SU451960A1 - Automatic analogue frequency meter - Google Patents

Description

one

The invention relates to the field of electrical measuring equipment.

Devices for controlling and adjusting technological parameters that are automatic recording and indicating devices with contactless compensating adapters are known. However, such devices have a limited & application area.

The purpose of the invention is to expand the functional capabilities of the device, i.e., to create a device based on the main nodes of the AC serial bridges, with which it would be possible to measure the frequency of electrical oscillations in a wide range of frequencies with significant changes in the level of the monitored signal phases and forms.

This is achieved by the fact that the measuring circuit of the proposed frequency meter is made in the form of a series-connected input shaping device, a square pulse shaper and a switching device, to the input of which; Rogo is connected to additional winding,

located on the common with the excitation winding of the magnetic actuator of the compensating element.

The drawing shows a diagram of the frequency meter.

The analog frequency meter contains a measuring circuit including an input shaping device 1, a shaper 2 of rectangular pulses and a switching device 3, a rudder-indicator amplifier 4, a capacitor 5 of the compensating element, a reversing motor 6 and a compensating element 7 of the HIPA TRANSI. The power of the input forming device and the right angle pulse shaper is supplied from a separate stabilized power supply 8.

Frequency meter works as follows.

The input signal of arbitrary shape, the frequency of which is to be intended, is given to the input shaping device in 1, which converts it into a sequence of short pulses with a frequency sl & equal to the frequency of the input signal, and an amplitude sufficient to reliably start a rectangular pulse shaper of stable duration. The pulses formed in the former 2 control the operation of the switching device 3, to the input of which a sinusoidal voltage is applied, taken from the relative winding b) of the magnetic circuit of the compensating element 7.

Thus, at the output of the switching device, a sequence of square-wave amplitude-modulated sinusoidal pulses is obtained, the average value of which is a sinusoid, with a frequency and phase determined by the magnetic flux of the magnetic circuit of the compensating element, and an amplitude proportional to the frequency of the input signal The specified voltage is compared with the voltage removed from the triangular winding 11 of the compensating element 7, and the voltage difference is amplified by the amplifier and reversed engine.

The motor moves the movable magnetic conductor of the compensating element 7 until the voltage at the input of the amplifier-zero-indicator 4 almost vanishes. In this case, the position of the pointer, which is rigidly connected to the capacitor of the compensating element 5, on the instrument linear pickup is uniquely determined by the value of the input signal frequency. Since the voltage applied to the switching device is. d. the triangularly distributed winding of the compensating element is created by the same magnetic flux; the need for a device matching the phases of the indicated voltages is eliminated. For normal operation of the frequency meter, the minimum frequency of the input signal should be slightly higher than the carrier frequency of the tract.

null indicator, reversing motor, compensating element. The electromotive force required to compensate for the voltage corresponding to the initial winding of the device is removed from the additional winding

, a conduit of a compensating element connected in series with a triangular distributed winding:.

Subject invention

Automatic analog frequency counter containing measuring circuit, amplifier-zero-indicator, reversible motor

A compensating element with a triangular distributed winding, characterized in that, in order to expand its functionality, the measuring circuit is made in the form of successively connected input shaping device, a square pulse former and a switching device, to the input of which an additional winding is connected, is located on a common with the excitation winding of the magnetic core of the compensating element.