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NAAS Journal 2026

International Journal Of Engineering, Business And Management(IJEBM)

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  3. Vol-10,Issue-2, April - June 2026
  4. IoT-Based Regenerative Braking System

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IoT-Based Regenerative Braking System

Tarun Naruka , Kunal Sundesha , Deepak Kumar , Aakash Mahawar


International Journal of Engineering, Business And Management(IJEBM), Vol-10,Issue-2, April - June 2026, Pages 6-8 , 10.22161/ijebm.10.2.2

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Article Info: Received: 19 Mar 2026; Received in revised form: 17 Apr 2026; Accepted: 21 Apr 2026; Available online: 25 Apr 2026

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Regenerative braking is an advanced energy recovery technique that converts kinetic energy into electrical energy during braking. In conventional systems, this energy is dissipated as heat, leading to significant energy loss and reduced efficiency. This paper presents the design and implementation of an Internet of Things (IoT)-based regenerative braking system using an ESP32 microcontroller. A Permanent Magnet DC (PMDC) motor is used to simulate regenerative braking by operating in generator mode during deceleration. The generated electrical energy is rectified using a diode-based rectifier circuit, filtered using a capacitor, and scaled down using a voltage divider for safe measurement. The ESP32 reads the processed voltage and environmental data from an LDR sensor, and transmits the data to an IoT platform via WiFi for real-time monitoring. The proposed system demonstrates a low-cost, efficient, and scalable approach for energy recovery and smart monitoring applications

Regenerative braking, ESP32, IoT, LDR sensor, Blynk

[1] S. Author, “Regenerative braking systems: A review,” Renewable Energy Reviews, 2024.
[2] A. Researcher, “Design and fabrication of regenerative braking system,” IJRESM Journal, 2023.
[3] B. Author, “IoT-based monitoring using ESP32,” International Journal of Engineering Research, 2025.
[4] C. Author, “Energy recovery systems in EVs,” IEEE Transactions on Energy Conversion, 2022.
[5] Tushar L. Patil, Rohit S. Yadav, Abhishek D. Mandhare, Mahesh Saggam, Ankul Pratap,‘Performance Improvement of Regenerative braking system’, International.
[6] C. Jagadeesh Vikram, D. Mohan Kumar, Dr. P. Naveen Chandra, ‘Fabrication of Regenerative Braking System’, International Journal of Pure and Applied Mathematics Volume 119, (2018).
[7] A. Eswaran, S Ajith, V Karthikeyan, P Kavin, S Loganandh, ‘Design and Fabrication of Regenerative Braking System’, International Journal of Advance Research and Innovative Ideas in Education-Vol-4 Issue-3 (2018).

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