Impedance matching method for a multiband antenna, and transmission or receiver channel having automatic matching
First Claim
1. An automatic impedance matching method for a radiofrequency transmission channel comprising at least one amplifier, an antenna, a calculation processor, and an impedance matching network between the amplifier and the antenna, the impedance matching network comprising several impedances some of which have adjustable numerical values, the amplifier having a nominal load impedance for which the channel has the desired performance, the method comprising the following steps:
- measurement of an output current and an output voltage of the amplifier;
calculation of a complex impedance defined by the ratio between the voltage and the current taking into account their phase difference, the complex impedance representing a current load impedance of the amplifier;
calculation of an impedance of the antenna as a function of the current load impedance and as a function of known current values of the adjustable impedances of the impedance matching network;
calculation of new values for the adjustable impedances of the matching network which allow an overall load impedance of the amplifier to be obtained as dose as possible to the nominal load impedance, based on the calculated impedance of the antenna; and
control of the impedance matching network for adjusting the adjustable impedances to the new values,wherein the output current is measured by means of a measurement impedance which is an adjustable impedance placed in series between an output of the amplifier and the impedance matching network, and adjustment of this measurement impedance is controlled by the processor as a function of a desired operating frequency for the channel and of the nominal load impedance of the amplifier.
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Accused Products
Abstract
An automatic antenna impedance matching method for a radiofrequency transmission circuit. An impedance matching network is inserted between an amplifier and an antenna. The output current and voltage of the amplifier and their phase difference are measured by a variable measurement impedance, and the complex load impedance of the amplifier is deduced from this; the impedance of the antenna is calculated as a function of this complex impedance and as a function of the known current values of the impedances of the matching network. Starting from the value found for the impedance of the antenna, new values of the matching network are calculated that allow the load to be matched to the nominal impedance of the amplifier. The measurement impedance has a value controllable by the calculation processor according to the application and notably as a function of the operating frequency and of the nominal impedance of the amplifier.
4 Citations
13 Claims
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1. An automatic impedance matching method for a radiofrequency transmission channel comprising at least one amplifier, an antenna, a calculation processor, and an impedance matching network between the amplifier and the antenna, the impedance matching network comprising several impedances some of which have adjustable numerical values, the amplifier having a nominal load impedance for which the channel has the desired performance, the method comprising the following steps:
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measurement of an output current and an output voltage of the amplifier; calculation of a complex impedance defined by the ratio between the voltage and the current taking into account their phase difference, the complex impedance representing a current load impedance of the amplifier; calculation of an impedance of the antenna as a function of the current load impedance and as a function of known current values of the adjustable impedances of the impedance matching network; calculation of new values for the adjustable impedances of the matching network which allow an overall load impedance of the amplifier to be obtained as dose as possible to the nominal load impedance, based on the calculated impedance of the antenna; and control of the impedance matching network for adjusting the adjustable impedances to the new values, wherein the output current is measured by means of a measurement impedance which is an adjustable impedance placed in series between an output of the amplifier and the impedance matching network, and adjustment of this measurement impedance is controlled by the processor as a function of a desired operating frequency for the channel and of the nominal load impedance of the amplifier. - View Dependent Claims (3, 4, 5, 6, 7)
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2. An automatic impedance matching method for a radiofrequency receiver channel comprising at least one amplifier, an antenna, a calculation processor, and an impedance matching network between the antenna and the amplifier, this impedance matching network comprising several impedances some of which have adjustable numerical values, the receiver channel having the desired performance when a nominal input impedance is connected to the input of the amplifier, the method comprising the following steps:
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measurement of an input current and an input voltage of the amplifier; calculation of a complex impedance defined by the ratio between the voltage and the current taking into account their phase difference, the complex impedance representing an input impedance currently connected to the amplifier; calculation of an impedance of the antenna as a function of the current input impedance and as a function of known current values of the adjustable impedances of the impedance matching network; calculation of new values for the adjustable impedances of the matching network which allow an overall input impedance of the amplifier to be obtained as dose as possible to the nominal input impedance, based on the calculated impedance of the antenna; and control of the impedance matching network for adjusting the adjustable impedances to the new values, wherein the input current is measured by means of a measurement impedance which is an adjustable impedance placed in series between the impedance matching network and the amplifier, and adjustment of this measurement impedance is controlled by the processor as a function of a desired operating frequency for the channel and of the nominal input impedance of the amplifier. - View Dependent Claims (8, 9, 10)
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11. A radiofrequency transmission or receiver channel comprising:
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at least one amplifier; an antenna; a calculation processor; an impedance matching network between the amplifier and the antenna, the impedance matching network comprising several impedances some of which have adjustable numerical values; a measurement impedance inserted in series between the amplifier and the impedance matching network; means for measuring a first voltage across the terminals of the measurement impedance and a second voltage at the output of the amplifier (for a transmission channel) or at the input of the amplifier (for a receiver channel), wherein the calculation processor is configured to calculate a current complex load or input impedance of the amplifier based on a ratio between the second voltage and the first voltage, taking into account a phase difference between the first and second voltages; the calculation processor is further configured to calculate an impedance of the antenna as a function of the current load or input impedance and as a function of known current values of the adjustable impedances of the impedance matching network; the calculation processor is further configured to calculate new adjustable values of impedance for the impedance matching network which allow an overall load or input impedance of the amplifier to be obtained as close as possible to a nominal load or input impedance of the amplifier, based on the calculated impedance of the antenna; the channel further comprises electrical means for controlling the impedance matching network for adjusting the adjustable impedances to the new values; the measurement impedance is a variable complex impedance; the calculation processor is further configured to select a desired value of the measurement impedance as a function of a desired operating frequency for the channel and of the nominal load or input impedance of the channel; and the channel further comprises means for assigning this selected value to the measurement impedance. - View Dependent Claims (12, 13)
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Specification