SU1069100A1 - Inverter - Google Patents

Abstract

An INVERTER containing power controlled and non-return bridges connected to the input terminals, the AC outputs of which are connected to the output terminals. as well as two controllable communication valves, between which a switching node is connected, connected through distribution valves to power valves and made in series of a fully controlled call and a capacitor connected to a charge source, as well as a choke, characterized in that , in order to increase reliability by limiting the rate of current rise and voltage while reducing the power of the charge source, a diode was inserted into it, and the choke was made double-winding, the primary winding It is connected between the input terminal and the point of connection of veins (A tiley bridges and communication, and the secondary winding is connected via a diode to the capacitor.

Description

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2f The invention relates to a conversion technique and can be used, in particular, in inverters, frequency converters, DC voltage converters. A voltage inverter containing a power thyristor bridge, a reverse bridge, a switching node and chokes with a secondary winding ij are known. The disadvantage of the inverter lies in significant overvoltages on the elements, which is a consequence of the limited transformation ratio between the working and additional windings. This is especially noticeable in high power inverters, in which the transformation ratio does not exceed 2-3. A known inverter comprising a power thyristor bridge, a reverse bridge, a communication thyristor and a switching node, made in the form of a series-connected bias source and two fully controlled gates 2. The closest to the invention in its technical essence and achievable effect is an inverter containing power-operated control valves, process diodes, control auxiliary valves and communications, and a switching unit made in the form of serially connected fully controlled switch and capacitor, in parallel to which the charge source is turned on, as well as the choke.} The disadvantages of the inverter are the high rate of increase in the current of controlled valves in emergency conditions, which leads to a decrease in the reliability of the inverter. This is especially noticeable with a high voltage at the input of the inverter, which limits its power. Relatively high power of the source is yes. The purpose of the invention is to increase reliability by limiting the rate of current build-up and voltage, while reducing the power of the charge source. This goal is achieved by the fact that in an inverter containing bridges of power controlled and reverse valves connected to the input pins, AC outputs of which are connected to the output pins, as well as two controlled communication gates between which the switching node is connected, connected via distribution valves to power valves and made in the form of a fully-controlled switch connected in series and a capacitor connected to a charging source, as well as a choke, entered a diode, and the choke is made of two. accurate, primary, winding of which is connected between the input terminal and a point between the bridge and the valve connection, and the secondary winding is connected via a diode to the capacitor. FIG. Figure 1 shows an inverter circuit) in Figures 2 and 3 — options for using said connection of throttles. The inverter (I), 1) contains power controlled valves-1-6, check valves diodes J 7-1, control valves 13 and 14, distribution control valves 15-20, chokes 21-23 in the AC circuit, node switching, made in the form of a serially connected fully controlled switch 24 or its analogue and switching capacitor 25, the voltage polarity is indicated in parallel to which the charge source 26 is switched on, as well as the choke 27 with the secondary winding connected through the diode 28 to the capacitor, the load 29. In the switching node m Jet be switched inductor 30. The inverter operates sleduyuidam manner. The load current 29 flows, for example, through the power controlled valves 1, 4 and 5, the fully controlled switch 24 is locked, the capacitor 25 is charged from the charging source 26. For locking the power controlled valve 1, the fully controlled valves 13 and 15 are opened. Control voltage of the switching capacitor 25 is applied to the controlled valve 1, and load current 29 flows through the choke circuit 27 - valve 13 switch 24 - choke 30 - capacitor 25 - valve 15 - throttle 21; load 29 - throttle 22. - valve 4. After restoring the locking properties of the valve 1, the fully controlled key 24 is locked, the valves 13 and 15 are turned off. The phase current is closed through diode 7. Energy stored in choke 27, through the secondary winding and diode 28 is given to capacitor 25. It charges up. The power of source 26 is reduced. When the transformation ratio between the primary and secondary windings of droplets 27 is equal to one, the overvoltage on the elements of the inverter is equal to the voltage on the switching capacitor 25. The voltage of the recharge source 26 is selected so that each lockable power valve has 20-40 V. Thus, the switching process proceeds practically in the absence of overvoltages.

Claims (1)

INVERTER, which contains bridges of power controlled and non-return valves connected to input terminals, AC terminals of which are connected to output terminals, as well as two controlled communication valves, between which a switching unit is connected, connected through power distribution valves to power valves and made in the form of fully connected in series a controlled key and a capacitor connected to a charge source, as well as a throttle, characterized in that, in order to increase reliability by limiting the growth rate current and voltage while reducing the power of the recharge source, a diode is introduced into it, and the inductor is double-wound, the primary winding of which is connected between the input terminal and the connection point of the bridge and communication valves, and the secondary winding through the diode is connected to the capacitor. fig 1