SU1661945A1 - Device for controlling inverter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in converter equipment. The purpose of the invention is to increase reliability by eliminating the inverter tipping over. When the load 5 is connected through the power switch 4 by the sensor 14 of the position of the power switch, a pulse is generated, the duration of which increases the frequency of the inverter 2. Increasing the frequency reduces the current surge when the load is switched on. 1 il.

Description

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The invention relates to electrical engineering and can be used in converter equipment.

The aim of the invention is to increase reliability by eliminating overturning when connecting loads.

The drawing shows a diagram of the device.

Inverter 2 is connected to the source of direct current 1, the output of which is connected to the distributors 3. Loads 5 are connected to the latter via power switches 4. - rators 8 are connected to an OR 9 element, the output of which is connected to the control input of the controlled master oscillator 10. The last output is connected to the pulse distributor 11 (by recalculation circuit). The outputs of the distributor 11 are connected to amplifiers of 12 pulses, the outputs of which are connected to the control inputs of the inverter. The outputs of the sensors 6 are connected to the power supply unit 13. In this case, the power supply unit 13, the formers 7, the one-shot 8 block contacts, and the element OR 9 form the sensor 14 of the position of the power switch 4,

The device works as follows.

A constant voltage source 1 an inverter (mainly a voltage inverter) converts it into an alternating voltage.

Source 1 is a filter battery or rectifier. From busbars 3, the alternating voltage is applied to loads 5 through power switches 4. In steady state, generator 10 operates at a constant frequency. The pulses generated by it enter the distributor 11, where they expand to durations equal to the conduction time of the gates (thyristors or their analogs) of the inverter. In addition, the distributor distributes the pulses in the desired sequence. As is known, the inverters have a finite switching capacity, i.e. when the current exceeds a certain value, the inverter is not able to switch it and overturns (emergency mode). Peaks (surge) currents occur in the case of connecting new loads, mostly inductive. Special hazards are transformers, including unloaded ones, which can saturate, which increases the surge of switching currents. When turning on any of the power switches 4 in the process of moving its contacts

Blocking contact 6 closes to the closing position predictively at 0.02-0.04 s The constructive execution of such block contacts can be different, for example, a reed switch with a magnet or a screen mounted on the case and moving parts of the power contacts. Many of the modern switches are equipped with an electromagnetic drive with a closing coil, which is triggered by a button. AT

Such a button, as a rule, does not use break contacts, i.e. they are free. As a block of contacts 6, it is advisable to use these contacts Upon closure (or opening, depending on

constructions) a block-contact b, the formers 7 form a pulse that triggers a one-shot 8 generator 9 briefly increases its frequency for a specified time. As a consequence, and the inverter 2 increases its frequency. Therefore, at the time of closing

power switches 4, the inverter 2 operates at an increased frequency, thereby reducing inrush currents,

Thus, the reason for the decrease in currents is an increase in the inductive resistance of transformers and lines when the frequency increases. After a specified period of time, a control signal is removed at the input of the generator 10. The generator 10 and inverter 2 switch to nominal frequency mode. A short-term increase in frequency when switching loads is almost imperceptible for consumers.

Claims (1)

Invention Formula A device for controlling an inverter connected via a power switch to a load, comprising a start-up unit connected by an output to an input of a controlled master oscillator, an output 0 which is connected to the input of the pulse distributor, the outputs of which through pulse amplifiers are designed to be connected to the control electrodes of the inverter valves, characterized by 5 in order to increase reliability, the start-up unit is designed as a position switch of a power switch.