The design of a two-row rice harvest machine that has a weight of 65.26 kg has been designed and has worked well with a harvest speed of 20.33 hours per hectare, but the optimization of battery power to drive an electric motor needs to be studied, because the time needed to charge a battery 12 volts 45 AH to the full using a 50 watt peak solar panel is 10.8 hours considered not yet effective, so in this study optimization was carried out using two solar panel units in a horizontal position and arranged in parallel on the mini rice harvesting machine. Measurement of the output current and voltage when connected and not connected to the battery will be measured to determine the electric current received by the battery from the solar panel. The results show that the measurement data that have been made are relatively fluctuating due to weather conditions, but in general it can be concluded that the average voltage of solar panels will rise to 80% if arranged in parallel using two solar panel units and if a series of two solar panels is connected to the battery, the voltage will drop by 25%. For the condition of electric current data using one solar panel will produce an average electric current of 18 mA and if using a series of two electric panels will rise an average of 3.8 times in conditions not connected to the battery. And if it is connected to a battery using two solar panels then the electric current will drop an average of 2.8 times

Keywords— voltage, current, solar panel, harvesting machine

Dewa Ketut Sadra Swastika, 2012, Teknologi Panen Dan Pascapanen Padi: Kendala Adopsi Dan Kebijakan Strategi Pengembangan, Jurnal Analisis Kebijakan Pertanian, Pusat Sosial Ekonomi dan Kebijakan Pertanian, Bogor

Susanto, H., Bakar, A., & Syuhada, S. (2017). Rancang Bangun Mesin Pemotong Padi Multifungsi. Jurnal Mekanova: Mekanikal, Inovasi dan Teknologi, 3(1).

Amirrullah, J., 2016. Efesiensi Penggunaan Alat Mesin Panen Padi Combine Harvester pada Lahan Sawah Pasang Surut di Kabupaten Banyuasin Sumatera Selatan, Seminar Nasional Lahan Suboptimal 2016, 20-21 Oktober 2016, Balai Pengkajian Teknologi Pertanian Sumatera Selatan, Palembang.

Mule, AB. Et al., 2018. Design and Fabrication of Harvesting Machine. International Research Journal of Engineering and Technology, Vol 05 Issue 01, India

Susanto, H., 2018, Desain dan Manufaktur Teknologi Tepat Guna Pedesaan, Bandar Publishing, Banda Aceh

Susanto, H. 2018. Rancang Bangun Mesin Panen Padi Mini Dua Lajur dengan Motor Penggerak Tenaga Surya, Prosiding Semnastek (2018), 17 Oktober 2018, Universitas Muhammadiyah Jakarta.

Gebre, T., et al., 2016. Design of Mechanical TEF Harvesting Machine, International Journal of Advance Research in Science and Engineering, Vol 5 issue 05, 522-530.

Susanto, H., Supardi J., & Huzin, Z., 2019. Modification of Two-lane Mini Rice Harvesting Machine, Seminar Nasional Tahunan Teknik Mesin (SNTTM) XVIII, 9-10 Oktober 2019, Universitas Trisakti, Jakarta.