SU1626409A2 - Device for measuring radio receiver nonlinearity distortions - Google Patents

Abstract

The device relates to telecommunications. The purpose of the invention is to improve the measurement accuracy by taking into account the intermodulation interference. The device contains a frequency multiplier 1, generators 2 and 3, keys 4-7, band-pass filters 8 and 9, modulators 10-14, adders 15 and 16, high-frequency filter 17, high-frequency amplifier 18, spectrum analyzer 19 and voltmeter 20. The drawing also shows the measured radio receiver 21. The total signal containing the measuring signal and intermodulation interference components generated by the multiplier 1 and the modulator 14, through the adder 16 is fed to the input of the measured radio receiver 21, the output of which is fed to the spectrum analyzer 19 and the voltmeter 20. 1 Il.

Description

The invention relates to telecommunications, can be used in various communication systems for measuring non-linear distortions in modern mobile and stationary automated radio receivers — and this is an improvement of the invention according to author's certificate No. 1332545.

The purpose of the invention is to increase the accuracy of measurements by taking into account the effects of intermodulation memory.

The drawing shows a structural electrical diagram of a device for measuring non-linear distortion in radio receivers. The device contains a frequency multiplier 1, generators 2 and 3, keys 4-7, bandpass filters 8 and 9, modulators 10-14, adders 15 and 16, high-pass filter 17, high-frequency amplifier 18, spectrum analyzer 19 and voltmeter 20. The drawing also shows the measured radio 21, amplifiers 22 and 23.

The device operates as follows.

The control signal from the generator 2 through the key 4 is fed to one of the inputs of the adder 15, on. the other input of which is supplied with a control signal from the generator 3. From the output of the adder 15, the signals are transmitted to a modulator 10, the other input of which is supplied with a frequency from the third local oscillator of the measured radio receiver 21. Due to this, both control signals are transferred to the higher frequency region. The signal thus formed through the key 5 is fed to a band-pass filter 8, in which the lower side band is suppressed, or to a band-pass filter 9, in which the upper side band is suppressed. After that, the signal is supplied to the modulator 11, to the other input of which the frequency from the second local oscillator of the measured radio 21 is received. Due to this, the control signals are transferred to a higher frequency range. In the high-pass filter 17, the lower sideband is suppressed. Then, the signal through the key 6 is fed to a modulator 13, to the other input of which the frequency is supplied from the first local oscillator of the measured radio 21. The signals transferred to an even higher frequency range are amplified in the high-frequency amplifier 18 and fed through the adder 16 to the input of the receiving high-frequency channel of the measured radio 21 , the spectrum of the signal is evaluated by the spectrum analyzer 19 and the voltmeter 20. The amplitude modulator 12 is connected using a key 4 to measure distortion type Cross modulation. The signal from the generator 2 through the key 4 is fed to the input of the first modulator 12 and provides amplitude modulation of the test high-frequency harmonic signal generated depending on the key 5 of the bandpass filter 8 or 9.

Frequency multiplier 1 is connected using key 7 to measure distortions that take into account the effect of intermodulation interference caused by signals with frequencies fj and f, with f ₄ -fj = ^ 5 ”where f 5 is the receiver tuning frequency. Frequency multiplier 1 (η times) is designed to form the frequency f | = ^{= +} + fα. · η, whence = fg (1 + n). Modulator 14 is designed to generate a frequency f ^ f ^ -fg. The frequencies f <and fg_ together with the signal fg are fed to the input of the adder 16. The total signal containing the measuring signal with a frequency f _s and the components of the intermodulation interference formed by the frequencies f <and fg are fed to the input of the measured radio receiver 21.

Claims (1)

SUMMARY OF THE INVENTION A device for measuring nonlinear distortion in radios according to ed. St. W 1332545, characterized in that, in order to increase the measurement accuracy by taking into account the effects of intermodulation interference, the output of the high-frequency amplifier is connected to the input of the second adder, the output of which is the input of the measured radio receiver, an additional fourth key, a frequency multiplier, and a fifth modulator are additionally introduced, the output of which is connected to the second input of the second adder, the third input of which is connected to the output of the frequency multiplier, and the input of the fourth key is connected to the output of the fourth modulator, and the output of the fourth key is connected to another input of the fifth modulator.