturing method thereof. The high voltage device includes: a substrate, having an isolation structure for defining a device region; a drift region located in the device region, wherein from top view, the drift region includes multiple sub-regions separated from one another but are electrically connected with one another; a source and a drain in the device region; and a gate on the surface of the substrate and between the source and drain in the device region. | 05-07-2015 |
20150111375 | Wafer Level Chip Scale Package Device with One or More Pre-solder Layers and Manufacturing Method Thereof - The present invention discloses a method for manufacturing a wafer level chip scale package device with one or more pre-solder layers, and a wafer level chip scale package device made thereby. The device includes: a chip including at least one bonding pad; a UBM layer disposed on the bonding pad; at least one pre-solder layer disposed on the UBM layer; and a bump melted and combined with the pre-solder layer. The device may include two pre-solder layers. | 04-23-2015 |
20150097269 | TRANSIENT VOLTAGE SUPPRESSION DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a transient voltage suppression (TVS) device and a manufacturing method thereof. The TVS device includes: a conductive layer; a P-type semiconductor substrate, which is formed on the conductive layer; an N-type buried layer, which is formed on the semiconductor substrate; a P-type lightly doped layer, which is formed on the buried layer; a P-type cap region, which is formed on the lightly doped layer; and an N-type reverse region, which is formed on the cap region, wherein a Zener diode includes the reverse region and the cap region, and an NPN bipolar junction transistor (BJT) includes the reverse region, the cap region, the lightly doped layer and the buried layer. | 04-09-2015 |
20150091104 | SEMICONDUCTOR STRUCTURE AND SEMICONDUCTOR DEVICE HAVING THE SAME - The invention provides a semiconductor structure and a semiconductor device having such semiconductor structure. The semiconductor structure includes: a substrate; a first well having a first conductivity type, which is provided on the substrate; a second well having a second conductivity type and contacting the first well at a boundary in between in a lateral direction; and a plurality of mitigation regions having the first conductivity type or the second conductivity type, provided in the first well and being close to the boundary in a lateral direction and penetrating the first well in a vertical direction. | 04-02-2015 |
20150091087 | METAL OXIDE SEMICONDUCTOR (MOS) DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a metal oxide semiconductor (MOS) device and a manufacturing method thereof. The MOS device is formed in a substrate with an upper surface and it includes: an isolation region, a well region, a gate, a lightly-doped-source (LDS), a lightly-doped-drain (LDD), a source, and a drain. The isolation region defines an operation region. The gate includes: a dielectric layer, a stack layer, and a spacer layer, wherein the stack layer separates the operation region to a first side and a second side. The LDS with a first conductive type, is formed in the substrate beneath the upper surface, and at least part of the LDS overlaps the stack layer from a top view. The source with a second conductive type overlaps the spacer layer at the first side. The conductive types of the LDS and the source are different to mitigate the threshold voltage roll-off. | 04-02-2015 |
20150084060 | INSULATED GATE BIPOLAR TRANSISTOR AND MANUFACTURING METHOD THEREOF - The present invention discloses an insulated gate bipolar transistor (IGBT) and a manufacturing method thereof. The IGBT includes: a gallium nitride (GaN) substrate, a first GaN layer with a first conductive type, a second GaN layer with a first conductive type, a third GaN layer with a second conductive type or an intrinsic conductive type, and a gate formed on the GaN substrate. The first GaN layer is formed on the GaN substrate and has a side wall vertical to the GaN substrate. The second GaN layer is formed on the GaN substrate and is separated from the first GaN layer by the gate. The third GaN layer is formed on the first GaN layer and is separated from the GaN substrate by the first GaN layer. The gate has a side plate adjacent to the side wall in a lateral direction to control a channel. | 03-26-2015 |
20150069940 | MULTI-PHASE MOTOR CONTROL METHOD AND DEVICE USING THE SAME - A multi-phase motor control method controls a multi-phase motor which includes multiple nodes respectively receiving a corresponding number of driving voltage signals to control a rotation of a rotor. The motor control method includes: sensing a signal phase of a current signal corresponding to at least one node, for example by sensing a zero-crossing point of the current signal; determining a reference phase for the current signal; calculating a phase difference between the signal phase and the reference phase; and controlling a phase switching frequency of the stator according to the phase difference, such that the signal phase is close to or in phase with the reference phase, to thereby obtain an optimum rotation speed of the rotor corresponding to a given driving voltage. The present invention also provides a multi-phase motor control device using the motor control method. | 03-12-2015 |
20150056733 | MANUFACTURING METHOD OF MIRCO-ELECTRO-MECHANICAL SYSTEM DEVICE AND MIRCO-ELECTRO-MECHANICAL SYSTEM DEVICE MADE THEREBY - The invention provides a manufacturing method of a MEMS device, which includes: providing an integrated circuit device including a substrate and an electrical structure on the substrate, the electrical structure includes at least one sensing region and at least one first connection section; providing a structure layer, and forming at least one second connection section on the structure layer; bonding the at least one first connection section and the at least one second connection section; etching the structure layer for forming at least one movable structure, the movable structure being located at a position corresponding to a position of the sensing region, and the movable structure being connected to the at least one first connection section via the at least one second connection section; and thereafter, providing a cap to cover the movable structure and the sensing region, wherein the movable structure is not directly connected to the cap. | 02-26-2015 |
20150054070 | Electrostatic Discharge Protection Device and Manufacturing Method Thereof - The present invention discloses an electrostatic discharge (ESD) protection device and a manufacturing method thereof. The ESD protection device includes: a P-type well, a gate structure, an N-type source, an N-type drain, and a P-type lightly doped drain. The P-type lightly doped drain is formed in the P-type well, and at least part of the P-type lightly doped drain is beneath a spacer of the gate structure to reduce a trigger voltage of the electrostatic discharge protection device. | 02-26-2015 |
20150042298 | BUCK SWITCHING REGULATOR - The present invention discloses a buck switching regulator including a power stage, a driver circuit and a bootstrap capacitor. The power stage includes an upper-gate switch, a lower-gate switch and an inductor. The upper-gate switch is electrically connected between an input terminal and a switching node. The lower-gate switch is electrically connected between the switching node and ground. The bootstrap capacitor is electrically connected between a boost node and the switching node, wherein the boost node is electrically connected to a voltage supply. When a voltage across the bootstrap capacitor is smaller than a reference voltage, the lower-gate switch is turned on to charge the bootstrap capacitor from the voltage supply. When the charging operation to the bootstrap capacitor has been conducted over a predetermined time period or when the current of the inductor has reached a predetermined value, the charging operation to the bootstrap capacitor is ceased. | 02-12-2015 |
20150035493 | BI-DIRECTIONAL SWITCHING REGULATOR AND CONTROL CIRCUIT THEREOF - The present invention discloses a bi-directional switching regulator and a control circuit thereof. The bi-directional switching regulator includes a power stage, an operation circuit controlling the power stage, and a power path management circuit. The power path management circuit includes a power path switch electrically connected between the output terminal and the battery, and a power path controller controlling the power path switch. The operation circuit generates the operation signal according to the output voltage or a battery voltage of the battery, and the charging current, so that: (1) a voltage difference between the output voltage and the battery voltage is ICHG*R, wherein ICHG represents the charging current and R represents a conduction resistance when the power path switch is fully conductive; or (2) the output voltage is determined by a higher one of a predetermined voltage level and the sum of ICHG*R plus the battery voltage. | 02-05-2015 |
20150028417 | HIGH VOLTAGE DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a high voltage device and a manufacturing method thereof. The high voltage device is formed in a first conductive type substrate, wherein the substrate includes isolation regions defining a device region. The high voltage device includes: a drift region, located in the device region, doped with second conductive type impurities; a gate in the device region and on the surface of the substrate; and a second conductive type source and drain in the device region, at different sides of the gate respectively. From top view, the concentration of the second conductive type impurities of the drift region is distributed substantially periodically along horizontal and vertical directions. | 01-29-2015 |
20150023071 | VOLTAGE CONVERTER CIRCUIT AND VOLTAGE CONVERTER CONTROLLER AND PARAMETER SETTING METHOD THEREFOR - A voltage converter circuit includes a voltage converter controller which generates a PWM signal to operate a power switch for voltage conversion. The voltage converter controller includes a sensing pin for sensing a current and the voltage converter controller receives a power supply. A parameter setting method for the voltage converter circuit includes: during a start-up stage, when the power supply increases above a predetermined reference level, the voltage converter controller outputting a current through the sensing pin; and setting at least one parameter of the voltage converter controller according to a voltage at the sensing pin. | 01-22-2015 |
20150021615 | JUNCTION BARRIER SCHOTTKY DIODE AND MANUFACTURING METHOD THEREOF - The present invention discloses a junction barrier Schottky (JBS) diode and a manufacturing method thereof. The JBS diode includes: an N-type gallium nitride (GaN) substrate; an aluminum gallium nitride (AlGaN) barrier layer, which is formed on the N-type GaN substrate; a P-type gallium nitride (GaN) layer, which is formed on or above the N-type GaN substrate; an anode conductive layer, which is formed at least partially on the AlGaN barrier layer, wherein a Schottky contact is formed between part of the anode conductive layer and the AlGaN barrier layer; and a cathode conductive layer, which is formed on the N-type GaN substrate, wherein an ohmic contact is formed between the cathode conductive layer and the N-type GaN substrate, and the cathode conductive layer is not directly connected to the anode conductive layer. | 01-22-2015 |
20140377940 | TRANSIENT VOLTAGE SUPPRESSOR CIRCUIT, AND DIODE DEVICE THEREFOR AND MANUFACTURING METHOD THEREOF - The present invention discloses a transient voltage suppressor (TVS) circuit, and a diode device therefor and a manufacturing method thereof. The TVS circuit is for coupling to a protected circuit to limit amplitude of a transient voltage which is inputted to the protected circuit. The TVS circuit includes a suppressor device and at least a diode device. The diode device is formed in a substrate, which includes: a well formed in the substrate; a separation region formed beneath the upper surface; a anode region and a cathode region, which are formed at two sides of the separation region beneath the upper surface respectively, wherein the anode region and the cathode region are separated by the separation region; and a buried layer, which is formed in the substrate below the well with a higher impurity density and a same conductive type as the well. | 12-25-2014 |
20140361730 | BI-DIRECTIONAL SWITCHING REGULATOR AND CONTROL CIRCUIT THEREOF - The present invention discloses a bi-directional switching regulator and a control circuit of the bi-directional switching regulator. The bi-directional switching regulator includes a single power stage, an operation circuit, a power path management circuit and a power path controller. The power path management circuit includes a first power path switch and a second power path switch to be coupled to at least two batteries respectively, so that at least two batteries can be charged by the output voltage supplied by the single power stage. | 12-11-2014 |
20140355320 | CONTROL CIRCUIT FOR AC-DC POWER CONVERTER - A control circuit for an AC-DC power converter includes a junction field effect transistor (JFET), a first resistor, a second resistor, and a third resistor. The JFET includes a substrate, a drain, a source, a gate, a first oxide layer, and a second oxide layer. The first oxide layer is attached to a region located between the drain and the gate of the JFET, and the second oxide layer is not attached to a region located between the drain and the gate of the JFET. The first resistor is positioned on the first oxide layer, and the second resistor and the third resistor are positioned on the second oxide layer. When the JFET and the first resistor receive an input power signal, the first, the second, and the third resistors divide the input power signal, and prevent from the breakdown of the first oxide layer and the second oxide layer. | 12-04-2014 |
20140354312 | TEST HANDLER, TEST CARRIER AND TEST METHOD THEREOF - The present invention provides a test handler for various IC tests, which includes a chamber and a test carrier. The chamber is controllable to present a dry status. The test carrier is made of a high thermal-conductive material and includes plural positioning structures for respectively accommodating plural IC chips. The test carrier is disposed on and in thermal contact with a temperature-adjustment device in the chamber, and the temperature-adjustment device controls the temperature of the IC chips on the test carrier by thermal conduction through the test carrier. The invention also provides a test carrier used in the test handler and a test method thereof. | 12-04-2014 |
20140354050 | POWER BANK AND CONTROL METHOD FOR SUPPLYING POWER - The present invention discloses a power bank and a control method for supplying power. The power bank includes a rechargeable battery, a charging switch for controlling a charging path to the rechargeable battery, a discharging switch for controlling a discharging path from the rechargeable battery, and a control circuit for controlling the charging switch and the discharging switch according to current information of the charging path, current information of the discharging path, and battery capacity information of the rechargeable battery. The power bank is adapted for being connected in series between a power supply apparatus and a load. The control method detects the supply current from the power supply apparatus and the current required by the load to determine the charging and discharging operations of the power bank. | 12-04-2014 |
20140328099 | CONTROL CIRCUIT FOR POWER CONVERTER AND METHOD THEREOF - A control circuit for a power converter includes a pulse width modulation signal generating circuit, a power estimation circuit, and a current limiting signal generating circuit. The pulse width modulation signal generating circuit generates pulse width modulation signals according to a current sense signal and a current limiting signal for configuring the conduction status of a switch circuit of the power converter. The power estimation circuit generates a power estimation signal for estimating the power which the power converter provides to a load. The current limiting signal generating circuit generates the current limiting signal according to the power estimation signal so that the power converter may provide suitable power to the load. | 11-06-2014 |
20140328087 | Apparatus and Method for Implementing a Multiple Function Pin in a BCM Power Supply - An apparatus and a method for implementing a multiple function pin in a boundary conduction mode power supply, uses a same pin to switch a power switch and to achieve zero current detection to reduce pin count and save cost of a control integrated circuit. A first voltage is applied to the multiple function pin to turn on the power switch, and then a second voltage is applied to the multiple function pin after the power switch has been turned on for a first time, to thereby turn off the power switch. After the power switch has been turned off for a second time, a third voltage is applied to the multiple function pin keep the power switch off. Preferably, a tristate output driver is used to provide the first and second voltages, and a clamping circuit is used to provide the third voltage. | 11-06-2014 |
20140320099 | SWITCHING REGULATOR COMPATIBLE WITH ELECTRONIC TRANSFORMER AND CONTROL METHOD THEREOF - The present invention discloses a switching regulator compatible with an electronic transformer and a control method thereof. The switching regulator includes: a power stage circuit, a control circuit, and an input current peak & valley setting circuit. The control circuit is coupled to the power stage circuit, for generating an operation signal according to a feedback signal and a peak & valley setting signal, to operate at least one power switch in the power stage circuit, so as to convert a rectified input voltage to an output voltage. The input current peak & valley setting circuit is coupled to the control circuit, for generating the peak & valley setting signal such that in one cycle period, the input current has multiple valleys forming a semi-sinusoidal contour. | 10-30-2014 |
20140320094 | CONTROL CIRCUIT FOR POWER CONVERTER AND RELATED CONTROL METHOD - A control circuit of a power converter includes: a zero current detection circuit for detecting a current flowing between an inductor and a voltage output terminal of the power converter to generate a zero current detection signal; an adjusting circuit for generating an adjustment signal according to the zero current detection signal; a clock signal generating circuit for adjusting a frequency of a clock signal according to the adjustment signal; a periodical signal generating circuit for generating a periodical signal according to the clock signal; an error detection circuit for generating an error signal; and a control signal generating circuit for generating a control signal to control operations of a power switch. If the and amount of pulses generated by the zero current detection circuit satisfy a predetermined condition, the adjusting circuit switches the power converter's operation mode from DCM to CCM. | 10-30-2014 |
20140320091 | CONTROL METHOD FOR SUPPLYING POWER - In a control method for supplying power, a first power regulator supplies a first current and an output voltage to a second power regulator and the second power regulator supplies a second current to a load. The method includes: increasing the output voltage and detecting the second current; determining whether the second current suddenly drops as the output voltage increases; when the second current drops, defining a level of the output voltage which corresponds to a starting point of the sudden drop as an upper limit; when the output voltage increases but the second current neither increases nor suddenly drops, defining a level of the output voltage corresponding to a point where the second current stops increasing as a lower limit; and setting the output voltage to be lower than or equal to the upper limit, and higher than or equal to the lower limit. | 10-30-2014 |
20140316735 | Protection Device and Calibration Method Thereof - The present invention discloses a protection device and a calibration method thereof. The protection device includes a sensing circuit and a detection circuit. The detection circuit includes: a comparing circuit, a setting circuit and an automatic calibration circuit. The comparing circuit is coupled to the sensing circuit and generates a protection signal according to a sensing signal and an offset setting. The setting circuit is coupled to the comparing circuit and generates the offset setting according to a calibration signal. The automatic calibration circuit is coupled between the comparing circuit and the setting circuit, for generating the calibration signal. The automatic calibration circuit automatically sets a protection threshold and stores the calibration signal which corresponds to the protection threshold. | 10-23-2014 |
20140315358 | MANUFACTURING METHOD OF JUNCTION FIELD EFFECT TRANSISTOR - The present invention discloses a manufacturing method of a junction field effect transistor (JFET). The manufacturing method includes: providing a substrate with a first conductive type, forming a channel region with a second conductive type, forming a field region with the first conductive type, forming a gate with the first conductive type, forming a source with the second conductive type, forming a drain with the second conductive type, and forming a lightly doped region with the second conductive type. The channel region is formed by an ion implantation process step, wherein the lightly doped region is formed by masking a predetermined region from accelerated ions of the ion implantation process step, and diffusing impurities with the second conductive type nearby the predetermined region into it with a thermal process step. | 10-23-2014 |
20140312855 | MULTI-PURPOSE POWER MANAGEMENT CHIP AND POWER PATH CONTROL CIRCUIT - The present invention discloses a multi-purpose power management chip and a power path control circuit. The multi-purpose power management chip includes: a switch circuit including at least one power transistor; a switch control circuit for generating a first switch signal to control an operation of the power transistor to thereby control the power conversion between an input terminal and an output terminal; a power path management circuit for controlling the charging operation from the output terminal to the battery; a current source for supplying a current to the battery; and a path selection circuit for determining whether the charging operation to the battery is controlled by the power path management circuit and the current source or not according to whether a power path power transistor is provided on the power path or not. | 10-23-2014 |
20140300288 | LIGHT EMITTING DEVICE POWER SUPPLY CIRCUIT AND DAMPING CIRCUIT THEREIN AND DRIVING METHOD THEREOF - The present invention discloses a light emitting device power supply circuit and a damping circuit therein and a driving method thereof. The light emitting device power supply circuit includes: a tri-electrode AC switch (TRIAC) dimming circuit, a rectifier circuit, a light emitting device driver circuit, and a damping circuit. The damping circuit includes: an impedance circuit, which is electrically connected between the rectifier circuit and the light emitting device driver circuit; a silicon control rectifier (SCR) circuit, which is connected to the impedance circuit in parallel; and a delay circuit, which is coupled to the SCR circuit, for turning ON the SCR circuit after a delay time period from when the TRIAC diming circuit begins to start-up, wherein the delay circuit does not directly receive a full scale of the input voltage. | 10-09-2014 |
20140292295 | CONTROL CIRCUIT FOR DYNAMICALLY ADJUSTING OFF TIME OF POWER SWITCH IN POWER CONVERTER - A control circuit of a power converter includes: a periodical signal generating circuit for generating a first filtered signal, a second filtered signal, and a periodical signal according to a second feedback signal corresponding to an inductor voltage of the power converter; a comparison circuit for comparing the error signal and the periodical signal to generate a comparison signal; a control signal generating circuit for generating a control signal to control power switches of the power converter according to the comparison signal; and a signal adjusting circuit. During a load transient period at which the load of the power converter changes from a relatively light load to a relatively heavy load, when a lower switch of the power converter is turned on, the signal adjusting circuit reduces an output current of the periodical signal generating circuit to increase a loop response of the power converter. | 10-02-2014 |
20140285109 | LIGHT EMITTING DEVICE DRIVER CIRCUIT AND CONTROL CIRCUIT AND CONTROL METHOD THEREOF - The present invention discloses a light emitting device driver circuit and a control circuit and a control method thereof. The light emitting device driver circuit converts an input voltage to an output voltage, and provides an output current to a light emitting device circuit. The present invention detects whether the output voltage exceeds a predetermined level, and if no, the regulation target of the output current is set to a relatively higher current to fast charge an output capacitor; if yes, the output current is regulated to a desired target, wherein the relatively higher current is higher than the desired target. | 09-25-2014 |
20140266133 | POWER CONVERTING CIRCUIT AND CONTROL CIRCUIT THEREOF - A power converting circuit includes an upper gate switch, a transistor, a current source circuit, a comparator circuit, a delay circuit, and a pulse width modulation signal generating circuit. The transistor and the current source circuit provide a reference signal. The comparator circuit generates a comparing signal according to the reference signal and an output signal provided by the upper gate switch. The delay circuit generates a delay signal according to the comparing signal and a clock signal. The pulse width modulation signal generating circuit generates a control signal for the upper gate switch according to the delay signal and the clock signal for configuring the conduction status of the upper gate switch. The power converting circuit adjusts the conduction time of the upper gate switch according to the reference signal and the output signal. | 09-18-2014 |
20140253185 | CIRCUIT AND METHOD FOR IMPROVING NOISE IMMUNITY OF A SINGLE-END LEVEL SHIFTER IN A FLOATING GATE DRIVER - A floating gate driver uses a single-end level shifter to translate a set signal and a reset signal induced by a rising edge and a falling edge of a switch signal to a common output terminal to generate an output voltage for a bistable circuit to generate a level shifted switch signal. Under control of a well transient detect signal asserted by detecting noise in the output voltage, a masking circuit between the single-end level shifter and the bistable circuit masks noise in the output voltage. This configuration has lower area penalty and better noise immunity. | 09-11-2014 |
20140253084 | POWER CONVERTER CONTROL CIRCUIT - A power converter control circuit includes a feedback circuit and a pulse width modulation signal generating circuit for configuring a power stage circuit to provide power to a load. The feedback circuit generates a first gain signal and a second gain signal according to an output voltage sensing signal coupled with the load. The feedback circuit further generates a feedback signal according to the first gain signal and the second gain signal. The pulse width modulation signal generating circuit configures the operation of the power stage circuit according to the feedback signal and a reference signal. Moreover, the feedback circuit and the pulse width modulation signal generating circuit are configured on the same integrated circuit package. | 09-11-2014 |
20140253019 | Charger Circuit and Control Circuit and Control Method Thereof - The present invention discloses a charger circuit and a control circuit and a control method thereof. The charger circuit supplies a charging current to charge a battery. The charger circuit includes a bipolar junction transistor (BJT) pass circuit, a current sensing circuit, a voltage sensing circuit and a control circuit. The BJT pass circuit is coupled to an input voltage and generates the charging current in response to a control signal. The control circuit includes a current adjustment circuit, which adjusts a first resistance of a first variable resistor device included therein according to the current sensing signal and a current reference signal so as to adjust the control signal; and a voltage adjustment circuit, which adjusts a second resistance of a second variable resistor device included therein according to the voltage sensing signal and a voltage reference signal so as to adjust the control signal. | 09-11-2014 |
20140252995 | MOTOR CONTROLLER - The present invention provides a motor controller for controlling a DC motor according to a reference signal. The motor controller includes a compensator, a pulse width modulation unit, and a motor driving unit. The compensator generates a control signal according to the reference signal and a sensing signal from the DC motor. The pulse width modulation unit generates a motor control signal by comparing the control signal and a ramp signal having a varying frequency. The motor driving unit receives the motor control signal and drives the DC motor according to the motor control signal. | 09-11-2014 |
20140239839 | DISPLAY PANEL CONTROL CIRCUIT AND MULTI-CHIP MODULE THEREOF - The present invention provides a display panel control circuit, including: a voltage adjustment unit including a high side switch coupled between an output terminal and a high voltage source, a low side switch coupled between the output terminal and a low voltage source, and a voltage adjustment switch coupled between the output terminal and a switching node; a direction control unit, including a first diode having a cathode coupled to the switching node and an anode coupled to a voltage rising node, and a second diode having an anode coupled the switching node and a cathode coupled to a voltage falling node; a voltage rising resistor coupled between the voltage rising node and a shaping voltage source; and a voltage falling resistor coupled between the voltage falling node and the shaping voltage source. | 08-28-2014 |
20140210534 | PULSE WIDTH MODULATION SIGNAL GENERATION CIRCUIT AND PULSE WIDTH MODULATION SIGNAL GENERATION METHOD - The present invention discloses a PWM signal generation circuit and a PWM signal generation method. The PWM signal generation circuit includes: a reference signal generation circuit for generating a reference signal according to an input voltage; a variable ramp signal generation circuit for generating a variable ramp signal; and a comparator circuit for comparing the reference signal with the variable ramp signal to generate a PWM signal. A rising slope and/or a falling slope of the variable ramp signal is variable. | 07-31-2014 |
20140210439 | Switching Regulator and Control Circuit Thereof - The present invention discloses a switching regulator and a control circuit thereof. The switching regulator includes a boost or buck-boost power stage, a first operation circuit and a bypass circuit. The power stage controls at least one power transistor switch included therein according to a first operation signal, to convert an input voltage to an output voltage at an output terminal. The first operation circuit generates the first operation signal in response to the output voltage or a related signal thereof. The bypass circuit includes a bypass transistor and a second operation circuit. When it is required to provide power to the output terminal promptly, the second operation circuit turns ON the bypass transistor, and when the input voltage is equal to the output voltage or equal to a sum of the output voltage plus a safety offset value, the second operation circuit turns OFF the bypass transistor. | 07-31-2014 |
20140210432 | VOLTAGE ADJUSTING CIRCUIT FOR AMPLIFIER CIRCUIT AND METHOD THEREOF - A voltage adjusting circuit includes a reference voltage generating circuit, a subtractor circuit, a threshold generating circuit and a comparator circuit. The voltage adjusting circuit may provide power supply signals to an amplifier circuit so that the amplifier circuit may provide an output signal to a load according to an input signal. The subtractor circuit generates a difference signal according to the output signal and the power supply signal. The comparator circuit compares the difference signal and a threshold signal generated by the threshold generating circuit for configuring the reference voltage generating circuit to adjust the signal value of the power supply signal. | 07-31-2014 |
20140203749 | MOTOR CONTROLLER HAVING MULTI-FUNCTIONAL PIN AND CONTROL METHOD THEREOF - The present invention provides a motor controller having one or more multi-functional pins. The motor controller includes a plurality of pins but does not include a dedicated pin for transmitting a clock signal and a dedicated pin for transmitting a motor specification database setting signal, wherein the clock signal and the motor specification database setting signal are for setting motor specification data. The clock signal and the motor specification database setting signal are transmitted through two of the plural pins which are multi-functional function pins shared by other functions in a normal operation mode. In a motor specification database setting mode, these multi-functional function pins are used for transmitting the clock signal and the motor specification database setting signal. In the normal operation mode, these multi-functional function pins are used for other functions. | 07-24-2014 |
20140203730 | LIGHT EMITTING DEVICE POWER SUPPLY CIRCUIT, LIGHT EMITTING DEVICE CONTROL CIRCUIT AND IDENTIFIABLE LIGHT EMITTING DEVICE CIRCUIT THEREFOR AND IDENTIFICATION METHOD THEREOF - The present invention discloses a light emitting device power supply circuit, a light emitting device control circuit and an identifiable light emitting device circuit therefor, and an identification method thereof. The light emitting device control circuit includes an operation signal generation circuit and an identification circuit. The operation signal generation circuit determines whether the light emitting device control circuit operates in an identified mode or amiss mode according to an enable signal. In the identified mode, the light emitting device control circuit operates a power stage circuit to supply an output current to an identifiable light emitting device circuit. In the miss mode, an output voltage is maintained at a predetermined level. The identification circuit determines whether the light emitting device control circuit switches from the miss mode to the identified mode according to whether the output voltage meets a condition. | 07-24-2014 |
20140197809 | SWITCHING REGULATOR INCLUDING CHARGE PUMP - The present invention discloses a switching regulator. The switching regulator converts an input voltage to an output voltage. The switching regulator includes: a power stage circuit, which switches at least one power switch thereof according to a driving signal to convert the input voltage to the output voltage; and a control circuit, which is coupled to the power stage circuit, for generating the driving signal according to a feedback signal. The power stage circuit includes: an active circuit, which includes the power switch and at least one inductor, and is controlled by a driving signal to convert the input voltage to a middle voltage; and a passive circuit, which is coupled to the active circuit, and includes a charge pump for converting the middle voltage to the output voltage. | 07-17-2014 |
20140191742 | Voltage Regulator, and Control Circuit and Control Method Thereof - The present invention discloses a method for controlling a voltage regulator, including steps of: converting an input voltage to an output voltage and providing an output current; sensing the output current; reducing the output voltage; and when the reduction of the output voltage causes the output current to change, setting the output voltage back to a value which does not change the output current. | 07-10-2014 |
20140176102 | MIXED MODE COMPENSATION CIRCUIT - A mixed mode compensation circuit for a power converter generate a digital signal according to a reference signal and a feedback signal which is related to the output voltage of the power converter, convert the digital signal into a first analog signal, offset the first analog signal with a variable offset value to generate a second analog signal, and filter out high-frequency components of the second analog signal to generate a third analog signal for stable output voltage of the power converter. The mixed mode compensation does not require large capacitors, and thus the circuit can be integrated into an integrated circuit. | 06-26-2014 |
20140167725 | CURRENT CONTROL CIRCUIT AND METHOD - The invention provides a current control circuit and a current control method. The current control circuit controls a current supplied to a current-controlled device according to a conduction control signal. The current control circuit includes: a conduction control switch coupled to the current-controlled device, for determining whether to conduct the current according to the conduction control signal; and a plurality of current control switches connected to one another in series and coupled to the conduction control switch, for controlling a magnitude of the current. | 06-19-2014 |
20140167648 | POWER CONVERTER CIRCUIT FOR LOW POWER ILLUMINATION DEVICE, CONTROL CIRCUIT THEREOF AND METHOD THEREOF - A power converter circuit of a low power illumination device includes a boost converter circuit, a buck converter circuit, and a control circuit, for cooperating with a dimmer and an electric transformer. The control circuit configures the boost converter circuit to alternatively operate in a current conducting mode and an off mode, to draw current from the electric transformer in the current conducting mode, and to stop drawing current from the electric transformer in the off mode. The control circuit further configures the buck converter circuit to generate the required output signals to the low power illumination device according to the configuration of the dimmer so that the low power illumination device may perform the required dimming function. | 06-19-2014 |
20140167647 | POWER CONVERTER CIRCUIT FOR LOW POWER ILLUMINATION DEVICE, CONTROL CIRCUIT THEREOF AND METHOD THEREOF - A power converter circuit for a low power illumination device includes a boost converter circuit, a buck converter circuit, and a control circuit. The control circuit configures the boost converter circuit to alternately operate in a current conducting mode and an off mode, to draw different values of the current from an electric transformer in different periods in the current conducting mode, and to stop drawing current from the electric transformer in the off mode. The control circuit further configures the buck converter circuit to generate the required output signals to the low power illumination device according to the output of the boost converter circuit so that the low power illumination device may function normally. | 06-19-2014 |
20140159644 | Charger Circuit and Charging Control Method - The present invention discloses a charger circuit and a charging control method for charging a battery. When the battery voltage reaches a predetermined voltage, the charge storage quantity of the battery is measured to determine whether to charge the battery according to a constant current mode wherein the battery is charged by a constant current, or the battery voltage is a target to be regulated to a target voltage according to a constant voltage mode. | 06-12-2014 |
20140159111 | SEMICONDUCTOR COMPOSITE FILM WITH HETEROJUNCTION AND MANUFACTURING METHOD THEREOF - The present invention discloses a semiconductor composite film with a heterojunction and a manufacturing method thereof. The semiconductor composite film includes: a semiconductor substrate; and a semiconductor epitaxial layer, which is formed on the semiconductor substrate, and it has a first surface and a second surface opposite to each other, wherein the heterojunction is formed between the first surface and the semiconductor substrate, and wherein the semiconductor epitaxial layer further includes at least one recess, which is formed by etching the semiconductor epitaxial layer from the second surface toward the first surface. The recess is for mitigating a strain in the semiconductor composite film. | 06-12-2014 |
20140159048 | High Electron Mobility Transistor and Manufacturing Method Thereof - The present invention discloses a high electron mobility transistor (HEMT) and a manufacturing method thereof. The HEMT device includes: a substrate, a first gallium nitride (GaN) layer; a P-type GaN layer, a second GaN layer, a barrier layer, a gate, a source, and a drain. The first GaN layer is formed on the substrate, and has a stepped contour from a cross-section view. The P-type GaN layer is formed on an upper step surface of the stepped contour, and has a vertical sidewall. The second GaN layer is formed on the P-type GaN layer. The barrier layer is formed on the second GaN layer. two dimensional electron gas regions are formed at junctions between the barrier layer and the first and second GaN layers. The gate is formed on an outer side of the vertical sidewall. | 06-12-2014 |
20140152104 | Multi-Output Switching Regulator and Multi-Output Power Supply Method - The present invention discloses a multi-output switching regulator and a multi-output power supply method. The multi-output switching regulator includes: a power stage circuit for operating at least a power switch included therein and only one inductor included therein in response to a pulse width modulation (PWM) signal, thereby converting an input voltage to a converted voltage; a multiple outputs circuit for receiving the converted voltage to generate a plurality of output currents; a voltage detecting circuit for generating a feedback signal according to the converted voltage; and a PWM signal generation circuit for generating the PWM signal in response to the feedback signal. | 06-05-2014 |
20140151796 | HYBRID HIGH VOLTAGE DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a hybrid high voltage device and a manufacturing method thereof. The hybrid high voltage device is formed in a first conductive type substrate, and includes at least one lateral double diffused metal oxide semiconductor (LDMOS) device region and at least one vent device region, wherein the LDMOS device region and the vent device region are connected in a width direction and arranged in an alternating order. Besides, corresponding high voltage wells, sources, drains, body regions, and gates of the LDMOS device region and the vent device region are connected to each other respectively. | 06-05-2014 |
20140120679 | DOUBLE DIFFUSED METAL OXIDE SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a double diffused metal oxide semiconductor (DMOS) device and a manufacturing method thereof. The DMOS device includes: an isolation structure for defining device regions; a gate with a ring-shaped structure; a drain located outside the ring; and a lightly doped drain, a source, and a body electrode located inside the ring. To increase the sub-threshold voltage at the corners of the gate, the corners are located completely on the isolation structure, or the lightly doped drain is apart from the corners by a predetermined distance. | 05-01-2014 |
20140120676 | DOUBLE DIFFUSED METAL OXIDE SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a double diffused metal oxide semiconductor (DMOS) device and a manufacturing method thereof. The DMOS device includes: an isolation structure for defining device regions; a gate with a ring-shaped structure; a drain located outside the ring; and a lightly doped drain, a source, and a body electrode located inside the ring. To increase the sub-threshold voltage at the corners of the gate, the corners are located completely on the isolation structure, or the lightly doped drain is apart from the corners by a predetermined distance. | 05-01-2014 |
20140117947 | SIGNAL PEAK DETECTOR AND DETECTION METHOD, AND CONTROL IC AND METHOD FOR A PFC CONVERTER - A control integrated circuit for a power factor correction converter has a pin for detecting an alternating-current information and a direct-current information of an input signal. The control integrated circuit comprises a signal peak detector for detecting a peak value of the input signal to the pin to obtain the direct-current information of the input signal. Since the alternating-current information and the direct-current information of the input signal can be obtained through the same pin, the pin count of the control integrated circuit can be decreased. | 05-01-2014 |
20140117443 | DOUBLE DIFFUSED METAL OXIDE SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a double diffused metal oxide semiconductor (DMOS) device and a manufacturing method thereof. The DMOS device includes: an isolation structure for defining device regions; a gate with a ring-shaped structure; a drain located outside the ring; and a lightly doped drain, a source, and a body electrode located inside the ring. To increase the sub-threshold voltage at the corners of the gate, the corners are located completely on the isolation structure, or the lightly doped drain is apart from the corners by a predetermined distance. | 05-01-2014 |
20140084845 | Charger and Charge Control Circuit for Use Therein - The present invention provides a charger circuit for supplying power from an external power source to a first common node and charging a second common node from the first common node; a regulator circuit is coupled between the external power source and the first common node. The charger circuit includes a switching regulator power stage for controlling charging to the second common node. The switching regulator power stage supplies power to the second common node according to detected voltage at the first common node, detected voltage at the second common node, and charging current to the second common node. | 03-27-2014 |
20140084684 | POWER SUPPLY CIRCUIT - The present invention provides a power supply circuit, which includes a plurality of switchable bidirectional regulators, respectively coupled between a first common node and a plurality of external terminals, and each external terminal has a switchable connection selectively electrically connectable to a external power source for receiving power supply from the external power source or to an external device for charging the external device. Each switchable bidirectional regulator includes: an upper power transistor switch, a lower power transistor switch, an inductor, and a buck-boost controller for controlling operations of the upper power transistor switch and the lower power transistor switch to perform either buck or boost voltage conversion according to a mode control signal. | 03-27-2014 |
20140077757 | ANALOG PHOTOVOLTAIC POWER CIRCUIT WITH AUTO ZERO CALIBRATION - The invention provides an analog photovoltaic power circuit with auto zero calibration, which judges whether the current trend or voltage trend has the same direction as or different direction from the power trend, and adjusts an input/output power conversion accordingly, so that an input current approaches to an optimum current corresponding to a maximum power point, in which the judgments of the current trend, voltage trend and power trend is calibrated with auto-zero circuitry. | 03-20-2014 |
20140077703 | Control Circuit and Control Method of Light Emitting Device Circuit - The present invention discloses a control circuit and a control method of a light emitting device circuit. When the light emitting device circuit is normally connected in normal operation, an output current is regulated to a predetermined current. When the light emitting device circuit is removed, an output voltage is regulated to a predetermined voltage. When the light emitting device circuit is reconnected, the output current is regulated to the predetermined current. The output voltage is at or above a level when the light emitting device circuit is normally connected in normal operation, and the predetermined voltage is lower than this level. | 03-20-2014 |
20140070870 | Multipurpose Half Bridge Signal Output Circuit - The present invention discloses a multipurpose half bridge signal output circuit. The multipurpose half bridge signal output circuit is capable of selectively operating under a charge sharing mode or a gate pulsing modulation mode. The multipurpose half bridge signal output circuit includes: a first output pin; a second output pin; a first circuit zone having a first common end coupled to the first output pin; and a second circuit zone having a second common end coupled to the second output pin. | 03-13-2014 |
20140062435 | CHARGING CONTROL CIRCUIT - The present invention discloses a charge control circuit for supplying power from an external power source to a first common node and charging a second common node from the first common node. A regulator circuit is coupled between the external power source and the first common node, and a transistor is coupled between the first common node and the second common node. The present invention detects an operation parameter of the transistor and controls an internal voltage source to generate a non-predetermined voltage difference accordingly. When the sum of the voltage at the second common node and the non-predetermined voltage is equal to or higher than the reference voltage, the voltage at the first common node is regulated to a level higher than the voltage at the second common node, and the transistor is in an optimum conductive state. | 03-06-2014 |
20140061786 | Double Diffused Metal Oxide Semiconductor Device and Manufacturing Method Thereof - The present invention discloses a double diffused metal oxide semiconductor (DMOS) device and a manufacturing method thereof. The DMOS device includes a first conductive type substrate, a second conductive type high voltage well, a first conductive type deep buried region, a field oxide region, a first conductive type body region, a gate, a second conductive type source, and a second conductive type drain. The deep buried region is formed below the high voltage well with a gap in between, and the gap is not less than a predetermined distance. | 03-06-2014 |
20140061658 | High Electron Mobility Transistor and Manufacturing Method Thereof - The present invention discloses an enhanced mode high electron mobility transistor (HEMT) which includes: a P-type gallium nitride (GaN) layer; a barrier layer, which is formed on and connected to the GaN layer; a dielectric layer, which is formed on and connected to the GaN layer, wherein the barrier layer does not overlap at least part of the dielectric layer; a gate, which is formed on the dielectric layer for receiving a gate voltage; and a source and a drain, which are formed at two sides of the gate on the GaN layer respectively; wherein a two dimensional electron gas (2DEG) is formed at a junction of the GaN layer and the barrier layer which does not include a portion of the junction below the gate, and the 2DEG does not electrically connect the source to the drain when there is no voltage applied to the gate. | 03-06-2014 |
20140056036 | AC-TO-DC POWER CONVERTER AND CONTROL METHOD AND CONTROL INTEGRATED CIRCUIT THEREOF - An AC-to-DC power converter with a BJT as a power switch can set a base current of the BJT by a current setting resistor which is in the outside of a control integrated circuit. Since an output current and a recovery current of the BJT are injected into a sensing resistor, the AC-to-DC power converter can correctly detect an inductor current thereof from the sensing resistor. | 02-27-2014 |
20140048815 | SCHOTTKY BARRIER DIODE AND MANUFACTURING METHOD THEREOF - A Schottky barrier diode (SBD) is disclosed, which includes: a gallium nitride (GaN) layer, formed on a substrate; an aluminum gallium nitride (AlGaN), formed on the GaN layer; an insulation layer, formed on the AlGaN layer; an anode conducive layer, formed on the insulation layer, wherein Schottky contact is formed between a part of the anode conductive layer and the AlGaN layer or between a part of the anode conductive layer and the GaN layer, and another part of the anode conductive layer is separated from the AlGaN layer by the insulation layer; and a cathode conductive layer, formed on the AlGaN layer, wherein an ohmic contact is formed between the cathode conductive layer and the GaN layer or between the cathode conductive layer and the AlGaN layer, and wherein the anode conductive layer is not directly connected to the cathode conductive layer. | 02-20-2014 |
20140046671 | AUDIO SIGNAL PROCESSING CIRCUIT FOR REDUCING ZERO CROSSING DISTORTION AND METHOD THEREOF - An audio signal processing circuit includes an encoding circuit, a first audio conversion circuit, and a second audio conversion circuit. The encoding circuit receives pulse coded modulation signals and generates a first audio signal and a second audio signal accordingly. The first audio conversion circuit generates a first pulse width modulation (PWM) signal according to consecutive values of the first audio signal for configuring a first power stage circuit. The second audio conversion circuit generates a second PWM signal according to consecutive values of the second audio signal for configuring a second power stage circuit. The pulse width of the first PWM signal is configured to be substantially equal to the pulse width of the second PWM signal, and the pulse edges of the first PWM signal and the second PWM signal are configured to be separated by a predetermined time interval to mute the audio signal processing circuit. | 02-13-2014 |
20140045314 | HIGH VOLTAGE DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a high voltage device and a manufacturing method thereof. The high voltage device is formed in a substrate. The high voltage device includes: a gate, a source and drain, a drift region, and a mitigation region. The gate is formed on an upper surface of the substrate. The source and drain are located at both sides of the gate below the upper surface respectively, and the source and drain are separated by the gate. The drift region is located at least between the gate and the drain. The mitigation region is formed below the drift region, and the drift region has an edge closer to the source. A vertical distance between this edge of the drift region and the mitigation region is less than or equal to five times of a depth of the drift region. | 02-13-2014 |
20140045313 | HIGH VOLTAGE DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a high voltage device and a manufacturing method thereof. The high voltage device includes: a first conductive type substrate in which isolation regions are formed for defining a device region; agate formed on the first conductive type substrate; a source and a drain formed in the device region and located at both sides of the gate respectively, and doped with second conductive type impurities; a second conductive type well, which is formed in the first conductive type substrate, and surrounds the drain from top view; and a first deep trench isolation structure, which is formed in the first conductive type substrate, and is located in the second conductive type well between the source and the drain from top view, wherein the depth of the first deep trench isolation structure is deeper than the second conductive type well from the cross-sectional view. | 02-13-2014 |
20140042515 | HIGH VOLTAGE DEVICE - The present invention provides a high voltage device including a shielding metal layer to reduce the noise interference from a high voltage source. The high voltage device includes a substrate, a field oxide layer, a gate layer, a shielding metal layer, and a high voltage interconnection line. The substrate includes a first doped region and a second doped region separated from each other. The field oxide layer is disposed on the substrate. The gate layer is disposed above the field oxide layer. The high voltage interconnection line is coupled to the first doped region and passes above but not below the first shielding metal layer. | 02-13-2014 |
20140022010 | CONTROL CIRCUIT FOR POWER CONVERTER AND METHOD THEREOF - A control circuit for a power converter includes a shared pin, a driving circuit, a current source, a sampling circuit, and a signal processing circuit. The shared pin is coupled with an output end of the power converter through a resistor. The driving circuit conducts a switch of the power converter. The current source provides a current to the resistor through the shared pin. The sampling circuit samples the signal on the shared pin for generating a first sampling value and a second sampling value. The signal processing circuit calculates a first difference between the first sampling value and a first reference value, and a second difference between the second sampling value and a second reference value. When the difference between the first difference and the second difference is less than a predetermined value, the signal processing circuit may therefore configure the conduction time or frequency of the switch. | 01-23-2014 |
20140021929 | MULTI-PHASE SWITCHING REGULATOR AND DROOP CIRCUIT THEREFOR - The present invention provides a multi-phase switching regulator and a droop circuit for use in the multi-phase switching regulator. The multi-phase switching regulator generates pulse width modulation (PWM) signals according to an output voltage and a droop signal, to drive a plurality of switching sets to convert an input voltage to the output voltage. The droop circuit detects the sum of the currents generated by the plurality of switching sets and provides the droop signal which is related to the sum of the currents to the multi-phase switching regulator. The droop signal can be used for over current protection (OCP) or for the droop control. | 01-23-2014 |
20140021544 | Double Diffused Drain Metal Oxide Semiconductor Device and Manufacturing Method Thereof - The present invention discloses a double diffused drain metal oxide semiconductor (DDDMOS) device and a manufacturing method thereof. The DDDMOS device is formed in a substrate, and includes a first well, a gate, a diffusion region, a source, and a drain. A low voltage device is also formed in the substrate, which includes a second well and a lightly doped drain (LDD) region, wherein the first well and the diffusion region are formed by process steps which also form the second well and the LDD region in the low voltage device, respectively. | 01-23-2014 |
20140015008 | Transient Voltage Suppressor Circuit, and Diode Device Therefor and Manufacturing Method Thereof - The present invention discloses a transient voltage suppressor (TVS) circuit, and a diode device therefor and a manufacturing method thereof. The TVS circuit is for coupling to a protected circuit to limit amplitude of a transient voltage which is inputted to the protected circuit. The TVS circuit includes a suppressor device and at least a diode device. The diode device is formed in a substrate, which includes: a well formed in the substrate; a separation region formed beneath the upper surface; a anode region and a cathode region, which are formed at two sides of the separation region beneath the upper surface respectively, wherein the anode region and the cathode region are separated by the separation region; and a buried layer, which is formed in the substrate below the well with a higher impurity density and a same conductive type as the well. | 01-16-2014 |
20140009075 | Backlight Control Circuit with Under Current Detection and Start-up Control - The present invention discloses a backlight control circuit, comprising: a voltage supply circuit for receiving an input voltage and generating an output voltage under control by a control signal; at least one voltage comparison path respectively coupled to at least one light emission device path; a voltage operative amplifier circuit for generating the control signal according to a lowest voltage on the at least one voltage comparison path; and at least one under current detection circuit for detecting whether a corresponding one of the at least one light emission device path is in an under current status, whereby when anyone of the under current detection circuits detects the under current status, it sends an exclusion signal excluding a corresponding one of the at least one voltage comparison path from being an effective input of the voltage operative amplifier. | 01-09-2014 |
20130336420 | Method of Transmission through Single Wire - The invention provides a method of transmission through single wire. The method includes receiving a single-wire signal through a single wire; identifying a start code of the single-wire signal; after identifying the start code, counting a rising edge, a falling edge, or both rising edge and falling edge of the single-wire signal in at least one bit transmission period having a fixed length, to generate a count code; and decoding the count code to generate transmitted information. | 12-19-2013 |
20130335038 | BLEEDING CIRCUIT AND METHOD FOR REDUCING POWER CONSUMPTION OF AN EMI FILTER - A bleeding circuit and method for an electromagnetic interference filter detect whether or not an AC power source connected to the electromagnetic interference filter is removed, establish a discharge path for discharging a capacitor of the electromagnetic interference filter once the connected AC power source is removed, and cut off the discharge path during the AC power source is in connection to the electromagnetic interference filter for decreasing power consumption of the electromagnetic interference filter. | 12-19-2013 |
20130328540 | BUCK SWITCHING REGULATOR AND CONTROL CIRCUIT THEREOF - The present invention discloses a buck switching regulator and a control circuit thereof, wherein the buck switching regulator converts an input voltage to an output voltage. The buck switching regulator includes: a power stage including an upper-gate switch, a lower-gate switch and an inductor, which are coupled to a switching node, wherein the upper-gate switch is electrically connected to the input voltage; a transistor electrically connected between the inductor and the output voltage; and a driver circuit, which controls the upper-gate switch and the lower-gate switch at least according to a current flowing through the transistor. | 12-12-2013 |
20130314060 | Load Transient of a Cot Mode Power Supply - A constant on time mode power supplier uses longer constant on time when the output voltage of the constant on time mode power supplier is drooped due to load variation, to increase energy provided to the output of the constant on time mode power supplier for preventing the output voltage from undershooting and shortening the time for the output voltage to recover stable. | 11-28-2013 |
20130307072 | Double Diffused Metal Oxide Semiconductor Device and Manufacturing Method Thereof - The present invention discloses a double diffused metal oxide semiconductor (DMOS) device and a manufacturing method thereof. The DMOS device is formed in a first conductive type substrate, and includes a second conductive type high voltage well, a field oxide region, a gate, a second conductive type source, a second conductive type drain, a first conductive type body region, and a first conductive type deep well. The deep well is formed beneath and adjacent to the high voltage well in a vertical direction. The deep well and the high voltage well are defined by a same lithography process step. | 11-21-2013 |
20130307070 | Double Diffused Drain Metal Oxide Semiconductor Device and Manufacturing Method Thereof - The present invention discloses a double diffused drain metal oxide semiconductor (DDMOS) device and a manufacturing method thereof. The DDDMOS device is formed in a substrate, and includes: a drift region, a gate, a source, a drain, a dielectric layer, and a conductive layer. The drift region includes a first region and a second region. The gate is formed on the substrate, and overlaps the first region from top view. The source and drain are formed at both sides of the gate respectively, and the drain is located in the second region. The drain and the gate are separated by a portion of the second region from top view. The dielectric layer is formed by dielectric material on the gate and the second region. The conductive layer is formed by conductive material on the dielectric layer, and overlaps at least part of the second region from top view. | 11-21-2013 |
20130299840 | SCHOTTKY BARRIER DIODE AND MANUFACTURING METHOD THEREOF - The present invention discloses a Schottky barrier diode (SBD) and a manufacturing method thereof. The SBD includes: a semiconductor layer, which has multiple openings forming an opening array; and an anode, which has multiple conductive protrusions protruding into the multiple openings and forming a conductive array; wherein a Schottky contact is formed between the semiconductor layer and the anode. | 11-14-2013 |
20130293204 | CONTROL CIRCUIT FOR REDUCING SWITCHING LOSS OF BUCK-BOOST CONVERTER AND RELATED SWITCHING REGULATOR - The switching regulator of a buck-boost converter includes a first, a second, a third, and a fourth switches. A control circuit for controlling the switching regulator includes an error detector, a ramp signal generator, a comparator, an oscillator, and a control signal generator. The error detector generates an error signal corresponding to an output voltage of the switching regulator. The ramp signal generator generates a ramp signal. The comparator compares the error signal and the ramp signal to generate a comparison signal. The oscillator generates an oscillating signal. The control signal generator controls the first, the second, the third, and the fourth switches according to the comparison signal, the oscillating signal, and a clock signal, so that the switching regulator is configured to switch only between a boost mode and a buck mode, and not to operate at a buck-boost mode. | 11-07-2013 |
20130292813 | MULTI-CHIP FLIP CHIP PACKAGE AND MANUFACTURING METHOD THEREOF - A multi-chip flip chip package includes multiple dies. Each die comprises several pads for coupling with pads of the other die and for coupling with pins of the multi-chip flip chip package through conducting elements. A dielectric element is positioned between the dies and the conducting elements, and positioned between the dies for providing the electrical insulation. The dies and the conducting elements between the dies are coated with a packaging element for preventing physical damage and corrosion. | 11-07-2013 |
20130271041 | DRIVER CIRCUIT FOR IMPROVING UTILIZATION RATE OF LED DEVICE AND RELATED CONSTANT CURRENT REGULATOR - A driver circuit for driving an LED array is disclosed. The LED array includes a first, a second, a third, a fourth LED device and a diode device. The second LED device is connected to the first LED device. The fourth LED device is connected to the third LED device. The diode device is connected between the second LED device and the third LED device. The driver circuit includes a first constant current regulator for coupling between the first and the second LED device; a second constant current regulator for coupling between the second and the third LED device; a third constant current regulator for coupling between the third and the fourth LED device; a fourth constant current regulator for coupling between the fourth LED device and a fixed-voltage terminal; and a control circuit coupled with the first, the second, the third, and the fourth constant current regulators. | 10-17-2013 |
20130270634 | HIGH VOLTAGE DEVICE AND MANUFACTURING METHOD THEREOF - The present invention discloses a high voltage device and a manufacturing method thereof. The high voltage device is formed in a first conductive type substrate. A low voltage device is also formed in the substrate. The high voltage device includes a drift region, a gate, a source, a drain, and a mitigation region. The mitigation region has a second conductive type, and is formed in the drift region between the gate and drain. The mitigation region is formed by a process step which also forms a lightly doped drain (LDD) region in the low voltage device. | 10-17-2013 |
20130270571 | SCHOTTKY BARRIER DIODE AND MANUFACTURING METHOD THEREOF - The present invention discloses a Schottky barrier diode (SBD) and a manufacturing method thereof. The SBD is formed on a substrate. The SBD includes: a gallium nitride (GaN) layer; an aluminum gallium nitride (AlGaN), formed on the GaN layer; a high work function conductive layer, formed on the AlGaN layer, wherein a first Schottky contact is formed between the high work function conductive layer and the AlGaN layer; a low work function conductive layer, formed on the AlGaN layer, wherein a second Schottky contact is formed between the low work function conductive layer and the AlGaN layer; and an ohmic contact metal layer, formed on the AlGaN layer, wherein an ohmic contact is formed between the ohmic contact metal layer and the AlGaN layer, and wherein the ohmic contact conductive layer is separated from the high and low work function conductive layers by a dielectric layer. | 10-17-2013 |
20130256846 | Semiconductor Overlapped PN Structure and Manufacturing Method Thereof - The present invention discloses a semiconductor overlapped PN structure and manufacturing method thereof. The method includes: providing a substrate; providing a first mask to define a P (or N) type well and at least one overlapped region in the substrate; implanting P (or N) type impurities into the P (or N) type well and the at least one overlapped region; providing a second mask having at least one opening to define an N (or P) type well in the substrate, and to define at least one dual-implanted region in the at least one overlapped region; implanting N (or P) type impurities into the N (or P) type well and the at least one dual-implanted region such that the at least one dual-implanted region has P type and N type impurities. | 10-03-2013 |
20130256680 | Vertical Semiconductor Device and Manufacturing Method Thereof - The present invention discloses a vertical semiconductor device and a manufacturing method thereof. The vertical semiconductor device includes: a substrate having a first surface and a second surface, the substrate including a conductive array formed by multiple conductive plugs through the substrate; a semiconductor layer formed on the first surface, the semiconductor layer having a third surface and a fourth surface, wherein the fourth surface faces the first surface; a first electrode formed on the third surface; and a second electrode formed on the second surface for electrically connecting to the conductive array. | 10-03-2013 |
20130250631 | POWER SUPPLY CIRCUIT WITH PFC FUNCTION, AND AUTOMATIC GAIN CONTROL CIRCUIT THEREFOR AND CONTROL METHOD THEREOF - The present invention discloses a power supply circuit with power factor correction (PFC) function, and an automatic gain control circuit therefor and a control method thereof. The power supply circuit includes the automatic gain control circuit and a load driver circuit. The automatic gain control circuit converts an input voltage to a regulation voltage, and the load driver circuit generates an output current according to the regulation voltage. The automatic gain control circuit automatically adjust the regulation voltage such that the regulation voltage has a substantially fixed amplitude or fixed average value under different input voltages of different specifications, and the output current provided by the load driver circuit varies in phase with the input voltage to provide a PFC function. | 09-26-2013 |
20130249514 | Efficiency Improvement of a Driver by Using Serially Connected Low Voltage Transistors or Dynamic Transistor Size Control - Serially connected low voltage transistors are used to replace a high voltage transistor in a voltage conversion circuit for a driver, or parallel connected sub-transistors are used to establish a high voltage transistor having an effective size dynamically adjusted according to loading of the driver, to reduce switching loss and thereby improve the efficiency of the driver. | 09-26-2013 |
20130241296 | SWITCHING VOLTAGE REGULATOR WITH MULTIPLE POWER INPUT TERMINALS AND RELATED POWER CONVERTER - A switching voltage regulator for a power converter is disclosed. The power converter includes a power source selector, a regulator controller, and an inductor. The switching voltage regulator includes: a first power input terminal; a second power input terminal; a first switch having a first terminal coupled with the first power input terminal; a second switch having a first terminal coupled with the second power input terminal; a third switch having a first terminal coupled with a second terminal of the first switch and a second terminal of the second switch; and a fourth switch having a first terminal, coupled with a second terminal of the third switch, for coupling with the inductor. Control terminals of the first switch and the second switch are utilized for coupling with the power source selector. Control terminals of the third switch and the fourth switch are utilized for coupling with the regulator controller. | 09-19-2013 |
20130235633 | CONTROL CIRCUIT FOR POWER CONVERTER AND METHOD THEREOF - A control circuit for a power converter has a current source, a sampling circuit, a signal processing circuit, a driving circuit, and a shared pin. The shared pin is used for coupling with a resistor and a switch. The current source, coupled with the shared pin, provides a current through the shared pin to the resistor in a first period. The sampling circuit, coupled with the shared pin, samples signals on the shared pin for generating a first sampling value and a second sampling value. The signal processing circuit, coupled with the sampling circuit, compares the first sampling value and the second sampling value. The driving circuit generates driving signals for conducting the switch. When the difference of the first sampling value and the second sampling value is less than a predetermined value, the signal processing circuit configures the driving circuit to intermittently conduct the switch in a second period. | 09-12-2013 |
20130234790 | CONTROL CIRCUIT FOR POWER CONVERTER AND METHOD THEREOF - A control circuit for a power converter is disclosed, having a shared pin, a driving circuit, a current source, a sampling circuit, and a signal processing circuit. The shared pin is used for coupling with an output end of the power converter through a resistor. The driving circuit is used for conducting a switch of the power converter. The current source provides a current to the resistor through the shared pin. The sampling circuit samples the signal on the shared pin for generating a first sampling value and a second sampling value. When the difference between the first sampling value and the second sampling value is less than a predetermined value, the signal processing circuit configures the driving circuit to adjust at least one of the conduction time and the conduction frequency of the switch according to an output signal of the power converter received from the shared pin. | 09-12-2013 |
20130229207 | FLOATING GATE DRIVER WITH BETTER SAFE OPERATION AREA AND NOISE IMMUNITY, AND METHOD FOR LEVEL SHIFTING A SWITCH SIGNAL - A floating gate driver includes a level shifter to transmit a set signal and a reset signal to a first output terminal and a second output terminal, respectively. The level shifter includes a first high-voltage transistor, a first current limiter and a first input transistor connected in series between the first output terminal and a ground terminal, and a second high-voltage transistor, a second current limiter and a second input transistor connected in series between the second output terminal and the ground terminal, and the first and second high-voltage transistors are remained on. With this arrangement, the level shifter can transmit signals from low side to high side under better safe operating area and has better noise immunity. | 09-05-2013 |
20130221978 | Light Emitting Device Control Circuit and Short Detection Circuit Thereof - The present invention discloses a light emitting device control circuit and a short detection circuit. The light emitting device control circuit controls a light emitting array which includes a plurality of light emitting device strings. Each light emitting device string includes a first terminal which is connected to a common node, a second terminal, and a plurality of light emitting devices connected in series. The light emitting device control circuit includes: a short detection circuit, coupled to the second terminals to receive second terminal signals from the second terminals, generating comparison signals according to whether the second terminal signals are higher than a reference signal, and generating a short detection signal according to whether a number of the comparison signals is between a first setting value and a second setting value. | 08-29-2013 |
20130221875 | LIGHT EMITTING DEVICE DRIVER CIRCUIT AND CONTROL METHOD THEREOF - The present invention discloses a light emitting device circuit and a control method thereof. The light emitting device circuit includes: a light emitting device control circuit, for converting an input voltage to an output voltage according to a control signal, wherein the output voltage is supplied to a light emitting device circuit; a voltage supply circuit, which is coupled to the light emitting device circuit, for generating a supply voltage from the output voltage; and a remote control circuit, which is coupled to the voltage supply circuit, for receiving the supply voltage, and generating the control signal according to a remote signal. | 08-29-2013 |
20130217196 | High Voltage Device and Manufacturing Method Thereof - The present invention discloses a high voltage device and a manufacturing method thereof. The high voltage device is formed in a first conductive type substrate, wherein the substrate has an upper surface. The high voltage device includes: a second conductive type buried layer, which is formed in the substrate; a first conductive type well, which is formed between the upper surface and the buried layer; and a second conductive type well, which is connected to the first conductive type well and located at different horizontal positions. The second conductive type well includes a well lower surface, which has a first part and a second part, wherein the first part is directly above the buried layer and electrically coupled to the buried layer; and the second part is not located above the buried layer and forms a PN junction with the substrate. | 08-22-2013 |
20130207704 | CIRCUIT AND METHOD FOR IMPROVING NOISE IMMUNITY OF A SINGLE-END LEVEL SHIFTER IN A FLOATING GATE DRIVER - A floating gate driver uses a single-end level shifter to translate a set signal and a reset signal induced by a rising edge and a falling edge of a switch signal to a common output terminal to generate an output voltage for a bistable circuit to generate a level shifted switch signal. Under control of a well transient detect signal asserted by detecting noise in the output voltage, a masking circuit between the single-end level shifter and the bistable circuit masks noise in the output voltage. This configuration has lower area penalty and better noise immunity. | 08-15-2013 |
20130207628 | Power Supply Circuit, Switching Regulator, and Control Circuit and Control Method Thereof - The present invention discloses a switching regulator having a control circuit which includes an error amplifier circuit. The error amplifier circuit compares a feedback signal relating to an output voltage with a reference signal, to regulate the feedback signal to a level of the reference signal. When it is determined that the switching regulator has entered a shutdown procedure, the reference signal gradually decreases so that the output voltage is decreased to a shutdown threshold. | 08-15-2013 |
20130181319 | Trench Schottky Barrier Diode and Manufacturing Method Thereof - The present invention discloses a trench Schottky barrier diode (SBD) and a manufacturing method thereof. The trench SBD includes: an epitaxial layer, formed on a substrate; multiple mesas, defined by multiple trenches; a field plate, formed on the epitaxial layer and filled in the multiple trenches, wherein a Schottky contact is formed between the field plate and top surfaces of the mesas; a termination region, formed outside the multiple mesas and electrically connected to the field plate; a field isolation layer, formed on the upper surface and located outside the termination region; and at least one mitigation electrode, formed below the upper surface outside the termination region, and is electrically connected to the field plate through the field isolation layer, wherein the mitigation electrode and the termination region are separated by part of a dielectric layer and part of the epitaxial layer. | 07-18-2013 |
20130177175 | POWER EFFICIENCY IMPROVEMENT OF AN AUDIO AMPLIFIER BY ADAPTIVE CONTROL OF A CHARGE PUMP - A control circuit and method for an audio amplifier detect a signal for driving a speaker to control the switching frequency and the operation mode of a charge pump in the audio amplifier, to improve power efficiency of the audio amplifier. Preferably, a digital interface is further used to test the magnitude of the output signal of the audio amplifier, to reduce the costs of analog test. The charge pump has fewer switches and thus saves costs and die area of an integrated circuit. The control method needs only two phase control for the charge pump to generate a positive voltage and a negative voltage, and thus simplifies the operation of the circuit. | 07-11-2013 |
20130177163 | NOISE REDUCTION USING A SPEAKER AS A MICROPHONE - During sound recording by a microphone, a recording device and method locate characteristics of noise by using a speaker as a second microphone to simultaneously receive sound, and then use the characteristics of noise for noise reduction of the received sound by the microphone, thereby improving the quality of sound recording. By using the speaker as a microphone to establish a microphone array with the existing microphone for noise reduction, no costs of additional microphones is required. | 07-11-2013 |
20130176758 | MOSFET BRIDGE RECTIFIER - A bridge rectifier is established by MOSFETs instead of diodes. The MOSFET bridge rectifier includes a voltage detector to detect the voltages of two AC input terminals of the MOSFET bridge rectifier, for identifying the positive and negative half cycles of an AC voltage input to the MOSFET bridge rectifier, thereby accurately controlling the MOSFETs. | 07-11-2013 |
20130170261 | SELF-DISCHARGE CONTROL FOR AN EMI FILTER CAPACITOR - An independent bleeding integrated circuit device is provided to replace the bleeding resistor for an EMI filter capacitor, to establish a discharge path between the two terminals of the EMI filter capacitor when the EMI filter capacitor is disconnected from an AC power source, for discharging the EMI filter capacitor. When the EMI filter capacitor is connected with an AC power source, the discharge path is cut off to avoid power loss. | 07-04-2013 |
20130169252 | Switching Regulator and Control Circuit and Control Method Thereof - The present invention discloses a switching regulator and a control circuit and a control method thereof. The switching regulator generates a compensation signal according to a feedback signal, and generates a driving signal according to the compensation signal, to control a power stage for converting an input voltage to an output voltage. The compensation signal is adjusted according to the input voltage, such that when the input voltage is equal to or lower than a predetermined level, the compensation signal is kept at a predetermined value. | 07-04-2013 |
20130169177 | Active Bleeder Circuit Triggering TRIAC in All Phase and Light Emitting Device Power Supply Circuit and TRIAC Control Method Using the Active Bleeder Circuit - The present invention discloses an active bleeder circuit capable of triggering a tri-electrode AC switch (TRIAC) circuit in all phase. The active bleeder circuit receives a rectified signal having an OFF phase and an ON phase. The active bleeder includes: a detection circuit for generating a detection signal according to the rectified signal and accumulating the detection signal in the OFF phase of the rectified signal; and a current sinker circuit coupled to the detection circuit, for generates a latching current to trigger the TRIAC circuit by operating a switch when the detection signal exceeds a predetermined level. The present invention also discloses a light emitting device power supply circuit and a TRIAC control method using the active bleeder circuit. | 07-04-2013 |
20130162234 | BUCK REGULATION OF A BOOST REGULATOR - Buck regulation methods are provided for a boost regulator to convert an input voltage into an output voltage lower than the input voltage. The buck regulation methods can reduce the variation of the inductor current of the boost regulator, and thereby decrease power consumption and increase the efficiency of the boost regulator under buck regulation. | 06-27-2013 |
20130147385 | COMPENSATING LED CURRENT BY LED CHARACTERISTICS FOR LED DIMMING CONTROL - LED dimming control circuit and method compensate LED current or LED average current by LED characteristics to improve dimming efficiency and performance. LED characteristic related look-up tables are stored to provide compensation values, and input LED current setting information is compensated by the compensation values to generate corrected LED current setting information for determining LED brightness. | 06-13-2013 |
20130121047 | ACTIVE POWER FACTOR CORRECTION CIRCUIT AND RELATED PFC CONTROLLER - An active power factor correction (PFC) circuit for calibrating a power factor of an AC-to-DC converter when the active PFC circuit is coupled with the AC-to-DC converter is disclosed including: a piecewise linear gain circuit, an error amplifier, a PWM controller, and a PWM signal generator. The piecewise linear gain circuit is for receiving a feed forward signal and generating a corresponding gain signal, wherein the gain signal and the feed forward signal have a broken line relation with respect to magnitude. The error amplifier is for generating an error signal according to an output voltage of the AC-to-DC converter. The PWM controller is for generating a control signal according to the gain signal and the error signal. The PWM signal generator is for generating a PWM signal for controlling a power switch of the AC-to-DC converter according to the control signal. | 05-16-2013 |
20130114310 | Power Supply Control Circuit and method for sensing voltage in the power supply control circuit - The present invention discloses a power supply control circuit, the power supply providing an output voltage to an output terminal from an input terminal through a transformer having a primary winding and a secondary winding, the power supply control circuit comprising: a power switch electrically connected with the primary winding; a switch control circuit controlling the power switch; and a sensing circuit supplying an output signal to the switch control circuit according to voltage signals obtained from two sides of the primary winding, wherein the sensing circuit includes a setting circuit for deciding the output voltage according to a reference signal. The present invention also relates to a voltage sensing method in the power supply control circuit. | 05-09-2013 |
20130114308 | Switching Regulator and Control Circuit and Control Method Thereof - The present invention discloses a switching regulator and a control circuit and a control method thereof. The control circuit of the switching regulator, which controls rectified power within a predetermined range, detects an input voltage and an input current to generate a voltage detection signal and a current detection signal respectively, and the voltage detection signal and the current detection signal are multiplied by one the other to generate a power index. The control circuit generates an error signal according to the power index and a reference signal. A low-pass-filter filters a high frequency band in the process. A control signal generation circuit of the control circuit generates a control signal according to the error signal. And a driver circuit of the control circuit generates an operation signal according to the control signal, for switching a power switch to convert the rectified power to an output voltage. | 05-09-2013 |
20130113450 | MIXED MODE COMPENSATION CIRCUIT AND METHOD FOR A POWER CONVERTER - A mixed mode compensation circuit and method for a power converter generate a digital signal according to a reference value and a feedback signal which is related to the output voltage of the power converter, convert the digital signal into a first analog signal, offset the first analog signal with a variable offset value to generate a second analog signal, and filter out high-frequency components of the second analog signal to generate a third analog signal for stable output voltage of the power converter. The mixed mode compensation does not require large capacitors, and thus the circuit can be integrated into an integrated circuit. | 05-09-2013 |
20130099380 | WAFER LEVEL CHIP SCALE PACKAGE DEVICE AND MANUFACTURING METHOD THEROF - The present invention discloses a wafer level chip scale package device. The device includes: a chip including at least one bonding pad; a UBM layer disposed on the bonding pad; a pre-solder layer disposed on the UBM layer; and a bump melted and combined with the pre-solder layer. | 04-25-2013 |
20130093429 | BATTERY GAUGE ESTIMATION DEVICE - A battery gauge estimation device is disclosed, having an impedance element, a switch, a control circuit, a voltage detection circuit, and an estimation circuit. The impedance element is coupled between a first terminal and a second terminal of a battery, and the switch is coupled between the impedance element and the first terminal of the battery. The control circuit configures the switch to be intermittently conducted at a predetermined frequency. The voltage detection circuit detects the voltage difference between the terminals of the impedance element. The estimation circuit generates a remaining power estimation according to the detected voltage difference. | 04-18-2013 |
20130069614 | POWER SUPPLY CIRCUIT AND POWER SUPPLY CIRCUIT WITH ADAPTIVELY ENABLED CHARGE PUMP - The present invention discloses a power supply circuit with adaptively enabled charge pump. The power supply circuit includes: a buck switching regulator switching at least one power switch therein to convert an input voltage to a middle voltage according to a control signal; a charge pump coupled to the buck switching regulator, wherein when the charge pump is enabled, the charge pump boosts the middle voltage to provide an output voltage higher than the middle voltage, and when the charge pump is disabled, the middle voltage is supplied as the output voltage; and a controller generating the control signal to control the switching regulator, and determining to enable or disable the charge pump according to a level of the input voltage. | 03-21-2013 |
20130038260 | METHOD AND APPARATUS FOR DYNAMICALLY ADJUSTING A DEAD TIME OF BRUSHLESS DIRECT CURRENT MOTOR DURING A PHASE CHANGE - A method and apparatus for dynamically adjusting a dead time of a BLDC motor during a phase change detect the winding current of the BLDC motor during the dead time, and terminate the dead time when the winding current is detected to be substantially or close to zero. Thus, the method and apparatus can optimize the dead time and switch the BLDC motor between two phases at a zero-current point, without reducing the maximum rotation speed of the BLDC motor. | 02-14-2013 |
20120306459 | Power Factor Correction Circuit, Control circuit Therefor and Method for Driving Load Circuit through Power Factor Correction - The present invention discloses a power factor correction circuit, a control circuit therefor and a method for driving a power factor correction circuit. The power factor correction circuit receives rectified power obtained by rectifying AC power, and corrects the power factor thereof. The power factor correction circuit includes an inductor, and it generates a reference signal as a limit for the inductor current. The reference signal is proportional to Comp/Vin, wherein Comp is a signal relating to a feedback signal, and Vin is a voltage signal relating to the AC power or the rectified power. | 12-06-2012 |
20120262136 | ENHANCED PHASE CONTROL CIRCUIT AND METHOD FOR A MULTIPHASE POWER CONVERTER - A multiphase power converter has a plurality of phase circuits, each of which provides a phase current when being active. During single-phase operation of the multiphase power converter, an enhanced phase control circuit and method monitor the summation of the phase currents, and when the summation becomes higher than a threshold, switch the multiphase power converter to a higher power zone to increase the number of active phases. A high efficiency and high reliability multiphase power converter is thus accomplished. | 10-18-2012 |
20120249224 | DUAL MODE CHARGE PUMP - A dual mode charge pump is operable in a first mode or a second mode for providing positive and negative output voltages that can be stabilized by adjusting the charging time of two terminals of a flying capacitor or by adjusting the charging/discharging time of the positive and negative voltage output terminals. The dual mode charge pump can apply to a much wider input supply voltage range with less numbers of power switches, thus requiring less die area and lower costs. Moreover, the dual mode charge pump can precisely define a common mode voltage, thus making the common voltage drift smaller and less load dependent, especially when the output supply voltages are under different load conditions. | 10-04-2012 |
20120235659 | CONTROL CIRCUIT FOR SWITCHING VOLTAGE REGULATOR - A control circuit for a switching voltage regulator is disclosed, having a charging circuit, a discharging circuit, and a charging-discharging control circuit. The charging circuit generates a charging current according to the input voltage and the output voltage of the switching voltage regulator for charging a capacitor. The discharging circuit generates a discharging current according to the output voltage of the switching voltage regulator for discharging the capacitor. The charging-discharging control circuit configures the charging circuit, the discharging circuit, and the switching voltage regulator according to the voltage of the capacitor for providing a control signal to configure the switching voltage regulator. | 09-20-2012 |
20120229165 | CONFIGURATION AND METHOD FOR IMPROVING NOISE IMMUNITY OF A FLOATING GATE DRIVER CIRCUIT - A floating gate driver circuit includes a level shifter, a pass element, a bistable circuit and a control logic circuit, to shift the voltage level of a control signal from a lower one to a higher one. The level shifter or the pass element has loads dynamically controlled by the control logic circuit to filter malfunction caused by dv/dt noise induced by a floating node. | 09-13-2012 |
20120217941 | CONTROL CIRCUIT AND METHOD FOR A RIPPLE REGULATOR SYSTEM - A control circuit and method for a ripple regulator system generate a ripple signal in-phase and synchronous with an inductor current of the ripple regulator system, and extract a ripple information proportional to the amplitude of the ripple signal. The ripple signal is used for triggering control in PWM signal generation to make the ripple regulator system have small ripples and better loop stability simultaneously. The ripple information is used to improve the output offset of the ripple regulator system that is caused by the ripple signal. | 08-30-2012 |
20120146602 | CONTROL CIRCUIT AND METHOD FOR A BUCK-BOOST SWITCHING CONVERTER - A control circuit and method for a buck-boost switching converter provides a mode determinative circuit to judge the timing of an operation under buck-boost mode based on the input voltage, the output voltage and the mode reference voltage; meanwhile, the control signal generating circuit is provided to turn off the second switch during the first switch being on, turn on the second switch during the first switch being off, turn off the fourth switch during the third switch being on, turn on the fourth switch during the third switch being off, wherein the duty cycles of the first and third switches are identical, and duty cycles of the second and fourth switches are identical. | 06-14-2012 |
20120126770 | MULTI-STAGE VOLTAGE REGULATING CIRCUIT WITH AUTOMATIC THERMAL COMPENSATION AND REGULATING METHOD THEREOF - A multi-stage voltage regulating circuit and method with automatic temperature compensation comprises a plurality of charge-pumps, a temperature compensator, a comparative unit and a control logic circuit; wherein, the temperature compensator detects the ambient temperature and outputs a reference voltage related to the ambient temperature, the comparative unit compares the voltage of the output power source to the reference voltage output by the temperature compensator and outputs a comparative signal based on the comparison, and the control logic circuit controls the charging/discharging operations of the charge-pumps based on the comparative signal and voltages of input power sources connected to said charge-pumps to automatically regulate the voltage of the output power source. | 05-24-2012 |
20120105391 | DRIVING CIRCUIT FOR A THREE-DIMENSIONAL LIQUID CRYSTAL LENS - A driving circuit for a three-dimensional liquid crystal lens provides a storage to store a high output value and a low output value of the channel output signal; the high and low output values are converted by a digital analog converter as the high output signal, the low output signal and the common signal which are driven by the driving circuit to produce the high driven output signal, the low driven output signal and the common output signal which are selectively output by the select logic circuit as the channel output signal according to the select signal; Thus, less operation amplifiers are needed, and the speed of response of the circuit can be enhanced. Power consumption can be reduced as well. | 05-03-2012 |
20100141320 | Power management and control apparatus for resetting a latched protection in a power supply unit - A controller which has functions of remote control, multiple protection and PWM inside. The controller can shut down and latch the converter, when a failure happens (such as under voltage and over voltage of output, and over power protection). But, under-voltage and over-power protection will also happen when Vin is decreased by AC interruption or Vin source is removed. This invention is to provide a method to reset the latch protection by detecting Vin and Vo voltage. | 06-10-2010 |
20080238382 | Anti-ringing switching regulator and control method therefor - The present invention discloses an anti-ringing switching regulator, comprising a variable resistor, a transistor, and an inductor electrically connected to a common node, in which the variable resistor is electrically connected with an input voltage, the transistor is electrically connected to ground, and the inductor is electrically connected to an output terminal, whereby the input voltage is converted and transmitted to the output terminal according to the resistance variation of the variable resistor and the switching of the transistor. | 10-02-2008 |