SU739438A1 - High frequency signal modulation calibrator - Google Patents

Description

The invention relates to a measurement technique, can be used to test modlometers, and also for reproducing signals / amplitude modulated in amplitude, frequency, or phase with a calibrated coefficient or modulation index with high accuracy.

A device is known for measuring the transition of amplitude modulation to frequency or phase in QL limiters using an amplitude-amplified signal source, the output of which is connected to two channels containing series-connected mixers with independent local oscillators, limiters and frequency detectors whose outputs are turned on. the inputs of the adder, and the frequencies of the independent local oscillators are separated by a double intermediate frequency ...

This device contains a source of amplitude-modulated oscillations based on non-linear elements and does not solve

the task of checking modulation level meters.

Considered / analogs do not allow separate adjustment of the amplitude and phase relations of the spectral components, which significantly limits their field of application.

Of the known calibrator circuits, the closest one to the proposed circuit is based on converting amplitude JO modulation into phase modulation, which contains a reference oscillator, from one of whose outputs unmodulated voltage with frequency UJ is fed through a voltage divider to the resistor

15 From another output of this generator, through the phase shifter, the voltage is applied to the sideband driver, which isolates the voltage of the side frequencies Uj. Modulating direction with frequency. is fed to the sideband shaper in antiphase, and the carrier frequency uj is in phase, as a result of which the oscillation with frequency w in the output voltage that forms the oscillator with frequency w is destroyed and only oscillations of the side frequencies remain. The amplitudes of the oscillations are proportional to the amplitude of the modulating voltage JJ For the payoff at the output of the oscillation adder, m0. duplicated in phase, the voltage of the carrier frequency is rotated in phase by 90f,

In this device, the lateral beds are formed using a non-linear

an item. Therefore, in the output signal spectrum, in addition to the lateral components, there are combinational transformation products. In addition, due to imperfectness, balanced and ring modulators have at their output an incompletely suppressed carrier, and a degree. the suppression depends on the parameters of the nonlinear elements used and in practice amounts to 30-5, 20 Thus, the carrier level at the output of the adder will have an installation error of 3-5%. Phase shift occurs

at high frequency and practically can be obtained installation error 25

phases on the order of i (3-5) Due to the use of modulated oscillations in modulating nonlinear elements, the resulting modulated oscillations have nonlinear distortions. For these reasons, the reproduction error of a modulated oscillation with a given coefficient or modulation index will be 1 (6-10)%, which is unacceptable in a number of cases.

The purpose of the invention is to increase the calibration accuracy, I.

The goal is achieved by the fact that, in a known circuit containing rm channels, each of which contains a phase shifter and a common oscillator common to the n channels, is connected via a frequency divider to the input of the adder, a second basic oscillator is entered, common to the K channels, and each a frequency multiplier, an adjustable oscillator, a phase mixer and another voltage divider were introduced. At the same time, the output of the second reference oscillator is through a multiplier connected to the phase shifter, the output of which is connected to one of the inputs of the phase detail, the other of which is connected to the mixer output, and the output of the phase detector is connected to the controllable input of a tunable generator, the output of which is connected to

to one of the inputs of the mixer, the other passage of which is connected to the reference generator 739438

rum, and the output of the adjustable generator through another voltage divider is connected to the output of the adder.

The drawing shows the structural electrical circuit of the proposed device,. .

The diagram shows P channels, the first channel containing a reference oscillator 1, which through voltage divider 2 is connected to adder 3, and the second reference oscillator 4 through sequentially connected frequency multiplier 5 and phase shifter 6 is connected to one of the phases of phase detector 7, the other input of which is connected to the vertical input of the mixer 9, and the output of the phase detector 7 is connected to a controlled V.KHODU adjustable oscillator 8, the output of which through the other voltage divider 10 is connected to the adder 3 as well as to one of the outputs L 9, whose other input is connected to reference oscillator 1.

The second channel, similarly to the first, contains serially connected frequency multiplier 11 and phase shifter 12. Frequency multiplier 11 is connected to reference oscillator 4, One phase D drive 13 selector 13 is connected to output of phase shifter 12, another input is connected to mixer output 15, and detector output is connected to controlled . To the input of the adjustable generator 14, the output of which is connected to one of the inputs of the mixer 15, as well as through the divider 16 is connected to the adder 3, and the other output of the mixer 15 is connected to the reference generator 1. Other channels s similar to those described above.

The operation of the circuit is based on the synthesis of amplitudes of the amplitude and phase spectra of amplitude-frequency and phase-modulated high-frequency signals. The principle of operation is based on the example of the operation of the calibrator in the reproduction of amplitude-modulated oscillations with a given modulation factor m. As follows from the analysis of the spectrum and the phase relation of amplitude-modulated oscillations in this case, there are carrier frequency and tUg frequencies and UJ and UiJo - Шц, where UJ - is the last signal of the modulating signal, and the initial phases of the side are respectively

Claims (2)

and (Ф - Р) where и and - are the initial phases of the laying and modulating syga & a, respectively. As a carrier voltage, the applied voltage is generated in which the amplitude-modulated oscillations are reproduced without repetition by the voltage divider. 2. Side frequencies are obtained by shifting the frequency by the value UJQj. W. Frequency offset is done by auto-; adjustments containing a phase detector / mixer, filter, generator being built. In this mode, U (j (.jj of the first adjustable generator 8 and S, for the second adjustable generator 14, Phase of the adjustable generator 8 and adjustable generator 14 are equal respectively to Rpp Rogg-op) (And% y) Voltage dividers 10 (16) installed At the output of the adjustable oscillator 8 (14), the amplitudes of the adjustable oscillators 8 and 14 are equal, which are equal to K. C aqo With u, p and 2H11, the estimated modulation coefficient has a value of P-2Qd. To create a complex amplitude modulation uses n channels functioning similar However, as follows from the theoretical representations of the spectra of frequency-modulated and phase-modulated signals, the amplitude relations between the side and the saturation vary with different modulation indexes, and the initial phase slopes of the side with respect to the carrier frequency have a narrowly defined value. establish with the help of the two-phase rotator 6 (12) on the corresponding channel the initial phases of the boil. relative to the carrier and the amplitudes are spectral x consisted constituents set Rabbi calculated value at the specified index modulation by appropriate d & litopey voltage (16), etc. Claims of the Invention Calibrator for modulating high-frequency signals containing g channels, each of which contains a phase shifter and a common for II channels reference oscillator connected through a voltage divider to the input of the adder, characterized in that, in order to increase accuracy, it will enter & a reference oscillator, common to p channels, and a frequency multiplier, a tunable oscillator, a phase detector, a mixer and another voltage divider are additionally introduced into each of the n channels, with the output of the second reference oscillator h A multiplier is connected to a phase shifter, the output of which is connected to one of the inputs of the phase detector, another input of which is connected to the mixer output, and the input of the phase detector is connected to a controllable input of the adjustable oscillator, the output of which is connected to one of the mixer inputs, the other input of which is connected to the reference generator, and the output of the adjustable generator through another voltage divider is connected to the input of the adder. Sources of information taken into account in the examination 1. The author's testimony of the USSR No. 208027, cl. G 01 R 29 / O6. 2, Gonorovsky And, S. Radiotechnical circuits and signals, Soviet Radio, M, 1967, p. 112-113 (prototype). 73Q43S