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Home » Technical Physics Letters » Year 2022, issue 14 » Article p. 34
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Controllable neuromorphic dynamics of the phase locked loop
Russian version
DOI: 10.21883/TPL.2022.14.52060.18891
Tsyrulnikova L.A.1, Safin A.R. 1,2
1National Research University «Moscow Power Engineering Institute», Moscow, Russia
2Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow, Russia
Email: Hey_Lucy@mail.ru
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We consider the neuromorphic dynamics of a filter-free phase locked loop with a phase modulation of a reference oscillator. The transition from pulsed single-spike dynamics to the bursting dynamics can be easily controlled by changing the depth and frequency of phase modulation, as well as the gain factor along the ring of the phase locked loop. The possibility of implementing neuromorphic calculations of the "OR" type in the scheme of three phase locked loops mutually coupled through a common loop filter (control circuit) is shown. The presented results can be used in designing hardware-implementable neuromorphic networks with increased frequency stability, resistant to noise effects. Keywords: neuromorphic dynamics, phase locked loop, logical operations.
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