SU733077A1 - Inverter - Google Patents

Description

(54) INVERTER

one

The invention relates to the field of converter technology and can be used in secondary power sources.

It is possible to obtain a high-frequency voltage with a sinus envelope by connecting a DC voltage inverter to an AC network through a full-wave rectifier without an output filter i. However, such an inclusion of the inverter did not find practical application because of the large switching overvoltages on the inverter's transistors, which sharply reduce the reliability of its operation and the range of input voltages, as well as distort the shape of the output voltage.

An AC voltage inverter with a shunt transistor is known, the power junction of which is connected to the output pins, the forward bridge, and the base is connected to the output of the DC comparison amplifier, the inputs of which are connected via resistive

the voltage leads to the diagonal of the constant current of the input rectifying bridge and the bridge formed by two additional diodes and two diodes of the input rectifier 2, its disadvantage is the complexity of the control circuit of the additional transistor.

The aim of the invention is to simplify the control circuit of a transistor in voltage inverters operating from rectifiers 10 bodies without a biasing filter.

The goal is achieved by shunting the collector-base junction and the base-emitter junction of the shunt j junction transistor, respectively, with a capacitor and a resistor.

The drawing shows a block diagram of an inverter.

The inverter contains a power rectifier 1, made by a bridge circuit,

Claims (2)

20 to the output of which is connected an inverter 2, made, for example, according to a bridge circuit, and a shunt transistor3 with a base connected via capacitive resista 373 divider 4 to the diagonal of the dc rectifier, and the capacitor 5 is connected to the base-to-base junction , and the resistor 6 - to the base-emitter junction. . The inverter works as follows. When the device is connected to the mains, the AC voltage is converted by the Power Rectifier 1 into a pulsating one and feeds the Inverter 2, during operation of which an inductive load at the moment of latching the transistors on the diagonal of the direct current of the rectifier bridge causes significant overvoltages Otshe occurrence of EMF self-induction. In the time intervals between the switches of the transistors of the inverter 2, the transistor 3 is locked due to a very large one; dividing factor by 4acix Te of the network of the capacitor-resistor divider 4 at its input, formed by capacitor 5 and resistor 6, the values of which are chosen so that between the switching intervals of the transistors of the inverter 2 the voltage across the base-emitter junction of transistor 3 is less than the level of its opening . At the same time, the resistance value of the resistor 6 should not exceed the value of the resistance of the shunt emitter-base junction specified in the data sheet for this type of transient. torus in the cutoff mode. The capacitance of the capacitor 5 must be chosen as low as possible, provided that the transfer ratio formed by the divider 4 for the switching components of the switching wavelet on the inverter 2 power buses is sufficient for a reliable transmission of the transistor 3. 7 At the switching points of the inverter 2, the voltage increases sharply , the DC diagonal of the rectifier 1, the jump of which is transmitted through the choker 4 to the base of the transistor 3, its equivalent resistance, shunt5 through the input of the inverter 2, also sharply decreases. This provides an effective limitation of switching overvoltages at the input of inverter 2 to a safe level. The invention, in comparison with the known one, uses fewer elements in the control circuit of the shunt transistor and makes it possible to realize the operation of the inverter when the AC voltage is supplied from the mains through a rectifier without an output filter. Invention An inverter connected to a DC diagonal of a rectifying bridge, whose AC diagonal is connected to input pins, contains a shunt transistor whose power junction is connected to the output pins of a rectifying bridge, respectively, in order to simplify the circuit, the transitions the base-collector and the base-emitter of the shunt transistor are shunting, respectively, to the) sensor and resistor. Sources of information taken into account in the examination 1. O. Khasaev. Transistor voltage and frequency converters. M., Science, 1966, p. 61. 2. USSR author's certificate for application No. 2583510 / 24-07, cl. H 02 M 7/537, 01.03.78. w ““ A