Desain Kontrol Multi – Input DC–DC Converter Sistem Hibrid Turbin Angin dan Sel Surya Menggunakan Kontrol Fuzzy Logic untuk Tegangan Rendah

Feby Agung Pamuji, Soe Dibyo


this paper describes a hybrid system that consist of  Wind Turbines and Photovoltaic to supply electricity continuously for  load. Output of Wind Turbines and Photovoltaic is controlled in order to generate maximum power. Multiple-input dc-dc converters is used to control power flow in order to have MPP (Maximum Power Point). Converter control using Fuzzy logic controller to control the output in order to be obtained MPP (Maximum Power Point) from Wind Turbines and Photovoltaic, so the efficiency of wind turbines and photovoltaic can be improved.

Keywords : Maximum Power Point, Hybrid System, Fuzzy logic controller

Abstrak—Dalam makalah ini diuraikan sistem hibrid yang menggabungkan Turbin Angin dan Photovoltaic untuk memasok listrik terus-menerus pada beban. Output dari Turbin Angin dan Photovoltaic diatur agar menghasilkan daya yang maksimum. Konverter multiple-input buck-boost dc-dc digunakan untuk mengatur aliran daya agar didapatkan MPP(Maximum Power Point). Kontrol konverter menggunakan Fuzzy Logic controller untuk mengkontrol output sehingga didapat MPP(Maximum Power Point) dari Turbin Angin dan Photovoltaic, sehingga effisiensi dari Turbin Angin dan Photovoltaic dapat ditingkatkan.

Kata Kunci : Maximum Power Point, system hibrid, Fuzzy Logic controller


Full Text:



Nabil A.A, Masafumi Miyatake,A.K.Al-Othman, Power Fluctutions Suppression Of Stand-Alone Hybrid Generation Combining Solar Photovoltaic/Wind Turbine And Fuel Cell, Science Direct (2008).

Syafaruddin,Engin Karatepe,Takashi Hiyama, Polar Coordinated Fuzzy Controller Based Real-Time Maximum-Power Point Control Of Photovoltaic System, Science Direct (2009).

F.Almonacid, C.Rus,P.J .Perez, L.Hontoria, Estimation Of The Energy Of PV Generator Using Artificial Neural Network, ScienceDirect(2009).

Yusuf Oner, Engin Cetin,Harun Kemal Ozturk,Ahmet Yilanci, Design Of Three Degree Of Freedom Spherical Motor For Photovoltaic-Tracking Systems, Science Direct (2009).

Yulin He, Xinping Chen, Wind Turbine Generator System.The Supply Chain In China :Status And Problems, Science Direct (2009).

Wissem Zghal, Gueorgui Kantchev, Hedi Kchaou, Optimization And Management Of Energy Produced By A Wind Energizing System, Science Direct (2010).

Y.-M. Chen, S.-C Hung,C-S.Cheng , and Y.-C.Liu , Multi-Input Inverter For Grid-Connected Hybrid PV/Wind Power System , IEEE (2005).

Chian-song Chiu , T-S Fuzzy Maximum Power Point Tracking Control of Solar Power Generation Systems.

Muldi Yuhendri , Mochamad Ashari , dan Mauridhi Hery Purnomo , Maximum Output Power Tracking dengan Metode Direct Field Oriented Control Pada Pembangkit Listrik Tenaga Angin Stand Alone , Seminar Nasional XIV - FTI-ITS (2009).

Soedibyo, Feby Agung Pamuji and Mochamad Ashari, Grid Quality Hybrid Power System Control of Microhydro, Wind Turbine and Fuel Cell Using Fuzzy Logic, International Review on Modelling and Simulations (I.RE.MO.S), Vol 6, No 4, Agust 2013, pp 1271 - 1278, Indexed in Scopus, ISSN : 1974 - 9821 / e-ISSN : 1974 - 983X

Dedy Kurnia Setiawan, Mochamad Ashari, Mauridhi Hery Purnomo, Modified Synchronous Reference Frame untuk Pengendalian Inverter Empat Lengan pada Sistem Hibrida Generator Diesel dan Battery dengan Beban Tidak Seimbang, JITEE (Journal of Information Technology and Electrical Engineering), vol. 2, no. 1, April 2010.



  • There are currently no refbacks.

Creative Commons License
This work is licensed under a Creative Commons Attribution 3.0 License.




 Statistic and Traffic