SU1339833A2 - Inverter - Google Patents

Abstract

The invention relates to a converting technique, and b. used in high-frequency installations for technological processes that require an output characteristic that implements operating modes from an ideal voltage source to a voltage source with a steeply falling characteristic. The goal is to extend the functionality. The device contains a bridge valve cell 1 and a series of separation capacitor 5 and adjustable throttle 6. Tr. 9 primary winding is connected in series with the compensating capacitor 10. Control winding 7 of throttle 6 through threshold element I1 is connected to the diagonal of a direct current of a diode rectifier. of a bridge 12 connected by input terminals to a compensating capacitor 10. When the load value changes, the voltage on the capacitor 10 will reach the value of the trigger voltage of member 11. As a result, the contour of the capacitor 10 of the transformer 9 and the throttle 6 out of resonance mode and the output characteristic becomes steep falling voltage characteristics. 1 il. “(L co 00 co ooo co o go

Description

The invention relates to a converter technique and can be used in high-frequency installations for technological processes requiring an output characteristic, realizing operating modes from an ideal voltage source to a voltage source with a steeply falling characteristic, and is an improvement of the device according to the author. St. No. 1145434.

The purpose of the invention is to expand the functionality.

The drawing shows the electrical circuit diagram of the inverter.

The inverter contains a bridge valve cell 1 with a commuting choke 2 and a capacitor 3 in the diagonal of alternating current, connected by a diagonal of direct current to the input terminals through the input choke 4, a series circuit from separation capacitor 5 and protective adjustable droplets 6 with a control winding 7. Load 8 connected to the secondary winding of the output transformer 9, the primary winding of which is connected in parallel through the compensating capacitor 10 to the working winding of the adjustable throttle. The control winding 7 through the threshold element 11 is connected to the diagonal of the direct current of the diode rectifying bridge 12 connected by the input terminals to the compensating capacitor 10. Cell 1 consists of thyristors 13-16 and non-return valves (diodes) 17--20.

The inverter works as follows.

The separation capacitor 5 before turning on the thyristors of each pair of valve cell 1 is charged to a voltage equal to 1.6-1.8 of the supply. When control pulses are applied to the first pair of thyristors 13 and 16, the commutation capacitor 3 is charged through choke 2, separation capacitor 5 and the working winding of the chokes 6, the voltage from which through a series circuit from transformer 9 and compensating capacitor 10 is applied to the load 8. Condenser 3 is recharged so that when the thyristor current drops to zero, it starts

conduct the first pair of reverse diodes 16 and 17 and after the interval determined by the resonant frequency of the switching circuit, the current of the diodes reaches zero. When pulses are applied to the second pair of thyristors of the valve cell 1, the processes proceed as described, i.e., during one cycle of operation of the valve bridge cell 1, the load of the inverter 8 receives two full sinusoidal voltage periods. This circuit in relation to the inductor 6 provides a mode close to the ideal current source. The presence of a resonant circuit of adjustable droplets 6, a compensating capacitor 10 and a transformer 9 provides an output characteristic close to the source of ideal voltage. When the value of the resistance of the load 8 changes, the voltage of the compensating capacitor 10 reaches the trigger voltage of the threshold

0 of the element 11. At the same time, in the circuit consisting of the threshold element 11 and the control winding 7 droplets 6, connected to the terminals of the diagonal of the direct current of the diode rectifying bridge 12, a current will flow, reducing the inductance value of the droplets 6. As a result, the loop The output of the adjustable droplet 6, the compensating capacitor 10 and the transformer 9 will exit from the resonant mode of operation and the output characteristic will take the form of a steeply-varying voltage characteristic, which limits the voltage on the thyristors of the circuit.

Claims (1)

Invention Formula 5 Inverter auth. St. No. 1145434, characterized in that, in order to expand its functionality, it is equipped with a diode rectifying bridge and a threshold element, and the protective choke is made of a double-wound adjustable, and 0, its control winding through the threshold element is included in the diagonal of the direct current of the diode rectifying bridge connected by the diagonal of the alternating current to the compensating capacitor. five 0