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- Title
A Bipolar Transistor-Based High-Power Chaotic Oscillator with Selected Inertia.
- Authors
Savel'ev, S. V.; Morozova, L. A.
- Abstract
The feasibility of creating a high-power wideband source of chaotic microwave signals that is constructed around a single high-power bipolar transistor has been demonstrated for the first time. This has become possible after implementing a selected-inertia oscillator. Theoretical calculations supporting the idea of fabricating such an oscillator are presented. A hybrid integrated prototype of a selected-inertia chaotic oscillator that is based on a 2T982A-2 high-power transistor has been designed. The feasibility of generating chaotic microwave signals with a center frequency of 4.55 GHz and an overall power of 1.1 W has been proved. The effective width of the chaotic signal power spectrum equals 11% at a spectral characteristic ripple of 3 dB, the spectral density of noise oscillations is 2.2 × 10–3 W/MHz, and the e1fficiency is 15%.
- Subjects
TRANSISTORS; BIPOLAR transistors; MEMRISTORS; SPECTRAL energy distribution; POWER spectra; MICROWAVES; OSCILLATIONS
- Publication
Technical Physics, 2020, Vol 65, Issue 12, p2056
- ISSN
1063-7842
- Publication type
Article
- DOI
10.1134/S1063784220120245