SU469938A1 - Device for smoothly increasing and decreasing test voltage - Google Patents

Description

one

The proposed device relates to the field of electrical engineering and can be used in devices for controlling the electrical strength of the insulation of electrical circuits in the electronic and instrument-making industries.

The technical conditions for the instruments in the said zones, as a rule, provide for testing the electrical strength of the insulation using alternating voltage of the industrial frequency, and the test voltage should increase smoothly and gradually decrease after a certain holding time.

A device is known in which a smooth variation of the voltage in a load is accomplished due to the redistribution of apr between the series-connected saturation throttle and the load. With a large range of variation of the test voltage required for testing the electronic a: Š1aratury, the cost and weight of saturation throttles are much higher than the cost and weight of the test transformer, therefore these devices are not widely used.

The purpose of the invention is to expand the range of variation of the test voltage with high functional reliability and small dimensions of the device.

The goal is achieved by the fact that the power transformer of the device, which contains the power key, the saturation choke with the control winding and the working winding connected in series with the primary winding of the power transformer, is provided with an additional winding, the midpoint of which is connected to one capacitor plate, and the ends of this winding are connected to the other plate of the specified capacitor through the collector-emitter transitions of transistors, the bases of which are interconnected via an auxiliary key, sync connected to the power key, and

connected via a limiting resistor to the secondary winding of a synchronization transformer, the primary winding of which is connected to the mains, and through the diodes connected in the forward direction, connected to the junction point of the emitters of the transistors, and connected to the control winding of the saturation throttle in parallel to the specified capacitor. The drawing shows the principal

the electrical circuit of the device, which contains a power transformer 1 having a primary winding 2, a secondary test winding 3 and an additional winding 4. Saturation choke 5 has a working winding 6 and a control winding 7. 7. Key 8

synchronously commutates with the key 9. The Yun I transistors are designed to charge and discharge capacitor 12. The emitter-base transitions of the transistors are connected via counter-connected diodes 13, 14. The bases of the transistors 10, 11 are connected to the secondary winding of the synchronizing transformer 16. The control winding 7 of the throttles 5 is connected to the capacitor 12. The terminals 17, 18 of the device are connected to the alternating voltage source V, and the terminals 19, 20 to the test object.

When the key 8 is closed, the voltage V of the AC source is redistributed between windings 6 and 2 in such a way that almost all the voltage is applied to winding 6, since the control signal in winding 7 is absent and the winding 2 is bypassed by the capacitor 12. The capacitor 12 begins to charge through the transistors 10, 11, which operate in the mode of uncontrolled gates, as the key 9 is closed. With a positive voltage sign on the collector relative to the midpoint of the winding 4, the transistor 10 is open due to the direct displacement of the collector-base junction through diode 13, and the collector 11 of the transistor 11 is negative at the same time and the transistor 11 is closed. In the other half period, the voltage signs on the transistors will change, the transistor 11 will be open, and the 10 will be closed.

Thus, transistors 10, 11, and diodes 13, 14 operate in a full-wave rectifier mode loaded on a capacitor 12.

At the first moment after switching on the key 8, the test voltage at terminals 19, 20 is zero, but as the capacitor 12 is charged from period to period, it shunts winding 2 to a lesser extent, and in control winding 7 throttle saturation 5 appears the current, and the inductive resistance of the winding 6 hits, the voltage (and current) of the winding 2 rises, and the test voltage on the winding 3 in turn increases. When the capacitor 12 is fully charged, the current in the winding 7 reaches its maximum value, the inductive resistance of the winding 6 becomes minimal m, and almost all the voltage V across winding okazhets 2.

The voltage on the winding 3 will at the same time reach the set value.

After a certain holding time, the test voltage must be reduced to zero smoothly. For this key 8 and 9 open. The bases of the transistors 10, 11 receive a control signal from the secondary winding of the transformer 16, and the transistors operate in the mode of controlled switches, through which alternately from half-cycle to half-period the capacitor 12 is discharged to the winding 4. Since the primary winding 2 is open, winding 4 performs et the role of the primary winding, the voltage with which

transformed into non-powered winding 3. As the capacitor 12 is discharged, the test voltage gradually decreases to zero.

Subject invention

A device for smoothly increasing and decreasing the test voltage, comprising a power key, a power transformer and a saturation choke with a control winding, the operating winding of which is connected in series with the primary winding of said transformer, the secondary winding of which is connected to the test object, characterized in that of extending the range of change of the test voltage with high functional reliability and small dimensions of the device, the power transformer is provided with additional volume the middle point of which is attached to one capacitor plate, and the ends of this winding are attached to another plate of the specified capacitor

through the collector-emitter junction of the transistors, the bases of which are interconnected via an auxiliary key synchronously connected to the power key and connected via a limiting resistor to the secondary

The winding of the synchronizing transformer, the primary winding of which is connected to the mains, and is also connected to the emitter of the transistors through diodes connected in the forward direction, and the control winding of the saturation throttle is connected in parallel with the indicated capacitor.