SU1377763A1 - Ampli-phase meter - Google Patents

Abstract

The invention relates to measurements in antenna technology and can be used to adjust and remove the amplitude and phase characteristics of phased antenna arrays and the relative change in amplitude. Amplification meter contains phase switches 1-4, adder 7, quadratic detector 8, intermediate frequency amplifier 9, synchronous detector 10, signal level meter 11, generator 12 rectangular pulses, dividers 13, 19 and 20 frequencies and dividers 21 and 22 frequencies by 2 The introduction of phase switches 5 and 6, a divider 14 frequencies into 4 with two values of output phases, pulse keys 15 and 16, inverters 1.7 and 18 pulse voltages and the formation of new functional connections more than three times increases the accuracy of measurement as a relative measure audio amplitude and phase difference. In this case, no corrections are required either in the microwave path or in the low frequencies. I il.

Description

ex & -1

The invention relates to measurements in antenna technology and can be used to adjust and remove the amplitude-phase characteristics of phased antenna arrays, for aperture synthesis of antenna systems, in radioholographic measurement complexes, and also for measuring the amplitude-phase characteristics of quadrupoles.

The purpose of the invention is to increase the accuracy of measurements of the phase difference and the relative change in the amplitude.

The drawing shows a structural scheme of arrangement.

The device consists of six phase switches 1-6, adder 7, quadratic detector 8, intermediate frequency amplifier 9, synchronous detector 10, signal level meter 11, generator 12 rectangular pulses, first frequency divider 13, frequency divider 14 by 4 with two values mi output phases, two pulse switches 15 and 16, two inverters 17 and 18 pulsed voltages, a second frequency divider 19, a third frequency divider 20, two fourth 21 and an additional 22 frequency dividers by 2.

Amplification meter contains two parallel branches, the first of which consists of series-connected first G, second 2 and fifth 5 phase switches, the second branch consists of series-connected third 3, fourth 4 and sixth 6 phase switches, as well as series-connected adder 7, quadratic the detector 8, the amplifier 9 intermediate frequency, the output of which is simultaneously connected to the signal input of the synchronous detector I O and the input of the level meter 11, while the output of the phase switch 5 is connected to the first input of the adder 7, and the output of the phase switch 6 is connected to the second input of the adder 7, as well as from the generator 12, the output of which is simultaneously connected to the inputs of the dividers 13 and 20 of the frequency, while the output of the divider 19 is simultaneously connected to the signal input of the first pulse switch 15 and with the input of the frequency divider 21 to 2, the output of the frequency divider 20 is simultaneously connected to the signal input of the second pulse key 16 and to the input of de0

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frequency 22 is 2, and the output of frequency divider 13 is simultaneously connected to the reference input of synchronous detector 10 and frequency divider 14 to two output phase values, the first output of which is connected to the distortion input of the first pulse switch 15, and the second input with the control input of the second pulse key 1-6, the output of the frequency divider 21 by 2 is connected to the modulating input of the first phase 1 mmutator I, the output of the frequency divider 22 by 2 is connected to the modulating input of the third phase switch 3, in addition one of the outputs of the first pulse key 15 is connected to the modulating input of the second phase commutator 2, and another output of the pulse key 15 is connected to the input of the first pulsed voltage inverter 17, the output of which is connected to the modulating input of the fourth phase switch 4, one of the outputs of the second pulse to Plug 16 is connected to the modulating input of the sixth phase switch 6, and another impulse of the pulse switch 16 is connected to the input of the second inverter 18 of the pulse voltage, the output of which is connected to the modulating input of the fifth phase switch. commutator 5.

Amplification meter works as follows.

A measured signal is supplied to the input of phase switch 1, which is modulated by phase switches 1,2 and 5 and fed to the first input of adder 7, a reference signal is fed to the input of phase switch 3, which is modulated by phase switches 3,4 and 6 and fed to second input adder 7.

The total signal thus modulated is detected by a quadratic detector 8, the output of which produces a low-frequency signal with a complex spectrum, from which an intermediate signal is used to extract the useful signal, which contains information about the amplitude of the measured signal and the phase difference between the reference signal and measured microwave signals. The useful signal thus obtained is fed to the input of the intermediate-level signal meter 11, at the output of which a signal is obtained.

proportional amplitude of the measured signal. The useful signal, together with the reference low-frequency signal received from the crystal oscillator 12 through divider 3, is fed to the inputs of the synchronous detector 10, the output of which is a signal proportional to the phase difference between the SBS signals.

The proposed amplification meter more than three-fold increases the measurement accuracy of both the relative amplitude change and the phase difference, and does not require any corrections in either the microwave or the low frequencies.

Claims (1)

Amplification meter containing two parallel branches, the inputs of which are the amplification meter inputs, the first of which consists of first and second phase switches connected in series, the second from the third and fourth phase switches switching on, a series-connected adder, quadratic detector, intermediate frequency amplifier The output of which is connected to the signal input of the synchronous detector, whose input is the second output of the amphase meter, and to the input of the meter The signal is equal to the output of which is the first output of the amplification meter, the first, second and third frequency dividers and the fourth and fifth frequency dividers by 2, a crystal oscillator whose output is connected to the inputs of the first, second and third frequency dividers, and the output of the first frequency divider via the fourth frequency divider by 2 is connected to the modulating input of the first phase switch, the output of the third 0 five 0 five 0 the frequency divider is connected via a fifth frequency divider by 2 to the modulating input of the third phase switch, and the output of the second frequency divider is connected to the reference input of the synchronous detector, characterized in that, in order to improve the accuracy of measurements of the phase difference and the relative amplitude change factor, Fifth and sixth phase switches, frequency divider by 4 with two output phase values, first and second pulse switches, first and second pulse voltage inverters, the output of the first splitter Part I is connected to the input of the first pulse key, one output of which is connected to the modulating input of the second phase switch, and the other output is connected to the modulating input of the fourth phase switch through the first pulse voltage inverter, one output of which is connected to the modulating input of the sixth phase switch, and the other output through the second inverter of the pulse voltage is connected to the modulating input of the fifth phase switch Pa, the output of the second frequency divider is connected to the divider input on 4 with two output phase values, the first output of which is connected to the control input of the first key, and the second to the control input of the second key, while the fifth phase switch is on, the second phase switch and the first input of the adder, and the sixth phase switch between the fourth phase switch and the second input of the adder.