SU1732404A1 - Balancer - Google Patents

Abstract

Usage: transformation of microwave oscillations of an asymmetric transmission line into microwave oscillations of a symmetric transmission line. SUMMARY OF THE INVENTION: The device comprises a first flat conductor in the form of a loop, located on a dielectric plate. The ends of this loop are connected to the conductors of the symmetric transmission line, and the middle is connected to the screen of the unsymmetrical transmission line and to the conducting plate, which is located inside the loop. The second flat conductor is located on the other side of the dielectric plate and connected at one end to the central conductor of the asymmetric transmission line, and the other end to an additional conductive plate located on the same side of the dielectric plate. On both sides of the dielectric plate, two ferrite identical rings are installed, the axis of symmetry of which is aligned with the axis of symmetry of the conductive plate and the first flat conductor. 1 il. / s C

Description

This invention relates to electronics and is intended to convert microwave oscillations of an unbalanced transmission line into microwave oscillations of a symmetric transmission line.

The aim of the invention is to expand the operating frequency band of the balancing device.

The drawing shows the construction of a balancing device.

The device comprises first 1 and second 2 flat conductors, electromagnetically coupled to each other. The first flat conductor 1 is located on one side of the dielectric plate 3 and is made in the form of a loop, the ends of which are connected to

the corresponding conductors of the symmetrical transmission line 4, and the middle to the screen 5 of the asymmetric transmission line and to the conductive plate 6 located inside the loop. The second flat conductor 2 is made with a width smaller than the width of the first flat conductor 1, is connected at one end to the central conductor 7 of the asymmetrical transmission line and is parallel to the loop part on one side relative to the longitudinal symmetry plane of the balancing device. Two identical ferrite rings 8 are installed on both sides of the dielectric plate, with the axis of symmetry of each of the identical ferrite rings 8

 with

Yu

U o

four

combined with the axis of symmetry of the conductive plate 6 and the first flat conductor 1. An additional conductive plate 9 is connected to the other end of the second flat conductor 2. The first 1 and second 2 flat conductors are curved around the circumference with radii smaller than the outer radius of identical ferrite rings and large internal radius. Conductive plate 6 is made in the form of a circle with a radius smaller than the inner radius of identical ferrite rings 8. A second flat conductor 2 and an additional conductive plate 9 are located on the other side of the dielectric plate 3 and are electromagnetically connected to the conductors of a symmetrical transmission line 4.

The balancing device operates as follows.

Microwave coils arriving at the asymmetrical transmission line containing the center conductor 7 and the screen 5 extend between the first 1 and second 2 flat conductors, mainly in the dielectric plate 3. The presence of identical ferrite rings 8 does not affect the sufficient dielectric permittivity characteristic impedance. Thus, the microwave oscillations arrive at the conductors of the symmetrical transmission line 4, both by electroplating the ends of the first flat conductor 1 and the conductors of the symmetric transmission line 4, and by the electromagnetic coupling of the second flat conductor 2 to the additional conductive plate 9 sec connected to it conductors symmetrical line 4 gears. The required capacitance value is realized by selecting the surface size of the additional conductive-plate 9 taking into account the dielectric constant of the material of the dielectric plate 3, and the required inductance is needed by adjusting the width of the first flat conductor 1 at the selected thickness of the dielectric plate 3 and magnetic permeability of the material of identical ferrite rings 8

The expansion of the operating frequency band is achieved by introducing identical ferrite rings 8 located on both sides of the dielectric plate 3, so that the axis of symmetry coincides with the axis of symmetry of the conductive plate 6 and the first flat conductor 1. Identical ferrite rings 8 increase the linear inductance of the first 1 and second 2 flat conductors, lowering the lower limit of the operating frequency range, while the upper limiting frequency is shifted due to the introduction of the capacitance of the additional conductive plate 9 s the inductance mentioned above as well

the inductance of the part of the second flat conductor 2 located between the conductors of the symmetrical transmission line 4 and the distributed capacitance between the first flat conductor 1 made in

loop, and a conductive plate 6 located inside the loop.

The balancing device is characterized by ease of manufacture and the ability to perform several

devices on the same dielectric plate, which eliminates the use of additional feeders for making connections.

Claims (1)

Invention Formula A balancing device comprising electromagnetically coupled first and second flat conductors, the first of which is located on one side of the dielectric plate and is made in the form loops, the ends of which are connected to the respective conductors of the symmetric transmission line, and the middle to the screen of the asymmetric transmission line and to the conducting plate located inside the loop On the same side of the dielectric plate, and the second flat conductor is made with a width smaller than the width of the first flat conductor, is connected at one end to the central conductor of the asymmetric transmission line and is parallel to the loop part on one side relative to the longitudinal plane of symmetry of the device, characterized in that the purpose of expanding the band of workers frequencies, two identical ferrite rings are introduced, the axis of symmetry of which is combined with the axis of symmetry of the conductive plate and the first flat conductor, and an additional conductive plate to which the other end of the second flat conductor is connected, the first and second flat conductors are bent around circumferential radii smaller than the outer one the radius of the ferrite rings and their large inner radius, and the conductive plate is made in the form of a circle with a radius smaller than the inner radius of the ferrite rings, while the second flat conductor and an additional conductive plate is disposed on the other side of the dielectric plate and electromagnetically coupled with the balanced transmission line and the ferrite cores are installed on both sides of the dielectric plate. one