Gary W. Bohannan scite author profile

An analog fractional order PI λ controller, using a circuit element with fractional order impedance, a Fractor (patent pending), is demonstrated in both a simple temperature control application and a more complex motor controller. The performance improvement over a standard PI controller was notable in both reduction of overshoot and decreased time to stable temperature, while retaining long term stability. In the motor controller, set point accuracy was considerably improved over conventional control. The modification of the standard controller to a fractional order controller was as simple as replacing the integrator capacitor with a Fractor. Mixing (i.e., hybridization) of digital and analog control was demonstrated.

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A Physical experimental study of variable-order fractional integrator and differentiator

Sheng

Sun

Coopmans

et al. 2011

Eur. Phys. J. Spec. Top.

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Dielectric Behavior in an Oriented β-PVDF Film and Chain Reorientation Upon Transverse Mechanical Deformation

et al. 2002

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Solid-state fractional capacitor using MWCNT-epoxy nanocomposite

John

Banerjee

Bohannan

et al. 2017

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Here, we propose the fabrication of a solid state fractional capacitor for which constant phase (CP) angles were attained in different frequency zones: 110 Hz–1.1 kHz, 10 kHz–118 kHz, and 230 kHz–20 MHz. The configuration makes use of epoxy resin as the matrix in which multi-walled carbon nanotubes (MWCNTs) are dispersed. Adhesive nature of the epoxy resin is utilized for binding the electrodes, which avoids the extra step for packaging. The fractional capacitive behavior is contributed by the distribution of time constants for the electron to travel from one electrode to the other. The distributive nature of the time constant is ensured by inserting a middle plate which is coated with a porous film of polymethyl-methacrylate in between the two electrodes. The phase angle trend for the configuration is studied in detail, and it is observed that as the % of carbon nanotubes (CNTs) loading increases, the CP angle increases from −85° to −45° in the frequency zones above 100 Hz. The developed device is compact and it can be easily integrated with the electronic circuits.

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Fractional-Order Devices

Biswas

Bohannan

Caponetto

et al. 2017

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SpringerBriefs in Nonlinear Circuits promotes and expedites the dissemination of substantive new research results, state-of-the-art subject reviews and tutorial overviews in nonlinear circuits theory, design, and implementation with particular emphasis on innovative applications and devices. The subject focus is on nonlinear technology and nonlinear electronics engineering. These concise summaries of 50-125 pages will include cutting-edge research, analytical methods, advanced modelling techniques and practical applications. Coverage will extend to all theoretical and applied aspects of the field, including traditional nonlinear electronic circuit dynamics from modelling and design to their implementation. Topics include but are not limited to:Contributions to the series can be made by submitting a proposal to the responsible Springer contact, Oliver Jackson

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Gary W. Bohannan

Analog Fractional Order Controller in Temperature and Motor Control Applications

A Physical experimental study of variable-order fractional integrator and differentiator

Dielectric Behavior in an Oriented β-PVDF Film and Chain Reorientation Upon Transverse Mechanical Deformation

Solid-state fractional capacitor using MWCNT-epoxy nanocomposite

Fractional-Order Devices

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