SU362379A1 - FERRITE CIRCULATOR SWITCH - Google Patents

Description

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The invention relates to the field of electronics and radio electronics of ultrahigh frequencies and can be used in the radios amiHiOiHiHO-ft, my aiBMir and cyann radar equipment and E communication technology when operating in a wide temperature range.

The famous ferrite circulator switch consists of two polarization tees, rotated 45 ° relative to each other, and a segment of a dielectric circular waveguide, metallized inside with silver, with a longitudinally magnetized ferrite core. The operation of the device is controlled by two windings: fixing and control. A direct current flows through the fixing winding, which ensures the initial rotation of the polarization plane by 45 ° and the circulation of energy. However, depending on the temperature of the MiOCTb angle 1p0 | rota; flatness 1p1Iz.aC | And | And temperature by changing the magnetization of the ferrite leads to deterioration of the characteristics of the known Faraday devices designed to work in a wide temperature range. In addition, the well-known circulator switch takes a long time to switch. This is due to the fact that the control and latching windings intersect the trap f 0: piM a, T: 0p, x aip a1kte1r113131yu symtk mutual induction coefficient. At the moment the current pulses are fed into the control winding, an emf is generated in the clamp winding mutual induction that extends the rise time of the switching time.

The described circulator switch is distinguished by the fact that an additional permanent magnet connected to a bnm metal is inserted into it. A fine plastics cell, mounted on the external surface of a circular waveguide piece. This reduces the switching time and ensures the thermal stability of the electrodynamic characteristics.

FIG. I depicts the described device; in fig. 2 - view along arrow A.

The ferrite circulator switch is a CTT101IT of two FIELDS OF DIZA TION OF THE TR: OY1N1I1KO1V .1 and

a section of a circular waveguide 2 in which a ferrite core 3 is installed, by means of a dielectric sleeve 4. The magnetic system of the device consists of a control winding 5 and a permanent magnet 6, which is used as a magnetically self-supporting barium ferrite in the form of a parallel hinge cut out along the axis of the lung magnetizing

ferrite. The magnet 6 is attached to the holder / by means of a bimetallic plate 8, one end of which is soldered to the metallized surface of the magnet 6 and the other to the holder 7 mounted on the outer surface

segment of the circular waveguide 2. Magnet 6 is located at a certain angle to the axis of the segment of the circular waveguide 2.

During adjustment, the holder rotates in the azimuthal plane until the longitudinal component of No field reaches the value necessary to ensure the angle of rotation of the polarization plane by 45 °. In this position, the holder 7 is fixed. Subsequently, the position of the magnets is adjusted by the bimetallic plate 8, which is an element of automatic tuning, since it creates a torque of a different sign when the temperature deviates to one side or the other relative to room temperature. This torque causes the magnet 6 to rotate relative to the middle position according to the sign of the temperature deviation. By appropriate selection of the sizes of the magnet 6 and the bimetallic plate 8, it is possible in a predetermined temperature range to perform thermostatisation of the parameters of the circulator switch.

Subject invention

A Faraday-type ferrite circulator switch, containing two polarization tees, a segment of a circular waveguide with a ferrite rod and a matching dielectric sleeve and a magnetic system, characterized in that, in order to reduce the switching time and ensure the thermostability of the electrodynamic characteristics, an additional constant is introduced into it a magnet connected to a bimetallic plate fixed in a holder that is mounted on the outer surface of said waveguide piece.

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