SU1023624A2 - Device for control of bridge inverter with back current diodes - Google Patents

Abstract

DEVICE FOR CONTROLLING A MOSTOVMM INVERTER WITH REVERSE TICA DIODES on autor. I 744875, about aphid tea, with the fact that, in order to improve reliability, the commuting and sub-choke chokes are connected to the magnetowire and are switched on.

Description

ABOUT

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itii The invention relates to electrical engineering and can be used and autonomous voltage inverters. with a wide range of frequency and voltage control for AC electric power. According to the main auth. No. 744875, there is a device for controlling a bridge inverter with reverse current diodes, containing a three-phase bridge of switching thyristors of the main frequency, the common cathodes and common anodes of which are connected to the positive and negative poles of the main source, respectively, through a switching choke, to a single-phase bridge with additional thyristors with a switching capacitor in the diagonal, connected through a charging gland choke and a gate to a charging source, in which The valve is made to control the EMC, and its control unit contains on and off elements 1. A disadvantage of the known devices is the presence of overvoltages on the valve (thyristor cut-off) equal to almost three times the source voltage for charging. The purpose of the invention is to increase the operational efficiency of the device. The goal is achieved by the fact that in the device the commutating and recharging chokes are made of magnetoshells and are switched in opposite. The drawing shows a circuit diagram of the proposed device. The device contains primary-thyristors 1-6, reverse current diodes 7-12, commutating thyristors of the main frequency 13-18, commuting triacs of the triple frequency 19-20, commutating choke21, additional thyristors 22-25, commutating capacitor 26, choke podzar71da 27, cut-off thyristor 28, capacitor of the RC circuit 2, RC circuit resistor 30, control unit 31, load phases 32-34, main power supply 35, charge source 36, Main thyristors 1-6 are bridged by reverse current diodes 7-12 and assembled on a three-phase bridge circuit and connected with one hundred DCs to the main power source 35, and from the AC side to a three-phase bridge circuit consisting of switching thyristors of the fundamental frequency 13-18, the common cathode and common anodes of which are connected through triple-frequency cut-off thyristors 19-20 respectively to the positive and to the negative pole of the main source 35, and through the commutating choke 21 to the single-phase bridge circuit consisting of additional thyristors .22-25 with the commutating capacitor 26 in the diagonal, connected through a charge-type choke 27 and cut-off type hist recharging source 28k and 36. The operation is as follows. Suppose that at the initial time instant the main thyristors 1, 3, b and the capacitor 26 are charged with the fullness indicated in the drawing are included. The voltage of the charging source 36 is generally chosen to be equal to the nominal voltage of the main power supply 35. At the moment when the switching of the thyristor 1 begins, control pulses are applied to the thyristors 17, 20, 23, 24, which switch on and begin to recharge the switching capacitor 26. At the same time, the capacitor 29 of the RC chain shunting the thyristor shut-off device 28 is charged. Since the capacitance of the capacitor 29 RC chains is usually two orders of magnitude smaller than the capacity of the switching capacitor 26, the capacitor 26 charge charging process and for the time during which the voltage on the switching capacitor changes little. In the absence of a magnetic connection, by the end of the charge of the capacitor 29, the voltage on the charge inductor will almost reach the voltage of the charge source 36, and its polarity will agree with polarity of the switching capacitor 26 and the source of the charge 36, which will lead to the appearance of voltage, b (Since the charge of the capacitor usually lasts a few microseconds, the dynamic parameter dО on the thyristor 28 may exceed the allowable value and e Spontaneous switching on the anode, which will cause an accident in the inverter. Apply magnetic & The connection between the switching choke 21 and the charging choke 27 eliminates this disadvantage. At the moment of the commencement of the switching, the voltage on the switching choke 21 is opposite in sign to the voltage on the switching capacitor 26. When the windings of the chokes 21, 27 are opposite and the magnetic connection is 1: 1 An emf direct voltage across the thyristor cut-off 28 is equal to UagrUni-Uife-OaT In this way, the introduction of magnetic coupling eliminates the overvoltage of the thyristor, reduces 10236 24 is a dynamic parameter and in general, gains the reliability of the inverter.

Claims (1)

(54? (57? DEVICE FOR CONTROL OF A BRIDGE INVERTER WITH REVERSE DIODES BY AUT. SV ”744875,, which means that, in order to increase reliability, the commutating and recharging chokes are made magnetically coupled and turned on in the opposite direction .