Publications – Laboratoire de recherche Modélisation, Analyse et commande des Systèmes

2023

Ounis, W.; Chetoui, M.; Najar, S.; Aoun, M.

Programmable analogue fractional controller realization Conférence

Institute of Electrical and Electronics Engineers Inc., 2023, ISBN: 9798350327564, (cited By 0).

Résumé | Liens | BibTeX | Étiquettes: Analog circuits; Continuous time systems; Controllers; Operational amplifiers; Potentiometers (electric measuring instruments); Signal processing; Timing circuits, Digital potentiometer; First order; First order low-pass filter; Fractional integrators; Fractional-order controllers; Higher order dynamics systems; Low-pass filters; Programmable analog circuit; Programmable analogs; Real- time, Low pass filters

@conference{Ounis2023,

title = {Programmable analogue fractional controller realization},

author = {W. Ounis and M. Chetoui and S. Najar and M. Aoun},

url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85182938982\&doi=10.1109%2fIW_MSS59200.2023.10369104\&partnerID=40\&md5=be9f5355e8c0ceea37f41ef5482c9ee6},

doi = {10.1109/IW_MSS59200.2023.10369104},

isbn = {9798350327564},

year  = {2023},

date = {2023-01-01},

journal = {2023 IEEE International Workshop on Mechatronics Systems Supervision, IW_MSS 2023},

publisher = {Institute of Electrical and Electronics Engineers Inc.},

abstract = {A fractional-order controller is an infinite-memory system. It is described by a continuous time irrational transfer function. Its realization is a delicate problem especially when its parameters are real time tunable. This paper presents a real-time programmable analogue fractional controller implementation. The controller is based on a sum of a novel real-time programmable analogue first-order low-pass filter. The signal within the circuit remains analogue and is not converted into discrete values. Real-time adjustments are made using digital potentiometers and operational amplifiers. The proposed first-order low-pass filter offers several advantages. In particular, the time constant and DC gain are independently adjusted without relying on the ohmic value of digital potentiometers. The time constant and DC gain depend on the resolution of the digital potentiometers. The high resolution of the digital potentiometer enables the circuit to achieve a wide bandwidth and allows for the use of small capacitors at lower frequencies. The proposed real-time programmable analogue fractional controller is experimented to achieve a fractional integrator. The circuit yields good similarity between theoretical simulations and experimental measurements. © 2023 IEEE.},

note = {cited By 0},

keywords = {Analog circuits; Continuous time systems; Controllers; Operational amplifiers; Potentiometers (electric measuring instruments); Signal processing; Timing circuits, Digital potentiometer; First order; First order low-pass filter; Fractional integrators; Fractional-order controllers; Higher order dynamics systems; Low-pass filters; Programmable analog circuit; Programmable analogs; Real- time, Low pass filters},

pubstate = {published},

tppubtype = {conference}

}

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