SU985753A1 - Device for measuring directional pattern - Google Patents

Description

This invention relates to a measurement technique.

A device for measuring a directional diagram of an antenna is known, comprising a rotary mechanism for accommodating the antenna under study, a frequency-modulated microwave generator, an auxiliary antenna and a two-channel superheterodyne receiver G 1 J.

However, the known device does not have selective properties with respect to spurious signals due to reflections from surrounding objects, which reduces the accuracy of measuring antenna patterns.

The purpose of the invention is to improve the measurement accuracy by reducing the interfering influence of spurious signals due to the re-reflections of the signal-frequency-modulated microwave generator from surrounding objects.

Claims (2)

This aim is achieved in that the device for measuring the antenna pattern, chastototno-modulated by a microwave generator connected to the investigated antenna via inputted directional coupler, a first input of a two-channel superheterodyne receiver connected to the second output of directional coupler, and between the second input of the two-channel superheterodyne receiver and the output of the auxiliary the antenna has a controllable delay line enabled, with the outputs of a dual-channel super5 heterodyne the intermediate frequency receiver is connected to the inputs of the inputted synchronous detector, moreover, between one output of the two-channel superheterodyne receiver and the corresponding input of the synchronous detector, a controlled phase shifter is connected, and the output of the synchronous detector is connected to a narrow-band low-frequency amplifier, the output of which is connected in parallel with the meters. amplitudes and phases wherein the controlled input of the controlled phase shifter and the second input of the phase meter are connected to the output of the input reference generator signal. The drawing shows the structural scheme of the proposed device for changing the antenna radiation pattern. The device contains a frequency-modulated ultra-high frequency generator 1, antenna 2 under study, directional coupler 3, auxiliary antenna k, controllable delay line 5, two-channel superheterodyne receiver 6, synchronous detector 7, controllable phase shifter 8, narrow-band low-frequency amplifier 9, 10 amplitude meter, meter 11 phases and 12 reference signal generator. The device works as follows. From the output of the frequency-modulated microwave 9 generator 1 to the antenna 2 and the first input of the two-channel superheterodyne receiver 6 enters the frequency-modulated signal. The signal emitted by the investigated antenna 2 is received by the auxiliary antenna k and through the controllable delay line 5 arrives at the second input of the two-channel superheterodyne receiver 6 From both outputs of the two-channel superheterodyne receiver 6, the signals at the intermediate frequency arrive at a synchronous detector 7, and the signal from one of the two-channel channels the superheterodyne receiver 6 acquires an additional frequency shift by Q, the passage through the controlled phase shifter 8, controlled by the generator 12 of the reference signal. In case of equal electric lengths, which is established using a controllable delay line 5, both channels of the proposed device, the output of the synchronous detector 7 is allocated a useful low-frequency signal with frequency f, whose amplitude is proportional to the signal emitted by the antenna under study 2 in the direction of the auxiliary antenna t, and the phase corresponds to the phase response of the antenna under study 2. For parasitic signals, the condition of equality of the electrical lengths of the first and second channels of the device proposed is not fulfilled and the interfering signals at the output of the synchronous detector 7 will have a frequency different from Q. After amplification and filtering by frequency in a low-band 9 low-frequency amplifier, the output signal is at a frequency and is fed to a 10-amplitude meter and a phase meter 11, the reference signal of which comes from the output of the generator 12 of the reference signal. The proposed device allows for selection of a useful signal against the background of interfering signals caused by reflections from surrounding objects and provides measurement of the antenna pattern with increased accuracy. An apparatus for measuring the antenna radiation pattern, comprising a rotary mechanism for accommodating an antenna under study, a frequency-modulated microwave generator, an auxiliary antenna, a two-channel superheterodyne receiver, characterized in that, in order to improve accuracy by reducing the interfering interference of parasitic signals due to re-echoes the signal of a frequency-modulated microwave generator from surrounding objects, often. fully-modulated superv sokochastotny generator is connected to; investigated antenna through entered directional coupler, a first input of a two-channel superheterodyne receiver connected to the second output of directional coupler, and between the second input of the two-channel superheterodyne receiver and the output of the auxiliary antenna included managed by the delay line, wherein the Exit two-channel superheterodyne receiver for intermediate frequency are connected to inputs entered synchronous detector, between one output of a two-channel superheterodyne receiver and the corresponding the synchronous detector input switched on a controlled phase shifter. and to the output of the synchronous detector a narrow-band low-frequency amplifier is connected, to the output of which parallel meters are connected, amplitudes and phases, while the control input of the controlled phase shifter and the second input of the phase meter connected to the output of the input reference signal generator. Sources of information taken into account during the examination 1. A. Miklashevska. Automatic meters in the microwave range. N., Sw., 1972, p. | B7 (prototype). R I / rff P