Segway is an innovation that utilizes an inverted pendulum model placed on top of a wheeled platform to create a transportation device capable of balancing itself. This research aims to investigate the balance and speed control settings on the Segway. The objectives are to address the balance issues of the Segway and determine the working system used. The study involves the analysis of components, circuitry, and mechanical design to overcome existing challenges. A BLDC (Brushless Direct Current) motor is employed to maintain the Segway's stability while in an upright position. An MPU-6050 sensor functions as a readout for the Segway's angle and position under various conditions. The control system used is Proportional Integral Derivative (PID). The PID method is applied using angle data from the MPU-6050 sensor to maintain balance on the Segway. This helps reduce errors and makes the Segway's movements smoother and more stable. In this research, the Segway can move after self-balancing with a maximum tilt angle of 30º. The PID values used are Kp = 48, Ki = 3.5, and Kd = 1.6.

Maarif A, Puriyanto RD, Hasan FRT. Robot Keseimbangan dengan Kendali PID dan Kalman Filter. It J Res Dev. 2020;4(2):117–27.

Zaini I, Khoswanto H, Pasila F. Prototipe Balancing Robot Dengan Metode Kendali PID. J Elektro Petra. 2017;10(1):34–9.

MA’ARIF A, ISTIARNO R, SUNARDI S. Kontrol Proporsional Integral Derivatif (PID) pada Kecepatan Sudut Motor DC dengan Pemodelan Identifikasi Sistem dan Tuning. ELKOMIKA J Tek Energi Elektr Tek Telekomun Tek Elektron. 2021;9(2):374.

Fathoni K, Pratama AP, Salim NA, Sulistyawan VN. Implementasi Kendali Keseimbangan Gerak Two Wheels Self Balancing Robot Menggunakan Fuzzy Logic. J Tek Elektro. 2021;13(2):89–97.

Mudeng V, Hassanah B, Priyanto YTK, Saputra O. Design and Simulation of Two-Wheeled Balancing Mobile Robot with PID Controller. Int J Sustain Transp Technol. 2020;3(1):12–9.

Sidqi R, Suprianto B. Rancang Bangun Stabilisasi Sistem Pendulum Terbalik Berbasis Pengendali PID. Univ Negeri Surabaya. 2017;Volume 7:137–46.

Kusriyanto M, Zulpian. Rancang Bangun Prototype Segway Mini Balancing Robot Dua Roda dengan Kendali Pid. SENTRA - Semin Teknol dan Rekayasa. 2015;4:56–61.

Pinto LJ, Kim DH, Lee JY, Han CS. Development of a Segway robot for an intelligent transport system. 2012 IEEE/SICE Int Symp Syst Integr SII 2012. 2012;710–5.

Firdaus F, Prasetya DA, Wahyuni DHS, Dirgantara W. Implementasi System Control Pid Pada Kendaran Skuter Listrik Dua Roda Sejajar. JASIEK (Jurnal Apl Sains, Informasi, Elektron dan Komputer). 2019;1(1):66–72.

Ramdhani M, Ekaputri C, Elektro FT, Telkom U. Perancangan Dan Implementasi Sistem Kendali Gerak Pada Universitas Telkom ( Design and Implementation of Control System Driving Self Balance Scooter on Two-Wheels Using Pid Based on Microcontroller ). 2016;3(2):1327–35.

Fikri M, Prasetio B, Maulana R. Perancangan Dan Implementasi Real Segway Pada Skateboard Roda Satu Menggunakan Gyroscope Dan Accelerometer. J Pengemb Teknol Inf dan Ilmu Komput Univ Brawijaya [Internet]. 2017;1(1):1–9. Tersedia pada: http://j-ptiik.ub.ac.id/index.php/j-ptiik/article/view/12

Chantarachit S. Development and control segway by LQR adjustable Gain. 2019 Int Conf Inf Commun Technol ICOIACT 2019. 2019;649–53.

Draz MU, Ali MS, Majeed M, Ejaz U, Izhar U. Segway electric vehicle. 2013;34–9.

Gajjar PR. Segway SEGWAY ( 2 WHEEL BALANCING VEHICLE ): Project Report SEGWAY ( 2 WHEEL BALANCING VEHICLE ): Project Report Submitted By : GUIDED BY : MR . HARDIK R RATHOD In partial fulfilment for the award of the DIPLOMA IN. 2018;(May):0–31.

Budiarto H, Triwidyaningrum V, Umam F, Dafid A. Implementation of Automatic DC Motor Braking PID Control System on ( Disc Brakes ). 2023;4(3):371–87.

R. M. Yusron, R. M. Bisono, and M. Pramudia, “Effect Electrolyte Temperature and Electrode Distance to Electroplating Hard-Chrome on Medium-Carbon Steel,” in Journal of Physics: Conference Series, Institute of Physics Publishing, Jul. 2020. doi: 10.1088/1742-6596/1569/4/042007.