SU1239812A1 - Low d.c.voltage-to-a.c.voltage converter with increased overload ability - Google Patents

Abstract

The invention relates to electrical engineering and is used as a power source in transportation equipment. The purpose of the invention is to increase the 1SD converter by providing pulsed overload modes. The converter contains a constant frequency generator 1 with three secondary HbiMJ-i windings, an inverter (I) 5, control -1 keys, an output trans (O f from 00 ffWfF T fFF and S

Description

12398

& formator, control unit (CU) 9. Introduction of a step-down bridge 2, a charging resistor 3, a storage capacitor (K) 4 and an overload inverter (PI) 7 increases the efficiency. When the converter is connected to the K 4 network, it is charged up to eg 5yeni, exceeding the network voltage. When the voltage on K 4 reaches a certain level, the CU 9 connects the corresponding generator outputs to PI 7 and creates the required

The invention relates to electrical engineering and can be used as a power source in transportation equipment.

The aim of the invention is to increase the QDC by providing pulsed overload modes.

The drawing shows the scheme of the proposed Converter.

The converter contains a generator of 1 constant frequency with three secondary windings, one of which is high-voltage through an extra bridge 2. and charged resistor 3 is connected to a storage capacitor 4. Inverter 5 is connected to one primary winding, output transformer 6, and overload inverter 7 is connected to its other winding. K. The secondary winding. A load is connected, for example, an asynchronous motor 8. Control unit 9 processes signals from current transformers 10 and 11.

The converter works as follows.

After supplying the mains voltage, the generator 1 of a constant frequency is turned on, the storage capacitor 4 starts charging across the circuit of terminal 2 and charging resistor 3 to a voltage exceeding the order of the mains voltage. Upon reaching the voltage of the capacitor of a certain level, the control unit 9 connects the generator outputs t, | , e to the corresponding keys of the overload inverter 7, which is powered by the voltage of the capacitor 4, co

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My voltage level for starting. engine (Chapter 5 (load). As the starting current decreases, the CU 9 disconnects the PI 7 and connects AND 5. At the same time, the AND 5, connected to the main voltage network, ensures the load to work without overloading the low-power network. After a certain time This means that for the time of the start-up the low-power source is disconnected from the load, 1 sludge.

It creates the required level of motor voltage for the start-up period when its current consumption increases dramatically. As the starting current decreases to a certain level, which is fixed through the current transformer 11, the control unit 9 turns off the inverter 7 and connects the generator voltage from points a, S, B to the corresponding points of inverter 5, connecting it to work. Inverter 5, connected to a low-voltage power supply network, provides load operation with currents below a certain level, which does not create an overload of a low-power power supply network. After some time, the voltage of the capacitor 4 will reach a certain level sufficient to allow the motor to restart.

Thus, at the start-up time, the low-power source is disconnected from the load, and the high current mode is provided by the storage capacitor 4, which increases the 1 DC. transformations

Formula of invention

Low-voltage DC to AC converter with increased overload capacity, contents of the inverter connected to the input terminals on controlled keys with an output transformer, the secondary circuit of which is connected to a load circuit, as well as a constant-frequency generator with the primary winding of the transformer at the output,

3

The secondary winding of which is connected through the control unit to the inverter switches, characterized in that, in order to increase the efficiency by providing pulsed overload modes, a high voltage resistor, a storage capacitor, two DC transformers and an identical overload transformer are introduced into it. an inverter, with the output transformer configured with an additional primary winding connected to the output of the specified overload inverter, and the transformer

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the generator is made with two additional secondary windings, one of which is connected to the keys of the overloading inverter through the control unit, and the other through the rectifier and the charging resistor is connected to the storage capacitor, which is connected to the input of the overloading inverter, while the control unit 10 is connected to the outputs of two DC transformers, the primary windings of which are connected to the DC circuits of these inverters.

Claims (1)

30 Converter low voltage DC to AC with increased overload capacity, containing connected to the input terminals of the inverter 35 keys with an output transformer, to the secondary winding of which a load circuit is connected, as well as a constant frequency generator with the primary winding of the transformer at the output, the secondary winding of which is connected through the control unit to the inverter keys, characterized in that, in order to increase the efficiency by providing pulse modes overload, a rectifier, a charging resistor, a storage capacitor, two DC transformers and an identical overload inverter are introduced into it, and the output transformer is made with additional primary winding connected to the output of the specified overload inverter, and the transformer 1239812 4 generators are made with two additional secondary windings, one of which is connected to the keys of the overload inverter through the control unit, and the other is connected to the storage capacitor through the rectifier and the charging resistor, which is connected to the input of the overload inverter, while the control unit 10 is connected to the outputs of two DC transformers, the primary e-coils of which are included in the DC circuits of these inverters.