SU1661963A1 - Device for automatic controlling self-contained electric power installation - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to devices for automatically controlling the voltage of generators driven by internal combustion engines as part of autonomous electric power installations. The aim of the invention is to increase the reliability of an autonomous electric power installation by improving the dynamic accuracy of the current limiting. The device contains an internal combustion engine 1, a two-stage synchronous generator 2, which is driven by an engine, a sensor 3 for the core windings, a sensor 4 for the core windings, the output of which is connected to the subtractive input of the voltage regulator 9, the output of which is connected to the subtractive input of a nonlinear element and the output of the proportional element 10, the input of which is connected to the output of the current sensor 3. The output of the non-linear element is connected to the summing input of current regulator 6 and the output of current sensor 3. To the subtractive input of current regulator 6 is connected the output of exciter excitation current sensor 7, the excitation winding 5 of which is connected to the output of current regulator 6. This technical solution assumes a switching structure, and the system always remains dual-circuit. In all modes of operation of the system, the internal control loop is the excitation current loop of the exciter with a relay controller. The external circuit in the voltage stabilization mode is the voltage control loop, and in the current-limiting mode - the load current control loop. In this case, an increase in the speed of the current control loop is achieved, and consequently, the current-limiting accuracy is improved. 4 il.

Description

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Claims (1)

Claim A device for automatically controlling an autonomous electric power plant with a drive motor and a two-stage synchronous generator, comprising a current sensor for the armature windings of the generator, a voltage sensor for the armature windings, a sensor for exciting the exciter, a relay for regulating the excitation current and a voltage regulator with a subtracting input, the subtracting input of which is connected to the output of the sensor voltage of the armature windings, the excitation winding of the pathogen through the excitation current sensor of the pathogen is connected to the output the relay regulator of the exciter current, the subtracting input of which is connected to the exciter current sensor, characterized in that. in order to increase the reliability of the electric power plant by increasing the dynamic accuracy of current limitation, it is equipped with a non-linear element and a proportional link made with a transmission coefficient inversely proportional to the transmission coefficient of the non-linear element in the linear section of its characteristic, and the output of the generator armature current sensor is connected to the input of the proportional link 7 on and subtracting the input of burdock regulator of the excitation current of the pathogen, the summing input of which is connected to a nonlinear element, the summing inputs of which are connected to the output of the voltage regulator with restriction and to the output of the proportional link.