Patent application number | Description | Published |
20090051417 | Voltage Supply Insensitive Bias Circuits - A voltage-insensitive circuit includes a second circuit, and a biasing means for providing a constant bias current to the second circuit, the bias current being insensitive to power fluctuations of the voltage-insensitive circuit. | 02-26-2009 |
20090309656 | MULTIPLE OUTPUT POWER MODE AMPLIFIER - A multi-mode power amplifier and an electronic device including the amplifier are described. | 12-17-2009 |
20100327969 | POWER AMPLIFIER HAVING PARALLEL AMPLIFICATION STAGES AND ASSOCIATED IMPEDANCE MATCHING NETWORKS - An amplification device includes a series combination of a driver stage, an output terminal matching network, and a secondary amplification stage. The driver stage includes a driver amplifier and an output matching network. The secondary amplification stage includes a parallel combination of an impedance transformation network and a main amplification stage. The main amplification stage includes a plurality of main amplification branches in parallel with each other, and an input matching network in series with the parallel combination. Each main amplification branch includes a main amplifier, and input and output impedance matching networks. A control circuit supplies activation signals to the main amplification branches to selectively turn them on and off. The device has no switches in the path of the signal that is amplified. In at least one operating mode, the control circuit turns on at least two of the main amplification branches at the same time. | 12-30-2010 |
20120013401 | POWER AMPLIFIER WITH SELECTABLE LOAD IMPEDANCE AND METHOD OF AMPLIFYING A SIGNAL WITH SELECTABLE LOAD IMPEDANCE - A device includes: a power amplifier, including a supply voltage terminal, an input port and an output port, and the power amplifier being configured to receive a supply voltage at the supply voltage terminal, an input signal through the input port, to amplify the received input signal, and to output an amplified output signal through the output port; a variable impedance matching circuit having an input terminal connected to the output port of the power amplifier, and having an output terminal for being connected to a load; and a controller including a voltage measuring unit configured to measure the supply voltage, to compare the measured supply voltage with a threshold voltage, and to control the variable impedance matching circuit based on a result of the comparison so as to adjust a load impedance seen by the power amplifier at its output port. | 01-19-2012 |
20130257545 | POWER AMPLIFIER INCLUDING VARIABLE CAPACITOR CIRCUIT - A power amplifier includes first and second amplification stages. The first amplification stage is configured to amplify a radio frequency (RF) input signal. The second amplification stage includes at least one transistor configured to amplify an output of the first amplification stage, the second amplification stage being configured to have a capacitance between a gate of the at least one transistor and a first power supply voltage. The capacitance automatically varies with amplitude of the output of the first amplification stage. | 10-03-2013 |
20130293283 | RADIO FREQUENCY SWITCH COMPRISING HETEROJUNCTION BIOPOLAR TRANSISTORS - A radio-frequency (RF) switch comprises first and second heterojunction bipolar transistors (HBTs) that control transmission of an RF input signal between an input terminal and an output terminal. In some embodiments, the RF input signal is transmitted from the input terminal to the output terminal where the first and second HBTs are turned ON, and otherwise the RF input signal is not transmitted from the input terminal to the output terminal. | 11-07-2013 |
20140049322 | POWER AMPLIFIER - A power amplifier comprises a common source amplification stage and a first common gate amplification stage. The common source amplification stage includes a common source transistor for receiving a radio frequency (RF) input signal via a gate. The first common gate amplification stage is connected in cascode between a variable supply voltage source and the common source amplification stage, and amplifies an output of the common source amplification stage. The first common gate amplification stage includes a first common gate transistor, and a first gate bias controller configured to generate a first divided voltage based on a variable supply voltage of the variable supply voltage source, and to supply a first gate bias voltage generated by buffering the first divided voltage to a gate of the first common gate transistor. | 02-20-2014 |
20150091649 | PULSED DYNAMIC LOAD MODULATION POWER AMPLIFIER CIRCUIT - A power amplifier circuit for amplifying an envelope modulated Radio Frequency (RF) signal with improved linearity and efficiency includes a power amplifier, and a variable load matching circuit coupled to an output port of the power amplifier. The input impedance of the variable load matching circuit is changed such that an output power of the power amplifier is at a first output power level, or a second output power level which is higher than the first output power level. | 04-02-2015 |
Patent application number | Description | Published |
20110143821 | POWER AMPLIFICATION MODULE FOR MOBILE COMMUNICATION TERMINAL - Disclosed herein is a power amplification module for a mobile communication terminal. The power amplification module includes a balanced power amplifier configured to divide an input signal using a phase difference, amplify resulting signals, and combine the amplified signals with each other, and a transmission power detection unit connected to an isolation terminal formed on an output side of the balanced power amplifier and configured to amplify a micro-power signal, which is transmitted to the isolation terminal from an outside of the transmission power detection unit, and to transmit the amplified signal. Accordingly, since the detection signal to input terminal and detection signal output terminal of a transmission power detection unit can be easily implemented using an internal circuit, the entire size of the power amplification module can be reduced. Further, characteristic of isolation between the detection signal input terminal and the detection signal output terminal can be improved. | 06-16-2011 |
20110156817 | POWER AMPLIFIER - Disclosed herein is a power amplifier. The power amplifier includes a first common source transistor for amplifying an input signal into a predetermined level, a second common source transistor for compensating for input capacitance and performing auxiliary amplification for the first common source transistor, and a common gate transistor connected to the first common source transistor in a cascode structure, configured to be connected in parallel to the second common source transistor and prevent the first common source transistor from breaking down, and configured to output a signal amplified by a value obtained by adding the gain of the first common source transistor and the gain of the second common source transistor to each other. | 06-30-2011 |
Patent application number | Description | Published |
20140204056 | PARAMETER EXTRACTION SYSTEM FOR TOUCH PANEL AND PARAMETER EXTRACTION METHOD THEREOF - Disclosed herein is a parameter measuring method of a touch panel. The method measures S-parameters at cross points of electrodes of the touch panel, converts the measured S-parameters into Y-parameters, extracts all the equivalent parameters from the Y-parameters, and compensates for a loss value, thereby accurately providing electrical characteristics of the touch panel. | 07-24-2014 |
20150029141 | TOUCH SENSING APPARATUS AND METHOD CAPABLE OF SUPPORTING HOVER SENSING - Disclosed herein is a touch sensing apparatus capable of supporting hover sensing, including: a plurality of capacitance-voltage converters (C-V converters) outputting different voltage values depending on a change in capacitance of each of the sensing electrodes; a plurality of integrators integrating output voltages of each of the C-V converters; a first multiplexer multiplexing outputs of the plurality of integrators; a second multiplexer multiplexing the outputs of the plurality of integrators; a first differential amplification unit for touch sensing receiving an output of the first multiplexer and an output of the second multiplexer; a second differential amplification unit for hover sensing receiving the output of the first multiplexer and the output of the second multiplexer; and a control unit sensing a touch event or a hover event, thereby removing a common noise to accurately sense both the touch event and the hover event. | 01-29-2015 |
20150061738 | CHARGE PUMP CIRCUIT - There is provided a charge pump circuit, including: a step-up circuit unit stepping up an input voltage at least once, according to a frequency and a voltage level of a clock signal; and a control unit altering the voltage level of the clock signal according to an output voltage from the step-up circuit unit to regulate the output voltage from the step-up circuit. | 03-05-2015 |
20150177874 | APPARATUS FOR GENERATING DRIVING SIGNAL - There is provided an apparatus for generating a driving signal, the apparatus including: a first driving signal generation circuit generating a first driving signal; a second driving signal generation circuit generating a second driving signal, the second driving signal generation circuit including at least two transistors and a pulse generation unit; and a control unit controlling the first and second driving signal generation circuits so that they generate the first and second driving signals selectively. | 06-25-2015 |
20150180334 | DRIVING CIRCUIT FOR CHARGE PUMP CIRCUIT AND CHARGE PUMP SYSTEM INCLUDING THE SAME - There is provided a driving circuit for a charge pump circuit generating an output voltage by stepping-up an input voltage at least once, according to a clock signal. The driving circuit includes: an oscillator generating the clock signal; a comparison unit comparing the output voltage with a predetermined reference voltage; and a control unit generating a control signal to be provided to the oscillator, the control signal changing at least one of a frequency level and a duty level of the clock signal based on a comparison result from the comparison unit. | 06-25-2015 |
20150193042 | TOUCHSCREEN DEVICE AND METHOD FOR CONTROLLING THE SAME - A touchscreen device may include: a panel unit, a driving circuit unit, a sensing circuit unit and a control unit. The control unit may apply a driving signal to a first node capacitor formed at an intersection between a first and a first one of the plurality of sensing electrodes and calibrate gains of the plurality of converter circuit units. Each of the plurality of panel deviation calibration units may calibrate an output signal from the respective one of the plurality of converter circuit units by using a capacitance value of a first capacitor included in the respective one of the plurality of panel deviation calibration units when a driving signal is applied to the first one of the driving electrodes. | 07-09-2015 |
20150229297 | HIGH VOLTAGE DRIVER USING LOW VOLTAGE TRANSISTOR - A high voltage driver may include: a low side switching unit including first to n-th N-channel metal oxide semiconductor (NMOS) transistors; a high side switching unit including first and second to n-th P-channel MOS (PMOS) transistors; a voltage dividing unit dividing a voltage between the output terminal and the ground; a first constant voltage unit providing a constant voltage and a unidirectional signal path between a source and a gate of each of the first to n-th NMOS transistors; a second constant voltage unit providing a constant voltage and a unidirectional signal path between a source and a gate of each of the first to n-th PMOS transistors; a first charging unit providing a charged voltage to each of the gates of the second to n-th NMOS transistors; and a second charging unit providing a charged voltage to each of the gates of the second to n-th PMOS transistors. | 08-13-2015 |
20150346879 | TOUCH SENSING APPARATUS AND TOUCHSCREEN APPARATUS INCLUDING THE SAME - A touch sensing apparatus may include a driving signal generating circuit including a first switch and a second switch and providing driving signals to a first node of a node capacitor, the driving signals being generated by switching operations of the first switch and the second switch, and a C-V converting circuit including a buffer circuit having a first feedback capacitor and a third switch disposed between a second node of the node capacitor and the first feedback capacitor and transferring a charging voltage of the node capacitor to the first feedback capacitor through a switching operation of the third switch to generate an output voltage. The buffer circuit further includes a fourth switch disposed between the second node of the node capacitor and a current source, and the fourth switch is turned on in an off operation section of the third switch. | 12-03-2015 |
Patent application number | Description | Published |
20120035379 | METHOD FOR PREPARING TAXANE DERIVATIVES - Provided is a method for preparing a taxane derivative, comprising: carrying out condensation of a phenylisoserine derivatives having a protective group introduced thereto or a mixture of isomers thereof, as a side chain, with a baccatin III derivative or 10-deacetyl-baccatin III derivative to obtain a mixture of isomers; separating the isomers via chromatography; and carrying out a reversion of the stereochemical structure of a selectively separated isomer, which is suitable for producing a taxane derivative in a large scale with high yield. | 02-09-2012 |
20130046104 | METHOD FOR PREPARING HIGHLY PURE ANHYDROUS CRYSTALLINE DOCETAXEL - A method for preparing highly pure anhydrous crystalline docetaxel is provided. The method for preparing highly pure anhydrous crystalline docetaxel enables preparation of anhydrous crystalline docetaxel that has purity of 99.5% or more, and is useful as an anticancer agent due to remarkably low residual solvent content compared to the standard of residual solvents in drugs. | 02-21-2013 |
20150291545 | NOVEL METHOD FOR PREPARING CABAZITAXEL FROM 10-DEACETYLBACCATIN III IN HIGH YIELD, AND NOVEL INTERMEDIATE THEREFOR - The present invention relates to a novel method for preparing cabazitaxel from 10-deacetylbaccatin III, and a novel intermediate therefor, and more specifically, to: a method which allows cabazitaxel to be more easily prepared in a high yield and in a high purity within a short time compared with a conventional method by preparing cabazitaxel via a novel intermediate using 10-deacetylbaccatin III as a starting material, and thus is suitable for industrial mass production; and a novel intermediate therefor. | 10-15-2015 |