The development of defense equipment and military technology in the TNI-AL is carried out in order to support the strengthening of the National Defense Strategic Industry (Instranas). Several steps have been taken in the development of defense equipment and military technology in the TNI-AL, namely by carrying out research and development of defense equipment. One of them is conducting research on unmanned aerial vehicles (UAV). The use and development of unmanned aircraft was initially carried out by the military to carry out military and intelligence operations. To carry out reconnaissance functions to support maritime security operations, requiring long endurance, a Solar Cell Drone is designed by utilizing solar energy. Based on the results of the design and testing that have been carried out, the drone is able to fly as long as it gets a supply of solar energy, which is throughout the day with the main load on the propulsion system. The thrust value obtained is 1266.8 watts or the equivalent of 3,998 kg of thrust which is able to fly a drone with a weight of 6.7 kg. The control system developed uses the Pixhawk 4 flight controller and remote control, the data communication system uses Telemetry NRF24L01 2.4 GHz. The results of this design and test can be a pioneer in developing Solar Cell Drones for the independence of the Indonesian Navy's defense equipment in the future.

Alfiannor, A., Riyanti, L. E., & Kurniawan, A. (2022). Pengukuran Thrust dan RPM Propeller Motor Brushless pada Unmanned Aerial Vehicle (UAV). Langit Biru: Jurnal Ilmiah Aviasi, 15(01), 11-17.

Asworo, T. S. (2020). Rancang Bangun Platform dan Sistem Kontrol Pada Solar Cell UAV (Unmanned Aerial Vehicle). Surabaya: Sekolah Tinggi Teknologi Angkatan Laut (STTAL).

Ahmed, T., & Kurtulus, D. F. (2019). Technology Review of Sustainable Aircraft Design. Sustainable Aviation,137-152.

Muliady, M., & Subagya, E. J. (2019). Sistem Pemetaan Udara Menggunakan Pesawat Fixed Wing. TESLA: Jurnal Teknik Elektro, 21(1), 26-35.

Mustari, B., Supartono, S., & Barnas, R. (2018). Strategi pertahanan laut nusantara dalam mewujudkan indonesia sebagai poros maritim dunia. Strategi Perang Semesta, 4(2).

Nizar, T. N., Jatmiko, D. A., Hartono, R., & Pratama, A. I. G. (2021). Implementasi dan Uji Kinerja Kontrol PID untuk kestabilan Pesawat Tanpa Awak Tailsitter pada Keadaan Mengambang. Komputika: Jurnal Sistem Komputer, 10(1), 53-59.

Saroinsong, H. S., Poekoel, V. C., & Manembu, P. D. (2018). Rancang Bangun Wahana Pesawat Tanpa Awak (Fixed Wing) Berbasis Ardupilot. Jurnal Teknik Elektro dan Komputer, 7(1), 73-84.

Setiawan, D. I., Werijon, W., & Widyanto, D. (2019). Optimalisasi Diplomasi Tni Angkatan Laut Dalam Mendukung Kebijakan Indonesia Sebagai Poros Maritim Dunia. NUSANTARA: Jurnal Ilmu Pengetahuan Sosial, 9(1), 151-159.

Setiawan, T. A., Parastiwi, A., & Setiawan, B. (2020). Sistem Kontrol Pada Uav (Unmanned Aerial Vehicle) Glider Mode Ketinggian Untuk Menghadap Arah Angin. Jurnal Elektronika Otomasi Industri, 3(3), 62-69.

Supandi, A. (2018). Pembangunan Kekuatan TNI AL Dalam Rangka Mendukung Visi Indonesia Sebagai Poros Maritim Dunia. Jurnal Pertahanan & Bela Negara, 5(2), 1-24.

Tuuk, C. P., Poekoel, V. C., & Litouw, J. (2018). Implementasi Pengendali PID Untuk Kestabilan Posisi Terbang Wahana Tanpa Awak. Jurnal Teknik Elektro dan Komputer, 7(1), 53-62.

Yuri, E., Gunawan, D., & Barnas, R. (2018). Strategi Pangkalan TNI AL Banten Dalam Mendukung Pengamanan ALKI I. Strategi Perang Semesta, 4(2).

Zarbakhsh, S., & Sebak, A. R. (2022). Multifunctional Drone-Based Antenna for Satellite Communication. IEEE Transactions on Antennas and Propagation.

Zhang, W. W., Zhang, L. G., Yan, Z. W., & Wang, L. (2019). Structural Design and Difficulties of Solar UAV. In IOP Conference Series: Materials Science and Engineering (Vol. 608, No. 1, p. 012016). IOP Publishing.