Algoritma Incremental Conductance dan Perturbation Observation Sebagai Kendali MPPT PLTS 1000Wp


  • Handoko Rusiana Iskandar Universitas Jenderal Achmad Yani
  • Yuda Bakti Zainal Universitas Jenderal Achmad Yani
  • Susanto Sambasri Universitas Jenderal Achmad Yani
  • M. Haris Yogi Ernanda Universitas Jenderal Achmad Yani



DC/DC Boost converter, , PV, MPPT, incremental conductance, perturbation & observation


Nowadays, electricity consumption in Indonesia still rising the future, as fuel cell energy reserves continue to decline, this has pushed people to switch to new and renewable energy which guarantees the availability of new electricity sources. A Photovoltaic system has been installed in the Electrical Engineering Laboratory with a capacity of 1 kWp. The PV system is proposed as a new source of electricity to support the electricity needs of laboratories other than PLN. This paper compares the modeling that has been done using the Maximum power point tracking (MPPT) algorithm namely Incremental Conductance (IC) and Perturbation & Observation (P&O) in Standard Test Condition (STC) of 1000 W/m2 and a temperature of 25ËšC. The control simulation of the MPPT DC / DC Boost Converter is calibrated to satisfy the 220V/50 Hz PLN grid. The simulation results the MPPT control with the P&O algorithm has output power of 960 W and an efficiency of 99,9 % when using the IC process has 944 W and an efficiency of 98,7%. The P&O was selected to have optimum performance relative to the IC approach in the 1000 Wp PLTS system in the Electrical Engineering Laboratory.


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Author Biographies

Handoko Rusiana Iskandar, Universitas Jenderal Achmad Yani

Teknik Elektro

Yuda Bakti Zainal, Universitas Jenderal Achmad Yani

Teknik Elektro

Susanto Sambasri, Universitas Jenderal Achmad Yani

Teknik Elektro

M. Haris Yogi Ernanda, Universitas Jenderal Achmad Yani

Teknik Elektro


Abdourraziq, M. A., Ouassaid, M., Maaroufi, M., & Abdourraziq, S. (2013). Modified P&O MPPT technique for photovoltaic systems. In Proceedings of 2013 International Conference on Renewable Energy Research and Applications, ICRERA 2013 (pp. 728–733).

Ananthi, C., & Kannapiran, B. (2017). Improved design of sliding-mode controller based on the incremental conductance MPPT algorithm for PV applications. In Proceedings - 2017 IEEE International Conference on Electrical, Instrumentation and Communication Engineering, ICEICE 2017 (Vol. 2017–Decem, pp. 1–6).

Anowar, M. H., & Roy, P. (2019). A Modified Incremental Conductance Based Photovoltaic MPPT Charge Controller. In 2nd International Conference on Electrical, Computer and Communication Engineering, (ECCE) (pp. 1–5). Cox’sBazar: IEEE.

Farhat, M., Barambones, O., & Sbita, L. (2017). A real-time implementation of MPPT-based on P&O method. In International Conference on Electronic Devices, Systems, and Applications (pp. 1–5). Ras Al Khaimah: IEEE.

Hossain Ismail, Ahamed Shakil, Shahifullah Md, H. J. (2011). Design and Implementation of MPPT Controlled Grid Connected Photovoltaic System. In IEEE Symposium on Computers & Informatics (pp. 284–289). Kuala Lumpur: IEEE.

Iskandar, H. R., & Fakhri, Z. (2018). Optimum Tilt Angle and Near Shading Analysis for 1000 Watt Peak Photovoltaic Application System. In Seminar Nasional Sains dan Teknologi (pp. 1–12). Jakarta: Fakultas Teknik Univesitas Muhammadiyah Jakarta. Retrieved from

Iskandar, H. R., Sambasri, S., Saputra, D. I., Heryana, N., Purwadi, A., & Marsudiono. (2019). IoT Application for On-line Monitoring of 1 kWp Photovoltaic System Based on NodeMCU ESP8266 and Android Application. In 2nd International Conference on High Voltage Engineering and Power Systems (ICHVEPS) (pp. 230–234). Bali: IEEE.

Iskandar, H. R., Zainal, Y. B., & Purwadi, A. (2017). Studi Karakteristik Kurva I-V dan P-V pada Sistem PLTS Terhubung Jaringan PLN Satu Fasa 220 VAC 50 HZ menggunakan Tracking DC Logger dan Low Cost Monitoring System. In Seminar Nasional Penerapan Ipteks Menuju Industri Masa Depan (PIMIMD-4) (pp. 174–183).

Iskandar, H. R., Zainal, Y. B., & Sambasri, S. (2018). Study and Analysis of Shading Effects on Photovoltaic Application System. 1 St International Conference on Industrial Electrical and Electronics ( ICIEE ) International Board and Program Committee, 218(2004), 1–8.

Karina, A., & Satwiko, S. (2015). Studi Karakteristik Arus-Tegangan ( Kurva I-V ) pada Sel Tunggal Polikristal Silikon serta Pemodelannya. In Pertrmuan Ilmiah XXV HFI Jateng & DIY (pp. 163–166).

Naick, B. K., Chatterjee, T. K., & Chatterjee, K. (2017). Performance Analysis of Maximum Power Point Tracking Algorithms Under Varying Irradiation. International Journal of Renewable Energy Development, 6(1), 65.

Nejabatkhah, F., & Li, Y. W. (2015). Overview of Power Management Strategies of Hybrid AC/DC Microgrid. IEEE Transactions on Power Electronics, 30(12), 7072–7089.

Raharja, L. pradigta setiya, Eviningsih, R. P., Ferdiansyah, I., & Yanaratri, D. S. (2019). Perancangan Dan Implementasi DC-DC Bidirectional Converter Dengan Sumber Energi Listrik Dari Panel Surya Dan Baterai Untuk Pemenuhan Kebutuhan Daya Listrik Beban. JTT (Jurnal Teknologi Terpadu), 7(2), 111–118.

Selmi, T., Abdul-niby, M., & Davis, A. (2014). P&O MPPT Implementation Using MATLAB/Simulink. In Ninth International Conference on Ecological Vehicles and Renewable Energies (EVER) (pp. 1–4). Monte-Carlo: IEEE.

Shah, K. B., & Joshi, L. P. (2013). Comparative Analysis of Incremental Conductance Base MPPT for Multi-String Photovoltaic System. In Nirma University International Conference on Engineering (NUiCONE) (pp. 1–6).

Tiong Meng Chung, T. M. C., Daniyal, H., Sulaiman, M. H., & Bakar, M. S. (2017). Comparative study of P&O and modified incremental conductance algorithm in solar maximum power point tracking (Vol. 9, p. 43 (6 .)-43 (6 .)).

White, S. (2015). Solar Photovoltaic Basics: A Study Guide for the NABCEP Entry Level Exam. New York: Routledge, ISBN No 978-1-315-77011-6

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How to Cite

Iskandar, H. R., Yuda Bakti Zainal, Susanto Sambasri, & M. Haris Yogi Ernanda. (2020). Algoritma Incremental Conductance dan Perturbation Observation Sebagai Kendali MPPT PLTS 1000Wp. Jurnal Teknik: Media Pengembangan Ilmu Dan Aplikasi Teknik, 19(2), 79–89.