SU1698947A1 - Generator - Google Patents

Abstract

The invention relates to radio engineering and transceiver and measuring radio equipment can be used. The purpose of the invention is to expand the range of continuous frequency tuning while reducing the level of phase noise. The generator contains an amplifier 1 with a feedback circuit 2, which includes a delay line on magnetostatic waves in the form of a magnetized ferrite film 3, electromagnetically connected to the input 4 and output 5 converters mounted on the dielectric substrate 6. To accomplish the goal, the ferrite film 3 is magnetized by kasatelno across transducers and, in connection with 7, one of them is made with a clock magnetization different from the saturation magnetization of the rest of the ferrite film 1 silt

Description

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The invention relates to radio engineering and can be used in transceiver and measuring radio equipment.

The purpose of the invention is to expand the range of continuous frequency tuning while reducing the level of phase noise.

The drawing shows a schematic generator.

The generator contains an amplifier 1 with a circuit 2 of the coupling, which includes a delay line on magnetostatic waves, made in the form of a magnetized ferrite film 3, electromagnetically connected with the input 4 and output 5 parallel converters, which are placed on the dielectric substrate 6. The ferrite film 3 is magnetized tangentially across the input 4 and output 5 transducers and in the field 7 of communication with one of the transducers, for example the input transducer 4, is made with a saturation magnetization different from agnichennosti saturated rest cha- STI ferrite film 3.

Gene op works as follows.

The microwave signal from amplifier 1 through the feedback circuit 2 is fed to the input transducer 4, which excites magnetostatic waves in the ferrite film 3 in the communication region 7. Only waves with large wavenumber values fall on the output transducer 5. From the output transducer 5, the microwave signal is fed to the input of amplifier 1, a positive feedback circuit.

The attenuation in the feedback circuit 2 is minimal at the center frequency of the delay line, so the generation occurs at this frequency. The generation frequency tuning is achieved by changing the phase shift in the delay line during variations of the magnetizing field,

The introduction of a section with a saturation magnetization different from the saturation magnetization of the rest of the ferrite film 3 in the ferrite film 3 in area 7 of the coupling with the input converter 4 results in a decrease in the phase shift of the delay line at the center frequency with an increase in the magnetization of the magnetic field as the dispersion curves of the waves approach for two sections of the ferrite film 3, which compensates the frequency changes of the phase shifts in amplifier 1 and feedback circuit 2 and ensures that the phase condition Generation for one of the possible modes for any variations of the magnetizing field, eliminating frequency jumps from one mode to another, and extending the range of continuous frequency tuning.

The excitation of waves with large wave numbers makes it possible to realize a large slope of the phase-frequency characteristic of the delay line and the generator as a whole, which leads to a decrease in the generator phase noise.

Claims (1)

Invention Formula A generator containing an amplifier with a feedback circuit, which includes a delay line on magnetostatic waves, is made in the form of a magnetized ferrite film, electromagnetically connected to the input and output parallel converters, which are placed on a dielectric substrate, characterized in that the range of continuous frequency tuning while reducing the level of phase noise, the ferrite film is magnetized tangentially across the input and output converters and in the field of The connection with one of the transducers is performed with a saturation magnetization different from the saturation magnetization of the rest of the ferrite film.