| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 330185000 | INPUT NETWORKS | 24 |
| 20100231295 | ELECTRONIC CIRCUIT - An electronic circuit includes a transimpedance amplifier, a bypass circuit that allows a part of an input signal to be applied to the transimpedance amplifier to flow through the bypass circuit so as to bypass the transimpedance amplifier on the basis of a control signal, and a control signal circuit that includes a hold circuit having a time constant that is variable on the basis of a time constant control signal and generates the control signal. | 09-16-2010 |
| 20100271126 | MATCHED INTEGRATED ELECTRONIC COMPONENTS - A switchable integrated electronic device includes at least three elements r | 10-28-2010 |
| 20100308911 | BAND REJECT FILTERS - Distributed band reject filters are disclosed. A band reject filter includes a first acoustic resonator and a second acoustic resonator, each of which has either shunt resonators adapted to resonate substantially at respective resonance frequencies defining a rejection frequency band or series resonators adapted to anti-resonate substantially at respective anti-resonance frequencies defining the rejection frequency band. These resonators are connected through a phase shifter which imparts an impedance phase shift of approximately 45° to 135°. Exemplary applications of the band reject filters disclosed herein include implementation as an inter-stage band reject filter for a base station power amplifier for a wireless communication system, as a radio frequency band reject filter in a duplexer for a wireless communication terminal, and in a low noise amplifier input stage. | 12-09-2010 |
| 20110006842 | SYSTEM AND A METHOD FOR SIGNAL PROCESSING - A system for processing an input signal, the system including: (a) a hardware memory module configured to store a lookup table; and (b) a signal processing module, configured to process the input signal to provide a second signal, and to transmit the second signal to a power amplifier that is characterized by non-linearity and which is adapted to amplify the second signal to provide an amplified signal; wherein the signal processing module is configured to process the input signal in response to at least one filtering parameter to provide the second signal so as to at least partly compensate for the non-linearity of the amplifier; wherein the at least one filtering parameter is retrieved from the lookup table using a first, a second, and a third lookup table indexes, wherein the first index is responsive to a magnitude of the input signal at a first moment, the second index is responsive to a magnitude of the input signal at a second moment, and the third index is responsive to phases of the input signal at the first and the second moments. | 01-13-2011 |
| 20110090009 | CAPACITIVE SENSOR - A capacitive sensor amplifier circuit comprising: a capacitive sensor; a bias voltage supply connected across the capacitive sensor via a bias resistor; an operational amplifier having an input connected to the capacitive sensor; and a feedback capacitor connected between the input and an output of the amplifier, the input and output being of the same sign. | 04-21-2011 |
| 20120038419 | MITIGATING SIDE EFFECTS OF IMPEDANCE TRANSFORMATION CIRCUITS - Implementations to mitigating side effects of impedance transformation circuits are described. In particular, mitigation circuitry may be coupled to a high impedance circuit to minimize or eliminate non-linear output of the high impedance circuit in order to provide a well-defined bias voltage to the input of a buffer or amplifier device coupled to a capacitive sensor. Additionally, the mitigation circuitry may be coupled to the high impedance circuit to reduce or eliminate rectifying effects of the high impedance circuit. Accordingly, a bias voltage can be utilized to provide a stable operating point of the buffer or amplifier device via a high impedance circuit utilizing one or more impedance transformations. | 02-16-2012 |
| 20120194272 | RF POWER AMPLIFIER INCLUDING BROADBAND INPUT MATCHING NETWORK - An RF power amplifier is disclosed that has improved input matching or reduced return losses over a wider frequency range. The amplifier includes an input impedance matching network, a resistive element, a transistor, and an output impedance matching network. The resistive element is coupled between the input impedance matching network and the input of the transistor. The resistive element is configured to lower the quality factor (Q) of the input impedance matching network. This has the effect of reducing the input impedance variation over a given frequency range. As a result, the overall impedance matching over the given frequency range is improved, thereby reducing the input return losses. This allows the RF power amplifier to be used in wider bandwidth applications. | 08-02-2012 |
| 20120256689 | Radiofrequency Emission or Reception Chain with Automatic Impedance Adaptation, and Corresponding Method - As relates to automatic matching of antenna impedance for a radiofrequency transmit or receive circuit, an impedance matching network is inserted between an amplifier and antenna. The current i and output (resp. input) voltage V of the amplifier and their phase shift are measured, the complex impedance defined by V/i is deduced; the impedance of the antenna is calculated as a function of this complex impedance and the known existing values of the adjustable impedances of the matching network. New adjustable values of impedances of the matching network to obtain a desired overall load impedance for the amplifier are calculated on the basis of the calculated antenna impedance value, and the matching network is controlled to adjust the adjustable impedances to these new values. The measurement is made at a measurement frequency different from the working frequency to allow automatic matching without interrupting normal operation of the chain. | 10-11-2012 |
| 20120299651 | FEED-BACK AND FEED-FORWARD SYSTEMS AND METHODS TO REDUCE OSCILLATOR PHASE-NOISE - Systems, methods, and apparatus are described that provide for low phase-noise, spectrally-pure, and low-jitter signals from electrical oscillators. An aspect of the present disclosure includes utilization of an open-loop feed-forward phase-noise cancellation scheme to cancel phase noise, or jitter, of an electrical oscillator. Phase noise can be measured and then subtracted, with the phase noise measurement and subtraction being performed at a speed faster than phase noise variations of the oscillator. Another aspect of the present disclosure includes use of a feedback scheme for phase noise reduction. A feedback scheme can be used alone or in conjunction with a feed-forward scheme. Related phase-noise cancellation and/or reduction methods are described. Notch filter and RF amplifier circuits are also described. | 11-29-2012 |
| 20130038389 | Systems and Methods of RF Power Transmission, Modulation, and Amplification, Including Embodiments for Compensating for Waveform Distortion - Methods and systems for vector combining power amplification are disclosed herein. In one embodiment, a plurality of signals are individually amplified, then summed to form a desired time-varying complex envelope signal. Phase and/or frequency characteristics of one or more of the signals are controlled to provide the desired phase, frequency, and/or amplitude characteristics of the desired time-varying complex envelope signal. In another embodiment, a time-varying complex envelope signal is decomposed into a plurality of constant envelope constituent signals. The constituent signals are amplified equally or substantially equally, and then summed to construct an amplified version of the original time-varying envelope signal. Embodiments also perform frequency up-conversion. | 02-14-2013 |
| 20130049861 | MODULATOR AND AN AMPLIFIER USING THE SAME - A linear amplification with nonlinear components (LINC) modulator is provided. The LINC modulator includes: a separator that generates a plurality of constant envelope signals from a source signal; a processor that receives an input signal and detects and removes a phase jump in phase trajectory of the input signal to generate a first signal having a continuous phase trajectory and a second signal having a discontinuous phase trajectory; and a quadrature modulator that mixes the first signal with the second signal to reconstruct the input signal. | 02-28-2013 |
| 20130141161 | POWER AMPLIFIER - There is provided a power amplifier capable of compensating for a distortion without deteriorating a gain of input voltage. The power amplifier includes an input terminal to which an input voltage is applied; a class AB power amplification circuit connected to the input terminal; and an element connected between the input terminal and the class AB power amplification circuit, turned on when the input voltage is equal to or greater than a predetermined value, and varying impedance thereof according to the input voltage. | 06-06-2013 |
| 20130222060 | MUTUALLY COUPLED MATCHING NETWORK - An impedance matching circuit is disclosed. The impedance matching circuit includes two or more mutually coupled inductors. A total self inductance of the impedance matching circuit is less than a corresponding impedance matching circuit that includes inductors that are not mutually coupled. The two or more mutually coupled inductors may have known current ratios that match current ratios in the corresponding impedance matching circuit. | 08-29-2013 |
| 20130342272 | Signal Amplifiers that Switch to an Attenuated or Alternate Communications Path in Response to a Power Interruption - RF signal amplifiers are provided that include an RF input port, a switching device having an input that is coupled to the RF input port, a first output and a second output, a first diplexer having an input that is coupled to both the first output of the switching device and the second output of the switching device, and a first RF output port that is coupled to an output of the first diplexer. These amplifiers further include an attenuator that is coupled between the second output of the switching device and the input of the first diplexer. | 12-26-2013 |
| 20140320205 | AUTOTRANSFORMER-BASED IMPEDANCE MATCHING CIRCUITS AND METHODS FOR RADIO-FREQUENCY APPLICATIONS - Disclosed are devices and methods related to autotransformer-based impedance matching for radio-frequency (RF) applications. In some embodiments, an impedance matching device can include a primary metal trace and a secondary metal trace, each having a respective number of turns. Such metal traces can be interconnected to form an autotransformer with the primary metal trace and the secondary metal trace being in respective planes separated by a selected distance. Such an autotransformer can be utilized to, for example, facilitate impedance matching of an amplified RF signal from a power amplifier (PA). In some embodiments, the impedance matching device can be implemented as an integrated passive device (IPD) mountable on a packaging substrate. Such an IPD can be configured to allow stacking of another component on the IPD to yield a number of desirable features in products such as RF modules. | 10-30-2014 |
| 20150035595 | LOW-NOISE RECEIVER WITH COMPLEX RF ATTENUATOR - An apparatus includes an integrated circuit. The integrated circuit includes a low-noise amplifier having a first complex input impedance. The integrated circuit includes a complex attenuator coupled to an input terminal of the integrated circuit. The complex attenuator has a second complex input impedance and a first complex output impedance. The apparatus may include a matching network coupled to the input terminal of the integrated circuit. The matching network is external to the integrated circuit. The matching network may have a first real input impedance and a second complex output impedance. The second complex output impedance is matched to the second complex input impedance. | 02-05-2015 |
| 330188000 | Transformer coupled | 8 |
| 20100219890 | LOW NOISE AMPLIFIER - The present invention relates to a low noise amplifier comprising a transformer, a first amplifier and a feedback resistor, the transformer comprising a primary stage and a secondary stage. The secondary stage is connected to the input of the first amplifier and the output of the first amplifier is connected in series with a feedback resistor and the primary stage of said transformer. | 09-02-2010 |
| 20130043945 | System and Method for High-Frequency Amplifier - A system and method for operating an amplifier system is provided. The amplifier system includes an input providing a direct coupling configured to receive a high-frequency input signal having a frequency in at least one of a radiofrequency (RF) and microwave range. The amplifier system also includes an amplifier including a dielectric material separating at least two superconducting layers forming an amplifier loop configured to receive the high-frequency input signal and deliver an amplified signal. The amplifier system includes an output providing a direct coupling configured to deliver the amplified signal. | 02-21-2013 |
| 20130222061 | MULTI-OCTAVE POWER AMPLIFIER - A multi-octave power amplifier and related method provides an impedance matching unit configured to match impedances of a pair of balanced radio frequency (RF) signals applied thereto and output a pair of impedance-matched balanced RF signals, a converting unit configured to convert the pair of the impedance-matched balanced RF signals to an unbalanced RF signal and a compensation unit configured to compensate at least one rolled-off frequency component of the unbalanced RF signal and output a compensated RF signal. | 08-29-2013 |
| 20140097894 | Method and Apparatus of an Input Resistance of a Passive Mixer to Broaden the Input Matching Bandwidth of a Common Source-Gate LNA - A cascode common source and common gate LNAs operating at 60 GHz are introduced and described. The cascode common source LNA is simulated to arrive at an optimum ratio of upper device width to the lower device width. The voltage output of the cascode common source LNA is translated into a current to feed and apply energy to the mixer stage. These input current signals apply the energy associated with the current directly into the switched capacitors in the mixer to minimize the overall power dissipation of the system. The LNA is capacitively coupled to the mixer switches in the I and Q mixers and are enabled and disabled by the clocks generated by the quadrature oscillator. These signals are then amplified by a differential amplifier to generate the sum and difference frequency spectra. | 04-10-2014 |
| 20170237407 | Transformer Based Impedance Matching Network And Related Power Amplifier, ADPLL And Transmitter Based Thereon | 08-17-2017 |
| 330189000 | With additional impedance connected to "P" or "S" circuits | 1 |
| 20110316624 | Transformer Structures For A Power Amplifier (PA) - In one embodiment, the present invention includes a transformer formed on a semiconductor die. Such transformer may have multiple coils, including first and second coils. Each coil may have segments that in turn are formed on a corresponding metal layer of the semiconductor die. The segments of a given coil are coupled to each other, and the first and second coils can be interdigitated with each other. | 12-29-2011 |
| 330190000 | With transformer structure | 2 |
| 20120200356 | ENHANCED TRANSFORMER OUTPUT DEMULTIPLEXING METHOD (ETODEM) - An asymmetrical transformer output demultiplexing (ATODEM) circuit is disclosed. The ATODEM circuit of the present disclosure includes N input windings, wherein N is a natural number. Each of the N input windings have input terminals that couple to output terminals of N PAs. The ATODEM further includes M output ports wherein M is a natural number, each of the M output ports having N series coupled windings coupled between a load terminal and a return terminal. The physical attributes of the N input windings, and the N series coupled windings of the M output ports are asymmetrical such that in an Nth operation mode an Nth PA first-load line impedance matches an output impedance of an Nth PA coupled to the input terminals. | 08-09-2012 |
| 20140191800 | MULTIPLE WINDING TRANSFORMER COUPLED AMPLIFIER - An integrated circuit includes a radio frequency (RF) amplifier having a trifilar transformer coupled to a gain device in two negative feedback paths. The trifilar transformer includes a first winding, a second winding and a third winding, a first dielectric core is disposed between the first winding and the second winding, and a second dielectric core is disposed between the second winding and the third winding. A first winding ratio between the first winding and the second winding combined with a second winding ratio between the second winding and the third winding affects a total gain of the RF amplifier. In a specific embodiment, the gain device is a transistor, the first winding is coupled to a base of the transistor, the second winding is coupled to a collector of the transistor, and the third winding is coupled to an emitter of the transistor. | 07-10-2014 |
