PLTGU is a gas and steam power plant, producing electrical energy of 3x526 MW. The PLTGU generation process has several supporting components, one of which is a three-phase induction motor. It requires a balanced three-phase supply voltage in its operation. The problem that frequently occurs is unbalanced voltage supply, causing an imbalance of current going to the motor stator, if not directly corrected. It causes a high temperature on the motor, possible to cause a fire. Based on the problems, a system for monitoring the protection of steam pump motorcycles due to voltage unbalance based on the Internet of Things is designed.  It used a 1-phase AC Adapter voltage sensor, a current sensor SCT-013, an Arduino Uno as the processor, and a web to display the system. The test results showed that the sensor could work well. It could read voltage with an error percentage not exceeding 1%. The percentage error of the current sensor SCT-013 was 5.15%, but the value difference between the sensor and the Avo meter was 0.01. The system was displayed on the web to make to monitor the motor condition more easily

Z. Muhammad, Z. M. Yusoff, M. H. F. Rahiman, and M. N. Taib, “Steam temperature control for steam distillation pot using model predictive control,” in 2012 IEEE 8th International Colloquium on Signal Processing and its Applications, 2012, pp. 474–479.

H. Hosseini, A. Boudaghi, A. Mehri, S. F. Torabi, and H. Farshbar, “Mitigating SSR in Hybrid System with Steam and Wind Turbine by UPFC,” in 2012 Proceedings of 17th Conference on Electrical Power Distribution, 2012, pp. 1–6.

H. Yang, S. Chang, and R. Wu, “Analysis of the Sliding Pressure Operation for Throttle Controlled Steam Turbine Generation Unit,” in 2012 Asia-Pacific Power and Energy Engineering Conference, 2012, no. 1, pp. 1–4.

C. Xiaobo, C. Yuting, L. Jianhong, Q. Wenwei, and D. Chengjian, “A block receding horizon control of reheated steam temperature system based on multi-objective optimization,” in 2012 Power Engineering and Automation Conference, 2012, pp. 1–5.

M. Yilmaz and N. R. Dhansri, “A Smart Grid Intelligent Control Framework,” in 2012 IEEE Green Technologies Conference, 2012, pp. 1–3.

A. Pietsch, G. Lynch, S. B. Sutherland, and T. W. G. Iii, “Enabling high-density energy storage: Design characteristics of Thermal Matrix Energy Storage and a highly conductive gas mixture,” in 2012 International Conference on Smart Grid (SGE), 2012, pp. 1–8.

J. Prinyakupt and T. Yootho, “Multichannel Temperature Monitor on IoT,” 2016 9th Biomed. Eng. Int. Conf., pp. 1–4, 20160.

P. Roy, J. Saha, N. Dutta, and S. Chandra, “Microcontroller based automated room light and fan controller,” in 2018 Emerging Trends in Electronic Devices and Computational Techniques (EDCT), 2018, pp. 1–4.

D. Chen et al., “Design of Temperature Intelligent Control System based on Transcranial Micro Current Depression Therapeutic Instrument,” in 2018 IEEE International Conference on Mechatronics and Automation (ICMA), 2018, pp. 1345–1349.

Y. Sanjaya, A. Fauzi, D. Edikresnha, M. M. Munir, and Khairurrijal, “Air temperature regulation in a chamber for rotary forcespinning,” in 2016 International Seminar on Sensors, Instrumentation, Measurement and Metrology (ISSIMM), 2016, pp. 28–31.

R. Jayswal, R. Gupta, and K. K. Gupta, “Patient health monitoring system based on Internet of Things,” in 2017 Fourth International Conference on Image Information Processing (ICIIP), 2017, pp. 1–4.

N. Pughazendi, R. Sathishkumar, S. Balaji, S. Sathyavenkateshwaren, S. S. Chander, and V. Surendar, “Heart attack and alcohol detection sensor monitoring in smart transportation system using Internet of Things,” in 2017 International Conference on Energy, Communication, Data Analytics and Soft Computing (ICECDS), 2017, pp. 881–888.

S. A. Kokalki, A. R. Mali, P. A. Mundada, and R. H. Sontakke, “Smart health band using IoT,” in 2017 IEEE International Conference on Power, Control, Signals and Instrumentation Engineering (ICPCSI), 2017, pp. 1683–1687.

M. A. Desima, P. Ramli, D. F. Ramdani, and S. Rahman, “Alarm system to detect the location of IOT-based public vehicle accidents,” in 2017 International Conference on Computing, Engineering, and Design (ICCED), 2017, pp. 1–5.

S. Coulter, M. Mostes, G. Lightbody, E. Popovici, and W. Fennell, “Low power IoT platform for vital signs monitoring,” in 2017 28th Irish Signals and Systems Conference (ISSC), 2017, pp. 1–5.

R. K. Kodali and K. S. Mahesh, “Smart emergency response system,” in TENCON 2017 - 2017 IEEE Region 10 Conference, 2017, pp. 712–717.

M. N. Rajkumar, S. Abinaya, and V. V. Kumar, “Intelligent irrigation system — An IOT based approach,” in 2017 International Conference on Innovations in Green Energy and Healthcare Technologies (IGEHT), 2017, pp. 1–5.

P. N. Crisnapati, I. N. K. Wardana, I. K. A. A. Aryanto, and A. Hermawan, “Hommons: Hydroponic management and monitoring system for an IOT based NFT farm using web technology,” in 2017 5th International Conference on Cyber and IT Service Management (CITSM), 2017, pp. 1–6.

K. Sujatha, N. P. G. Bhavani, T. K. Reddy, and K. S. R. Kumar, “Internet of things for flame monitoring power station boilers,” in 2017 Trends in Industrial Measurement and Automation (TIMA), 2017, pp. 1–7.

S. Sarkar, G. Ghosh, A. Mohanta, A. Ghosh, and S. Mitra, “Arduino based foot pressure sensitive smart safety system for industrial robots,” in 2017 Second International Conference on Electrical, Computer and Communication Technologies (ICECCT), 2017, pp. 1–6.

N. Pothirasan and M. P. Rajasekaran, “Automatic vehicle to vehicle communication and vehicle to infrastructure communication using NRF24L01 module,” 2016 Int. Conf. Control Instrum. Commun. Comput. Technol. ICCICCT 2016, pp. 400–405, 2017.

S. Silvirianti, A. S. R. Krisna, A. Rusdinar, S. Yuwono, and R. Nugraha, “Speed control system design using fuzzy-pid for load variation of automated guided vehicle (agv),” Proc. 2017 2nd Int. Conf. Front. Sensors Technol. ICFST 2017, vol. 2017–Janua, pp. 426–430, 2017.

R. K. A. Sakir, A. Rusdinar, S. Yuwono, A. S. Wibowo, Silvirianti, and N. T. Jayanti, “Movement control algorithm of weighted automated guided vehicle using fuzzy inference system,” 2017 2nd International Conference on Control and Robotics Engineering (ICCRE). IEEE, pp. 135–139, Apr-2017.

P. Ghosh, J. A. Tran, and B. Krishnamachari, “ARREST: A RSSI Based Approach for Mobile Sensing and Tracking of a Moving Object,” 2017.

V. Jaiganesh, J. Dhileep Kumar, and J. Girijadevi, “Automated guided vehicle with robotic logistics system,” Procedia Eng., vol. 97, no. December, pp. 2011–2021, 2014.

S. Barai, D. Biswas, and B. Sau, Estimate distance measurement using NodeMCU ESP8266 based on RSSI technique, vol. 2018–Janua. 2018.

A. De Angelis et al., “Design and Characterization of a Portable Ultrasonic Indoor 3-D Positioning System,” IEEE Trans. Instrum. Meas., vol. 64, no. 10, pp. 2616–2625, 2015.

M. Stusek, J. Pokorny, P. Masek, J. Hajny, and J. Hosek, “A non-invasive electricity measurement within the smart grid landscape: Arduino-based visualization platform for IoT,” in 2017 9th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT), 2017, vol. 2017-Novem, pp. 423–429.

S. U. Abdi, K. Iqbal, and J. Ahmed, “Development of PC-based SCADA training system,” in 2016 IEEE International Conference on Industrial Technology (ICIT), 2016, vol. 2016-May, pp. 1192–1197.

A. Khan, A. Al-Zahrani, S. Al-Harbi, S. Al-Nashri, and I. A. Khan, “Design of an IoT smart home system,” in 2018 15th Learning and Technology Conference (L&T), 2018, pp. 1–5.