SU970621A1 - Device for regulating synchronous generator voltage - Google Patents

Description

The device relates to electrical engineering and can be used in devices for automatically regulating the voltage of synchronous generators, mainly operating at a load, which sharply distorts the shape of the voltage curve.

Devices are known for adjusting the voltage of synchronous generators, containing a rectifier, to the output of which a capacitor, comparator and amplifier 1 are connected.

The disadvantage of such devices is low speed.

The closest to the proposed technical entity is a device for controlling a synchronous generator, containing a measuring unit, an integrator with a forced setting initial conditions unit, an auxiliary switching unit connected to the control input of a key element, a locking unit and a frequency correction unit. 2.

When a synchronous generator operates on a nonlinear load, for example, a thyristor converter with deep regulation, the voltage regulation accuracy when using this device decreases. The distortion of the shape of the measured curve. The stresses affect the magnitude of the interference signal. With significant distortions of the shape of the measured voltage curve, the circuit turns out to be practically inoperable without the adoption of special measures (for example, filtration of the measured voltage), which in its

10 turn, reduces the speed of the device.

The purpose of the invention. - an increase in the accuracy of revealing the average value of the voltage of the three phases when changing

15 coefficient of fortla. Within wide limits.

The goal is achieved by the fact that a device for regulating the voltage of a synchronous generator

20 is equipped with a resistor, the integrato.p input is connected via a resistor to the output of the measuring element and the output of the frequency correction unit, with one output of the auxiliary unit

25, the switching is connected to the input of the frequency-correction unit, and the second output is connected to the forced setting unit of the initial conditions.

Claims (2)

In order to increase the noise immunity, the frequency correction unit is made in the form of a series of connected sawtooth voltage generator, comparator, amplifier and controlled current source. The drawing shows the main elements of a block diagram of a device for regulating the voltage of a synchronous generator. The device contains a measuring unit, made in the form of a three-phase full-wave rectifier -1, and a tegrator 2, unit 3 will force the initial conditions to integrate the NIN, controlled key element 4, the storage unit, made in the form of a forming link of zero order 5, unit b switching unit 7 frequency correction ,. consisting of a sawtooth generator 8, a comparator 9, an amplifier 10 and a controlled current source 11 and a resistor 12,. A voltage proportional to the linear three-phase voltage of the synchronous generator is supplied to the input of the three-phase two-wavelength rectifier 1. The signal from the output of the rectifier 1 through the resistor .12 is fed to the input of the integrator 2. The magnitude of the resistor 12 and the parameters of the integrator 2 determine the constant of the integration time. Each period of the voltage being measured at a given point in time (which is measured from one of the linear voltages of the three-phase system, unit 3 forcibly setting the initial conditions returns the integrator 2 to the level of the initial conditions of integration. The signal at the output of the integrator 2 is proportional to the average value of the voltage of the three phases of the synchronous generator. The controlled key element 4. briefly, each period of the measured voltage is opened at the moment of time preceding the moment of return of the integrator 2 to the level of the initial integration conditions, while the storage unit 5 receives information about the voltage at the output of the integrator 2. The auxiliary switching unit B controls the forced setting unit 3 initial conditions, integration, key element 4 and frequency correction block 7. The output of the frequency-correction block is made in the form of a controlled source of AND current and is connected directly to the input of the integrator. The switching on and off times of the current source 11 vary in proportion to the change in the period of the measured voltage. Thus, the average value for the period of the current, which changes frequency correction from the unit 7 to the input of the integrator 2. The generator 8 sawtooth voltage each period changes. It comes from auxiliary switching unit b. The comparator 9 converts a continuous signal from the generator 8 of the sawtooth voltage into a discrete signal, which through the amplifier 10 enters the input of the controlled current source 11. The device provides high accuracy of voltage regulation of the synchronous generator when operating at a load. Significantly (more than 20%) distorting the shape of the voltage curve, high noise immunity (without taking special measures) while maintaining high speed. Claim 1. A device for adjusting the voltage of a synchronous generator, comprising a measuring unit, an integrator with a forced initialization unit, an auxiliary switching unit connected to the control input of a key element, a storage unit and a frequency correction unit, characterized in that In order to improve the accuracy of detecting the average value of the voltage of the three phases when changing the shape factor over a wide range, it is equipped with a resistor, the integrator input is connected through a resistor to the output of the measuring element and the output of the frequency correction unit; in this case, one output of the auxiliary switching unit is connected to the input of the frequency correction unit ;, and the second output is connected to the forced setting of initial conditions. 2. The device according to claim 1, which is so that in order to increase the noise immunity, the frequency correction unit is designed as a series-connected generator of a sawtooth voltage of the comparator, amplifier and controlled current source. Sources of information taken into account during the examination 1. Yu.I. Maksimov. and others. Operating; qi shipboard synchronous generators. M., Transport, 1976, p. 130. 2. Automatic regulation and control in power systems.-Trudy, vol. 83, M., Energie, 1977, p. 3-13.