Currently, many industries use DC power as a power supply for controller equipment, etc. All companies want their DC system to be reliable. One effort to maintain the reliability of the DC system is to monitor the leakage current in each branch of the DC system load. Leakage currents that occur if not discovered early on will gradually result in short circuit currents and instability of the DC system. This research wants to use the hall effect to detect leakage currents in branch loads using the difference in current in the positive (+) and negative (-) cables. Use the right-hand law for the direction of the magnetic field. Insert the positive (+) and negative (-) cables into the same Hall sensor where the resultant magnetic field will be 0 under normal circumstances and >0 or <0 if there is a leakage current in one of the cables. Because of this, the Hall effect can be used to detect leakage currents (Ground Fault) in DC systems. Another advantage of the Hall effect is that it monitors DC system leakage currents continuously while operating. 

Anantha Krishna, M. S., & Srinivasan, A. D. (2019). Detection of DC Ground Faults of Ungrounded DC System in Sub-Stations/Power Plants. International Journal of Recent Technology and Engineering (IJRTE). ISSN: 2277–3878 (Online), Volume-8, Issue-1, May 2019, pp. 2101–2106.

Dewi, S. D. T., Panatarani, C., & Joni, I. (2016, February). Design and development of DC high current sensor using Hall-Effect method. In AIP Conference Proceedings (Vol. 1712, No. 1). AIP Publishing. https://doi.org/10.1063/1.4941871

Liu, Y. C., & Lin, C. Y. (2012, October). Insulation fault detection circuit for ungrounded DC power supply systems. In SENSORS, 2012 IEEE (pp. 1-4). IEEE. 10.1109/ICSENS.2012.6411550.

“Leakage Current Measurement Sampling Sensor,” in JZ-MC-V Type Multi-Function Monitoring and Control Device Operation Instruction, Harbin: Harbin Jiuzhou Electric Co., Ltd. 2014, pp. 47-48.

Wang, Y., Liu, J. G., Zhao, J., & Yang, Y. (2012, May). Split core closed loop Hall effect current sensors and applications. In PCIM EUROPE International Exhibition and Conference for Power Electronics, Intelligent Motion, Power Quality, Nuremberg, Germany (pp. 1633-1638).

M Creff, F Faisant, J M Rubì, Jean-Eric Wegrowe. (2020). Surface currents in Hall devices. Journal of Applied Physics, 128, ff10.1063/5.0013182ff. ffhal-02936737f

Kinsler, Paul. (2020). "Faraday’s Law and Magnetic Induction: Cause and Effect, Experiment and Theory" Physics 2, no. 2: 150-163. https://doi.org/10.3390/physics2020009

Zubair, Abdul Rasak. (2020, November). Basic Concepts and Ohm’s Law. In book: Towards Understanding and Expertise in Applied Electricity: (Part 1) Fundamentals of Electrical and Electronic Engineering made simple (pp.1-16)Publisher: LAP LAMBERT Academic Publishing.