Desain Closed-Loop Boost Converter Berbasis Voltage Lift Cell Untuk Implementasi Penguat Tegangan
DOI:
https://doi.org/10.33795/elposys.v9i2.619Keywords:
Boost Converter, Converter, Phovoltaic, PID controller, PSIMAbstract
In the Photovoltaic (PV) Cell, a dc-dc converter circuit is needed which functions to regulate and change the output of the Photovoltaic (PV) Cell. Conventional DC-DC boost converters are unable to provide a high step-up voltage boost due to the effects of switching power, rectifier diodes, and equivalent series resistance of inductors and capacitors. In this study, a closed loop design using a PID controller and analysis of a non-isolated boost dc-dc converter based voltage lift technique were carried out to achieve a high step-up voltage gain. In the presented converter two inductors, three capacitors and three power diodes are used. From this structure, this converter is referred to as a voltage lift cell-based boost converter. The structure of the presented converter is considered very simple, since it has only two stages of power. The voltage and current equations of each element with the converter voltage gain under continuous conduction mode (CCM) were extracted. In addition, the steady state analysis of the amplified stress and boundary conditions is discussed in this study. This boost converter circuit is simulated through the PSIM application. From the simulation results in the PSIM application, it is found that the boost converter circuit is able to increase the voltage from 100 V to 400 V and has an error value of 0. The specifications of the simulation results are a duty cycle of 0.6, and a frequency of 10,000 Hz.
References
Agustian, Indra. 2013. Definisi Sistem Kendali. 04 juni. Diakses Juli 15,2021.http://te.unib.ac.id/lecturer/indraagustian/2013/06/definisi-sistem-kendali/.
F.M. Shahir, E. Babaei, Mehran Sabahi, Sara Laali. (2015). A New DC-DC Converter Based on Voltage Lift Technique. Faculty of Electrical and Computer Engineering, University of Tabriz, Tabriz, Iran.
F.M. Shahir, E. Babaei, Murtaza Farsadi. (2019). Extended Topology for Boost DC-DC Converter. IEEE Trans. Power Elect, Iran.
F.M. Shahir, E. Babaei. (2017). Voltage-Lift Technique Based Non-Isolated Boost DC-DC Converter : Analysis and Design. IEEE Trans. Power Elect, Iran.
Hart, D.W. (2011). Power Electronics. New York: McGraw-Hill.
Ir. Chairuzzaini, 1998. Pengenalan Metode Ziegler – Nicholz pada Perancangan Kontroler pada PID. Diakses Juli 15, 2021. https://www.elektroindonesia.com/elektro/tutor12.html.
Ping Yang, Jianping Xu, Guohua Zhou, Shiyu Zhang. (2012). A New Quadratic Boost Converter with High Voltage Step-Up Ratio and Reduced Voltage Stress. Proceedings of 7th International Power Electronics and Motion Control Conference, Harbin: 2-5 Juni 2012. Hal. 1164-1168.
Preti Tyagi, V.C Kotak, V.P. Sunder Singh. (2014). Design High Gain Dc-Dc Boost Converter With Coupling Inductor And Simulation In Psim. Research Scholar [Etrx.], Dept of Electronics Engg, Shah &Anchor Kutchhi Engineering College, Mumbai India.
Venkata Ramaniah, Nair Syam, dkk. (2019). Design and Analysis of Voltage Lift Technique Based Boost DC-DC Converter. Department of Electrical Engineering, National Institute of Technology, Calicut Kerala, India-673601.
Ziegler, J. G. dan N.B. Nichols, 1942, Optimum Setting for Automatic Controllers, Tans. ASME, vol. 64, pp. 759-768
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