SU1069080A1 - Phase shifter - Google Patents

Abstract

A PHASE CONTAINER containing a stator with two mutually perpendicular windings, a single-winding rotor and a phase-shifting device, characterized in that, in order to expand the field of application, it is equipped with a wide-band transformer and an emitter follower, and the phase-shifting device is designed with two windings. installed in the shielding case, the two terminals of the windings are connected to the stator windings, one of the windings is connected to the output of the transformer, the input of which is connected to the input terminals of the transformer the rotator, the emitter follower input is connected to the rotor winding, and the output is connected to the output terminal Fazer terminal. Cd

Description

The invention relates to electrical engineering, in particular to devices of an electric machine type, used for smooth peryj:; HpoBaHHH phase shift of sinusoidal voltage in phase control systems. Electromachine phase shifters are known, containing: input and output windings. A phase-shifting device (phase-shifting circuit) is included in the input winding circuit, which is relative to each other in quadrature; Of the resistors and a capacitor connected in series with each other, which provides a phase shift between the input windings of 5G / 2, Electromachine phase shifters have several advantages over other types of phase shifters, small dimensions, smoothness of output voltage phase adjustment, a large range of phase 1 adjustment. The disadvantage of this phase shifter is the dependence of the output voltage on the frequency. The closest to the invention to the technical essence is an induction phase user, comprising an excitation winding and two output windings shifted one relative to the other by 90, to the outputs of which a phase shifter consisting of a resistor and a capacitor is connected. To improve the accuracy of the conversion and stabilize the output voltage, the output voltages are shunted by resistors, and an additional capacitor 2 is connected between the resistor k and the phase-shifting capacitor. frequency range. In addition, the phase shifter does not provide its parameters when operating on a low-impedance load and has a low transmission coefficient, which limits its use of s RF signal chains, Hanpi-iMepf to compensate for phase distortion. The purpose of the invention is the expansion of the frequency band during the phase shift of the output voltage within (0-360) where n is the rotor speed of the phase shifter,. The goal is achieved by the fact that a phase shifter containing a stator with two windings shifted in space to an EO, a rotor with one winding, as well as a phase-shifting device, is equipped with a wideband transformer and emitter follower, and the phase-separation device is made in vi; a; e two windings, on the windings on the frame installed in the shielding housing, two winding leads are connected to stator windings, one is of the windings connected to the output of the transformer, whose input,. connected to the input terminals of the phase shifter, the emitter follower input is connected to the rotor winding, and the output is connected to the output terminals of the phase shifter. The drawing shows a functional diagram of the proposed phase shifter. The phase shifter contains a transformer 1, the input winding 2 of which is connected to the input of the device through a terminating resistor 3. The output winding 4, in parallel to which the matching resistor 5 is connected, is connected to the input of the winding 6 of the phase shifting. Of the device - quadrature coupler 7, made in the form of two windings wound on a frame installed in the shield housing. One output of the winding 8 quadrature coupler 7 is connected to the terminating resistor 9, the second to the stator winding 10 of the phase shifter 11 and to one end of the matching resistor 12. The other output of the winding b is connected to the stator winding 13 of the phase shifter 11 and one end of the matching resistor 12. The second conclusions of the matching resistors 5, 9, 12 and 14 and the stator windings 10 and 13 are connected to the device case. The rotor with one winding 15 of the phase shifter 11 is connected to the input of the emitter follower 16, the output of which is the output of the device. As the transformer 1 a broadband transformer having one primary and two secondary windings, a bandwidth of 1-100 MHz, a factor transmission in the frequency band of at least 0.8. A quadrature coupler is used as the phase shifter 7, providing a phase shift of l / 2 between the output voltages in the 10-40 MHz frequency band. The stator of the phase shifter 11 is made of ferrite 100 HF with grooves along the inner diameter, in which two stator windings 10 and 13 are located, shifted in space by 90 °. The inductance of the windings 0.45–0.62 μG ,, The rotor 15 of the phase shifter 11 is also made of 100 HF ferrite with grooves in outer diameter, in which the rotor winding is located. The inductance of the winding is 0.95-1.15 μH. The well-known circuits with an input resistance of at least 1 MΩ using transistors, for example, 2П305Г, 2Т316Б.,

Phaser works as follows.

The input sinusoidal voltage with a frequency of 10–40 MHz is supplied through transformer 1 to the quadrature input of branch 7 (winding 6). At the outputs of the quadrature coupler 7 (windings 6 and 8), two voltages are produced, equal in c1 magnitude and shifted in phase by Jf / 2, which are supplied to two windings of 10 and 13 stator shifted in space by 90 °. In the air gap of the phase shifter 11 a circular rotating magnetic field is formed, which induces an emf on the winding 15 of the rotor. The change, the phase of the phase shifter within (0-360) and is provided by the rotation of the rotor. From the rotor, the voltage is applied to the input of the emitter follower 16, the output of which is the output of the device.

The inclusion of a phase shifter between the introduced quadrature coupler with the input transformer and the emitter follower allows the input resistance of the phase shifter to be matched in a wide frequency band. The emitter follower eliminates the influence of the load resistance on the rotor and stator windings of the phase shifter. This ensures the constant amplitude of the orthogonal voltages on the stator windings of the phase shifter in a wide range of variations in load resistance and frequency. Thus, the introduction of a transformer, quadrature coupler and emitter follower reduces the non-uniformity of the amplitude-frequency characteristic in the frequency band, i.e. allows you to expand the frequency band of the proposed phase shifter with a phase shift of (0-360) p.

Claims (1)

Phase shifter containing a stator with two mutually perpendicular windings, a rotor with one winding and a phase shifting device, characterized in that, in order to expand the scope, it is equipped with a broadband transformer and emitter follower, and the phase shifting device is made in the form of two windings wound on the frame installed in the shielding housing, two leads of the windings are connected to the stator windings, one of the windings is connected to the output of the transformer, the input of which is connected to the input terminals of the phase shifter , The input of the emitter follower is connected to the rotor winding, and output - with output terminals of the phase shifter. _ S 0806901 'L ^