Magnetic Frequency Doubler

Magnetic Frequency Doubler

This article presents the compact magnetic frequency doubler based on a quarter-wavelength stepped-impedance microstrip resonator with a 125-nm-thick permalloy (Ni 70 Fe 30 ) magnetic film. For the first time, the implementation of a frequency doubler operating at the high-field peak is shown. To pr...

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Bibliographic Details
Published in:2022 IEEE 23rd International Conference of Young Professionals in Electron Devices and Materials (EDM) pp. 135 - 139
Main Authors: Govorun, Ilya V., Afonin, Aleksey O., Ugryumov, Andrey V., Solovev, Platon N., Leksikov, Andrey A., Boev, Nikita M.
Format: Conference Proceeding
Language:English
Published: IEEE 30-06-2022
Subjects:
Band-pass filters
ferromagnetic resonance
frequency doubling
Halbach array
Magnetic field measurement
Magnetic films
Magnetic resonance
Magnetic separation
microstrip resonator
Resonator filters
thin magnetic film
Time-frequency analysis
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Summary:This article presents the compact magnetic frequency doubler based on a quarter-wavelength stepped-impedance microstrip resonator with a 125-nm-thick permalloy (Ni 70 Fe 30 ) magnetic film. For the first time, the implementation of a frequency doubler operating at the high-field peak is shown. To produce a uniform magnetic field in the thin magnetic film plane, the magnetic system consisting of individual permanent magnets and based on the circular Halbach array was developed. The uniformity of the magnetic field in the region of 10×10 mm 2 was 4.9%. Two bandpass filters were developed. The input filter serves to purify the input signal from parasitic harmonics. The output filter blocks the input signal in the resonator. The resonator, magnetic system, input and output filters are integrated into a single device. The maximum measured conversion efficiency was 0.97% (at 1 GHz) at the input power of 4800 mW. The −3 dB fractional bandwidth of the magnetic frequency doubler was 2.15%.
ISSN:2325-419X
DOI:10.1109/EDM55285.2022.9855072