Wind is an energy source that never runs out because the wind always blows on the surface of the earth until whenever the wind is used as a wind power plant (wind) as a wind energy conversion system, according to Savonius wind turbine technology with wind characteristics in some areas where the turbine is used, because of the construction Different turbines have different characters in their application. For this reason, utilizing wind energy requires the installation of a wind turbine to convert wind into electrical energy. In the design and manufacture process of the Savonius wind turbine, wind speed was measured at the research location, namely 1.5 m/s to 5.5 m/s, the Savonius wind turbine used 3 blades with type U with a height of 80 cm and a diameter of 40 cm. The magnitude of the high voltage occurred on day 2 of 2.91 volts on average per day with a current of 176.53 mA and the lowest voltage occurred on day 7 of 2.64 volts with a current of 178.37 mA, From the calculations carried out in the study This is obtained by wind power of 2.364 watts, generator power of 0.578 watts, the efficiency of the tool that has been made is 39.4% with a wind speed of 2.88 m/s.

Alit, I.B, Nurchayati, S.H. Pamuji. 2016. Turbin Angin Poros vertical tipe Savonius Bertingkat Dengan Variasi posisi Sudut. Teknik Mesin, Fakultas Teknik, Universitas Mataram, NTB.

Lumbanraja.A, Rozeff Pramana, ST., MT., Deny Nusyirwan, ST., M.Sc., 2017. Perancangan Pembangkit Listrik Tenaga Angin.

Mahendra, B., Rudi.S., Djoko, S., 2013, Pengaruh Jumlah Sudu Terhadap Unjuk Kerja Turbin Angin Savonius Type L, Universitas Barawijaya, Malang.

Mahmoud, N. H., et al. "An Experimental Study On Improvement Of Savonius Rotor Performance." Alexandria Engineering Journal 51.1 (2012): 19-25.

Nusyirwan.Z., Rakiman “Kajian eksperimental pengaruh jumlah sudu terhadap torsi dan putaran turbin savonius type U” Politeknik Negeri Padang.

Putranto. 2011, Rancang Bangun Turbin Angin Vertikal Untuk Penerangan Rumah Tangga, Universitas Diponegoro.

Ramar, S. K., Seralathan, S., & Hariram, V. (2018). Numerical analysis of different blade shapes of a Savonius style vertical axis wind turbine. International Journal of Renewable Energy Research (IJRER), 8(3), 1657-1666.

Sanusi.A., Soeparman.S., Wahyudi.S., Yuliati.L.. 2017. Performance Analysis of A Combined Blade Savonius Wind Turbines.

Teguh.D.R, Ahmadi.N. 2016. Rancang Bangun Turbin Angin Savonius 200 Watt. Seminar Nasional, Yogyakarta: Jurusan Teknik Elektro, Sekolah Tinggi Teknologi Adisutjipto.