2021
DOI: 10.1016/j.conengprac.2020.104700
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Optimal robust control of a Cascaded DC–DC boost converter

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Cited by 7 publications
(4 citation statements)
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“…e boost converter is responsible for regulating PV outputs of interest and assuring convergence to the desired equilibrium point [19]. e boost converter in Figure 3 increases the system voltage from the PV natural voltage of 272 Vdc to 500 Vdc.…”
Section: Dc-dc Boost Convertermentioning
confidence: 99%
“…e boost converter is responsible for regulating PV outputs of interest and assuring convergence to the desired equilibrium point [19]. e boost converter in Figure 3 increases the system voltage from the PV natural voltage of 272 Vdc to 500 Vdc.…”
Section: Dc-dc Boost Convertermentioning
confidence: 99%
“…where x e (t) is the tracking reference error (more details can be found in [34] (Section 2) and/or [35] (Section 2)). The new state represents the dynamic equation dx e dt = V re f − v out (t) that, combined with the states of the converter, yields an augmented system of n + 1 states given by,…”
Section: Parameter-dependent Dc-dc Converters Control Designmentioning
confidence: 99%
“…Note that [ 0 0 1 ] • V re f is a concept introduced for reference tracking purposes. For control, it is not considered in the design where the reference is constant (see [34,35]). We assume that the parameters C(t), L(t), D on (t), R(t) and V in (t) are time-varying and bounded.…”
Section: Parameter-dependent Dc-dc Converters Control Designmentioning
confidence: 99%
“…Bu durum gerilim dengeleme ve termal yönetim sorunları olmak üzere bazı dezavantajlara sahiptir. Bu nedenle gerekli gerilim kazancını elde etmek için gerilim çoklayıcı hücreler ve basamaklama gibi teknikleri birleştiren dönüştürücüler kullanılmaktadır [36]. Rezvanyvardom vd.…”
Section: Giriş (Introduction)unclassified