DE2015812A1 - High frequency power amplifier - Google Patents

Description

DR. MÜLLER-BORE, DIPL-PHYS. DR. MANITZ 201581 2

DIPL-CHEM. DR. DEUFEL DIPL-ING. FINSTERWALD DIPL-ING. GRÄMKOW

PATENT LAWYERS Munich, March 2nd, 1970

We / P M 2029

THE MARCONI COMPANY LIMITED Bush House, Aldwych, London. W.O.2 EFGLAED

High frequency power amplifier

The invention relates to high frequency / power amplifier devices and aims to provide improved high frequency power amplifier devices to create which for use for the amplification of amplitude-modulated high-frequency signals are appropriate and are such as to cause an uncomfortable form of distortion common to at present used amplifiers occurs, as well as how. possible ^ on a. Limit the minimum. The invention is particularly useful for; High frequency leis power amplifier devices are excellently suited which for use at frequencies on the order of 1 to 30 MHz are designed, although the invention is not limited to this application.

109315/1228

German MUUER BORE Di. MANITZ, Dr. DEUFEl, Dipl.-Ing. FINSTERWAID Dlpl.-Inrj. GRAMKOW BiGuimJiwei'j, Am Bürrjeipoik 8 8 Münitmn 22, Robert Korti-Straßo 1, Telephone (08! 1) 225 110/22 7503, Talox S-22050 robpat 7 Stuttgait-Bad Cannitolt, MaiktitraB «

Lokfon (0531) 2B18 / Tilefoti (0711) SS7261

BAD ORiGINAL

Known high-frequency amplifiers, as they are currently in general are used to generate a distortion by converting the amplitude modulation at the input into a phase modulation at the output convert with the highly undesirable result that the phase angle of the output signal is not constant Relationship with the phase angle of the input signal, but changes with the amplitude. In other words; it trLtt an amplitude-dependent fluctuation in the phase shift, which occurs between the input and output through the amplifier is produced. As shown above, the invention provides an improved and simple device that does not requires that any changes or adjustments be made to the internal circuitry of the amplifier, whereby the distortion of this kind can be reduced to an amount ·. which are negligible or almost negligible in normal use is.

Another form of distortion which is also commonly encountered in known high frequency amplifiers, although this B ¹ Orm of distortion can be reduced to an acceptably low level with less difficulty, is the nonlinearity of the amplitude of the input-output transfer function. Preferred embodiments of the invention for reducing the distortion by converting the amplitude modulation into phase modulation therefore have additional devices in order to simultaneously reduce the distortion due to the non-linearity of the amplitude of the input-output transmission function.

Although the invention is not limited to this application, it is particularly advantageous to booster devices applicable, "which are used in transmitters with: the single-band and the independent sideband transfer: ·. system work, because in these cases it is important "i £, v that

109815/1228

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compares the signal envelope present on the output side of the amplifier with that present on the input side of the amplifier is present and that it has an amplitude error in response to the difference between the two envelopes ersignal is generated, which is used as a control voltage in a Direction is applied to the variable attenuator, so that the difference is kept at zero.

A delay circuit is preferably provided in a signal path which starts from a point on the input side of the * Amplifier leads to the 90 degree detector, the circuit being has such a delay that the delay times of the two paths become equal to which of the above Lead the point to the detector, one to one entrance of the detector and the other to the other entrance.

The invention is explained below, for example, with reference to the drawing which is a simplified block diagram of one embodiment.

According to the drawing, amplitude-modulated high-frequency signals, which are present at the input (at IN), the input side of a conventional high-frequency power amplifier 5 via a P input channel fed to a hybrid power splitter 1, a switched attenuator 2, a voltage-controlled attenuator 3 and a voltage-controlled phase shifter 4 has. It is assumed that the amplifier will produce both of the above-mentioned forms of distortion. The output signal is sent from the amplifier 5 for further use via an output power sampler 6 to an output terminal (at OUT) guided.

Üia to compensate for the distortion caused by the amplitude

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dependent change in the phase rotation in amplifier 5, a 90-degree phase detector 10 is provided, its an input from the branch terminal of the hybrid power splitter 1 is fed via a delay circuit 11 and its other input from the branch terminal of the output power sampler 6 is fed via an attenuator 7 and a low-pass filter 8. The! Filter 8 prevents harmonics, which are present in the output signal from the amplifier 5 can reach the detectors 9 and 10. The attenuators 2 and 7 are used to set suitable signal levels at the inputs of detectors 9 ′ and 10 and at the voltage-controlled attenuator 3 to ensure. The delay of the circuit 11 is sized so that the two paths from the hybrid power splitter 1 to detector 10 have the same time delay; one path leads via circuit 11 and the other through units 2 to 8 inclusive.

Although the 90 degree phase detector 10 for simplicity as a If a single block is shown, it contains any known block Combination of circuits designed to compare the phases at its inputs and to be independent to generate an error signal voltage from the amplitudes, which depends on the existing phase difference and is such that it is used as a control voltage when Phase shifter 4 whose phase rotation is changed in such a way that there is a tendency to keep the two input signals of the phase detector in a phase relationship of 90 degrees.

To remove the distortion due to the non-linearity of the input-output transfer function of the amplifier 5, an envelope detector 9 is provided, the two inputs of which • are each fed by units 1 and 8, to which has already been referred to and its error KAusgangssignai

109815 / 12.2 8

controls the attenuation that is generated by the voltage-controlled attenuator 5. Although the envelope detector 9 is shown as a single block for simplicity (like the 90 degree phase detector 10), it contains any one known combination of circuits designed to control the modulation (e.g., low) frequency envelope of the Demodulate signals from 1 to demodulate the modulation (e.g., low) frequency envelope of the signals from 8 and Compare the two envelopes (e.g. using a differential amplifier) to find one that depends on this difference Generate error signal. This error signal is used to reduce the attenuation of the attenuator 3 in general change that the error signal tends towards zero.

It is evident that neither the amplitude dependent phase rotation distortion nor the distortion due to the non-linearity the amplitude of the input-output transfer function can theoretically be reduced to zero because of course the Detectors 9 and 10 both based on this error output work and this error signal is only present when there is some degree of distortion of this type, which is to be corrected by the action of the detector in question. However, as is the case with other correction arrangements is the case in which the correction or compensation of an error is effected by an error signal sent by is derived from the error that is to be corrected or compensated, it is possible through suitable quantitative interpretation to generate a correction or compensation degree, which is so close to completeness that it is practically acceptable.

The various circuit units shown in the figure Represented by blocks can be any shape

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Claims (4)

Claims High-frequency power amplifier arrangement for amplification Amplitude-modulated high-frequency signals, characterized in that the arrangement is a high-frequency power amplifier has an electrically variable phase shifter in a signal channel, which leads to the input of the amplifier and has a 90-degree phase detector, one input with an input ™ Signal is fed, which is branched off from said channel and its other input with an input signal is fed, which is branched from the output side of the amplifier, wherein the detector is arranged so that he in response to deviations from the 90 degree phase position Its two input signals generate a control signal which is used to adjust the phase shift of the To change the phase shifter in one direction in order to maintain the said 90-degree condition. 2. Device according to claim 1, characterized in that that the phase shifter receives its input signal through P an input channel, which is an attenuator has, which is preceded by a hybrid power splitter and that the 90-degree phase detector receives an input signal • from an output of the hybrid power divider, while the other input to the phase detector from the output side of the amplifier through a second power-up divider is branched off, so that the branched signals are fed to the detector via a path which a contains another attenuator. 109815/1728 3. Apparatus according to claim 1 or 2, characterized in that g e k e η η ze i c h η et that the input channel to the amplifier also contains an electrically variable attenuator, whose attenuation is controlled by an envelope detector, which is connected and set up in such a way that that it compares the modulation signal envelope which is present at the output side of the amplifier with that which is present at the input side of the amplifier and that it produces an amplitude error signal in response to the difference between the two envelopes, which as a control voltage in one direction to the changed j derable attenuator is placed so that the difference is kept at zero. 4. Device according to one of the preceding claims, characterized in that a delay circuit is provided in a signal path leading from a point on the input side of the amplifier to the 90 degree detector leads, the circuit having such a delay that the delay times of the two paths become equal, which lead from the above point to the detector, namely one to the one input of the detector and the other to the other entrance. - 9815/1228 Blank page