SU1315906A1 - Rotational speed transducer - Google Patents

Abstract

The invention can be used for work in the system of setting the operation mode of power units. The purpose of the invention is to simplify the circuit, increase the reliability of the device. To do this, the normal operation mode is automatically maintained under the conditions of changing its initial parameters, which occurs under the influence of destabilizing factors, which are especially intensive under the operating conditions of hydroelectric power plants due to the introduction of two metering capacitors 12 and 13, key elements made up of diodes 14 and 15 and differential-subtractive element 20, for example, an operational amplifier that converts the potentials on the capacitors 17 and 19 into a signal proportional to their difference, taking into account its constant composition moiety which via isolator zshayuschy resistor 21 is supplied to the control input of the frequency detector 1 6. varicap yl. i (L e 00 ate about

Description

11315906

The invention relates to a measuring technique and can be used to work in the system of setting the operation mode of power units, in part

hydraulic units operating in particularly severe operating conditions.

The aim of the invention is to simplify

reliability

The drawing shows a block diagram of the Converter.

In the proposed converter, an oscillating circuit with a periodic sensor (e.g., capacitive) 1 connected to its system is connected to the input of the auto-oscillator 2, by which the change in the sensor parameter is converted into a change in the output signal frequency. The output signal of the auto-oscillator conversion 1 2 is normalized output of the buffer amplifier 3 (with a sufficient level of the output signal of the exciter 2, this amplifier is usually not required). The output of the buffer amplifier is connected to the input of the frequency detector 4, which contains an oscillating circuit composed of inductance 5 and varicap 6, which is a controllable element for adjusting the frequency response of frequency detector 4. The output of the frequency detector, which is the output bus of the device, is connected to the recording or measuring unit 7, in which, for example, a capacitor frequency meter can be used (in the simplest case); The discriminators of the signal frequency deviation outside its working area are implemented in the form of voltage comparators 8 and 9, the reference inputs of which from the reference sources 10 and 11 are supplied with potentials one of which is greater than the maximum amplitude value of the output signal of the frequency detector, and the other is less than its minimum value. The outputs of these comparators through the metering capacitors 12 and 13 and the key elements made up of diodes 14 and 15, as well as through the diode 16 and the storage capacitor 17, respectively, and through

the diode 18 and the storage capacitor 19 55 enters the nominal mode of operation connected to the differential-differential inputs (the first case). subtractive element 20 for example an operational amplifier that converts

potentials on capacitors 17 and 19

Thus, in this converter, the mode of normal operation is automatically maintained under conditions

five

five

0

into a signal proportional to their difference, taking into account its constant component, which through the coupling resistor 21 is fed to the control input of the varicap frequency detector 6.

During operation of the converter, three cases may occur.

In the first case, the transducer path sensor 1 - oscillator 2 - amplifier 3 - frequency detector 4 operates in nominal mode.

In this case, the amplitude value of the output voltage of the frequency detector 4 exceeds the voltage coming from source 10 to the reference input of the comparator 8, but less than the voltage coming from source 11 to the reference input of the comparator 9, by virtue of which the comparators do not change is. The output of the frequency detector, whose frequency is proportional to the rotational frequency, is sensed by the measuring unit 7.

In the second case, if the minimum level of the amplitude value of the output signal of the frequency detector as a result of detuning said converter path is reduced to less than the voltage of source 10, then the output of comparator 8 produces pulses that are transmitted through dosing capacitor 12 and diode 16 to remembering condensation - 5frop 17, by virtue of which the potential is on it

increases, and the output voltage of element 20 controlling the capacitance of varicap 6 decreases, as a result of which its capacitance increases, the average tuning frequency of frequency detector 4 decreases, and the converter goes into the nominal mode considered in the first case.

In the third case, with a mismatch

the converting path in the opposite direction, the process of setting the nominal mode occurs in the same way as the case under consideration, and the state of the comparative

9, the voltage at the output of element 20 moves, the capacitance of the varicap 6 decreases, and the tuning frequency of the frequency detector increases, causing the converter again

enters the nominal mode of operation (the first case).

Thus, in this converter, the mode of normal operation is automatically maintained under conditions

changes in its initial parameters, occurring under the influence of destabilizing factors, especially intensive under operating conditions of hydroelectric power plants due to the introduction of two metering capacitors, key elements and a differential subtractive element.

Claims (1)

Invention Formula A rotational frequency converter containing a periodic sensor connected to the shaft, included in an automatic generator, the output of which is connected to the output bus through a controlled frequency detector, and also connected to the inputs of two discriminators and an intermediate converter, characterized in that in order to simplify the circuit and increase the reliability of operation, the intermediate converter is made in the form of two metering capacitors, two key elements, two storage capacitors and a differential subtractive element, than discriminator outputs of each capacitor connected through a metering, a key element to the storage capacitor, the storage capacitor outputs connected to inputs differentsiapno vychitak tse--th element whose output is the output of the intermediate n transducers and connected to the control input of the frequency detector.