SU656138A1 - Shf divider - Google Patents

Description

The invention relates to radio engineering and can be used to measure the pulsed power of microwave radiation. A microwave detector is known that contains an axially magnetised ferrite rod with coil 1 installed in a rectangular waveguide section. However, this microwave detector has a small bandwidth and a significant magnetizing field. The purpose of the invention is to expand the working frequency band and reduce the magnitude of the magnetizing field. To do this, an ultra-high-frequency detector containing an axially magnetised ferrite rod with a coil installed in a rectangular waveguide section, an additional magnetic conductor is inserted, closing the ferrite rod outside the rectangular waveguide, the coil is located on the magnetic core, and the ferrite rod is parallel to the high-frequency magnetic vector waves in a rectangular waveguide segment. The drawing shows a schematic diagram of the proposed device. The microwave detector contains a rectangular waveguide 1, a ferrite rod 2, a coil 3 and a magnetic core 4. The device operates as follows. When a microwave pulse is traveling through a rectangular waveguide 1, the intensity of the magnetic field in the magnetic core 4 varies with the frequency of the microwave oscillations. Accordingly, the magnetic induction in the ferrite rod 2 changes with the same frequency. At the same time, due to the nonlinearity of the magnetization curve, the media induction magnitude changes. This change in the induction flux in the ferrite rod 2 leads to the appearance of an emf in coil 3. The emf is proportional to the derivative of the flux of magnetic induction with respect to time. The proposed device has a large bandwidth, limited by the characteristics of the applied waveguide, as well as a large dynamic range and is resistant to the effects of high-power microwave signals.

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Claims (1)

1. Bogdanov, G. B., Fundamentals of the Theory and Application of Ferrites in Measuring and Control Techniques M., Sov. radio, 1967, p. 358.