TY - JOUR
T1 - MIL, SIL and PIL Implementation for Closed Loop Control of Flyback Converter
AU - Ali, Muhammad
AU - Sen, Ismet
AU - Ozturk, Salih Baris
AU - Avci, Emre
N1 - Publisher Copyright:
© 2024, Gazi Universitesi. All rights reserved.
PY - 2024
Y1 - 2024
N2 - Power electronic systems are rapidly evolving; thus, effective prototyping methods are required to test control algorithms and assess system performance prior to hardware implementation. This research suggests a Model-In-The-Loop (MIL), Software-In-The-Loop (SIL), and Processor-In-The-Loop (PIL) methodologies-based complete prototyping strategy for flyback converters using the TI F28069M Launchpad kit. These techniques can be combined to evaluate control strategies accurately and quickly, speeding up design cycles and enhancing system reliability. The proposed prototyping platform is presented in this work, along with a thorough explanation of each prototyping stage and its associated advantages. The effectiveness of the suggested approach for 50W rated power flyback converter in terms of quick algorithm development, system simulation, real-time control implementation and controller design accuracy is analyzed and shown by experimental results. The results show that the performance of the designed controller for the flyback converter is almost the same as in MIL and SIL implementation in terms of the overshoot and settling time in the reference voltage tracking. On the other hand, in the PIL implementation, the overshoot performance of the controller deviates by 1.18% more than in SIL and MIL implementation. These also confirm that the flyback control system's performance is reliable and effective during all phases of development.
AB - Power electronic systems are rapidly evolving; thus, effective prototyping methods are required to test control algorithms and assess system performance prior to hardware implementation. This research suggests a Model-In-The-Loop (MIL), Software-In-The-Loop (SIL), and Processor-In-The-Loop (PIL) methodologies-based complete prototyping strategy for flyback converters using the TI F28069M Launchpad kit. These techniques can be combined to evaluate control strategies accurately and quickly, speeding up design cycles and enhancing system reliability. The proposed prototyping platform is presented in this work, along with a thorough explanation of each prototyping stage and its associated advantages. The effectiveness of the suggested approach for 50W rated power flyback converter in terms of quick algorithm development, system simulation, real-time control implementation and controller design accuracy is analyzed and shown by experimental results. The results show that the performance of the designed controller for the flyback converter is almost the same as in MIL and SIL implementation in terms of the overshoot and settling time in the reference voltage tracking. On the other hand, in the PIL implementation, the overshoot performance of the controller deviates by 1.18% more than in SIL and MIL implementation. These also confirm that the flyback control system's performance is reliable and effective during all phases of development.
KW - Flyback converter
KW - Model-In-The-Loop
KW - Processor-In-The-Loop
KW - Rapid prototyping
KW - Software-In-The-Loop
UR - http://www.scopus.com/inward/record.url?scp=85196156503&partnerID=8YFLogxK
U2 - 10.35378/gujs.1342626
DO - 10.35378/gujs.1342626
M3 - Article
AN - SCOPUS:85196156503
SN - 1303-9709
VL - 37
SP - 701
EP - 716
JO - Gazi University Journal of Science
JF - Gazi University Journal of Science
IS - 2
ER -