Patent application number | Description | Published |
20100301968 | POWER AMPLIFIER FILTER FOR RADIO-FREQUENCY SIGNALS - A power amplifier filter for radio-frequency signals having an outphasing type architecture comprising a first stage ( | 12-02-2010 |
20110018649 | ELECTRICAL RESONATOR DEVICE WITH A WIDE FREQUENCY VARIATION RANGE - An electrical resonator device, capable of operating at variable frequency ω, including: an acoustic wave resonator, a first electrical circuit coupled in parallel to the resonator with an adjustable complex impedance whose imaginary part is equal to | 01-27-2011 |
20120007666 | DEVICE FOR IMPEDANCE MATCHING A COMPONENT, COMPRISING A FILTER HAVING MATCHABLE IMPEDANCE, BASED ON A PEROVSKITE TYPE MATERIAL - A device comprises at the input a first component (PA) having a first output impedance (Z | 01-12-2012 |
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 |
20120256698 | Automatic Impedance Matching Method for Radiofrequency Circuit and Modular Emission or Reception Chain - As relates to the automatic impedance matching of a radiofrequency system, a system comprises three modules. In a matching phase a matching computation module is connected in a detachable manner between an amplification module and an antenna module containing an antenna, a matching impedances network, and memory means for storing control data of the network; then a matching computation is carried out; the computation module supplies control data of the network to the memory device. In a phase of using the system, the second module is removed and the antenna module is connected in a detachable manner directly to the amplification module, the matching network being controlled by the stored control data, which correspond to the desired impedance matching. | 10-11-2012 |
20120256705 | DEVICE USING A FILTER WITH RESONATORS - A filter device including an input electronic circuit having an input load admittance Yin, an output electronic circuit having an output load admittance Yout, a lattice filter with two types of two piezoelectric resonators having a characteristic impedance Zc; those of the first type have a resonant frequency Fri and an antiresonant frequency Fa1; those of the second type have a resonant frequency Fr2 different from Fr1 and an antiresonant frequency Fa2 different from Fa1. The input and output impedances are matched to the reciprocal of the real part Re{Yin} of the admittance Yin and the reciprocal of the real part Re{Yout} of the admittance Yout, which are at least two to five times greater than the characteristic impedance Zc of the resonators. The frequency differences Fa1−Fr1 and Fa2−Fr2 are at least two to three times greater than the absolute value of the difference Fr1−Fr2. | 10-11-2012 |
20140085020 | ACOUSTIC STRUCTURE COMPRISING AT LEAST ONE RESONATOR AND AT LEAST ONE COINTEGRATED CAPACITOR IN ONE AND THE SAME PIEZOELECTRIC OR FERROELECTRIC LAYER - An acoustic structure, comprising at least one acoustic resonator exhibiting at least one resonant frequency in a band of operating frequencies and an integrated capacitor, further comprises: a stack of layers, comprising at least one active layer of piezoelectric material or of ferroelectric material; the resonator being frequency tunable and being produced by a first subset of layers of the stack comprising the at least one active layer and at least two electrodes; the integrated capacitor being produced by a second subset of layers comprising the active layer and at least two electrodes; the first and second subsets of layers being distinguished by a modification of layers so as to exhibit different resonant frequencies. | 03-27-2014 |
20160094199 | Resonant circuit with variable frequency and impedance - A resonant circuit comprises an input terminal and an output terminal and at least: a group of N resonators, where N≧1, the resonators having the same resonance frequency and the same antiresonance frequency; a first and a second impedance matching element having a non-zero reactance, the first element being in series with the group of resonators, and the second element being in parallel with the group of resonators, the resonant circuit comprising: first means for controlling the group of resonators, enabling the static capacitance of the group to be fixed at a first value; second control means, enabling the impedance of the first impedance matching element and that of the second element to be fixed at second values; the first and second values being such that the triplet of values composed of the static capacitance of the group, the impedance of the first element, and the impedance of the second element can be used to determine the following triplet of parameters: the characteristic impedance | 03-31-2016 |