SU881627A1 - Device for measuring uhf four terminal network amplitude characteristics - Google Patents

Description

(54) DEVICE FOR MEASURING THE AMPLITUDE CHARACTERISTICS OF CBEPXBblCOKQHACTOTHblX FOUR-POLES The invention relates to microwave radio engineering and can be used in measuring the amplitude characteristics of microwave amplifiers. A device for measuring the amplitude characteristics of microwave four-port networks is known, which comprises a microwave generator whose output is connected to the first detector head via a controlled microwave attenuator and a first directional coupler connected in series to a second directional coupler with a matched load connected to the output of the main channel, the second detector head, a relationship meter and indicator, as well as a saw-tooth voltage generator, one of the outputs of which is connected to the scan input of the l indicator. However, the known device has a narrow dynamic range and low measurement accuracy. The purpose of the invention is to expand the dynamic range and increase the accuracy of measurements. The goal is achieved in a device for measuring amplitude characteristics from the top of high-frequency quadrupoles containing an microwave generator, the output of which is connected to the first detector head via a controlled ultra-high frequency attenuator and a first directional coupler, sequentially connected to a second directional coupler with a matched load connected to the output channel, a second detector head, a ratio meter and indicator, as well as a sawtooth generator A high-frequency generator, two detectors and a control unit are inputted to one of the outputs of which is connected to the indicator sweep input, and the high-frequency generator output is connected to the second input of the ratio meter via a serially connected modulator controlled by a high-frequency attenuator controls which is connected to the output of the ratio meter, and one of the detectors, wherein the control input of the controlled ultrahigh-frequency atteshoator is connected to the output of the control unit, one input of which is It is connected to the output of the first detector head, and the second is connected via another detector to the output of the modulator, the low-frequency input of which is connected to the second output of the lilike voltage generator. . The drawing shows a structural electrical circuit of the proposed device. A device for measuring the amplitude characteristics of microwave quadrupoles contains a microwave generator 1 ,, controlled attenuator 2 microwave, the first directional coupler-3, the first detector head 4, the second directional coupler 5, the second detector head 6, sawtooth generator 7, indicator 8, ratio meter 9, matched load 10, control unit 11, high-frequency generator 12, modulator 13, two detectors 14 and 15, controlled high-frequency attenuator 16, quadrupole under study 17. The device operates as follows m manner. The signal from microwave generator 1 is attenuated by the controlled attenuator 2 and through the first directional coupler 3 is fed to the input of the four-pole 4 under study. Part of the signal power is coupled to the input of the first detector head 4. Similarly, part of the passing power is taken off by the second directional coupler 5 chain b of the second detector head. The output voltage of the first detector head 4 is subtracted in the control unit 11 from the output voltage of the detector 14, and the amplified differential voltage controls the attenuation of the controlled attenuator 2 in such a way that the difference is close to zero. At the same time, the amplitude of the input voltage of the detector 14 varies exponentially as a result of controlling the transfer ratio of the modulator 13 through the voltage from the output of the sawtooth generator (HPL) 7. The output voltage of the high frequency generator 12 is stable in amplitude. As a result, as the amplitude of the input voltage of the detector 14 varies, the amplitude of the input voltage of the first detector head 4 changes with exactly the same bit. A sawtooth voltage from the output of the FPG 7 generates a sweep of the indicator 8. As a result, horizontally on the screen of the latter, we obtain a logarithmic scale, the power supplied to the input of the quadripole 17 being investigated. whose output voltage, proportional to the difference of its input voltages, either increases or decreases the transmission coefficient of the controlled attenuator 16, until the difference between the output voltages The second detector head 6 and detector 15 will not become close to zero. Thus, the input voltages of the detectors 14 and 15, respectively, are equal to the input voltages of both detector heads 4 and 6 in the entire range of the latter, as a result of which the transfer coefficient of the controlled attenuator 16 is equal to the transfer coefficient of the quadripole 17 under study and monitors when changing the probing power. The output code of the ratio meter 9 is fed to the input of the indicator 8, where it is used to indicate the measured transmission coefficient in digital form, and after the digital-to-analog conversion in analogue as a characteristic on the display of the indicator 8. In the study of quadrupoles 17, having a large transmission coefficient, it is necessary to respectively set the initial transfer coefficient of the controlled attenuator 16 large enough, to input a preamplifier into it, or to introduce a fixed-s attenuator into the circuit at quadrupole output. When measuring the amplitude characteristics of mixers and multipliers, the transmission coefficient of the controlled attenuator 16 may be less than one. The transfer coefficients of directional couplers 3 and 5 are almost equal to each other, otherwise they can be easily taken into account when measuring. (Thus, the positive effect is achieved due to the following features. The dynamic range of measurements is expanded due to the fact that detectors 14 and 15 operate in the input voltage range from millivolts to volts. The accuracy of transmission measurements is increased due to the fact that pairs of detectors 14 and 15

Claims (1)

The claims 15 Device for measuring amplitude; characteristics of a microwave four-terminal network, comprising a microwave generator, the output of which is connected to the first detector head via a controlled microwave attenuator and a first directional coupler, a second directional coupler with a matched 25 load connected to the output of the main channel, a second detector head, and a ratio meter and an indicator, as well as a sawtooth voltage generator, one of the outputs of which is connected to the scan input of the indicator ator, characterized in that, in order to expand the dynamic range and increase the accuracy of measurements, a high-frequency generator, two detectors and a control unit are introduced, the output of the high-frequency generator being connected to the second input of the ratio meter through a series-connected modulator, a controlled high-frequency attenuator, and a control the input of which is connected to the output of the ratio meter, and one of the detectors, while the control input of the controlled microwave attenuator is connected to the output of the control unit one input of which is connected to the output of the first detector head, and the second through another detector is connected to the output of the modulator, the low-frequency input of which is connected to the second output of the sawtooth voltage generator.