Patent application number | Description | Published |
20080218221 | ANALOG SOURCE DRIVING APPARATUS - An analog source driving apparatus including an operational amplifier, a first resistor, a second resistor, a variable gain unit and a source driver is provided. A constant gain amplifier is composed with the operational amplifier, the first resistor, and the second resistor, wherein the first resistor is coupled between the inverse input terminal of the operational amplifier and the ground, and the second resistor is coupled between the inverse input terminal and the output terminal of the operational amplifier. The variable gain unit is coupled to an analog signal and the non-inverse input terminal of the operational amplifier for adjusting the analog signal to avoid affecting the zero point position and pole position of the system. Accordingly, the analog source driving apparatus can provide a stable driving output. | 09-11-2008 |
20080224768 | Operational Amplifier Capable of Compensating Offset Voltage - An operational amplifier capable of compensating offset voltage includes an input stage circuit having a positive input end, a negative input end, a first current output end, and a second current output end, for outputting current corresponding to voltage received by the positive and negative input ends, an output stage circuit coupled to the first current output end and the second current output end of the input stage circuit, for outputting voltage according to current outputted from the first current output end and the second current output end, and an trimming device coupled between the input stage circuit and the output stage circuit, for adjusting current of the first current output end or the second current output end for compensating offset voltage. | 09-18-2008 |
20080231347 | CHARGE PUMP CIRCUIT - A charge pump circuit including a plurality of switches and a switch control circuit is provided. The charge pump circuit is suitable for a display panel. The switches switch from “off” state to “on” state in an enable transition, and switch from “on” state to “off” state in a disable transition. The switch control circuit is coupled to the switches for controlling the on/off states of the switches and allowing the charge pump circuit to provide an output voltage that is different from an input voltage. The switch control circuit prolongs the time required for enable transition of the switches to be longer than the time for disable transition thereof. The equivalent impedances of the switches change from high values to low values when the switches are at the enable transition. | 09-25-2008 |
20080231372 | DYNAMIC BIASING AMPLIFIER APPARATUS, DYNAMIC BIASING APPARATUS AND METHOD - A dynamic biasing amplifier apparatus, and dynamic biasing apparatus, and method are disclosed. The dynamic biasing amplifier apparatus includes a comparator unit, a dynamic bias generator unit, and an amplifier unit. The amplifier unit receives an input signal and output an output signal based on at least a bias voltage. The comparator unit compares the positive and negative input signals of the amplifier unit. The dynamic bias generator unit generates and adjusts the bias voltage in accordance with the comparing result of the comparator unit. Therefore, the dynamic bias generator unit controls the amplifier unit to operate in a low static current mode when the input signal is in steady state; and the dynamic bias generator unit controls the amplifier unit to operate in a high dynamic current mode when the input signal is in transition state. | 09-25-2008 |
20080258809 | Amplifier Device Capable of Reducing Offset Voltage - An amplifier device capable of reducing offset voltage includes an offset-voltage cancellation device, an input stage circuit, an output stage circuit, a pseudo output stage circuit, a switch circuit, and an output end. The switch circuit is coupled to the input stage circuit, the output stage circuit, and the pseudo output stage circuit, and is utilized for transmitting an amplified signal provided by the input stage circuit to the output stage circuit and transmitting a first feedback voltage provided by the output stage circuit to the input stage circuit or transmitting the amplified signal provided by the input stage circuit to the pseudo output stage circuit and transmitting a second feedback voltage provided by the pseudo output stage circuit to the input stage circuit according to an operating mode. | 10-23-2008 |
20080266916 | Voltage Conversion Device Capable of Enhancing Conversion Efficiency - A voltage conversion device capable of enhancing conversion efficiency includes a charge pump for generating output voltage linear to input voltage according to the input voltage, a feedback unit for generating a feedback signal according to the output voltage generated by the charge pump, and a regulating unit for outputting and adjusting the input voltage according to the feedback signal provided by the feedback unit, so as to keep the output voltage unchanged. | 10-30-2008 |
20080297125 | VOLTAGE REGULATOR, VOLTAGE REGULATING METHOD THEREOF AND VOLTAGE GENERATOR USING THE SAME - A voltage regulator and a voltage regulating method thereof and a voltage generator using the voltage regulator are disclosed by the present invention. The voltage regulator of the present invention uses a first switching unit and a second switching unit to respectively provide an operational transconductance amplifier (OTA) with different closed-loop feedback paths during a first period and a second period. In this way, an auto-zeroing unit is able to exactly store an input offset voltage presented between the inverting input terminal and the non-inverting input terminal of the OTA. | 12-04-2008 |
20090174466 | CHARGE PUMP CIRCUIT - A charge pump circuit is provided. The charge pump circuit includes a pump unit, first through sixth switches, a fly capacitor and an output capacitor. In a first period, an input voltage and a first voltage charge at least one internal capacitor of the pump unit via a first terminal and a second terminal of the pump unit. In the second period, the internal capacitor of the pump unit provides charges to the fly capacitor via the second switch and generates a first output voltage. In the third period, the fly capacitor supplies the charges to the output capacitor via the fourth switch to generate a second output voltage. | 07-09-2009 |
20090315475 | LIGHT SOURCE APPARATUS AND LIGHT SOURCE ADJUSTING MODULE - A light source apparatus and a light source adjusting module are provided. The light source apparatus includes a power supply, a phase modulator, an electrical transformer, a light source adjusting module and a light-emitting device. The power supply provides a first AC voltage signal. The phase modulator receives the first AC voltage signal and adjusts a conducting phase of the first AC voltage signal to generate a modulated AC voltage signal. The electrical transformer transforms the modulated AC voltage signal to generate a second AC voltage signal. The light adjusting module generates a luminance adjusting signal according to a state of the second AC voltage signal. The light-emitting device receives the luminance adjusting signal to generate a corresponding light source. | 12-24-2009 |
20100033102 | Light Adjusting Device for a Light Emitting Diode and Related Light Adjusting Method and Light Emitting Device - A light adjusting device for a light emitting diode includes a switch, a detecting unit and an illumination adjusting unit. The switch is coupled to a power terminal, which is utilized for providing power for the light emitting diode. The detecting unit is coupled to the switch, and is utilized for determining a status of the switch, so as to generate a detecting result. The illumination adjusting unit is coupled to the detecting unit, and is utilized for adjusting illumination of the light emitting diode according to the detecting result. | 02-11-2010 |
20100039842 | POWER CONVERSION SYSTEM AND POWER CONVERSION METHOD THEREOF - A power conversion system and a power conversion method thereof. The power conversion system includes a driving unit, a control unit, a first direct current (DC) power supply circuit and a second DC power supply circuit. The control unit controls the driving unit to drive a load. The first DC power supply circuit converts an alternating current (AC) power into a first DC power outputted to the driving unit, and the second DC power supply circuit converts the AC power into a second DC power outputted to the control unit. | 02-18-2010 |
20100156309 | LED ILLUMINANT DRIVING CIRCUIT AND AUTOMATIC BRIGHTNESS COMPENSATION METHOD THEREOF - An LED illuminant driving circuit and an automatic brightness compensation method thereof are provided herein. The automatic brightness compensation method includes: providing a target value; detecting an operation period of a pulse of an output of the LED illuminant driving circuit, the pulse is adapted to an LED illuminant for making the light emitting; deciding a peak value according to the target value and the operation period; and setting a peak level of the pulse according to the peak value. The LED illuminant driving circuit and the automatic brightness compensation method thereof provides a stable average current/voltage to the LED illuminant and avoids brightness variations of the light emitting. | 06-24-2010 |
20110012571 | LOAD DRIVING APPARATUS - A load driving apparatus is provided. The load driving apparatus is configured to output an electrical signal to a load. The load driving apparatus includes a driver and an average voltage/current detector. The driver receives an input voltage and a control signal. The driver tunes the electrical signal according to the control signal. The average voltage/current detector receives the electrical signal outputted to the load and generates the control signal by comparing the electrical signal and a reference signal. | 01-20-2011 |
20120104963 | LIGHT SOURCE APPARATUS AND LIGHT SOURCE ADJUSTING MODULE - A light source apparatus and a light source adjusting module are provided. The light source apparatus includes a power supply, a phase modulator, an electrical transformer, a light source adjusting module and a light-emitting device. The power supply provides a first AC voltage signal. The phase modulator receives the first AC voltage signal and adjusts a conducting phase of the first AC voltage signal to generate a modulated AC voltage signal. The electrical transformer transforms the modulated AC voltage signal to generate a second AC voltage signal. The light adjusting module generates a luminance adjusting signal according to a state of the second AC voltage signal. The light-emitting device receives the luminance adjusting signal to generate a corresponding light source. | 05-03-2012 |
20120105037 | Voltage Conversion Device Capable of Enhancing Conversion Efficiency - A voltage conversion device capable of enhancing conversion efficiency includes a charge pump for generating output voltage linear to input voltage according to the input voltage, a feedback unit for generating a feedback signal according to the output voltage generated by the charge pump, and a regulating unit for outputting and adjusting the input voltage according to the feedback signal provided by the feedback unit, so as to keep the output voltage unchanged. | 05-03-2012 |
20120194575 | GAMMA-VOLTAGE GENERATOR - A gamma-voltage generator is provided to generating a plurality of first gamma voltages and second gamma voltages. At least one of the first gamma voltages generated by DACs of the gamma-voltage generator within a first frame period and at least one of the second gamma voltages generated by the DACs within a second frame period are outputted from a same one of the gamma buffers of the gamma-voltage generator, whereby the transmitted gamma voltages have substantially equal offset. Therefore, the display quality approaches an ideal condition. | 08-02-2012 |
20120242644 | FRAME MAINTAINING CIRCUIT AND FRAME MAINTAINING METHOD - A frame maintaining circuit including a detection circuit and a display control circuit is provided. The detection circuit detects an unusual status to output a status feedback signal. The display control circuit maintains a frame displayed by a display apparatus according to the status feedback signal until the unusual status ceases. | 09-27-2012 |
20130033527 | DRIVING APPARATUS FOR DISPLAY AND DRIVING METHOD THEREOF - A driving apparatus for display and a driving method thereof are provided. The driving apparatus includes a display data detector, a power controller and a source driver. The display data detector is used for detecting a plurality of display data and generating a control signal according to a maximal value of the display data, in which the display data are corresponding to a plurality of gamma voltages. The power controller is for receiving the control signal and providing a driving power according to the control signal. The source driver is for receiving the driving power as an operation power and generating a driving voltage corresponding to each of the display data according to the driving power and each of the gamma voltages. | 02-07-2013 |
20130038298 | CHARGE RECYCLING CIRCUIT - A charge recycling circuit is configured to recycle charges which are discharged by a driving circuit during a discharge period and provide the recycled charges for charging the driving circuit during a charge period. Power consumption in the driving circuit may thus be reduced. | 02-14-2013 |
20140043313 | GAMMA-VOLTAGE GENERATOR - A gamma-voltage generator is provided to generating a plurality of first gamma voltages and second gamma voltages. At least one of the first gamma voltages generated by DACs of the gamma-voltage generator within a first frame period and at least one of the second gamma voltages generated by the DACs within a second frame period are outputted from a same one of the gamma buffers of the gamma-voltage generator, whereby the transmitted gamma voltages have substantially equal offset. Therefore, the display quality approaches an ideal condition. | 02-13-2014 |