SU145912A1 - Instrument for measuring epsilon and sigma tangent of dielectrics and magnetodielectrics and studying electromagnetic fields in resonators - Google Patents

Description

Instruments for measuring the dielectric constant s and the dielectric loss tangent tg b of dielectrics and magnetodielectrics and for studying electromagnetic fields in resonators are known.

The proposed device, in contrast to the known ones, combines a cylindrical tunable resonator and a brushless volutewater measuring line; it is made in the form of a metal pipe with pistons at the ends and a hole in the side wall for communication with the detector section, the pipe being able to rotate around the axis during the measurement process and move relative to the masses.

Such an embodiment of the device makes it possible to increase the measurement accuracy and speed it up.

The drawing shows schematically the proposed device in section.

The device contains a metal cylindrical tube 1, having two metal bottoms Porshn 2 and 3, and the piston 3 can be shifted inside the tube relative to the piston 2. In turn, the tube / can be moved along its axis and rotated along this axis.

The pipe 1 and the two surfaces 2 and 5 form a cylindrical cavity resonator. The resonator is excited from the corresponding generator through an opening in the surface 2, oscillation from the generator 4 is supplied to these holes by means of a waveguide 5. The field in the resonator is indicated by a detector, the device is connected to it through an opening 5 in the side wall of the pipe 1. The detector the detector section is located on the pipe / and is connected to the device by means of a waveguide section 7 with a flange. When the pipe / instrument is left unconnected, and the opening 6 together with the detector section

No. 145912-2 -

installed in the region of the antinode of the magnetic or electric component of the electromagnetic field in the pipe / and the relative position of the nicks 2 and 5 changes, the device is a conventional tunable cylindrical resonator.

When the reciprocal position of the pistons does not change, and the tube with the opening b and the detector section moves along the axis of the tube, the device operates as a gapless waveguide measuring line.

Thus, the measurement and tg6 on the proposed instrument is simultaneously a tunable cavity resonator and a gapless measuring waveguide line, which leads to an increase in accuracy, since the measurement is performed on one sample. This circumstance also speeds up the measurement, since there is no need to manufacture and install a second sample.

Subject invention

A device for measuring s and tg6 dielectrics and magnetodielectrics and studying electromagnetic fields in resonators, characterized in that, in order to increase the accuracy and acceleration of measurements, it combines a cylindrical tunable zone and a gapless waveguide measuring line and is made in the form of a metal pipe with pistons at the ends and a hole in the side wall for communicating with the detector section, the pipe being rotated about its axis during the measurement process and moving relative to the pistons.

LI