SU898394A2 - Ac voltage stabilizer - Google Patents

Description

(54) AC VOLTAGE STABILIZER

The invention relates to electrical engineering and can be used in the power circuits of radio engineering, computing and other devices.

BY MAIN auth. St. No. 798762 is known for an alternating voltage stabilizer containing an add-on voltage transformer, the secondary winding of which is connected between the respective input and output terminals, two primary windings connected in series, the free output of one primary winding being connected to the first input or output terminal, the second thyristor switch connected by the first output to the first input or output terminal, and a thyristor key control unit connected to the output terminals, moreover The winding windings are made with a different number of turns and are connected in opposite, their common output is connected to the second output of the second thyristor key, and the free output of the second primary winding is connected directly to the second input or output terminal 1.

However, to ensure reliable switching of the thyristor switches of this

stabilizer in the absence of a payload or when it is small (up to 5% of the nominal) requires the inclusion of a stabilizer ballast load, which is associated with significant losses.

The purpose of the invention is to reduce losses.

This goal is achieved by

10 that in the stabilizer parallel to the secondary winding of the booster transformer is connected to the introduced M a resistor.

The drawing shows a principle15 stabilizer circuit.

The stabilizer contains a voltage transformer 1, in which the winding 2 is connected to the input and output terminals of the stabilizer, and the windings 3 and 4 are made with different numbers of turns and are connected in a counter-series manner. The common terminal of windings 3 and 4 (the ends of the windings) and one of the 25 free leads (the beginning of the winding 3) through the thyristor keys on the counter-parallel type eistors 5,6 and 7, 8, respectively, are connected to one of the input terminals of the stabilizer. Other

30 the free output of the windings (the beginning of the winding 4) is connected directly to the other input terminal of the stabilizer. Both thyristor switches are connected to the thyristor control unit 9 associated; with output clamps. In parallel with the secondary winding 2, a resistor 10 is connected.

The stabilizer works as follows.

When operating under load, at the beginning of each half-period of the input voltage, the thyristor 5 or B is turned on (in the corresponding half-period.). Turning on the thyristors 5 and 6 provides the connection of the winding 4 to the input terminals. In this case, the winding 2, which is connected in the opposite direction with the mains voltage, provides voltootbavku, the voltage at the output of the stabilizer is less than the mains voltage.

With a time offset from block 9, a thyristor 7 or 8 is turned on (in the corresponding half period), the shift angle of the leading, fronts of control pulses is determined by the deviation of the output voltage from the nominal one. When the thyristor 7 or 8 is opened, the windings 3 and 4 are connected anti-successively, by their joint action, with a larger number of turns of the winding 3, a change in the flow direction and, consequently, a change in mode to the voltage boost, is provided. The voltage of the winding 3 is applied to the open thyristor 5 or 6 and closes it.

Thus, the output voltage of the stabilizer is formed so that its effective (average) value is equal to the nominal output voltage.

At the maximum input voltage, only thyristors 5 and 6 are turned on, and at minimum, thyristors 7 and 8, and the output voltage in these modes is equal to the nominal one. . At idle and in modes,

close to it, the presence of a closed circuit containing a resistor 10 and a winding 2 creates the possibility of leakage in the circuits of windings 3 and 4 of the current, whose magnitude is greater than in the absence of a resistor 10, which ensures reliable switching of the thyristors.

The effectiveness of this technical solution is due to the fact that, to ensure reliable switching

5 at idle speed and in modes close to it, little additional power is required, since the power allocated to a. a resistor, is determined by the voltage and current, and

0, the voltage on the secondary winding of the transformer is small compared with the output voltage of the stabilizer (usually not more than 20%).

Claims (1)

1. USSR author's certificate 798762,07, cl. G 05 F 1/20, lO.08.79.