SU531113A1 - Device for testing parameters of parasitic amplitude modulation parameters - Google Patents

Description

The invention relates to instrumentation, namely, to the direction of metrology, specialized in the field of magnetic recording.

A device is known for calibrating amplitude modulation parameters meters including an exemplary modulator, a standard signal generator, an electronic voltmeter, a frequency meter, a frequency response meter, filters, a source of constant and permafrost voltages, an attenuator, an oscilloscope, a spectrum analyzer, a measuring receiver, a detector and a nonlinear meter distortion 1,

However, the limited accuracy included in the composition of a known device of an exemplary modulator - about tenths of a percent - affects the accuracy of verification.

It is also known a device for calibrating amplitude modulation parameters meters, comprising a master oscillator 2,

When using this device, it is not the basic metrological characteristics of the turned-on device that are checked, but

Some characteristics of its constituent elements, which definitely do not determine the metrological state of the rotating device.

The purpose of the invention is to increase the reliability of verification by achieving a voltage divider, serially connected frequency dividers and a control device, a switch and a summing amplifier, the inputs of frequency dividers and voltage connected to the output of the master oscillator, the output of the voltage divider connected to the inputs of the switch, the control inputs of which are connected to the outputs of the control device, and the outputs to the inputs of the summing amplifier.

The drawing shows a phased device circuit diagram.

The device comprises a master oscillator 1, a voltage divider 2, a frequency divider 3, a control device 4, a switch 5 including channels, for example, 6-8, and an adder 9.

The device works as follows

The master oscillator 1 generates a signal whose parameters (frequency, shape amplitude) correspond to the parameters of the carrier signal necessary for calibrating the parasitic amplitude modulation parameters meters. Signal from generator 1 Supplied to voltage divider 2 and frequency divider 3.

The number of outputs of voltage divider 2 is chosen as the smallest possible value, ensuring the undistorted transmission of the envelope of the output measurement signal when it is time-sampled (in accordance with Kotelnikov's theorem). The division ratio of the divider 2 voltage at each output is set, so that a number of consecutive discrete values of the envelope of the measuring signal can be obtained with its undistorted transmission. The division factor of frequency divider 3 is chosen so that, on the basis of the generator signal, to obtain the required time interval (s) for sampling the carrier signal. The signal from the divider 3 is fed to the control device 4, which provides for receiving serial signals controlling the switch 5,

The signal inputs of channels 6-8 receive signals from the corresponding outputs of voltage divider 2, Channels 6-8 are successively switched on by signals from control device 4, and their output signals are fed to adder 9. As a result, the output of the adder is a signal, for example whose measurement is measured at time intervals determined by the frequency of the signal from generator 1 and the division factor of frequency divider 3, the accuracy of the amplitude modulation parameters of the received signal depends on the division factors of voltage divider 2 and the number of its outputs, In principle, it can be arbitrarily high.

At the same time, carrier and envelope signals of complex shape can be obtained, from the harmonic waveform personal from the waveform, which makes it possible to simulate real processes of spurious amplitude modulation of the signal. This increases the accuracy of the calibration process of the parasitic amplitude modulation parameters.

Claims (1)

Invention Formula A device for calibrating parameters of parasitic amplitude modulation parameters, containing a master oscillator, is characterized in that, in order to increase the reliability of the test, Erik, a voltage divider, a series-connected frequency divider and a control device, a switch and a summation are introduced into it. this amplifier, and the inputs of the dividers the frequencies and voltages are connected to the output of the master oscillator, the outputs of the voltage divider are connected to the inputs of the switch, the control inputs of which are connected to the outputs of the control device, and the outputs to the inputs of the summing amplifier. Sources of information taken into account in the examination: 1, GOST 13О24-67, Amplitude modulation coefficient meters. Methods and means of verification, pp. 2-8, 2, GOST 13024-67, p. 42-43,