SU154726A1 - - Google Patents

Description

Static frequency multipliers using transformers in magnetic saturation mode are known.

The proposed static frequency multiplier is distinguished by the fact that the HTO to compensate the longitudinal component of the current of the serially connected secondary windings, smoothly adjust the output voltage, increase the efficiency of the multiplier and increase the rigidity of the characteristic in series with the secondary windings of the transformers included a capacitively charged reactive current transformer with magnetized shunts.

FIG. 1 is a schematic diagram of the device described; in fig. 2 is a cross-section of a reactive current transformer with shunt bias.

The described frequency multiplier consists of three homogeneous saturated transformers 1, 2, vi 3, the primary windings of which are connected in a star, and the secondary windings in an open triangle, and in a reactive current transformer 4 with biasing of shunts. The output load of the multiplier is inductance of 5 heat setting chambers. The power frequency current from the three-phase network 6 is connected to the primary windings of the input transformers (capacitors 7, 8 and 9 serve to compensate for the reactive current of the circuit) and is converted into serially connected) and secondary secondary windings into a three-fold frequency pattern. The reactive current transformer 4 loaded with a capacity of 10 with the iodine magnetization of the shunts is connected NOW with secondary windings of transformers I, 2 and 3 and compensates for the longitudinal component of the current of the secondary windings. A reactive component of a capacitive current is introduced into the load, which substantially compensates for the reactive component of an inductive current determined by the inductance of the windings of the multiplier. The control winding is powered by direct current and is intended for smooth control of manually compensating reactive (capacitive) power, and windings b and b from the temperature controller of the heat-fixing chambers. In the case of longitudinal capacitive compensation, the multiplier acquires l; a strong external characteristic and an increased k. d.

Structurally reactive current transformer is made as follows. The secondary winding g is wound on the main magnetic conductor JJ, and the windings b and c - and the rods x 12 and J3 of the magnetic shunt. The primary winding d covers both the rods of the magnetic shunt and the main magnetic core. In the absence of excitation of the magnetic shunt, the magnetic flux created by the winding g is distributed almost in proportion to the cross sections of the rods 1J, 12 and 13: the larger the cross section of the magnetic shunt, the smaller part of the total magnetic flux participates in the creation of the secondary Oe. d. E. When magnetising magnetic shunts, magnetic flux is displaced from the latter into the main magnetic circuit. With a smooth change in the bias current, the flow of the main magnetic conductor, e. d. EZ and the voltage on the capacitor 10, as a result of which the reactive capacitive component of the current in the high frequency circuit changes, which causes a smooth change in the output voltage of the multiplier.

The indicated advantages of the described multiplier determine the usefulness of its application.

Subject invention

A static frequency multiplier made on saturated transformers, characterized in that, in order to compensate for the longitudinal component of the current of the series-connected secondary windings, continuously adjust the output voltage, increase the multiplier efficiency and increase the external characteristic stiffness, in series with the secondary windings of transformers included a reactive load loaded with capacity, a current transformer with shunt magnetization connection.

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I g 1

S: d

FIG ..