ETD

Design and Assembly of PCB Electronic Self-Oscillators

Público Deposited

There are many phenomena in nature in which organisms have some type
of synchronization, for example heart cells all beating in unison. The purpose
of this research is to model some of these phenomena using electronics. First, I
started by learning how to make printed circuit boards (PCB) on a Voltera VOne
machine and using the software EAGLE so that I could create an electronic
model for experimentation. Then I connected operational amplifier-based oscillators
in a universal coupling pattern to observe their behavior when they
all could send and receive information. Experiments consisted of modifying
the oscillators’ natural frequencies to find regions of different types of synchronization
patterns, ranging from one-to-one up to three-to-seven locking. The
results have the potential to explain how different synchronization patterns can
emerge in nature when systems communicate.


MLA citation style (9th ed.)

Witmer, Maitland Auna. Design and Assembly of Pcb Electronic Self-oscillators. . 2022. dickinson.hykucommons.org/concern/etds/da9714e8-5149-422f-b769-f784c0b7c876?locale=pt-BR.

APA citation style (7th ed.)

W. M. Auna. (2022). Design and Assembly of PCB Electronic Self-Oscillators. https://dickinson.hykucommons.org/concern/etds/da9714e8-5149-422f-b769-f784c0b7c876?locale=pt-BR

Chicago citation style (CMOS 17, author-date)

Witmer, Maitland Auna. Design and Assembly of Pcb Electronic Self-Oscillators. 2022. https://dickinson.hykucommons.org/concern/etds/da9714e8-5149-422f-b769-f784c0b7c876?locale=pt-BR.

Note: These citations are programmatically generated and may be incomplete.

Relações

Em Collection: