SU1693659A1 - Magnetostatic wave filter - Google Patents

Abstract

This invention relates to microwave radio engineering. The purpose of the invention is to increase the suppression of spurious bandwidths. The filter on magnetostatic waves contains input and output converters 1, 4 and resonators 3 in the form of magnetized rectangular ferrite films. The goal is achieved by the fact that the individual resonators 3 are not located parallel, but at an angle to one another. By adjusting the connection between the resonators 3 using dielectric spacers placed between the dielectric substrate 2 and the resonators 3, the longitudinal size of the filter can be significantly reduced. 1 hp f-ly, 2 ill.

Description

The invention relates to microwave radio engineering and can be used in integrated microwave signal processing devices.

The purpose of the invention is to increase the suppression of spurious passband.

Figure 1 shows the design of the filter on magnetostatic waves: figure 2 is the same, but with the arrangement of the resonators at different distances from the dielectric substrate.

The magnetostatic wave filter contains an input transducer 1, a dielectric substrate 2, resonators 3 made in the form of rectangular magnetized ferrite films, an output transducer 4, dielectric spacers 5 (Fig. 2).

The filter works as follows.

The microwave signal received at the input transducer located on the dielectric substrate 2 sequentially excites magnetostatic waves in the resonators 3. These waves propagate along the rectangular magnetized ferrite films, undergoing reflection from their ends, and a standing magnetostatic wave arises, which leads to resonance if an integer number of half-wavelengths fits along the length of the resonator. The end face of a magnetized ferrite film is a resonator 3 for magnesia, and so on, until the microwave signal reaches the output transducer 4.

An increase in the suppression of spurious transmission bands at multiple resonant frequencies can be achieved by arranging the individual resonators not parallel to but at an angle to one another, and this increase increases with the number of resonators.

The magnitude of the coupling between the resonators 3 is also controlled by means of dielectric spacers 5, so that by selecting the coupling it is possible to reduce the longitudinal size of the filter on magnetostatic waves.

Claims (2)

Claim 1. A filter on magnetostatic waves, containing input and output placed on a dielectric substrate 20 microstrip transducers and resonators electromagnetically interconnected, which are made in the form of rectangular magnetized ferrite films, and the extreme resonators are connected with the corresponding microstrip transducers, which means that, in order to increase the suppression of spurious passbands, the longitudinal axes of individual 30 resonators are located at an angle to one another. 2. The filter according to claim 1, a semi-reflecting mirror that generates tostatic waves, so that part of the wave energy emitted from the resonator 3 excites an electromagnetic wave outside it, which, in turn, excites a neighbor35 in order to reduction of the longitudinal size, the resonators are installed at different distances from the dielectric substrate.