Non‐intrusive parameter estimation method for autotuned DC–DC converter based on quasi‐impulse response

Ali, Majid; Loo, K. H.; Lai, Y. M.

doi:10.1049/iet-pel.2018.5467

Cited by 5 publications

(1 citation statement)

References 23 publications

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“…a model observer inductance estimator [9], online parameter identification [10], and small‐signal injection‐based measurements [11]. Alternatively, an online inductance estimator for a predictive peak‐current mode controller is presented in [12], while Ali et al [13] proposed a method allowing LC‐filter poles and zeros for online estimation.…”

Section: Introductionmentioning

confidence: 99%

Low‐complexity inductance estimation for switched‐mode power converters using peak‐current mode control

Michal

Zilio

Agostinelli

2020

IET Power Electronics

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This study describes a technique for automated and accurate inductance estimation in synchronous DC-DC buck and boost converters. The method of inductor value estimation is based on the dependence of the steady-state output voltage on the inductance value, in the case of a fixed inductor peak current. The measurement algorithm yields effective inductance value, and is aimed to be executed once during the start-up procedure under light load current condition. As the measurement is performed during the start-up sequence with low-load current, a dedicated current sensor with high accuracy can be employed, allowing to target high measurement accuracy in the range of ±5%. The presented technique is developed to enable the automated design of a digital controller for general purpose DC-DC converter but can be used in different applications such as analogue feedback-loop adjustment or improving the digital current estimator accuracy.

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