SU1339839A1 - Transistor inverter - Google Patents

Abstract

The invention relates to electrical engineering, in particular to converter equipment, and can be used in the development of secondary power sources. The aim of the invention is to increase the reliability of a transistor inverter by interrupting the control signal during overloads and short circuits in the power consumer circuit. When switched on, the sourcing generator 4 starts to work on a short-circuited load, on the windings of the transformer of which alternating rectangular voltages are formed. As a result, the voltage from the output of the additional power supply 17 is applied to the diode 12, which is locked. The magnitude of the current flowing through the thyristor 14 is reduced, and it is also locked. The master oscillator 4 is automatically switched off, disconnected from the power source 1, which ensures the reliability of the inverter. 2 Il. (L 00 with her 00 00 her

Description

The invention relates to electrical power engineering, in particular to the field of electrical energy conversion, can be used in the development of secondary power sources and is an improvement of the device according to the author. St. No. 473267.

The aim of the invention is to increase the reliability of a transistor inverter by interrupting the control signal during overloads and short circuits in the power consumer circuit.

FIG. 1 shows a transistor inverter circuit; in fig. 2 - scheme (option) of an additional power source.

Transistor inverter contains power supply 1, resistor 2, switching transistor 3, generator 4, resistor 5, master transformer with 6.1-6.7 windings, key power amplifier 7, key power amplifier transformer with 8.1-8.9 windings, rectifiers 9 and 10 , load 11, diode 12, zener diode 13, thyristor 14, additional resistor 15, switching node 16 and additional power source 17.

The thyristor anode 14 is connected to the junction of resistor 5 and zener diode 13. The thyristor cathode 14 is connected to the midpoint of the transformer of master oscillator 4 through diode 12. The control electrode of thyristor 14 is connected via series-connected resistor 15 and switching node 16 to the negative terminal of power supply 1.

An additional power supply 17 can be implemented, for example, in the form of two oppositely connected windings 6.8 and 8.10 of the transformer of the master oscillator 4 and the power amplifier 7, respectively, one output of which is connected to the first capacitor 18 lead and the negative power lead of the master oscillator 4, and the other through a diode 19 and a resistor 20 with a second lead of a capacitor 18 and an anode of a dynistor 21, the cathode connected to the positive lead of the master oscillator 4.

Transistor inverter operates as follows.

When connected to a single-phase AC network and simultaneously giving a signal to turn on the switching node 16, a voltage appears at the output of the power supply 1. Through the resistor 2 into the base of the switching transistor 3, and through the resistor 15 - to the control electrode of the thyristor 14 receives a unlocking signal. The signal leads to their transition to the open state and, as a result, to connecting the master oscillator 4 through a resistor 5 to the source 1 of the power supply.

On the windings of the transformer of the master oscillator containing a stabilizing LC circuit, variable direct currents are formed.

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coal pulses, and unlocking current pulses begin to flow into the transistor bases of the key power amplifier 7. As a result, variable rectangular voltages are also generated on the transformer windings. At the same time from the winding 8.2 through the rectifier 9 at the base of the transistor 3 receives a locking signal. The transistor 3 goes into the cutoff region. This leads to the disconnection of the master oscillator from the source 1 and the cessation of current flow through the resistor 5, which causes the thyristor 14 to be locked and provides power to the master oscillator 4 from the winding 8.3 of the transformer through the rectifier 10. The additional power source 17 does not affect the operation of the device. In it, the voltage on the counter-connected windings 6.8 and 8.9 through the diode 19 and the resistor 20 leads to the charge of the capacitor 18. The parameters of this circuit are selected taking into account the device operation algorithm (the occurrence of voltage first - on winding 6.8, and then - on winding 8.9) so that the voltage on the capacitor 18 does not exceed the value of the unlock voltage of the dynistor 21. With the corresponding parameters of this circuit, the drive 21 is locked and the voltage at the output of the power supply 17 is missing.

In the event of an overload in the 8.8-11 circuit, the voltage on all the windings of the transformer amplifier 7 of the power decreases, due to an increase in the voltage drop in its transistors. As a result, the supply voltage of the master oscillator 4 from the rectifier 10 decreases. This, in turn, leads to a decrease in the control voltages on the windings 6.4-6.7, an even greater voltage drop on the transistors of the power amplifier and a further decrease in the output voltage rectifier 0, etc. Thus, when an overload occurs in the transistor inverter, the master oscillator automatically switches off, which ensures high reliability of the device.

When the device is turned on for a short-circuited load, the master oscillator 4 begins to work, on the windings of the transformer of which alternating rectangular voltages are formed. On the windings of the transformer of the key power amplifier (including on the winding 8.9), the variable voltages are not generated. Therefore, the capacitor 18 is charged to a voltage approximately equal to the voltage at the output of the rectifier 10 and sufficient to unlock the dynistor 21. After unlocking the latter, the voltage from the capacitor 18 is applied to the output (negative terminal) of the diode 12. The last is locked, resulting in the amount of current flowing through the thyristor 14 is reduced, and it is also locked. When this happens, the master oscillator 4 is automatically turned off, disconnected from the power source 1, which ensures the reliability of the device.

Claims (1)

Invention Formula Transistor inverter auth. St. No. 473267, characterized in that, in order to increase reliability by interrupting the control signal during overloads and short circuits in the power consumption circuit, an additional power supply, a switching node, an additional resistor and a thyristor are inserted into it, and the thyristor is connected to the power supply circuit of the master oscillator between the master oscillator and the resistor, with the anode of the thyristor connected to the resistor, and the control electrode to the negative terminal of the power source through serially connected additional th peaHCj torus and switching node, an additional power source is connected in parallel to the master oscillator. and nineteen J7 20 21 +  18 FIG.