SU1476588A1 - Pulsed drive - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control DC motors. The aim of the invention is to increase the reliability under the conditions of unstable power supply voltage. The device contains a voltage sensor 19, the input of which is connected to the capacitor 10. The output of voltage sensor 19 is connected to the trigger input 16. The inductive-capacitive circuit is included in the diagonal of the bridge assembled on thyristors 6-9 and connected in parallel to the main thyristor 4. When the thyristors are turned on 6-9 and 13, the inductive-capacitive circuit is alternately connected to the source 3. The voltage on the capacitor 10 varies along a sinusoid with increasing amplitude, increasing with each recharge. By increasing the voltage on the capacitor 10, the switching capacity of the chopper is substantially increased. It can switch a large current while reducing the power supply voltage. 1 il.

Description

and 13 the inductive-capacitive circuit is alternately connected to the source 3. The voltage on the capacitor 10 varies along a sinusoid with increasing amplitude, increasing with each recharge. By increasing the voltage on the capacitor 10, the switching capacity of the chopper is substantially increased. It can switch a large current while lowering the power supply voltage. 1 il.

one

This invention relates to electrical engineering and can be used in direct current drives.

The aim of the invention is to increase the reliability in the conditions of unstable voltage of the power source.

The drawing shows a circuit breaker circuit.

A pulse interrupter contains connected between the load terminals, for example, a direct current motor 1, shunted by a reverse diode 2, and a power source 3 of the main thyristor 4, shunted by a diode 5, auxiliary thyristors 6-9 connected in a bridge circuit, in the diagonal of which is a chain of condenser 10 and throttle 11.

This bridge circuit is connected in parallel to the main thyristor 4 by means of the first auxiliary thyristor 12 and by means of the second auxiliary thyristor 13 is connected to the minus terminal of the source 3 and one of the terminals of the electric motor 1.

The control unit of the pulse interrupter includes the logic element 14 OR, the master oscillator 15, the output of which is connected to the control electrode of the main thyristor 4 of the interrupter, two triggers 16 and 17, the high frequency generator 18, the outputs of which are connected to the control electrodes of the auxiliary bridge thyristors and the inputs of the logic element 14 OR, the voltage sensor 19 connected by the input to the capacitor 10, and the output to one of the inputs of the trigger 16, two logic elements 20 and 21, the outputs of which are connected to control electrodes d additionally thyristors 12 and 13, the first WMOs

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0 5 0

0

five

dy are from the output of element 14 OR, and the second inputs are from the outputs of the first trigger 16, the inputs of the second trigger are connected to the output of the master oscillator 15 and the control electrode of the first additional thyristor 12, and the output is connected to the input of the high frequency generator 18 frequency equal to the natural frequency of the inductive-capacitive circuit.

The drive works as follows.

In the initial state, the triggers 16, 17 are in the zero state, the thyristors 4,6,7,8,9,12,13 are turned off. When a single level appears at the output of the generator 15, the main thyristor 4 is switched on, connecting the electric motor 1 to the source 3. When the state of the generator 15 changes, neper leads to the single position trigger 17, the generator 18 starts, the last alternately turns on thyristor pairs 6.7 and 8, 9, and the thyristor 13 is turned on with each pair. The thyristor 13 is switched on by pulses from both outputs of the generator 18 through elements 20 and 21, the latter being opened by the resolving level from the trigger 16.

As a result of this inclusion of thyristors 6.9 and 13, an inductive-capacitive circuit is alternately connected to the source 3. As a result, the voltage on the capacitor 10 varies along a sinusoid with increasing amplitude, increasing with each recharging.

When during the next recharge, the voltage on the capacitor 10 reaches the pickup value of sensor 19, the latter will set the trigger 16 to

a single position by turning off element 21 and turning on element 20. Another recharge of capacitor 10 will occur through the thyristor 12 and diode 5, as a result of which the main thyristor 4 is turned off.

By increasing the voltage on the capacitor 10, the switching capacity of the chopper is significantly increased. It can switch a large current even when the voltage of source 3 decreases, which is typical, for example, when powered by batteries.

Claims (1)

Invention Formula A pulse interrupter containing a main thyristor, connected between the power source and the load, and a shunted auxiliary thyristor bridge, in the alternating current diagonal of which an inductive-capacitive circuit is connected, a control unit including a master oscillator connected to the control electrode of the main thyristor two triggers, logical elements AND and OR, about tl and h ay u and in order to increase reliability in the conditions of unstable natg-Jf-1 and power source, two additional the thyristor, the anodes of which are connected to the cathode output of the auxiliary thyristor bridge, the cathode of the first additional thyristor is connected to the connection point of the cathode of the main thyristor and the first load terminal, the cathode of the second additional thyristor is connected to the connection point of the second load output terminal with the power supply terminal connected to a capacitor by an inductive-capacitive circuit, and the outputs of the high-frequency generator are connected to control electrodes x thyristors of the auxiliary thyristor bridge and the inputs of the OR element, the output of which is connected to the first inputs of the AND elements, the second inputs of which are connected to the corresponding outputs of the first trigger, the input connected to the output of the voltage sensor, the outputs of the elements And are connected to the control electrodes of the corresponding additional thyristors, inputs The second trigger is connected respectively to the outputs of the master oscillator and the control electrode of the first additional thyristor, and the output is connected to the generator input in high frequency of the second input of the first flip-flop connected to the output of the first element I.