Technological progress has developed very rapidly along with the times. The hand tractor is a form of technological progress in agriculture. The use of hand tractors for processing agricultural land has replaced the function of buffalo in tillage activities because they are far superior in terms of effectiveness and efficiency. The hand tractor with a remote control system using flysky is the latest innovation created with the hope of increasing effectiveness and efficiency, as well as safety. and operator comfort in operating the hand tractor. With the application of solar panels as a charger for remote tractor control devices, this can save the use of electrical energy, this tool has proven successful in trials. Thus, this automated solution has the potential to increase productivity and efficiency in agriculture. System Performance When Using a Tractor. Through testing with 3 trials (6 hours, 7 hours, and 8 hours), the battery voltage remained above 12V. The combination of batteries and solar panels used ensures the system operates well during tractor use.

(Dzulfikar and Broto 2016) Dzulfikar, Dafi, and Vishnu Broto. 2016. "Optimizing the Use of Solar Electric Energy on a Household Scale." V:SNF2016-ERE-73-SNF2016-ERE-76. doi: 10.21009/0305020614.

Effenberger, F., and G. Kiefer. 1967. “Stereochemistry of the Cycloaddition of Sulfonyl Isocyanates and N‐Sulfinylsulfonamides to Enol Ethers.” Angewandte Chemie International Edition in English 6(11):951–52. doi: 10.1002/anie.196709511.

Finawan, Aidi, Muhaimin, Eliyani, and Hanafi. 2019. "Design and Build a Microcontroller-Based Remote Hand Tractor Controller Prototype." Lhokseumawe State Polytechnic National Seminar 3(1):A42–45.

Handson Technology. nd "Datasheet: Motor Driver L298N." Handson Technology 1–7.

Hidayat, Ta'lim Nur, and Sutrisno Sutrisno. 2021. "Power Output Analysis in Solar Power Plants with Capacity 10Wp, 20Wp, and 30Wp." Crankshaft Journal 4(2):9–18. doi: 10.24176/crankshaft.v4i2.6013.

Ratnasari, Desi Arista, Bambang Suprianto, and Farid Baskoro. 2022. "Monitoring Electrical Power on Solar Panels Based on Internet of Things (IoT) Using the Telegram Application." Indonesian Journal of Engineering and Technology (INAJET) 5(1):1–10.

Rizky, Ray Fathur, Ahmad Turmudi Zy, Aswan S. Sunge, Study Program, Informatics Engineering, Pelita Bangsa University, Bekasi Regency, and Smart Door Lock. 2023. "Smart Door Lock System Using Arduino-Based Voice Recognition." 4(2):239–44.

Simbar, Ritha Sandra Veronika, and Alfi Syahrin. 2017. "Blood Detection System Prototype Using Arduino Uno R3." Journal of Electrical Technology, Mercu Buana University 8(1):80–86.

Suparyanto and Rosad (2015. 2020. “Solar Panels.” Suparyanto and Rosad (2015 5(3):248–53.

Prasetyo, Kurnifan Adhi. 2018. "Development of a Solar Panel Charging Control Device Using Aduino Nano for Commercial Electric Bicycles." Journal of Electrical Education 2(1):50–58. doi: 10.21831/jee.v2i1.19947.

Pratama, Dhelmiga, and Asnil Asnil. 2021. "Realtime Solar Panel Monitoring System Based on Arduino Uno." MSI Transaction on Education 2(1):19–32. doi: 10.46574/mted.v2i1.46.

Priatam, Putu Pawitra Teguh Dharma. 2021. "Analysis of Sunlight Radiation on 50 WP Solar Panels." RELE:Journal of Electrical Engineering 4(1):48–54.

Kamal, Winda, Husain Syam, and Jamaluddin Jamaluddin. 2021. "Design of an Automatic Steering Control System for Two-Wheel Tractors Using FPV (First Person View)." Journal of Agricultural Technology Education 7(2):207. doi: 10.26858/jptp.v7i2.19057.

Hasrul, Rahmat. 2021. “Active Versus Passive Cooling Systems in Increasing Solar Panel Output.” Journal of Science, Energy, Technology & Industry 5(2):79–87.

Setiawan, Bambang, Sulis Yulianto, Thomas Junaedi, and Ilham Efendi. 2021. "Design and Construction of a Solar Cell Powered Field Tractor Plowing Machine Driven by Remote Control." Proceedings of the National Seminar on Science and Technology (November):1–12.