UPI SEMICONDUCTOR CORP. Patent applications |
Patent application number | Title | Published |
20150263620 | GATE DRIVER AND CONTROL METHOD THEREOF - A gate driver and a control method thereof are provided. The gate driver is coupled to a capacitor. The gate driver includes a timing control circuit and a switch unit. The switch unit is coupled to the timing control circuit, the capacitor and a working voltage. The timing control circuit receives an input control signal and performs a timing control to the input control signal to generate a first control signal and a second control signal. The switch unit includes a first switch element and a second switch element. The second switch element controls a body voltage of the first switch element according to the second control signal. The switch unit enables the working voltage to charge the capacitor via the switch unit according to the first control signal and the second control signal. | 09-17-2015 |
20150077083 | RAMP SIGNAL GENERATING METHOD AND GENERATOR THEREOF, AND PULSE WIDTH MODULATION SIGNAL GENERATOR - A ramp signal generating method and a generator thereof, and a pulse width modulation signal generator are provided. The ramp signal generating method includes following steps: receiving an error signal, wherein the error signal relates to an output voltage of a power converter; generating an error delayed signal according to the error signal; and providing a ramp signal according to the error signal and the error delayed signal. The ramp signal is phase leading and inverting compared to the error signal. The ramp signal serves to improve a response speed of the power converter. | 03-19-2015 |
20150077080 | TIME SIGNAL GENERATOR AND TIME SIGNAL GENERATING METHOD - A time signal generator and a time generating method used in a power converter are provided. The time generating method includes following steps. An error delay signal is generated according to an error signal, wherein the error signal is related to an output voltage of the power converter. A time signal is generated according to the error signal and the error delay signal. The time signal may serve to improve a response speed of the power converter. | 03-19-2015 |
20150022171 | PHASE ADJUSTMENT CIRCUIT OF POWER CONVERTER, POWER CONVERTER, AND CONTROL METHOD THEREOF - A phase adjustment circuit of a power converter, the power converter, and a control method of the power converter are provided. The control method includes following steps. A delay signal is generated according to an error signal, and the error signal is associated with an output voltage of the power converter. A difference between the error signal and the delay signal is amplified. A control signal is provided according to the amplified difference and the error signal, and a phase of the control signal leads a phase of the error signal. The control signal serves to improve a response speed of the power converter. | 01-22-2015 |
20150022170 | DRIVER AND DRIVING CONTROL METHOD FOR POWER CONVERTER - A driver and a driving control method for a power converter are provided. The driver includes a level shift circuit, a negative voltage generator and a first PMOS transistor. The level shift circuit provides an output signal, wherein the output signal has a first operation voltage and a second operation voltage. When the output signal received by the negative voltage generator is the first operation voltage, the negative voltage generator outputs the first operation voltage. When the output signal received by the negative voltage generator is the second operation voltage, the negative voltage generator generates and outputs a third operation voltage, and the third operation voltage is lower than the second operation voltage. A control terminal of the first PMOS transistor is coupled to an output terminal of the negative voltage generator. An output terminal of the first PMOS transistor provides a driving voltage. | 01-22-2015 |
20140374866 | Photo Sensing Chip Having a Plurality of Photo Sensors and Manufacturing Method Thereof - A photo sensing chip and a manufacturing method thereof are disclosed. The photo sensing chip includes a silicon substrate and a plurality of photo sensors formed on the silicon substrate. The photo sensors include a first photo sensor and a second photo sensor. The first photo sensor has a first P-N junction and a first depletion region is formed at first P-N junction for receiving a first light band of an incident light to generate a first photo current. The second photo sensor has a second P-N junction and a second depletion region is formed at second P-N junction for receiving a second light band of the incident light to generate a second photo current. A first process parameter corresponds to the first depletion region and a second process parameter corresponds to the second depletion region, wherein the first process parameter and the second process parameter are different. | 12-25-2014 |
20140340091 | METHOD FOR MEASURING ELECTRIC CHARGE OF A BATTERY - A method for measuring electric charge of a battery is provided. The method includes the following steps. A lookup table is provided that stores a plurality of preset measurement confirmation voltages and a plurality of set electric charge. A first voltage of the battery is measured as a start point. An end point is calculated according to the lookup table and the start point. A voltage and a current of the battery are measured until a measured voltage reaches a preset measurement confirmation voltage corresponding to the end point. A set electric charge is calculated according to the lookup table from the start point to the end point. An actual electric charge is calculated from the start point to the end point. The set electric charge is corrected according to a difference between the actual electric charge and the set electric charge. | 11-20-2014 |
20140340068 | BANDGAP REFERENCE CIRCUIT - A bandgap reference circuit is provided and which includes an operating voltage, a current mirror, a first p-channel metal-oxide semiconductor (PMOS) transistor and an amplifier. The current mirror is coupled to the operating voltage. The first PMOS transistor is coupled to the operating voltage and the current mirror. The amplifier is coupled to the current mirror and the first PMOS transistor. When the bandgap reference circuit is activated, the operating voltage starts to supply voltage such that the first PMOS transistor is turned on first. When the operating voltage is higher than a preset voltage level, the first PMOS transistor is turned off, in order to complete an start-up process. | 11-20-2014 |
20140340066 | TIMING GENERATOR AND TIMING SIGNAL GENERATION METHOD FOR POWER CONVERTER - A timing generator for a power converter is provided. The timing generator includes a threshold voltage generation circuit and a timing generation unit. The threshold voltage generation circuit receives an error signal related to an output voltage of the power converter. The threshold voltage generation circuit generates a threshold voltage according to the error signal. The timing generation unit generates a timing signal according to the error signal, the threshold voltage and a control signal. The timing generation unit provides a tracking signal. A width of the timing signal depends on a time when tracking signal departed from a level of the error signal to a level of the threshold voltage. The present invention also provides a timing signal generation method for the power converter. | 11-20-2014 |
20140340064 | POWER CONVERTER AND OPERATING METHOD THEREOF - A power converter is disclosed. The power converter includes a comparator and a timing generator. The comparator compares a first input signal with a second input signal to provide a control signal. The timing generator is coupled to the comparator. The timing generator includes a plurality of timing generating units, a logic unit, and a calculation unit. The timing generator generates a plurality of timing signals through the timing generating units and the logic unit according to the control signal, and the calculation unit forms a pulse width modulation (PWM) signal according to the timing signals. At least a part of the timing signals are overlapped. | 11-20-2014 |
20140340059 | TIMING GENERATOR AND TIMING SIGNAL GENERATION METHOD FOR POWER CONVERTER - A timing generator and a timing signal generation method for a power converter are provided. The timing generator includes an adjusting circuit and a timing generation unit. The adjusting circuit receives an error signal related to an output voltage of the power converter. The adjusting circuit generates an adjusting signal according to the error signal and a delay circuit. The timing generation unit generates a timing signal according to the error signal, the adjusting signal and a control signal. A width of the timing signal is changed with the error signal and the adjusting signal. Accordingly, the timing generator adjusts On-time/Off-time in response to a transient response. | 11-20-2014 |
20140333278 | DC-DC CONTROLLER AND MULTI-RAMP SIGNAL OPERATING METHOD THEREOF - A DC-DC controller and a multi-ramp signal operating method thereof are provided. The DC-DC controller includes a ramp generating unit, a comparator, a logic circuit and a switch unit. The ramp generating unit generates a first interior-ramp signal and a second interior-ramp signal alternately. The logic circuit generates the first and second control signals according to a comparison signal of the comparator. The switch unit is configured to switch one of the first interior-ramp signal and the second interior-ramp signal alternately to a second terminal of the comparator according to the first and second control signals. When the second interior-ramp signal is switched to the comparator, the first interior-ramp signal is charged to a first voltage level by the ramp generating unit. In another switch procedure, the second interior-ramp signal is charged to a second voltage level by the ramp generating unit. | 11-13-2014 |
20140218004 | INTEGRATED CIRCUIT WITH MULTI-FUNCTIONAL PARAMETER SETTING AND MULTI-FUNCTIONAL PARAMETER SETTING METHOD THEREOF - An integrated circuit with multi-functional parameter setting and a multi-functional parameter setting method thereof are provided. The multi-functional parameter setting method includes the following steps: providing the integrated circuit, wherein the integrated circuit includes a multi-functional pin and a switch unit, wherein the multi-functional pin is coupled to an external setting unit, and the switch unit includes an operational amplifier; sensing a programmable reference voltage of the external setting unit through one operation of the switch unit and executing a first function setting according to the programmable reference voltage; and sensing a programmable reference current related to the external setting unit through another operation of the switch unit and executing a second function setting according to the programmable reference current, wherein a value of the programmable reference current is related to the programmable reference voltage. | 08-07-2014 |
20140197810 | MULTI-PHASE DC-DC CONVERTER AND CONTROLLING METHOD THEREOF - A multi-phase DC-DC converter and a controlling method thereof are provided. The multi-phase DC-DC converter includes a plurality of output units, a sensing unit, and a pulse width modulation (PWM) controller. Each of the output units is coupled to one corresponding output inductance of a plurality of output inductances, and each of the output units and the corresponding output inductance have a phase node therebetween. The sensing unit is coupled to the phase nodes to acquire output currents of all phases and provide a plurality of difference voltages that respectively represent current differences of the phases, wherein a value of each of the difference voltages is not zero. The PWM controller adjusts a duty cycle of a PWM signal of the corresponding output unit according to each difference voltage. | 07-17-2014 |
20140197739 | DC-DC Converter Protection Circuit and Protection Method Thereof - A protection circuit of a DC-DC converter is disclosed. An input terminal of the DC-DC converter receives an input voltage and an output terminal of the DC-DC converter provides an output voltage. The DC-DC converter includes an output stage between the input terminal and the output terminal The protection circuit includes a current sensor, a comparator, a determining circuit, and a protection control circuit. The current sensor provides a sensing signal. The comparator compares a default over-voltage with the sensing signal to provide an over-current control signal. The determining circuit provides a determining control signal. The protection control circuit determines whether to enable a short protection according to the over-current control signal and the determining control signal. | 07-17-2014 |
20140176097 | MULTI-PHASE DC-DC POWER CONVERTER - A multi-phase DC-DC power converter is provided, which includes a pulse width modulation (PWM) controller and a plurality of output stage circuits. The plurality of output stage circuits converts an input voltage into an output voltage. The PWM controller includes a feedback circuit and a PWM generation module. The feedback circuit outputs a trigger signal according to the output voltage and a ramp signal. The PWM generation module at least generates a first PWM signal and a second PWM signal. In addition, a waveform of the first PWM signal partially overlaps a waveform of the second PWM signal at a logic high level. | 06-26-2014 |
20140176091 | DC-DC CONTROLLER AND CONTROL METHOD THEREOF - A DC-DC controller and a control method thereof are provided. The DC-DC controller is coupled to an output stage. The output stage receives an input voltage and provides an output voltage. The DC-DC controller includes a transient boost circuit, a ramp oscillator, a combination logic circuit, a first comparator and a pulse width modulation (PWM) generator. The transient boost circuit generates an adjusting signal according to a variation of the output voltage. The combination logic circuit controls the ramp oscillator to generate a ramp signal according to the adjusting signal. The first comparator generates a first signal according to the ramp signal and an outputted feedback voltage related to the output voltage. The PWM generator generates a PWM signal according to the first signal, so as to control the operations of the output stage. | 06-26-2014 |
20140168041 | REFERENCE VOLTAGE GENERATOR OF GATE DRIVING CIRCUIT AND REFERENCE VOLTAGE GENERATING METHOD - A reference voltage generator of a gate driving circuit is provided. The reference voltage generator includes a temperature sensing unit, a level clamp unit, a gain adjusting unit and a computing circuit. The temperature sensing unit generates a temperature sensing voltage in response to an environmental temperature. The level clamp unit is coupled to the temperature sensing unit and providing a difference signal in response to the temperature sensing voltage. The gain adjusting unit is used to provide a temperature compensating gain and a first reference level. The gain adjusting unit adjusts the temperature compensating gain and the first reference level according to a control command. The computing circuit is coupled to the level clamp unit and the gain adjusting unit to provide a reference voltage in response to the temperature compensating gain, the first reference level and the difference signal. | 06-19-2014 |
20140167716 | DC-DC Converter, Timing Signal Generating Circuit, and Operating Method Thereof - A DC-DC converter including an output stage, a feedback loop, a pulse-width modulation (PWM) generating circuit, and a driving circuit is disclosed. The output stage is coupled to an input voltage and an output inductor to provide an output voltage. The feedback loop is coupled to the output inductor and receives the output voltage to generate a control signal. The PWM generating circuit is coupled to the feedback loop and receives the control signal. The PWM generating circuit also includes a timing signal generating unit which makes the PWM generating circuit to generate a PWM signal according to a correction voltage. The correction voltage is reacted in the output voltage and a first current source related to the input voltage. | 06-19-2014 |
20140160609 | SHORT-CIRCUIT PROTECTION CIRCUIT OF LIGHT EMITTING DIODE AND SHORT-CIRCUIT PROTECTION METHOD THEREOF AND LIGHT EMITTING DIODE DRIVING APPARATUS USING THE SAME - A short-circuit protection circuit of a light emitting diode (LED) is for protecting a plurality of LED strings from a short-circuit condition. The short-circuit protection circuit includes a short-circuit protection unit and a control unit. The short-circuit protection unit is coupled to the plurality of LED strings to execute a short-circuit protection. The control unit coupled to the short-circuit protection unit and the LED strings is configured to control the short-circuit protection unit according to at least one of a feedback voltage and a compensation voltage, so as to determine whether to trigger the short-circuit protection. The feedback voltage is generated from a cross voltage of one of the LED strings, and the compensation voltage is generated according to a comparison result between the feedback voltage and a reference voltage for controlling a power supply of the LED strings. | 06-12-2014 |
20140132324 | INTEGRATED CIRCUIT WITH MULTI-FUNCTIONAL PARAMETER SETTING AND MULTI-FUNCTIONAL PARAMETER SETTING METHOD THEREOF - An integrated circuit with multi-functional parameter setting and a multi-functional parameter setting method of the integrated circuit are provided. The multi-functional parameter setting method includes following steps: providing the integrated circuit which includes a switch unit and a multi-functional pin that is coupled to an external setting unit, sensing a programmable reference voltage of the external setting unit through one operation of the switch unit and executing a first function setting according to the programmable reference voltage, and sensing a programmable reference current of the external setting unit through another operation of the switch unit and executing a second function setting according to the programmable reference current. | 05-15-2014 |
20140131551 | PROXIMITY SENSOR AND OPERATING METHOD THEREOF - A proximity sensor includes a proximity sensing unit and a signal processing unit. The proximity sensing unit detects whether an object to be detected is close by to obtain a measured value. The signal processing unit compares the measured value with an initial noise cross-talk value to determine whether the initial noise cross-talk value should be updated. If the determined result of the signal processing unit is no, the signal processing unit compares the measured value with a default value to determine whether the object to be detected is located in a detection range of the proximity sensing unit. | 05-15-2014 |
20140129851 | VOLTAGE IDENTIFICATION DEFINITION REFERENCE VOLTAGE GENERATION CIRCUIT AND BOOT VOLTAGE GENERATING METHOD THEREOF - A voltage identification definition (VID) reference voltage generation circuit and a boot voltage generating method thereof are provided. In the boot voltage generating method, a VID reference voltage generation circuit is provided. The VID reference voltage generation circuit includes a preset voltage providing unit, a switch and a VID input signal detection unit. When the VID input signal detection unit detects no input of a VID signal, a control signal is generated to control the switch, such that the preset voltage providing unit provides an adjustable preset voltage. | 05-08-2014 |
20140097451 | PROXIMITY SENSOR AND CIRCUIT LAYOUT METHOD THEREOF - A proximity sensor and a circuit layout method thereof are disclosed. The proximity sensor includes a light sensor and a light emitting unit. The light sensor includes a semiconductor substrate and a bonding pad. The semiconductor substrate has a first circuit region. At least one semiconductor device is disposed in the first circuit region. The bonding pad is disposed above the first circuit region and a gap is existed between the bonding pad and the at least one semiconductor device. The bonding pad is connected to the semiconductor substrate out of the first circuit region. The light emitting unit is disposed on the bonding pad of the light sensor. | 04-10-2014 |
20140077779 | DC-DC CONTROLLER - A DC-DC controller is provided. The DC-DC controller is connected to an output stage and a load, and the output stage is connected to the load through an output inductor. The DC-DC controller includes an error amplifier, a pulse width modulation (PWM) generation circuit and a compensation circuit. A first input terminal of the error amplifier is connected to one terminal of the output inductor. A second terminal of the error amplifier receives a reference voltage. The PWM generation circuit is connected to the error amplifier and provides a PWM signal to the output stage. The compensation circuit is at least connected to an output terminal of the error amplifier. The compensation circuit includes an adjustable capacitor circuit. The adjustable capacitor circuit adjusts an equivalent capacitance value according to a change of the load dynamically, so as to speed up a reaction rate in the transient response. | 03-20-2014 |
20140061444 | Proximity Sensor Package and Packing Method Thereof - A proximity sensor package and a packaging method thereof are disclosed. The proximity sensor package includes a light emitting unit and a light sensor. The light sensor has a first surface having a light sensing area. The light emitting unit is disposed on the first surface of the light sensor outside the light sensing area. | 03-06-2014 |
20140028652 | VOLTAGE COMPENSATION CIRCUIT AND OPERATION METHOD THEREOF - A voltage compensation circuit and an operation method thereof are provided. The voltage compensation circuit is suitable for a display device. The display device includes a direct-current voltage converter, a voltage level shifter, a panel, and a gate driving circuit. The voltage compensation circuit includes a voltage divider providing a divided voltage form a gate pulse signal, a comparing unit, a time counting unit and a processing unit. The comparing unit receives the divided voltage to provide at least one comparison result. The time counting unit provides a plurality of timing control signals at different time points according to the divided voltage. The processing unit provides a voltage reference signal to the direct-current voltage converter according to the plurality of timing control signals and the comparing result, and accordingly, the direct-current voltage converter adjusts an output voltage relating to the gate driving circuit. | 01-30-2014 |
20140021928 | DC-DC CONTROLLER AND DC-DC CONVERTER - A DC-DC controller and a DC-DC converter are provided. The DC-DC converter includes the DC-DC controller and an output stage circuit. The DC-DC controller includes an error amplifier, a comparator, a constant on time calculation circuit, and a ramp generator. The error amplifier receives a first reference voltage and a feedback signal to generate an error signal. The comparator compares a ramp signal and the error signal to generate a trigger signal. The constant on time calculation circuit receives the trigger signal and generates a pulse width modulated signal to the output stage circuit according to the trigger signal, and provides a minimum on time signal. The ramp generator receives the minimum on time signal and generates the ramp signal, wherein an amplitude of the ramp signal has no proportional relationship with an input voltage or an output voltage of the output stage circuit. | 01-23-2014 |
20130335046 | DC-DC CONTROLLER AND OPERATION METHOD THEREOF - A DC-DC controller and an operation method thereof are provided. The DC-DC controller is configured to connect an output stage. The DC-DC controller includes a pulse width modulation (PWM) calculation circuit, a load transient detection circuit, and an override time calculation circuit. The PWM calculation circuit provides a PWM signal to the output stage. The load transient detection circuit receives an input signal related to an output voltage of the output stage. The load transient detection circuit provides a control signal according to the input signal and a predetermined input signal. The override time calculation circuit provides an override control signal with a predetermined time to the PWM calculation circuit according to the control signal. The PWM calculation circuit adjusts a duty cycle of the PWM signal according to the override control signal. | 12-19-2013 |
20130200864 | DC-DC CONVERTER AND VOLTAGE CONVERSION METHOD THEREOF - A DC-DC converter and a voltage conversion method thereof are provided. The DC-DC converter includes an output unit, a control unit and a trigger unit. The output unit converts an input voltage into an output voltage. The control unit generates a control signal according to the input voltage, an output feedback voltage related to the output voltage and a reference voltage, so as to make the output unit generate the output voltage. The trigger unit generates a first trigger signal according to the control signal, the output feedback voltage and the reference voltage. When the output feedback voltage is less than the reference voltage by a preset voltage, the control unit controls the output unit to perform a voltage-regulating process to the output voltage in advance. | 08-08-2013 |
20130038972 | BATTERY POWER MANAGEMENT SYSTEM AND METHOD - A battery power management system including a protection switch, a battery set, a high-voltage protection chip, a plurality of voltage-dividing units and a low-voltage measurement chip is provided. The protection switch and the battery set are connected in series between a first power terminal and a second power terminal of the battery power management system. The battery set includes a plurality of battery cells and has a plurality of sensing nodes. The high-voltage protection chip controls the protection switch according to a plurality of first sensing voltages from the sensing nodes. The voltage-dividing units are connected to a part of the sensing nodes and divide a part of the first sensing voltages to generate a plurality of second sensing voltages. The low-voltage measurement chip is connected to the voltage-dividing units and measures electric quantities of the battery cells according to the second sensing voltages. | 02-14-2013 |
20130038312 | MULTI-PHASE DC-DC POWER CONVERTER - A multi-phase DC-DC power converter including a pulse width modulation (PWM) controller and a plurality of output stage circuits is provided. The output stage circuits convert an input voltage into an output voltage. The PWM controller includes a PWM generation module, a ramp generator and a feedback circuit. The feedback circuit generates a trigger signal according to the output voltage and a ramp signal. The PWM generation module generates a PWM signal with a constant on time, and adjusts a duty cycle of the PWM signal according to the trigger signal, the input and output voltages, so as to control phase channels of the multi-phase DC-DC power converter in order. | 02-14-2013 |
20130027012 | DC-DC CONVERTER AND VOLTAGE CONVERSION METHOD THEREOF - A DC-DC converter is provided. When a load of the DC-DC converter is too light, the DC-DC converter can raise a frequency of its PWM signal, and reduce a pulse width of the PWM signal, so as to avoid the frequency of the PWM signal falling into a frequency range that can heard by human's ear and maintain high conversion efficiency of the DC-DC converter. | 01-31-2013 |
20120126775 | SWITCHING POWER CONVERTER - A switching power converter including an upper-bridge switch, a lower-bridge switch, an impedance circuit, a first control circuit, a second control circuit and a logic circuit is provided. The impedance circuit generates an output voltage and a sensing current according to a conductive state of the upper-bridge switch and the lower-bridge switch. The first control circuit generates a first pulse signal according to the output voltage. The second control circuit has a first mode and a second mode for generating a second pulse signal and a third pulse signal individually. Furthermore, the second control circuit uses different threshold values in different modes to determine whether to switch the mode thereof, so as to form a hysteretic effect in mode switching. The logic circuit controls the upper-bridge switch by the first pulse signal, and controls the lower-bridge switch by the second pulse signal or the third pulse signal. | 05-24-2012 |
20120092047 | POWER-ON RESET CIRCUIT - A power-on reset circuit including a voltage divider, a first transistor and a second transistor is provided. The voltage divider is electrically connected between a first source voltage and a first ground voltage, and generates a sensing voltage. A drain of the first transistor is electrically connected to a second source voltage, and a gate and a source of the first transistor are connected to each other. A conductive channel of the second transistor is the same with that of the first transistor, and a type of the second transistor is different from a type of the first transistor. Furthermore, a drain of the second transistor is electrically connected to the source of the first transistor. A gate of the second transistor receives the sensing voltage. A source of the second transistor is electrically connected to a second ground voltage. | 04-19-2012 |
20120091812 | POWER SWITCHING DEVICE - A power switching device including a rectifier circuit and a control circuit is provided. A first terminal of the rectifier circuit receives an external voltage source and a second terminal of the rectifier circuit is electrically connected to a node. The control circuit is electrically connected between the node and a battery. Furthermore, during a power supply mode, the control circuit provides a power supply path, so that the battery provides a battery current to the node. Besides, the control circuit detects the battery current and determines whether or not to switch to a normal mode from the power supply mode according to the detection result. | 04-19-2012 |