SU1539942A1 - Single-ended inverter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power supply and automation systems. The purpose of the invention is to expand the functionality by providing galvanic separation of the output of the inverter from its input. The inverter contains a choke 3 connected through the first transistor 4 to the first input terminal of inverter 1 and through the second transistor 5 to the second input terminal of the inverter 2. When the transistors 4 and 5 are unlocked, energy is accumulated in the inductor 3, and the previously charged capacitors 8 and 10 through the transformer 6 transfers energy to the load 12. When the transistors 4 and 5 are locked, capacitors 8 and 10 are charged, and the droplet power is also given to the load 12 through the transformer 6. Diodes 13 and 14 limit the voltage on transistors 4 and 5 at the voltage level pi Ani inverter. 1 il.

Description

The invention relates to electrical engineering and can be used in secondary power supply systems and automation. $

The purpose of the invention is the expansion of functionality by providing galvanic separation of the output of the inverter from its input.

The drawing shows a single-cycle inverter circuit.

The single-phase inverter contains the first and second input terminals 1 and 2, the inductor 3, transistors 4 and 5 and the transformer 6. The first primary winding 7 of the transformer through a capacitor 8 is connected to the power terminals of the transistor 4, and the second primary winding 9 through a capacitor 10 is connected to the power terminals transistor 5. 20

The secondary winding 11 is connected to the load 12. The return diode 13 is connected by a cathode to the input terminal 1, and the ^σ anode is connected to the connection point of the inductor 3, capacitor 10 and power 25 of the transistor 5. The return diode 14 is connected by the cathode to the connection point of inductor 3, capacitor 8 and the power electrode of the transistor 4, and the anode to the input terminal 2.

The output control unit 15 is connected to the inputs of transistors 4 and 5.,

Single-cycle inverter operates as follows.

Transistors 4 and 5 work in phase. When they are open, the energy stored in the capacitors 8 and 10 is transferred to the load 12 through the transformer 6. When the transistors 4 and 5 are closed, the capacitors 8 and 10 are charged and the energy stored in the input choke is transmitted through the transformer 6 to the load 12 over time open state of transistors 4 and 5. In this case, the average voltage across the capacitors 8 and 10 is equal to half the supply voltage. Diodes 13 and 14 open due to self-induction EMF when the voltage on the transformer windings 7 and 9 in total with the voltage on the capacitors 8 and 10, respectively, exceeds the value of the supply voltage. The voltage level applied to each transistor is limited by the supply voltage.

Claims (1)

Claim A single-phase inverter containing a chain connected to the input terminals, consisting of a first transistor, a choke and a second transistor, and two return diodes, the collector of the first transistor connected to the "first input terminal of the inverter and the emitter of the second transistor connected to the second input terminal of the inverter, the first return diode is connected between the collector of the second transistor and the first input terminal of the inverter, and the second return ^ iodine is between the second input terminal of the inverter and the emitter of the first trans a torus, characterized in that, in order to expand the functionality by galvanic separation of the inverter output from its input, a transformer with two primary windings and two capacitors is introduced, each primary transformer winding through a capacitor is connected in parallel with the corresponding transistor, and the secondary winding is connected to the output terminals inverter.