Patent application number | Description | Published |
20080290934 | REFERENCE BUFFER CIRCUITS - A reference buffer circuit is disclosed, providing a reference voltage at an output node and comprising a closed-loop branch comprising an amplifier and first and second MOS transistors and an open-loop branch comprising third and fourth MOS transistors and a tracking circuit. The first MOS transistor has a gate coupled to an output terminal of the amplifier and a source coupled to a negative input terminal of the amplifier. The second MOS transistor is coupled to the source of the first MOS transistor. The third MOS transistor has a gate coupled to the output terminal and a source coupled to the output node. The fourth MOS transistor has a drain coupled to the source of the third MOS transistor. A gate voltage of the fourth MOS transistor tracks a drain voltage of the third MOS transistor through the tracking circuit. | 11-27-2008 |
20090066396 | LEVEL SHIFTING CIRCUIT - A level shifting circuit is provided. Thin oxide devices are utilized to reduce the threshold, and thick oxide devices are utilized to protect the thin oxides from breakdown. An input voltage input voltage swings between a low supply voltage and ground. An output voltage swings between a high supply voltage and the ground. An inverter with input connected to the input voltage, outputs an inverted input voltage. The input voltage is subsequently between 0.5V to 2.5V, and the output voltage is subsequently between 3V to 10V. | 03-12-2009 |
20090195302 | REFERENCE BUFFER - A reference buffer is disclosed. The reference buffer includes a main source follower stage, a replica source follower stage, and a low-pass filter. The main source follower stage provides a first main voltage according to a first driving voltage. The replica source follower stage duplicates the first main voltage to generate a first reference voltage. The low-pass filter is coupled between the main source follower stage and the replica source follower stage. | 08-06-2009 |
20090212866 | CLASS AB AMPLIFIER - An amplifier is disclosed. An input transistor receives an input voltage. An impedance unit is coupled to a first electrode of the input transistor. A current source is coupled to a second electrode of the input transistor. A push-pull output circuit comprises a PMOS transistor and a NMOS transistor electrically connected in series to output an output voltage. The first electrode of the input transistor is coupled to a control terminal of the NMOS transistor. A level shifting unit is coupled between the first electrode of the input transistor and the push-pull output circuit, for shifting a voltage of the first electrode of the input transistor and providing a shifted voltage corresponding to the voltage of the first electrode of the input transistor to the control terminal of the PMOS transistor. | 08-27-2009 |
20090237150 | BANDGAP REFERENCE CIRCUIT WITH LOW OPERATING VOLTAGE - A bandgap reference circuit comprising a current mirror, an operational amplifier, first and second BJT transistors is disclosed. The current mirror comprises a first input terminal, a second input terminal and at least one output terminal. The operational amplifier is coupled to the current mirror, wherein a first transistor and a second transistor respectively coupled to the first and the second input terminals have a zero or near zero threshold voltage. The first and second BJT transistors are coupled to two input terminals of the operational amplifier respectively, wherein at least one of the first and second BJT transistors is coupled to the output terminal of the current mirror through a conductive path. | 09-24-2009 |
20090315531 | REFERENCE BUFFER CIRCUITS - A reference buffer circuit provides a reference voltage at an output node and comprises a closed-loop branch comprising an amplifier and first and second MOS transistors and an open-loop branch comprising a third MOS transistor. A positive input terminal of the amplifier receives an input voltage. A gate of the first MOS transistor is coupled to the output terminal of the amplifier, and a source is coupled to a negative input terminal of the amplifier. A gate of the second MOS transistor is coupled to the drain of the first MOS transistor, a source is coupled to a first voltage source, and a drain is coupled to the source of the first MOS transistor. A gate of the third MOS transistor is coupled to the output terminal of the amplifier, and a source is coupled to the output node. | 12-24-2009 |
20100001792 | Low-noise DC Offset Calibration Circuit and Related Receiver Stage - A receiver stage has an operational amplifier, a feedback resistor coupled between an output of the operational amplifier and an input of the operational amplifier, and a DC offset calibration circuit. The DC offset calibration circuit includes a plurality of resistors and a plurality of switches. Each resistor has a first end coupled to a supply voltage. First ends of each of the switches are coupled to second ends of each of the resistors, respectively, and second ends of the switches are coupled to the input of the operational amplifier. | 01-07-2010 |
20100109053 | SEMICONDUCTOR DEVICE HAVING INTEGRATED CIRCUIT WITH PADS COUPLED BY EXTERNAL CONNECTING COMPONENT AND METHOD FOR MODIFYING INTEGRATED CIRCUIT - The present invention discloses a semiconductor device. The semiconductor device includes an integrated circuit and a connecting component. The integrated circuit includes a first pad; a second pad; a first current guiding circuit, coupled to the first pad and a first reference voltage, for selectively guiding a first specific electrical signal received from the first pad to the first reference voltage; and a second current guiding circuit, coupled to the second pad and a second reference voltage, for selectively guiding a second specific electrical signal received from the second pad to the second reference voltage; and the connecting component is external to the integrated circuit for coupling the first pad and the second pad. | 05-06-2010 |
20100201423 | Low-noise DC Offset Calibration Circuit and Related Receiver Stage - A DC offset calibration circuit has a first resistor, a first switch, a second resistor, and a second switch. The first resistor is coupled to a first supply voltage. The first switch is coupled to the first resistor, to a first input of an amplifier, and to a first input resistor. A second end of the first input resistor is not coupled to the first supply voltage. The second resistor is coupled to a second supply voltage. The second switch is coupled to the second resistor, to a second input of the amplifier, and to a first end of a second input resistor. A second end of the second input resistor is not coupled to the second supply voltage. | 08-12-2010 |
20110181334 | TRACK AND HOLD CIRCUIT AND RELATED RECEIVING DEVICE WITH TRACK AND HOLD CIRCUIT EMPLOYED THEREIN - An operational circuit includes: a gain control circuit arranged to provide a gain value upon an input signal according to a set of control signals, wherein the gain control circuit includes a first resistor-based network and a second resistor-based network; an operational amplifier coupled to the gain control circuit and arranged to generate an output signal according to the input signal and the gain value; and a first capacitor coupled to the operational amplifier and arranged to hold the output signal between a first input terminal and a first output terminal of the operational amplifier, wherein when the operational circuit is operating, a first terminal of the first capacitor is consistently coupled to the first input terminal of the operational amplifier, and a second terminal of the first capacitor is consistently coupled to the first output terminal of the operational amplifier. | 07-28-2011 |
20120112943 | SIGMA-DELTA MODULATOR WITH SAR ADC AND TRUNCATER HAVING ORDER LOWER THAN ORDER OF INTEGRATOR AND RELATED SIGMA-DELTA MODULATION METHOD - A sigma-delta modulator includes a processing circuit, a quantizer, a truncater and a feedback circuit. The processing circuit receives an input signal and an analog information and generates an integrated signal by perform an integration upon a difference between the input signal and the analog information. The quantizer includes a successive approximation register (SAR) analog-to-digital converter (ADC) for receiving the integrated signal and generating a digital information according to the integrated signal. The truncater receives the digital information and generates a truncated information according to the digital information. The feedback circuit generates the analog information to the processing circuit according to the truncated information, wherein an order of the truncater is lower than an order of the integration. | 05-10-2012 |
20120154045 | PUSH-PULL LOW NOISE AMPLIFIER WITH VARIABLE GAIN, PUSH-PULL LOW NOISE AMPLIFIER WITH COMMON GATE BIAS CIRCUIT AND AMPLIFIER WITH AUXILIARY MATCHING - A push-pull low noise amplifier (LNA) includes at least one amplifier block. Each amplifier block includes a bypass stage and at least one gain cell. The bypass stage has a first node and a second node. The gain cell has an input terminal and an output terminal, comprising a loading stage and a driving stage. When the push-pull LNA is in a first gain mode, the loading stage is enabled and the bypassing stage is disabled; and when the push-pull LNA is in a second gain mode, the loading stage is disabled and the bypassing stage is enabled. | 06-21-2012 |
20120161874 | Operational Amplifier - An operational amplifier comprises: a plurality of transistors, comprising: a first transistor; and a second transistor, wherein a source of the first transistor is connected to a source of the second transistor; wherein the first transistor and the second transistor have near zero threshold voltage. | 06-28-2012 |
20130088376 | SIGMA-DELTA MODULATOR WITH SAR ADC AND TRUNCATER AND RELATED SIGMA-DELTA MODULATION METHOD - A sigma-delta modulator includes a processing circuit, a quantizer, a truncater and a feedback circuit. The processing circuit receives an input signal and an analog information and generates an integrated signal by perform an integration upon a difference between the input signal and the analog information. The quantizer includes a successive approximation register (SAR) analog-to-digital converter (ADC) for receiving the integrated signal and generating a digital information according to the integrated signal. The truncater receives the digital information and generates a truncated information according to the digital information. The feedback circuit generates the analog information to the processing circuit according to the truncated information. | 04-11-2013 |
20130154863 | AMPLIFIER, FULLY-DIFFERENTIAL AMPLIFIER AND DELTA-SIGMA MODULATOR - An amplifier, a fully-differential amplifier and a delta-sigma modulator are disclosed. The disclosed amplifier includes a front-end gain stage, an AC-coupled push-pull output stage and a compensation circuit. The compensation circuit is coupled between the front-end gain stage and an output terminal of the amplifier. The AC-coupled push-pull output stage uses an AC-coupled capacitor (which is a passive two terminal electrical component rather than a stray or parasitic capacitance of a transistor) to couple the front-end gain stage to a gate of a top or bottom transistor of a push-pull structure introduced in the AC-coupled push-pull output stage, and uses a resistance component to couple a gate of the top or bottom transistor (depending on which one is coupled to the AC-coupled capacitor) to a bias voltage level. | 06-20-2013 |
20130200953 | OPERATIONAL AMPLIFIER CIRCUITS - An operational amplifier circuit includes a first stage amplifier circuit, a second stage amplifier circuit and a first feedforward circuit. The first stage amplifier circuit is coupled to a first input node for receiving a first input signal and amplifying the first input signal to generate a first amplified signal. The second stage amplifier circuit is coupled to the first stage amplifier circuit for receiving the first amplified signal and amplifying the first amplified signal to generate a first output signal at a first output node. The first feedforward circuit is coupled between the first input node and the second stage amplifier circuit for feeding the first input signal forward to the second stage amplifier circuit. | 08-08-2013 |
20130207718 | FILTERS WITH ORDER ENHANCEMENT - A filter is provided. The filter receives an input signal and generates an output signal according to the input signal. The filter includes an input network, a high-pass network, and an operational circuit. The first input network provides a first normal path for the input signal to generate a first normal signal. The first high-pass network provides a first high-pass path for the input signal to generate a first high-pass signal. The operational circuit has first and second input terminals. The polarity of the second input terminal is inverse to that of the first input terminal. The operational circuit receives the first normal signal by the first input terminal and the first high-pass signal by the second input terminal such that a subtraction operation is performed on the first normal signal and the first high-pass filter to accomplish a low-pass filtering operation for generating the output signal. | 08-15-2013 |
20130214951 | SIGMA-DELTA MODULATORS WITH EXCESS LOOP DELAY COMPENSATION - A sigma-delta modulator is provided for generating a digital output signal. The sigma-delta modulator includes a multi-stage loop filter, a quantizer, and a digital-to-analog converter. The multi-stage loop filter receives an analog input signal and generates an integrated output signal according to the analog input signal. Each stage of the multi-stage loop filter includes a feedback network. The quantizer receives the integrated output signal and quantizes the integrated output signal to generate the digital output signal. The digital-to-analog converter receives the digital output signal and converts the digital output signal to a compensation signal. The digital-to-analog converter provides the compensation signal to a plurality of internal nodes in the feedback network of the last stage of the multi-stage loop filter. | 08-22-2013 |
20140093248 | REMOTE CONTROL SYSTEM AND POWER SUPPLY CONNECTOR REMOTE CONTROL DEVICE - A power supply connector remote control device is provided. The power supply connector remote control device comprises a network signal-receiving module, an infrared transmission module and a power-converting module. The network signal-receiving module receives a control signal from a first network. The infrared transmission module transmits an infrared control signal to a corresponding electronic device according to the control signal to control the corresponding electronic device. The power-converting module is electrically connected to a power socket to provide power to the network signal-receiving module and the infrared transmission module. | 04-03-2014 |
20140103999 | AMPLIFIER, FULLY-DIFFERENTIAL AMPLIFIER AND DELTA-SIGMA MODULATOR - An amplifier includes a front-end gain stage and an AC-coupled push-pull output stage. The AC-coupled push-pull output stage includes a first transistor, having a source, a drain and a gate, wherein the source of the first transistor is coupled to a first voltage level; a second transistor, having a source, a drain and a gate, wherein the source of the second transistor is coupled to a second voltage level, the gate of the second transistor is coupled to the front-end gain stage, and the drain of the second transistor is coupled to the drain of the first transistor to form an output terminal of the amplifier; an AC-coupled capacitor, which is a passive two terminal electrical component coupled between the front-end gain stage and the gate of the first transistor; | 04-17-2014 |
20140159930 | SIGMA-DELTA MODULATORS WITH HIGH SPEED FEED-FORWARD ARCHITECTURE - A sigma-delta modulator is provided for generating a digital output signal. The sigma-delta modulator is used to generate a digital output signal. The sigma-delta modulator includes a multi-stage loop filter and a quantizer. The multi-stage loop filter receives an analog input signal and generates an integrated output signal according to the analog input signal. The quantizer is coupled to the multi-stage loop filter. The quantizer receives the integrated output signal and quantizes the integrated output signal to generate the digital output signal. Different feed-forward paths of the sigma-delta modulator are available for different frequency bands. | 06-12-2014 |
20150019871 | CERTIFICATION METHOD AND ELECTRONIC DEVICE - A certification method comprises steps of: providing a reliable time clock on a first electronic device; when data of the digital file are generated on the first electronic device, reading a reliable time count from the reliable time clock and adding the reliable time count into the digital file; generating a first abstract code from the digital file; generating a signature of the digital file by encrypting the first abstract code; and, sending the digital file and the signature to a second electronic device. In addition, electronic devices corresponding to the certification method are also disclosed herein. | 01-15-2015 |
20150028951 | OPERATIONAL AMPLIFIER CIRCUITS - An implementation of an operational amplifier circuit includes a first stage amplifier circuit, a second stage amplifier circuit and a first feedforward circuit. The first stage amplifier circuit is coupled to a first input node for receiving a first input signal and amplifying the first input signal to generate a first amplified signal. The second stage amplifier circuit is coupled to the first stage amplifier circuit for receiving the first amplified signal and amplifying the first amplified signal to generate a first output signal at a first output node. The first feedforward circuit is coupled between the first input node and the second stage amplifier circuit for feeding the first input signal forward to the second stage amplifier circuit. | 01-29-2015 |