Entries |
Document | Title | Date |
20080211582 | WIDE-BAND ADJUSTABLE GAIN LOW-NOISE AMPLIFIER - A wide-band adjustable gain low-noise amplifier (LNA) is disclosed. In various embodiments, the LNA includes a first sub-circuit and a second sub-circuit coupled in parallel. In various embodiments, the first sub-circuit includes an amplifier configured to receive power when a logical signal is asserted and de-powered otherwise. In various embodiments, the second sub-circuit includes an amplifier configured to shunt an input node to a reference node using a resistor when the logical signal is de-asserted. Methods according to various embodiments of the invention are also disclosed. | 09-04-2008 |
20080231369 | VARIABLE-GAIN LOW-NOISE AMPLIFIER - A variable-gain low-noise amplifier is provided. The variable-gain low-noise amplifier includes a first load, a second load, an input transistor, a pole/zero control circuit, and a gain control circuit. A first terminal of the first load is connected to a power-source voltage, and a second terminal thereof is connected to an output terminal. The second load is operated in response to a bias voltage, and a first terminal thereof is connected to the output terminal. A first terminal of the input transistor is connected to the second terminal of the second load, and a gate thereof is connected to an input terminal. The pole/zero control circuit adjusts frequency characteristics and a gain in response to at least one pole/zero control signal. A first terminal of the pole/zero control circuit is connected to the input terminal, and a second terminal thereof is connected to the output terminal. The gain control circuit adjusts the gain in response to at least one gain control signal. A first terminal of the gain control circuit is connected to a common terminal of the second load and the input transistor, and a second terminal thereof is connected to the input terminal, and a third terminal thereof of is connected to a ground voltage. | 09-25-2008 |
20080231370 | Apparatus and methods for amplifiers - Circuits and methods for reducing distortion in an amplified signal are disclosed. The circuits and methods may use multiple single-ended gain stages to produce multiple amplified signals. The amplified signals may be processed in combination to produce a resulting output signal having little, or no, distortion. The circuits may be implemented on a single chip as integrated circuits. | 09-25-2008 |
20080246544 | Offset adjustment device, semiconductor device, display device, offset adjustment method, noise detection device, and noise detection method - In one embodiment of the present invention, an operational amplifier circuit, a switching element is closed and a switching element is opened. A latch circuit DL latches an output voltage of an operational amplifier and supplies a Q output corresponding to the output voltage. A control circuit supplies an offset adjustment signal to an offset adjustment input terminal OR of the operational amplifier, thereby adjusting an offset of the output voltage. The latch circuit DL latches again the output voltage thus adjusted and minutely adjusts the offset adjustment signal so as to adjust the remaining offset. Weighting is carried out in accordance with how many times latching has been carried out, and the offset of the output voltage of the operational amplifier is quantized, thereby obtaining a binary logical signal and storing the signal in the control circuit. This realizes a small-scale offset adjustment device which is capable of absorbing offset variations and which does not require a frequent refreshment process. | 10-09-2008 |
20080265994 | VARIABLE GAIN AMPLIFYING APPARATUS AND WIRELESS COMMUNICATION APPARATUS - A variable gain amplifying apparatus has an amplifier, one or more first switching elements connected in parallel to the amplifier, and a phase shifter connected in series to the first switching element. The first switching element is enabled if the level of an input signal or an output signal is higher than a predetermined level, and the first switching element is disabled if the level of the input signal or the output signal is equal to or lower than the predetermined level. The amplifier does not operate when the first switching element is enabled, and the amplifier operates when the first switching element is disabled, and the amount of phase shift when the input signal is passed through the amplifier and phase shifter is substantially equal to the amount of phase shift when the input signal is passed through the first switching element. | 10-30-2008 |
20080265995 | AMPLIFIER CIRCUIT AND WIRELESS COMMUNICATION DEVICE - An amplifier circuit has a current conversion circuit that receives a high frequency signal and produces a signal current according to the high frequency signal; a gain control circuit that includes a control signal input for receiving a control signal, a first output, and a second output, and produces the signal current from the first output or the second output according to the control signal; an impedance circuit that includes a first node connected to the first output, a second node connected to the second output, and a third node, the impedance circuit presenting a predetermined impedance between the nodes; a switch circuit that is inserted between the first output and the first node; and a load impedance unit that is connected to the first output and produces a gain signal representing an amplified high frequency signal. | 10-30-2008 |
20080278235 | METHOD AND APPARATUS FOR PROTECTING DEVICES IN AN RF POWER AMPLIFIER - A method and apparatus are provided for use with a power amplifier for protecting active devices on the power amplifier. A peak detector is used by control circuitry to detect the presence of a peak voltage that exceeds a threshold voltage. In response to the detection of a peak voltage, the gain of the power amplifier is reduced. | 11-13-2008 |
20080284517 | Variable Gain Amplifier - A method of varying the gain of an amplifier and an amplifier array are provided. The amplifier array includes two or more amplifier stages ( | 11-20-2008 |
20080297256 | RF detector with crest factor measurement - An RF detector configured to provide two outputs, one being a function of the true RMS power level of an RF input signal, and the other being a function of the instantaneous/peak power of the RF input signal, normalized to the average power level. The RF detector includes a variable gain detection subsystem including a single detector or detector array that provides a representation of the power level of the RF input signal. The detector or detector array is common to both the RMS power detection channel and the instantaneous/peak power detection channel of the RF detector. A method of RF detection includes providing representations of the RF input signal at different gain levels, selecting one or more of the representations, and averaging the selected signals. The gain levels of the selected representations is adjusted to provide information about the average power level of the RF input signal. | 12-04-2008 |
20080297257 | Amplifier - The amplifier comprises an inverting negative feedback amplifier circuit using an operational amplifier, a comparator for comparing the potential of the negative phase input terminal of the operational amplifier with the reference potential Vref of the comparator, and a low-pass filter. The imaginary short state of the operational amplifier is lost when clipping occurs on the output signal. It is thus possible to detect clipping by monitoring the potential of the negative phase input terminal. | 12-04-2008 |
20090009251 | FEEDBACK LIMITER WITH ADAPTIVE TIME CONTROL - The invention relates to a compressor and method for amplifying an input signal with a controlled gain. An output signal representing the input signal is amplified by an initial gain and a signal level of the input signal or of the output signal is compared with a threshold level. If the signal level is below the threshold level, the initial gain value is updated using an adaptive control characteristic, and if the signal level is above the threshold level, the initial gain value is updated using a fixed control characteristic or an adaptive control characteristic respectively. The adaptive control characteristic is dependent on the signal level and the fixed control characteristic is independent from the signal level. | 01-08-2009 |
20090027127 | System and Method for Amplifier Gain Measurement and Compensation - A system and method for amplifier gain measurement and compensation. A method for compensating a signal gain of an amplifier circuit includes determining a desired gain for the amplifier circuit, determining an operating temperature of the amplifier circuit, adjusting a set of signal gains based on the operating temperature to produce a set of adjusted signal gains, determining a desired gain setting based on the desired gain and the set of signal gains, and providing the desired gain setting to the amplifier circuit. | 01-29-2009 |
20090027128 | VARIABLE GAIN AMPLIFIER - The present invention provides a variable gain amplifier including a plurality of initial-stage LNAs | 01-29-2009 |
20090039960 | LOW POWER CONSUMING MIXED MODE POWER AMPLIFIER - Provided is a low power consuming mixed mode amplifier. The power amplifier includes: a low output amplifier circuit generating a power amplified result having high efficiency in a low output mode the most frequently used; a high output amplifier circuit generating an amplified result having | 02-12-2009 |
20090058531 | VARIABLE GAIN AMPLIFIER - Techniques and systems for receiving a signal at a first component with an adjustable gain, and adjusting the gain of the first component to a first gain value using a first gain step. Amplifying the signal with the first gain value, generating a first amplified signal, and receiving the first amplified signal at a second component with an adjustable gain. Adjusting a gain of the second component to a second gain value using a second gain step. The net gain step is smaller than one of the first or second gain step. Amplifying the first amplified signal with the second gain value to generate a second amplified signal, and receiving the second amplified signal at a filtering component. A transient response introduced by the filtering component on the second amplified signal is smaller than the transient response that would be introduced by the filtering component on the first amplified signal. | 03-05-2009 |
20090066419 | VARIABLE GAIN AMPLIFIER CIRCUITS - A variable gain amplifier circuit has a variable gain amplifier (VGA), a string of resistors, a plurality of gain switches, a current source, and at least two current switches. A first input terminal of the VGA receives an input voltage signal. The string of resistors are coupled between an output terminal of the VGA and a bias voltage input terminal. Each of the gain switches is coupled between a second input terminal of the VGA and one of connection nodes between two of the resistors. Each of the current switches is coupled between the current source and one of the connection nodes. The current source provides a current through the turned-on current switch. | 03-12-2009 |
20090072908 | GAIN CONTROL CIRCUIT AND OPTICAL RECORDING AND REPRODUCING DEVICE USING THEREOF - A gain control circuit to determine gain by a current ratio of mutual conductance. The gain control circuit includes a first gain control circuit in which positive and negative phase input signals are supplied, gain is changed based on a first control signal, and positive and negative phase output signals are outputted, a second gain control circuit in which the positive and negative phase input signals are supplied, gain is changed based on a second control signal, and the positive and negative phase output signals are outputted, and a load circuit in which the positive phase output signal of the first gain control circuit and the negative phase output signal of the second gain control circuit are synthesized and supplied to a first input terminal, and the negative phase output signal of the first gain control circuit and the positive phase output signal of the second gain control circuit are synthesized and supplied to a second input terminal, and the synthesized signals are lead out through mutual conductance. | 03-19-2009 |
20090079504 | Circuit Arrangement And Method For Power Regulation And Amplifier Arrangement - A circuit arrangement and method for power regulation and an amplifier arrangement for power regulation are described. | 03-26-2009 |
20090096528 | AGC CIRCUIT - There is provided an AGC circuit that has a very small offset voltage and is easy for integration, without using any of external capacities. For that reason, a variable gain amplifying circuit (GCA | 04-16-2009 |
20090140813 | RECEIVED SIGNAL GAIN CONTROL METHOD AND RADIO FREQUENCY SIGNAL RECEIVING APPARATUS - A radio signal receiving apparatus receiving a radio signal over a radio channel generates a first amplified signal by amplifying the radio signal with a first gain, and determines the first gain by measuring the strength of the first amplified signal. In addition, the radio signal receiving apparatus generates a down-converted signal by frequency down-converting the first amplified signal, and generates a second amplified signal by amplifying the down-converted signal with a second gain. In addition, the radio signal receiving apparatus determines the second gain by measuring the strength of the second amplified signal. | 06-04-2009 |
20090174483 | GAIN-CONTROLLED LOW NOISE AMPLIFIER MEANS - A gain-controlled low noise amplifier means is provided. The amplifier means comprises an amplifier (T | 07-09-2009 |
20090219097 | DEVICE AND METHOD FOR AMPLIFYING RADIOCOMMUNICATION SIGNALS - The present invention relates to a method for amplifying radiocommunication signals via a string ( | 09-03-2009 |
20090219098 | METHOD AND SYSTEM FOR POLAR MODULATION WITH DISCONTINUOUS PHASE FOR RF TRANSMITTERS WITH POWER CONTROL - Aspects of a method and system for polar modulation with discontinuous phase for RF Transmitters with power control may include performing by one or more circuits comprising a plurality of amplifiers, configuring one or more of the plurality of amplifiers to provide a coarse amplitude gain and a power level gain. One or more remaining ones of the plurality of amplifiers may be configured to provide an amplitude offset gain, and a signal may be amplified utilizing a combined gain provided by the one or more of the plurality of amplifiers and by the one or more remaining ones of the plurality of amplifiers. The signal may comprise modulated RF signal, and/or a phase modulated RF signal. An RF carrier signal may be modulated to generate the signal. | 09-03-2009 |
20090251218 | Variable Gain Amplifier - A variable gain amplifier for amplifying an amplifier input signal includes a current steering transconductance stage and an impedance transformation network configured to match the current steering transconductance stage to the amplifier output. The impedance transformation network includes a tapped inductor, wherein a first inductive portion of the tapped inductor is magnetically coupled with a second inductive portion of the tapped inductor. The current steering transconductance stage is configured to receive the amplifier input signal and to controllably provide a current signal to a node at the first end of the inductor or to a node electrically circuited between the amplifier output and the first end of the inductor, or to a first tap of the tapped inductor, or to a second tap of the tapped inductor. | 10-08-2009 |
20090261905 | OPEN GAIN ADJUSTMENT CIRCUIT FOR OPERATIONAL AMPLIFIER - An operational amplifier comprises: a differential amplifier circuit ( | 10-22-2009 |
20090289718 | INTEGRATED CIRCUIT ARRANGEMENT FOR GENERATING A DIGITAL VARIABLE GAIN CONTROL SIGNAL - The invention proposes an integrated circuit arrangement ( | 11-26-2009 |
20100045383 | Variable gain circuit - Provided is a variable gain circuit in which it is not necessary to provide a plurality of phase compensation capacities while stability of a circuit is maintained regardless of a set variable gain. A variable gain circuit comprises a precedent stage amplifier circuit for amplifying an external input signal, a subsequent stage amplifier circuit for amplifying an output signal of the precedent stage amplifier circuit, a phase compensation circuit having a fixed capacitative element and connected between an output terminal and an input terminal of the subsequent stage amplifier circuit, and a gain setting circuit adapted to be capable of setting a gain value of the whole of the precedent stage amplifier circuit and the subsequent stage amplifier circuit to a plurality of values, wherein one of the gain value and a transconductance value of the precedent stage amplifier circuit can be set in conjunction with the other. | 02-25-2010 |
20100079209 | SETTING AN OUTPUT LEVEL OF AN AMPLIFIER APPARATUS - An amplifier module comprises an amplifier with an output and a coupling element for receiving a signal at the output. It also comprises a control input for receiving a control signal and a power detector which can be changed over and is intended to determine a power signal from the signal. The power detector which can be changed over is coupled to the control input and is set up in such a manner that a dynamic range of the power detector can be changed on the basis of the control signal. | 04-01-2010 |
20100097143 | RF DETECTOR WITH CREST FACTOR MEASUREMENT - An RF detector configured to provide two outputs, one being a function of the true RMS power level of an RF input signal, and the other being a function of the instantaneous/peak power of the RF input signal, normalized to the average power level. The RF detector includes a variable gain detection subsystem including a single detector or detector array that provides a representation of the power level of the RF input signal. The detector or detector array is common to both the RMS power detection channel and the instantaneous/peak power detection channel of the RF detector. A method of RF detection includes providing representations of the RF input signal at different gain levels, selecting one or more of the representations, and averaging the selected signals. The gain levels of the selected representations is adjusted to provide information about the average power level of the RF input signal. | 04-22-2010 |
20100097144 | METHOD AND SYSTEM FOR POLAR MODULATING OFDM SIGNALS WITH DISCONTINUOUS PHASE - Aspects of a method and system for polar modulating OFDM signals with discontinuous phase may include amplifying a normalized OFDM signal via a plurality of amplifiers such that a combined gain of the plurality of amplifiers comprises a coarse amplitude gain and an amplitude offset gain. A gain of one or more of the plurality of amplifiers may be adjusted to set the coarse amplitude gain, and a gain of one or more remaining ones of the plurality of amplifiers may be adjusted to set the amplitude offset gain adaptively and/or dynamically. The setting of the coarse amplitude gain and/or the amplitude offset gain may be adjusted dynamically and/or adaptively via an amplitude control. | 04-22-2010 |
20100123521 | PROCESS, VOLTAGE AND TEMPERATURE CONTROL FOR HIGH-SPEED, LOW-POWER FIXED AND VARIABLE GAIN AMPLIFIERS BASED ON MOSFET RESISTORS - An integrated circuit includes a first, diode-connected MOSFET and a second, linearly operated MOSFET serving as resistor. A current source may provide a current such that the second MOSFET shows a transconductance constant over temperature and process variations. In one embodiment the MOSFET devices are included in a variable gain amplifier for adjusting the gain. | 05-20-2010 |
20100127778 | Amplifier - An amplifier includes: a variable gain unit that adjusts an amplitude of an input signal and outputs a first signal; an amplitude limiting unit that limits an amplitude of the first signal and outputs a second signal set to have an amplitude of a first amplitude value or less; an amplifying unit that amplifies the second signal to output the amplified second signal as an output signal; and a control unit that detects when the first signal has an amplitude of a second amplitude value or more to control a gain of the variable gain unit so that the amplitude of the first signal becomes less than the second amplitude value, the second amplitude value being larger than the first amplitude value. | 05-27-2010 |
20100182091 | METHOD AND APPARATUS TO LINEARIZE TRANSCONDUCTORS BY PREDISTORTION - A transconductor for providing an output current that is linear in the input voltage (Vin) comprises a main output transconductor (Ms, Mc) and a model transconductor (Msr | 07-22-2010 |
20100201448 | OUTPUT CIRCUIT OF RADIO-FREQUENCY TRANSMITTER - An output circuit including a fine-adjustment VGA and a rough-adjustment VGA, where the maximum gain of the fine-adjustment VGA, as attained when the minimum gain of the rough-adjustment VGA is attained, is lower than the maximum gain of the fine-adjustment VGA as attained when the maximum gain of the rough-adjustment VGA is attained, so that the power consumption of the rough-adjustment VGA is reduced | 08-12-2010 |
20100237946 | Low Noise Amplifier Circuit with Noise Cancellation and Increased Gain - A low noise amplifier circuit including a front end voltage sensing and matching amplification circuit, a gain circuit and a combining circuit is disclosed. The front end voltage sensing and matching amplification circuit includes an input and two outputs and provides a matched signal at each output. The gain circuit includes two inputs, each input being respectively coupled to at least one of the two outputs of the front end voltage sensing and matching amplification circuit. The gain circuit further includes two outputs and an output signal is provided at each output of the gain circuit. The combining circuit combines the two output signals of the gain circuit. The combining circuit includes two inputs, each input is respectively coupled to at least one of the two outputs of the gain circuit. The combining circuit further includes an output providing a combined signal. | 09-23-2010 |
20100237947 | AMPLIFIER SUPPORTING MULTIPLE GAIN MODES - Techniques for designing a low-noise amplifier (LNA) for operation over a wide range of input power levels. In an exemplary embodiment, a first gain path is provided in parallel with a second gain path. The first gain path includes a differential cascode amplifier with inductor source degeneration. The second gain path includes a differential cascode amplifier without inductor source degeneration. The cascode transistors of the gain paths may be selectively biased to enable or disable the first and/or second gain path. By selectively biasing the cascode transistors and input transistors, various combinations of the first and second gain paths may be selected to provide an optimized gain configuration for any input power level. | 09-23-2010 |
20100237948 | SYSTEM AND METHOD FOR DYNAMIC DRAIN VOLTAGE ADJUSTMENT TO CONTROL LINEARITY, OUTPUT POWER, AND EFFICIENCY IN RF POWER AMPLIFIERS - A system and method for dynamic adjustment of drain or collector voltage of a power amplifier (PA), including a PA having a voltage input, a temperature sensor measuring ambient temperature of the PA, and an adaptive PA control processor that dynamically changes the input voltage based on the ambient temperature, achieving a desired peak power when the system is subjected to high temperatures. In a further embodiment, a power sensor measures output power of the PA, and the control processor dynamically changes the voltage based on output power when the system serves a large cell in a mobile communication infrastructure employing high power. In a further embodiment, a multistage PA and method include amplifier stages having drain or collector voltage inputs, wherein a voltage applied to the inputs are set so as to be proportional to the peak power requirements of each stage, enhancing overall efficiency. | 09-23-2010 |
20100237949 | METHOD AND SYSTEM FOR ENHANCING EFFICIENCY BY MODULATING POWER AMPLIFIER GAIN - Aspects of a method and system for enhancing efficiency by modulating power amplifier (PA) gain are presented. Aspects of the system may comprise a PA gain modulator that enables modification of an amplitude of a digital baseband signal. A baseband processor may enable computation of a first gain value based on the modification. The baseband processor may enable computation of a second gain value based on the first gain value. A PA may enable generation of an RF output signal based on the modified digital baseband signal and the second gain value. | 09-23-2010 |
20100244966 | Amplifier circuit - An amplifier circuit performs a characteristic correction process and a smooth curvilinear process on an input signal before being subjected to amplification. The characteristic correction process is a frequency characteristic process, which is performed on the input signal so as to produce a processed signal (Vp). Either the input signal or the processed signal, or the mixture of these signals is subjected to the smooth curvilinear process whose start point is designated by a state variation of amplification (VxTyp). Alternatively it is subjected to a gain decrement process instead of the smooth curvilinear process when the state variation of amplification is less than a default value (VxTHD). Thus, it is possible to prevent clipping from occurring in the amplified output signal while maintaining an adequate power. | 09-30-2010 |
20100264989 | Variable Gain Amplifier - A variable gain amplifier (VGA) disclosed herein includes an input current connector, an output current connector, a gain adjustment connector, scaled current mirrors copying the input current, means for steering the copied currents either to the current output or to another appropriate location based on the signal present at the gain adjustment connector. | 10-21-2010 |
20100264990 | AMPLIFYING CIRCUIT, AC SIGNAL AMPLIFYING CIRCUIT AND INPUT BIAS ADJUSTING METHOD - An amplifying circuit includes: an amplifying unit which amplifies an input signal and applies the amplified signal to a designated load; a current detection unit which detects a load current that flows into the designated load upon application of the amplified signal; an estimating unit which calculates, based on the voltage level of the input signal, an estimated value of the load current to be supplied to the load; and an adjusting unit which adjusts an input bias, to be applied to the amplifying unit, in such a manner so as to reduce a difference value representing a difference between the estimated value and the load current detected by the current detection unit. | 10-21-2010 |
20100277240 | Self-calibrating gain control system - A circuit for self-calibrating a gain control system samples the output of a digital amplifier coupled in series with one or more analog amplifiers to correct errors in a discrete stepped gain control. A digital gain control circuit controls both the digital amplifier and at least one analog amplifier to produce a smooth linear and continuous gain, wherein perturbations in the digital control of gain are smoothed by a signal applied to gain control circuit by a gain step correction circuit. | 11-04-2010 |
20100283546 | DISTRIBUTED LOW NOISE AMPLIFIER - A distributed low noise amplifier (DLNA) comprises at least a first amplifier part | 11-11-2010 |
20100289585 | AMPLIFIER, TRANSMITTER, AND METHOD FOR COMPENSATING GAIN - An amplifier includes a voltage detector that detects current flowing to a drain terminal of a transistor which amplifies a signal using GaN as a voltage difference by means of voltage conversion, a compensation decision unit that decides whether or not to perform gain compensation based on the voltage difference detected by the voltage detector, and a gain compensation unit that performs the gain compensation according to the voltage difference when the compensation decision unit decides to perform the gain compensation. | 11-18-2010 |
20100308916 | Programmable gain MOS amplifier - A programmable gain MOS amplifier is disclosed. The programmable gain MOS amplifier is capable of increasing its programmable gain linearly in dB unit by increasing its gain level data linearly. The programmable gain MOS amplifier includes a plurality of gain providers for providing predetermined gains respectively, and a plurality of gain tuners. Each of the plurality of the gain tuners is disposed for adjusting the predetermined gain from the corresponding gain provider. Each of the gain tuners includes a gain enabling module and a gain decreasing module. The gain enabling module allows the corresponding predetermined gain to add to the programmable gain of the MOS amplifier. The gain decreasing module declines the corresponding predetermined gain added to the programmable gain of the MOS amplifier. | 12-09-2010 |
20100308917 | De-Pop Controller and Method Thereof - A de-pop controller and method thereof are provided. The controller includes an amplifier and a comparator. The amplifier receives and amplifies an audio input signal, and then outputs an audio output signal. The comparator, coupled to the amplifier, receives a transient indication signal. The comparator compares the transient indication signal with a reference voltage, and the comparison result is then applied to control the driving ability of the amplifier for de-popping. | 12-09-2010 |
20100321113 | LOW NOISE AMPLIFIER - An amplifier having multiple gain modes comprises a plurality of cascoded input transistors connected to an input and arranged in parallel, a degeneration stage connected to the input transistors and having a variable impedance, and switching means for switching between different modes of the amplifier by switching off one or more of the input transistors and varying the impedance of the degeneration stage. | 12-23-2010 |
20100321114 | AMPLIFIER CIRCUIT AND RECEIVER USING THE SAME - An amplifier circuit includes a variable gain amplifier that amplifies and outputs a signal from an output port, a controller operable to change an gain of the variable gain amplifier, a mixer that mixes the signal output from the output port of the variable gain amplifier with a local oscillating signal to heterodyne the signal and outputs the heterodyned signal, a filter that outputs a signal component having a predetermined frequency out of the signal output from the mixer, and a detector that detects a power level based on power of the signal output from the filter. The controller is operable to change the gain according to the first power level such that a quality level representing quality of the signal output from the filter becomes a target quality level immediately after the gain is changed. The amplifier circuit can have small power consumption. | 12-23-2010 |
20100327977 | GAIN CONTROL LINEARITY IN AN RF DRIVER AMPLIFIER TRANSMITTER - An exemplary apparatus is disclosed that comprises a plurality of voltage to current transducers to convert an input signal voltage into a plurality of input signal currents and a cascode stage. The cascode stage is coupled to the voltage to current transducers to provide amplifier gain control. The cascode stage comprises a thin gate oxide transistor and a thick gate oxide transistor. | 12-30-2010 |
20110006846 | HIGH-FREQUENCY AMPLIFIER - A high-frequency amplifier is configured in such a manner that a detecting diode | 01-13-2011 |
20110025420 | METHOD OF CONTROLLING SEMICONDUCTOR DEVICE, SIGNAL PROCESSING METHOD, SEMICONDUCTOR DEVICE, AND ELECTRONIC APPARATUS - A pre-amplifier (column region unit) of a solid-state imaging device including a pixel-signal controller. The pixel-signal controller, for each vertical signal line, detects the level of each pixel signal independently by a pixel-signal detector on the output side of a pixel-signal amplifier, and sets a gain independently to the pixel-signal amplifier according to the level of the signal. At a subsequent stage of the solid-state imaging device, an analog-to-digital (A/D) converter and a signal extending unit are provided. The A/D converter digitizes a pixel signal, and the digitized pixel signal is corrected by a gain set to the pixel-signal amplifier with reference to a classification signal from the pixel-signal detector, so that the dynamic range of signals of one screen is extended. | 02-03-2011 |
20110032036 | PERFORMANCE TUNING USING ENCODED PERFORMANCE PARAMETER INFORMATION - A multi-chip system in which at least one of the chips includes a performance parameter encoded thereon. After system assembly, the performance parameter can be obtained by a companion chip and used to automatically or semi-automatically fine tune the companion chip to the specific parameters of the at least one chip. | 02-10-2011 |
20110057729 | Gain control circuit and its gain control method - A gain control circuit and its gain control method, said gain control method comprising the following steps: firstly, outputting continuously a counter value; next, generating a ramp wave signal based on said counter value, and at a voltage where a control voltage signal intersects said ramp wave signal, obtaining an initial counter value based on said ramp wave signal, thus determining an initial voltage gain of an amplifier circuit; then, when a high or low voltage of an output signal of said amplifier circuit is greater or less than a predetermined detection voltage upper or lower limit, adjusting a DC voltage level of said ramp wave signal with a detection signal; and finally, obtaining at said voltage a counter value less than said initial counter value based on said ramp wave signal, hereby reducing said initial voltage gain based on said counter value. | 03-10-2011 |
20110063034 | SYSTEM AND METHOD FOR DIGITAL CONTROL OF AMPLIFIER GAIN WITH REDUCED ZIPPER NOISE - A digitally-controlled analog gain circuit supports at plurality of gain settings in which gain changes are made from a first setting to a new setting in response to a clocking signal of a non-uniform rate. The non-uniform rate clocking signal can be created pseudo randomly by applying a periodic sequence of clock pulses to a linear feedback shift register. Alternatively, the non-uniform rate clock signal can be created by applying a noise source to a phase detector input of a phase locked loop. The clocking signal can be generated by an oscillator, or as a sequence of pulses output by a zero crossing detector. Finally, the gain circuit can apply positive gain to the signal. Alternatively, the gain circuit can apply a negative gain (attenuation) to the signal. | 03-17-2011 |
20110080218 | INTEGRATED CIRCUIT OF AN INTEGRATOR WITH ENHANCED STABILITY AND RELATED STABILIZATION METHOD - An integrated circuit integrator includes a first transconductance amplifier having a gain adjustable based upon a first control signal, and receives, as an input, a signal to be filtered, and generates, as an output, a corresponding amplified signal. The first transconductance amplifier includes an R-C output circuit to filter components from the amplified signal, and an output resistance being adjustable based upon a second control signal. A second transconductance amplifier is matched with the first transconductance amplifier, and has a gain adjustable based upon the first control signal, and a matched output resistance adjustable based upon the second control signal. A circuit is configured to force a reference current through the matched output resistance. An error correction circuit is coupled to the second transconductance amplifier and is configured to generate the second control signal so as to keep constant a voltage on an output of the second transconductance amplifier. | 04-07-2011 |
20110133840 | PRE AND POST FILTER AUTOMATIC GAIN CONTROL WITH BOUNDED PRE-FILTER GAIN CONTROL - An electronic circuit includes a first variable gain amplifier for amplifying a signal at an input to provide a first amplified signal; a filter receiving the first amplified signal to provide a filtered signal; a second variable gain amplifier for receiving and amplifying the filtered signal; a second gain control bock, to provide at least one gain control signal derived from the filtered signal, one of the at least one gain control signal to control the gain of the second variable gain amplifier; and a bounding block for receiving one of the at least one gain control signal from the second gain control block, and for generating therefrom a bounded gain control signal to control gain of the first variable gain amplifier. | 06-09-2011 |
20110169572 | PHASE-SHIFT AMPLIFIER - A cascode amplifier comprising at least two phase-shift stages controllable between an input transistor having a control terminal connected to an input terminal of the amplifier, and an output terminal of the amplifier. | 07-14-2011 |
20110181361 | INSTRUMENTATION AMPLIFIER CALIBRATION METHOD, SYSTEM AND APPARATUS - Calibration of gain and/or offset of an instrumentation amplifier (INA) is accomplished by coupling an appropriate number of current sources, and/or current sinks, respectively, to first and/or second transconductance stage(s) of the INA. Gain and/or offset calibration of the INA may occur when requested by a user and/or the occurrence of an event(s). A voltage reference may be used in combination with a successive approximation register analog-to-digital converter in determining which ones of the current sources and sinks are coupled to the first and/or second transconductance stage(s) of the INA for gain and/or offset calibration thereof. After the gain and/or offset calibration of the INA is completed, the selection of the constant current sources and sinks used therefore may be stored in volatile or nonvolatile memory. Parity checking of the memory may be incorporated and if a parity error is detected, an auto-calibration of the INA may be initiated. | 07-28-2011 |
20110298542 | Amplifier with Automatic Gain Profile Control and Calibration - Embodiments of the present invention provide systems and methods for automatic amplifier gain profile control, including a method for automatically configuring a variable gain profile amplifier according to received input and a variable gain profile amplification system. Further, embodiments of the present invention provide systems and methods for increased gain profile accuracy, including methods and systems to reduce the effects of temperature and/or process variations on the gain profile of an amplifier. | 12-08-2011 |
20120001693 | POWER AMPLIFIER AMPLITUDE MODULATOR SYSTEM AND METHOD - A system for controlling amplifier power is provided. The system includes a voltage envelope detector receiving a voltage signal and generating an attenuated voltage envelope signal. A current envelope detector receives a current signal and generates an attenuated current envelope signal. A controller receives power level data and generates attenuation control data for the voltage envelope signal and the current envelope signal. A detector receives the voltage envelope signal and the current envelope signal and generates a control signal based on the greater of the voltage envelope signal and the current envelope signal. A power amplifier level controller receives the control signal and generates a power amplifier level control signal. | 01-05-2012 |
20120007680 | VARIABLE GAIN AMPLIFIER - A variable gain amplifier includes a direct current (DC) blocking capacitor which receives an input signal at a first terminal, a variable amplifier unit, having a variable transistor size, which amplifies an output of a second terminal of the DC blocking capacitor, a load impedance unit coupled to an output of the variable amplifier unit, a bias resistor having a first terminal coupled to the second terminal of the DC blocking capacitor, a variable bias voltage generator which applies a variable bias voltage to a second terminal of the bias resistor, and a gain controller which provides control to decrease the variable bias voltage when an effective transistor size of the variable amplifier unit is controlled so as to increase, and provides control to increase the variable bias voltage when the effective transistor size of the variable amplifier unit control is controlled so as to decrease. | 01-12-2012 |
20120086512 | Method, system, and apparatus for RF switching amplifier - Embodiments of RF switching amplifiers are described generally herein. Other embodiments may be described and claimed. | 04-12-2012 |
20120098600 | GAIN CONTROL IN A SHARED RF FRONT-END PATH FOR DIFFERENT STANDARDS THAT USE THE SAME FREQUENCY BAND - Disclosed is a radio frequency (RF) communication circuit having an input for receiving an RF signal and providing independently gain controlled signal paths from the input. In a first signal path, the signal is amplified by a constant gain. In a second signal path, the signal is amplified by a constant gain and by a variable gain amplifier. | 04-26-2012 |
20120139635 | Gate-Based Output Power Level Control Power Amplifier - A gate power control technique for a power amplifier (PA) provides practical improved efficiency at backed-off power levels. It can be applied to the main gate of the output stage of the PA, the cascode gate, or any combination thereof. Both voltage mode and current mode signal processing may be used. The gate power control can be implemented in both open-loop and closed-loop using AC and DC coupled drivers and output stages. It may further use one or more control ports in the radio frequency (RF) signal path. | 06-07-2012 |
20120146729 | AMPLIFIER DEVICE - An amplifier device including a gain stage, an output stage, at least one phase compensation circuit and at least one coupling suppression device is provided. The gain stage has at least one feedback node. The output stage is coupled to the gain stage and has an output node for outputting an output voltage. Each of the at least one phase compensation circuit is coupled between a corresponding one of the at least one feedback node and the output node. Each of the at least one coupling suppression device is coupled between a corresponding one of the at least one feedback node and a respective coupling node, and is spontaneously turned on in response to a change of a voltage level at the corresponding feedback node when the corresponding feedback node is coupled by noise, thereby suppressing the change of the voltage level at the corresponding feedback node. | 06-14-2012 |
20120154053 | Power Transistor Output Match Network with High Q RF Path and Low Q Low Frequency Path - A power circuit includes a power device, an output match network and a bypass network. The output match network is coupled to an output of the power device and includes a blocking capacitor which forms part of a high quality factor RF path of the output match network. The output match network is operable to provide a range of impedance matching over a signal bandwidth and a low frequency gain peak outside the signal bandwidth which corresponds to a low frequency resonance of the high quality factor RF path. The bypass network is coupled in parallel with the blocking capacitor of the output match network. The bypass network is operable to attenuate the low frequency gain peak while maintaining the high quality factor RF path. | 06-21-2012 |
20120188018 | CONSTANT-GAIN POWER AMPLIFIER - A method includes amplifying a non-constant-envelope input signal using a main amplifier having a first gain that varies depending on a supply voltage of the main amplifier. A constant-envelope signal is amplified using a reference amplifier having a second gain that varies depending on the supply voltage of the reference amplifier. Both the main amplifier and the reference amplifier are operated using a same variable supply voltage whose amplitude varies over time. A gain control signal is produced so as to compensate for changes in the second gain of the reference amplifier that are caused by the variable supply voltage. The gain control signal is applied in compensating for variations in the first gain of the main amplifier. | 07-26-2012 |
20120206204 | VARIABLE GAIN AMPLIFIER CIRCUIT - A variable gain amplifier circuit with a small-sized configuration can accurately adjust the gain without causing a transmission loss of an input signal. A plurality of amplification portions are connected with each other between an amplification coupling line and a grounding line in parallel. The amplification portion includes a switching device and an amplification transistor, which induces a current corresponding to an input signal to flow between the amplification coupling line and the grounding line via the switching device when the switching device is in the on state. The amplitude gain is varied by, according to a gain control signal, separately switching on and off the switching devices of the respective amplification portions. | 08-16-2012 |
20120218042 | METHOD AND APPARATUS FOR MODIFYING THE SENSITIVITY OF AN ELECTRICAL GENERATOR TO A NONLINEAR LOAD - A method and generator for modifying interactions between a load and the generator are described. The method includes applying output power to the load using a power amplifier, controlling a level of the output power responsive to a power control setting, and adjusting a conduction angle of the power amplifier to reduce a level of sensitivity of the power amplifier to variations of an impedance of the load. The generator includes a compensation subsystem coupled to the power amplifier that controls a conduction angle of the power amplifier to enable a sensitivity of the power amplifier to be adjusted. | 08-30-2012 |
20120235748 | AMPLIFIER, TRANSMISSION APPARATUS, AND GATE VOLTAGE DETERMINATION METHOD - An amplifier includes a detector configured to detect a given value used for monitoring a change in a gain of an amplifying element amplifying a signal in response to a gate voltage applied to a gate terminal, and a controller configured to judge, based on the detected given value, whether or not the gate voltage is to be increased, and to determine the increased gate voltage in response to the given value when the controller judges that the gate voltage is to be increased. | 09-20-2012 |
20120274403 | AMPLIFIER WITH INTEGRATED FILTER - An amplifier with integrated filter (e.g., an LNA) is described. In one design, the amplifier may include a gain stage, a filter stage, and a buffer stage. The gain stage may provide signal amplification for an input signal. The filter stage may provide filtering for the input signal. The buffer stage may buffer a filtered signal from the filter stage. The amplifier may further include a second filter stage and a second buffer stage. The second filter stage may provide additional filtering for the input signal. The second buffer stage may buffer a second filtered signal from the second filter stage. All of the stages may be stacked and coupled between a supply voltage and circuit ground. The filter stage(s) may implement an elliptical lowpass filter. Each filter stage may include an inductor and a capacitor coupled in parallel and forming a resonator tank to attenuate interfering signals. | 11-01-2012 |
20120313708 | METHOD AND APPARATUS FOR AUTOMATICALLY ADJUSTING THE BANDWIDTH OF AN ELECTRONIC AMPLIFIER - A method and apparatus are provided for using an automatic BW adjustment circuit to automatically adjust the bandwidth of an electronic amplifier based on the amplitude of a signal that is output from a variable gain amplifier or of one or more variable gain stages that follow the amplifier. By automatically adjusting the bandwidth of the electronic amplifier based on the amplitude of the signal, bandwidth enhancement can be provided while also preventing, or at least reducing, peaking of the frequency response of the electronic amplifier. | 12-13-2012 |
20120326789 | ACTIVE NEUTRALIZATION DEVICE - The present invention relates to a device for neutralization of a signal obtained by transposition to a high frequency of a useful signal supplied by a unit of equipment, the said equipment having a spurious capacitance C | 12-27-2012 |
20120326790 | AMPLIFIER DEVICE WITH REITERABLE ERROR CORRECTION SCHEME WITH BALANCED NEGATIVE FEEDBACK - A very low distortion amplifier using one or more error correction loops based on a balanced error negative feedback scheme intrinsically and easily reiterable. Such loops are applied to a generic amplifier block A | 12-27-2012 |
20130033326 | APPARATUS AND METHOD FOR DIGITALLY-CONTROLLED AUTOMATIC GAIN AMPLIFICATION - Apparatus and methods are disclosed, such as those involving a receiver device. One such apparatus includes an equalizer configured to process an input signal transmitted over a channel. The equalizer can include a programmable gain amplifier (PGA) block which includes an input node configured to receive the input signal; an output node; and a programmable gain amplifier (PGA). The PGA amplifies the input signal with an adjustable gain. The PGA block also includes a gain control block having an input electrically coupled to the input node. The gain control block is configured to adjust the gain of the PGA at least partly in response to the input signal from the input node such that the PGA generates an output signal with a substantially constant amplitude envelope to the output node. | 02-07-2013 |
20130038396 | RADIO FREQUENCY AMPLIFIER IN COMMUNICATION SYSTEM AND METHOD OF CONTROLLING THE SAME - A Radio Frequency (RF) amplifier in a communication system and a method for controlling the RF amplifier are provided. The RF amplifier includes an input unit for receiving an RF signal, a cascode unit for amplifying the RF signal according to a gain of the RF amplifier and for outputting the amplified RF signal, a load unit connected to the cascode unit, and a gain controller for controlling the gain by converting an impedance in a baseband to an impedance viewed from an RF band, the gain controller being connected in parallel to the load unit. | 02-14-2013 |
20130049868 | AMPLIFIER CIRCUIT WITH VARIABLE TUNING PRECISION - Systems and methods are provided for facilitating variable precision tuning of an amplifier circuit. In accordance with one aspect of the present disclosure, the system includes an amplifier having multiple tuning stages to set the gain of the amplifier to discrete gain levels. In particular embodiments, the tuning stages are connected in series and each of the tuning stages includes a resistor connected in parallel to a switch, which can be disengaged to cause the amplifier to set the gain to an adjacent gain level. In certain embodiments, the difference in gain between each adjacent one of the plurality of gain levels is more at higher gain levels than at lower gain levels. | 02-28-2013 |
20130120067 | AMPLIFIER WITH PASS-THROUGH MODE - In an amplifier with pass-through mode of the present invention, in a pass-through mode, a signal transmission transistor and a bias control transistor are turned ON and a voltage of an output terminal is maintained in a ground potential via the bias control transistor and a resistor. Thus, a power supply voltage is applied to a control terminal of the signal transmission transistor and one main terminal of the signal transmission transistor is maintained in a ground potential. Therefore, an ON-resistance of the signal transmission transistor is decreased to a minimum level. | 05-16-2013 |
20130154744 | Non-Linear Capacitance Compensation - Embodiments are directed to capacitance compensation via a compensation device coupled to a gain device to compensate for a capacitance change occurring due to an input signal change, along with a controller coupled to the compensation device to receive the input signal and to control an amount of compensation based on the input signal. In some embodiments, banks may be formed of multiple compensation devices, where each of the banks has a different size and is coupled to receive a different set of bias voltages. | 06-20-2013 |
20130154745 | CLIPPING CIRCUIT, DIFFERENTIAL AMPLIFYING CIRCUIT, AND AMPLIFYING CIRCUIT - There is provided a clipping circuit in which a first input terminal receives a first signal, a second input terminal receives a second signal, a first variable resistive element has a control terminal electrically connected to the second input terminal and has a threshold, first and second ends of the first variable resistive element are connected to first input terminal and a reference voltage, respectively, the second variable resistive element has a control terminal electrically connected to the first input terminal and has a threshold, first and second ends thereof are connected to a second input terminal and the reference voltage, respectively, a first bias applying unit applies a bias voltage lower than the threshold to the control terminal regarding the first variable resistive element, and a second bias applying unit applies a bias voltage lower than the threshold to the control terminal regarding the second variable resistive element. | 06-20-2013 |
20130162354 | CASCODE AMPLIFIER - A slew rate booster, switchably enabled selector, or other arrangement may be included in a cascode amplifier to keep the current buffer/common gate transistor and the input/common source transistor saturated as the voltage at the source of the current buffer transistor drops during a transient input voltage spike at the gate of the input transistor. In some instances a higher potential may be supplied to a gate of the current buffer transistor during an initial phase of the settling period than during a second phase of the settling period when a lower potential may be applied. Other techniques may be used in different embodiments. Devices and methods are provided. | 06-27-2013 |
20130176077 | AMPLIFIER FOR WIRELESS RECEIVER AND ASSOCIATED METHOD - An amplifier for wireless receivers and an associated method is provided. The amplifier provides an output signal to an output terminal in response to an input signal received from an input terminal, and further includes a first block and a second block. The first block is coupled between the input terminal and the output terminal, and includes a gain control terminal and a first transistor. The gain control terminal is coupled to a gain control signal, while the gain control signal is provided such that the first transistor is kept operating in a triode region, and a gain of the output signal over the input signal can be seamlessly tuned in response to the gain control signal. | 07-11-2013 |
20130207725 | RESONATOR CIRCUIT AND AMPLIFIER CIRCUIT - A passive frequency divider in a CMOS process. More specifically, an electrical distributed parametric oscillator to realize a passive CMOS frequency divider with low phase noise. Instead of using active devices, which are the main sources of noise and power consumption, an oscillation at half of the input frequency is sustained by the parametric process based on nonlinear interaction with the input signal. For example, one embodiment is a 20 GHz frequency divider utilizing a CMOS varactor and made in a 0.13 μm CMOS process. In this embodiment: (i) without any dc power consumption, 600 mV differential output amplitude can be achieved for an input amplitude of 600 mV; and (ii) the input frequency ranged from 18.5 GHz to 23.5 GHz with varactor tuning. In this embodiment, the output phase noise is almost 6 dB lower than that of the input signal for all offset frequencies up to 1 MHz. Also, a resonant parametric amplifier with a low noise figure (NF) by exploiting the noise squeezing effect. Noise squeezing occurs through the phase-sensitive amplification process and suppresses one of two quadrature components in input noise. When the input signal is only in the direction of the non-suppressed quadrature component, squeezing can lower that NF by almost 3 dB. The resonant structure of the proposed amplifier achieves the squeezing effect using a low number of LC elements. | 08-15-2013 |
20130241654 | GAIN CONTROL SYSTEM - A gain control system may include an input terminal that receives an input signal. The gain control system may include a first transistor having a source connected with the input terminal and a drain connected with an output terminal. The gain control system may include a second transistor having a gate connected with the input terminal and the source of the first transistor. The second transistor may have a drain connected with the output terminal. The second transistor may generate a reduction signal. The output terminal may output an output signal based on the input signal and the reduction signal. | 09-19-2013 |
20130265110 | HIGH GAIN, HIGH VOLTAGE POWER AMPLIFIER - An opto-isolated amplifier and method are disclosed. The amplifier includes an input node configured to receive an input to be amplified. A pair of opto-isolators are coupled between an input node and an output node. The opto-isolators are configured to create gain between the input node and the output node. An amplification stage is coupled to the opto-isolators. The amplification stage includes an input coupled to the output node and an output configured to generate an amplified output. The opto-isolator outputs may be configured to generate a difference current. The input of the amplification stage may have a high impedance compared to an impedance at the output node, the difference current being directed at the high input impedance input of the amplification stage to generate a gained voltage. | 10-10-2013 |
20130285747 | DIGITAL AUTOMATIC GAIN CONTROL - Systems, devices, and methods are provided to inhibit apparent amplitude modulation in non-linear processing that causes distortion in a processed signal. One aspect of the invention includes a hearing aid. The hearing aid includes a microphone to receive an input signal, a speaker to reproduce the input signal, and a processor. The processor processes the input signal using a gain. The processor includes an inhibitor, which inhibits distortions, and an adjuster, which adjusts the gain. The inhibitor acts to smooth an envelope of the input signal to inhibit undesired modulation. The adjuster adjusts the gain if the envelope is either above or below a threshold. | 10-31-2013 |
20130307624 | INTEGRATED TECHNIQUE FOR ENHANCED POWER AMPLIFIER FORWARD POWER DETECTION - A power amplifier has power detection capabilities that include a radio frequency (RF) power amplifier that has a gain stage that includes a gain stage input, a gain stage output, and a feedback loop coupled between an input and an output of the power amplifier. A detection circuit has a first detection circuit input electrically coupled to the gain stage input and has a detection circuit output. An amplitude control circuit and a phase control circuit are electrically coupled together in series between the gain stage output and a second detection circuit input. The amplitude control circuit and the phase control circuit produce a signal that is received by the second detection circuit input so that the detection circuit can detect a signal at the detection circuit output that is proportional to a the forward power output of the power amplifier and is insensitive to power amplifier output load mismatch. | 11-21-2013 |
20130314161 | SIGNAL PROCESSOR, SIGNAL PROCESSING METHOD AND COMMUNICATION DEVICE - Disclosed herein is a signal processor including: a plurality of parallel-connected variable gain amplification sections with variable gains; and a control section adapted to control the potentials of control terminals of each of the variable gain amplification sections and make transitions in the control terminal potentials according to different input signal levels. | 11-28-2013 |
20130342276 | AUTOMATIC GAIN CONTROL DEVICE - In an automatic gain control device, an average power detection circuit detects the average power of a received signal in a specific period, a peak to average power ratio calculation circuit calculates a peak to average power ratio value, a threshold calculation circuit obtains the maximum peak to average power ratio (PAPR) so as to determine as a threshold the result of subtracting the value of the PAPR from the full scale value of an A/D converter. A gain control circuit identifies the gain on the basis of the value of the average power and the determined threshold, and a variable gain amplifier amplifies the received signal which is input using the identified gain. | 12-26-2013 |
20140015610 | AMPLIFIERS WITH ENHANCED POWER SUPPLY REJECTION RATIO AT THE OUTPUT STAGE - An amplifier circuit is disclosed. The amplifier circuit includes a detection circuit, a control amplifier circuit and an output stage. The detection circuit detects disturbances occurring in a first supply voltage and provides detection results. The control amplifier circuit controls a first voltage provided to a first control node and a second voltage provided to a second control node in response to the detection results. The output stage circuit includes a first output power transistor coupled to the control amplifier circuit at the first control node and a second output power transistor coupled to the control amplifier circuit at the second control node. The first voltage and the second voltage are controlled differently when a disturbance is detected to have occurred. | 01-16-2014 |
20140022018 | AMPLIFIER WITH GAIN CIRCUIT COUPELD TO PRIMARY COIL OF TRANSFORMER - An amplifier includes a transformer and a first stage gain circuit. The transformer includes a primary coil and a secondary coil. The primary coil is utilized for receiving an input signal. The first stage gain circuit has a first input port, which is coupled to the primary coil. The first stage gain circuit is utilized for gaining the input signal so as to generate a first output. | 01-23-2014 |
20140028399 | Signal Amplifier - A signal amplifier is disclosed. The signal amplifier includes a first transistor, including a first terminal, a second terminal and a control terminal; a resistor, including one terminal coupled to the first terminal of the first transistor, and another terminal coupled to the control terminal of the first transistor; and a capacitor, including one terminal coupled to the control terminal of the first transistor, and another terminal coupled to a specific voltage. | 01-30-2014 |
20140035674 | CONDITIONALLY-STABLE OPERATIONAL AMPLIFIER WITH TUNABLE WIDEBAND BUFFERS - A method for processing signals may include, in a conditionally-stable operational amplifier, shifting the gain curve of the conditionally-stable operational amplifier to a desired position, by buffering at least one output signal from at least one transconductance module within the conditionally-stable operational amplifier using a buffer. The desired position of the gain curve may be associated with a desired feedback factor. The shifting of the gain may take place without shifting a corresponding phase. The tuning of the buffer may be based on the desired position of the gain curve which is derived from feedback factor value(s) specified by an application. A phase corresponding to the desired position of the gain curve at 0 dB frequency may be greater than a threshold phase. The buffering may be tuned using at least one tunable wideband buffer so that the corresponding phase at 0 dB frequency remains higher than the threshold phase. | 02-06-2014 |
20140035675 | Amplifier for a Wireless Receiver - Amplifier ( | 02-06-2014 |
20140062599 | SELECTIVE GAIN CONTROL CIRCUIT - A circuit for providing signal amplification with reduced fixed pattern noise. In an embodiment, the circuit includes an amplifier and a plurality of legs coupled in parallel with one another between a first node for an input of the amplifier and a second node for an output of the amplifier. Control logic selects a first combination of the plurality of legs for a first configuration of the circuit to provide a first loop gain with the amplifier. In another embodiment, the control logic further selects a second combination of the plurality of legs for a second configuration of the circuit to provide a second loop gain with the amplifier, wherein the first loop gain is substantially equal to the second loop gain. | 03-06-2014 |
20140085004 | System and Method for Determining Location of Submerged Submersible Vehicle - An amplifier for use in a buoyant cable antenna operable to receive signals within a frequency band includes: a first amplifier operable to provide amplified signals based on the received signals; a bandpass filter arranged to pass filtered signals within a first portion of the frequency band, the filtered signals being based on the amplified signals; an attenuator arranged in parallel with said bandpass filter and operable to attenuate signals within a second portion of the frequency band, the attenuated signals being based on the amplified signals; and a second amplifier operable to provide an amplified output including first amplified signals within the first portion of the frequency band and to provide second amplified signals within the second portion of the frequency band. The first amplified signals have a first gain, the second amplified signals have a second gain, and the first gain is more than the second gain. | 03-27-2014 |
20140097901 | AUTOMATIC GAIN CONTROL CIRCUIT - An automatic gain control circuit ( | 04-10-2014 |
20140159816 | AMPLIFIER CIRCUIT - An amplifier circuit comprises an input, for receiving an input signal to be amplified; a preamplifier, for amplifying the input signal based on a variable gain; a power amplifier for amplifying the signal output from the preamplifier; and a variable voltage power supply for supplying one or more supply voltages to the power amplifier. The supply voltages are adjusted based on the variable gain or the input digital signal. According to other aspects of the invention, a power supply of an amplifier circuit is clocked using a clock signal, whereby the clock signal has a frequency that varies in accordance with a volume signal or an input signal. | 06-12-2014 |
20140210552 | APPARATUS AND METHODS FOR BIASING A POWER AMPLIFIER - Apparatus and methods for biasing a power amplifier are disclosed. In one embodiment, a method of biasing a power amplifier includes shaping an enable signal using a time-dependent signal generator to generate a control current, amplifying the control current using a current amplifier to generate a correction current, and generating a bias current for a power amplifier using a primary biasing circuit. The primary biasing circuit is configured to use the correction current to correct for a variation in gain of the power amplifier when the power amplifier is enabled. | 07-31-2014 |
20140253242 | AMPLIFIERS WITH INDUCTIVE DEGENERATION AND CONFIGURABLE GAIN AND INPUT MATCHING - Amplifiers with inductive degeneration and configurable gain and input matching are disclosed. In an exemplary design, an apparatus includes a gain transistor, an inductor, and an input matching circuit for an amplifier. The gain transistor has a variable gain determined based on its bias current. The inductor is coupled between the gain transistor and circuit ground. The input matching circuit is selectively coupled to the gain transistor based on the variable gain of the gain transistor. For example, the input matching circuit may be coupled to the gain transistor in a low-gain mode and decoupled from the gain transistor in the high-gain mode. In an exemplary design, the input matching circuit includes a resistor, a capacitor, and a second transistor coupled in series. The resistor is used for input matching of the amplifier. The second transistor couples or decouples the resistor to or from the gain transistor. | 09-11-2014 |
20140266451 | POWER AMPLIFIER WITH WIDE DYNAMIC RANGE AM FEEDBACK LINEARIZATION SCHEME - Circuitry, which includes a package interface, a radio frequency (RF) amplification circuit, and a closed-loop gain linearization circuit. The package interface receives an RF signal and provides an amplified RF signal. The RF amplification circuit amplifies the RF signal in accordance with a gain of the RF amplification circuit so as to generate the amplified RF signal. In one embodiment, the closed-loop gain linearization circuit is configured to endogenously establish a target gain magnitude using the RF signal and linearize the gain of the RF amplification circuit in accordance with the target gain magnitude. By endogenously establishing the target gain magnitude using the RF signal, the closed-loop gain linearization circuit can provide linearity with greater independence from external control circuitry. | 09-18-2014 |
20140266452 | RF POWER AMPLIFIER WITH TOTAL RADIATED POWER STABILIZATION - A radio frequency (RF) amplification circuit and a closed-loop amplitude linearization circuit are disclosed. The RF amplification circuit amplifies an RF signal to generate an amplified RF signal. The RF amplification circuit and the closed-loop amplitude linearization circuit form a fast control loop and a slow control loop. The slow control loop estimates a total radiated power (TRP) from the RF amplification circuit to create a TRP estimate using a representation of the amplified RF signal, and controls a fast loop gain of the fast control loop based on the TRP estimate. The fast control loop applies a gain adjustment to the RF amplification circuit based on the fast loop gain and a difference between a target reference amplitude and a measured feedback amplitude. The gain adjustment controls amplitude distortion in the RF amplification circuit. The fast loop gain controls TRP-drift in the RF amplification circuit. | 09-18-2014 |
20140300417 | AMPLIFIERS WITH BOOSTED OR DEBOOSTED SOURCE DEGENERATION INDUCTANCE - Amplifiers with boosted or deboosted source degeneration inductance are disclosed. In an exemplary design, an apparatus includes an amplifier circuit and a feedback circuit. The amplifier circuit receives an input signal and provides an output signal and includes a source degeneration inductor. The feedback circuit is coupled between a node of the amplifier circuit and the source degeneration inductor. The feedback circuit provides feedback to vary an input impedance of an amplifier including the amplifier circuit and the feedback circuit. The feedback circuit may be programmable and may be enabled to provide feedback or disabled to provide no feedback. Alternatively, the feedback circuit may always be enabled to provide feedback. In either case, the feedback circuit may have a variable gain to provide a variable input impedance for the amplifier. | 10-09-2014 |
20140340153 | Automatic Gain Control of a Received Signal using a Power Target - The present invention relates to a method and device for performing automatic gain control of a received signal. The method comprises the steps of receiving (S | 11-20-2014 |
20150091648 | AMPLIFIER CIRCUIT AND OPERATION METHOD THEREOF - An amplifier circuit and an operation method thereof are provided. The amplifier circuit includes two stages of amplifiers. When the amplifier circuit is operated in a high gain mode, the two stages of amplifiers are operated normally to provide high gain. When the amplifier circuit is operated in a low gain mode, the second stage of amplifier is turned off, and the first stage of amplifier is coupled to output terminals of the amplifier circuit through signal isolation elements so as to form a single stage of amplifier. Therefore, the amplifier circuit can change the total gain value thereof according to a requirement of gain. | 04-02-2015 |
20150123732 | RF AMPLIFIER - A two-stage RF amplifier is provided. The first stage is a common-emitter transistor arrangement with a purely reactive degeneration impedance and an output impedance with a reactive component matched in frequency response to the degeneration impedance. The second stage is a buffer amplifier. The first amplifier can be designed for high gain which is flat over frequency by virtue of the reactive degeneration impedance. The first amplifier provides input matching, and the buffer provides output matching, with decoupling between the input and output. | 05-07-2015 |
20150326198 | LOW-VOLTAGE ANALOG VARIABLE GAIN AMPLIFIER WITH ENHANCED LINEARITY - In a variable gain amplifier, a base of a bipolar first transistor receives a first differential input signal. The emitter of the first transistor is connected in series between a first resistor and a MOSFET coupled to ground. An output of the amplifier is a current through the collector. The conductivity of the MOSFET controls a gain of the amplifier. A bipolar second transistor receives a second differential input signal, and the second transistor provides a modulated gate voltage to the MOSFET. The drain voltage of the MOSFET is modulated by the first differential input signal and thus undesirably generates distortion. To reduce the distortion, the modulated gate voltage causes the AC component for a certain DC voltage at the drain of the MOSFET to be lowered, improving linearity. Since no current source is used, the amplifier has a large headroom, allowing operation using a low operating voltage. | 11-12-2015 |
20150333707 | METHOD FOR HIGH-FREQUENCY AMPLIFIER USING POWER GAIN-BOOSTING TECHNIQUE - The present invention provides a power gain-boosting technique for an amplifier in order to compensate for the decrease of G | 11-19-2015 |
20150341007 | CARRIER AGGREGATION AMPLIFIER WITH DUAL GAIN CONTROL - An apparatus includes a first amplification stage configured to amplify a first carrier signal and a second amplification stage configured to amplify a second carrier signal. The first amplification stage is direct-current (DC) coupled to the second amplification stage. First circuitry is coupled to the first amplification stage and configured to control a first gain of the first amplification stage. The first circuitry includes a first gain control transistor configured to selectively divert a first bleed current from a first output of the first amplification stage. Second circuitry is coupled to the second amplification stage and configured to control a second gain of the second amplification stage independently of the first gain. The second circuitry includes a second gain control transistor configured to selectively divert a second bleed current from a second output of the second amplification stage. | 11-26-2015 |
20150357982 | GAIN BOOSTED DIFFERENTIAL TRANSCONDUCTANCE AMPLIFIER - A transconductance gain stage including a pair of gain transistors, each gain transistor having a base and an emitter, the emitter of each gain transistor electrically coupled to a degenerating resistor, and the emitter of each gain transistor connected to a gain resistor. | 12-10-2015 |
20150381128 | HYBRID TRANSLINEAR AMPLIFIER - A hybrid, translinear amplifier has at least one gain stage including first and second gain transistors, at least a first load transistor electrically coupled to the first gain transistor and at least a second load transistor electrically coupled to the second gain transistor, and load resistors electrically coupled to the load transistors. A hybrid, translinear amplifier with selectable gain has a first hybrid, translinear amplifier cell having at least first and second load transistors, each load transistor having a load resistor, at least one additional hybrid, translinear amplifier cell having at least third, fourth, fifth and sixth load transistors, each load transistor having a load resistor, at least two switches electrically coupled to the amplifier cells to allow selection of one of the amplifier cells, and a differential output signal having a gain corresponding to a selected amplifier cell. | 12-31-2015 |
20160065139 | METHOD AND APPARATUS FOR SUPPLYING POWER TO A RADIO FREQUENCY POWER AMPLIFIER - A method and a supply modulator (SM) are provided for supplying power from a wireless transmitter to a radio frequency (RF) power amplifier. A power control signal input from a modem is received. A reference voltage is determined. An operating mode of the SM is changed by controlling a level of the reference voltage. A voltage is determined based on the level of a reference voltage. When the operating mode of the SM is an ET mode, a first output signal from a linear regulator and a second output signal from a switching regulator are combined to obtain a combined result, and the combined result is output. The first output signal is based on the voltage. When the operating mode of the SM is an APT mode, the voltage based on the reference voltage is output. | 03-03-2016 |
20160072442 | System and Method for Inductor Isolation - An inductor isolation apparatus and method to reduce interaction between inductors on an integrated circuit. | 03-10-2016 |
20160126911 | SIGNAL AMPLIFYING SYSTEM, AC SIGNAL GENERATING CIRCUIT, AMPLIFYING GAIN ACQUIRING METHOD, AND AC SIGNAL GENERATING METHOD - A signal amplifying system comprising: an amplifying module with a plurality of PGAs coupled in series; a test signal generating circuit, for generating a test signal fed to one test input PGA; and a control circuit. If the test input PGA is not a final PGA, the final PGA outputs an output test signal amplified by the test input PGA and the PGA following the test input PGA, wherein each the PGA following the test input PGA has a known amplifying gain. The control circuit acquires an accumulated gain for the test input PGA and the PGA following the test input PGA based on the output test signal, and acquires a amplifying gain of the test input PGA based on the accumulated gain. | 05-05-2016 |
20160134251 | DUAL MODE POWER AMPLIFIER CONTROL INTERFACE WITH A MULTI-MODE GENERAL PURPOSE INPUT/OUTPUT INTERFACE - In accordance with some embodiments, the present disclosure relates to a dual mode control interface that can be used to provide both a radio frequency front end (RFFE) serial interface and a two-mode general purpose input/output (GPIO) interface within a single digital control interface die. In certain embodiments, the dual mode control interface, or digital control interface, can communicate with a power amplifier. Further, the dual mode control interface can be used to set the mode of the power amplifier. | 05-12-2016 |
20160149540 | METHOD AND APPARATUS FOR CURRENT STEERING IN HIGH SENSITIVITY, HIGH LINEARITY AND LARGE DYNAMIC RANGE HIGH SPEED TRANS-IMPEDANCE AMPLIFIERS - The present invention relates to a linear, high sensitivity, high speed trans-impedance amplifier (TIA) Which allows a large dynamic range of input current up to very large values, maintains high linearity and keeps constant output voltage, maintains the same frequency response across the full gain control range, provides very high input sensitivity and large bandwidth, and allows input current monitoring without affecting input sensitivity. In other words, the novel circuit disclosed herein provides for the feedback path to maintain the same level of feedback even while the output signal is varied. This allows a wide and stable bandwidth, as well as a monitor to be placed in the TIA. | 05-26-2016 |
20160156323 | VARIABLE GAIN CIRCUIT AND TUNER SYSTEM PROVIDED WITH SAME | 06-02-2016 |
20160182000 | GAIN CONTROL IN COMPLEMENTARY COMMON GATE AND COMMON SOURCE AMPLIFIERS | 06-23-2016 |
20160190999 | Systems and Methods for Optimizing Amplifier Operations - Methods and systems for optimizing amplifier operations are described. The described methods and systems particularly describe a feed-forward control circuit that may also be used as a feed-back control circuit in certain applications. The feed-forward control circuit provides a control signal that may be used to configure an amplifier in a variety of ways. | 06-30-2016 |
20160254788 | Using Fractional Delay Computations to Improve Intermodulation Performance | 09-01-2016 |
20160380594 | POWER AMPLIFIER MODULES WITH HARMONIC TERMINATION CIRCUIT AND RELATED SYSTEMS, DEVICES, AND METHODS - One aspect of this disclosure is a power amplifier module that includes a power amplifier configured to provide a radio frequency signal at an output, an output matching network coupled to the output of the power amplifier and configured to provide impedance matching at a fundamental frequency of the radio frequency signal, and a harmonic termination circuit coupled to the output of the power amplifier. The power amplifier is included on a power amplifier die. The output matching network can include a first circuit element electrically connected to an output of the power amplifier by way of a pad on a top surface of a conductive trace, in which the top surface has an unplated portion between the pad the power amplifier die. The harmonic termination circuit can include a second circuit element. The first and second circuit elements can have separate electrical connections to the power amplifier die. Other embodiments of the module are provided along with related methods and components thereof. | 12-29-2016 |
20180026597 | Method And System for Accurate Gain Adjustment Of A Transimpedance Amplifier Using A Dual Replica And Servo Loop | 01-25-2018 |
20190149096 | CLOSED-LOOP DIGITAL COMPENSATION SCHEME | 05-16-2019 |