• Corpus ID: 212586800

REGENERATIVE BRAKING SYSTEM IN ELECTRIC VEHICLES

@inproceedings{Malode2016REGENERATIVEBS,
  title={REGENERATIVE BRAKING SYSTEM IN ELECTRIC VEHICLES},
  author={Soniya Malode and R. H. Adware},
  year={2016}
}
---------------------------------------------------------------------***--------------------------------------------------------------------Abstract – In this paper, a easy but useful method of regenerative braking in electric vehicle is proposed. Regenerative braking is an most excellent way for electric vehicle to expand their driving capabilities. The regenerative braking plays an vital part to maintain the vehicle’s strength and getting better energy. Electric vehicle’s use mechanical brake… 
No Paper Link Available
11 Citations
Highly Influential Citations
1
Background Citations
2

Figures from this paper

11 Citations

Citation Type

Citation Type

Regenerative braking of electric vehicles
TLDR
The paper is made with a purpose to inform in a concise way the essence of regenerative braking and different methods, utilized to accumulate recuperated energy.
A review study on energy harvesting systems for vehicles
The widespread and increasing consumption of fossil-based fuels as an energy source causes a rapid decrease of these natural sources, as well as an increase of pollution in the atmosphere. Fuel oil,
Review on Braking Energy Management in Electric Vehicles
TLDR
This review concerns the systematization of knowledge in one of the areas of the electric vehicle control, namely, the energy management issues when using braking controllers, and the braking process optimization is summarized from two aspects.
Research on Regenerative Braking Systems: A Review
Regenerative braking systems (RBS) are an effective method of recovering the energy released and at the same time reducing the exhaust and brake emissions of vehicles. This method is based on the
Research of Acceleration and Braking Modes of Electric Vehicles in MATLAB/Simulink
TLDR
The main objective is to develop a model and control system to study the energy flows in acceleration and braking modes and a different mathematical model is necessary to use entire system consisting of electric motor, electronic converters, gearbox and differential.
Fuzzy Logic Control of Electric Vehicles in Changing Braking Conditions
TLDR
The designed MATLAB/Simulink™ model concentrates on the gradient fuzzy logic control of braking torque under the tire-road friction uncertainty, and integrity of both the gradual and the urgent antilock braking processes is ensured based on a united approach with the agreed actions.
International Journal of Recent Technology and Engineering (IJRTE)
Electric three-wheelers are now a day's becoming an emerging trend in the ecumenical market. Sundry manufacturers are coming into the market with different variants of electric three-wheelers. This
Energy Harvesting through Regenerative Braking using Hybrid Storage System in Electric Vehicles
  • Jinsy Hamid, R. Sheeba, S. Sofiya
  • Engineering
    2019 IEEE International Conference on Intelligent Techniques in Control, Optimization and Signal Processing (INCOS)
  • 2019
TLDR
Efficiency of the electric vehicles can be improved by Regenerative Braking (RB), and impulse current produced during RB can be efficiently harvested by employing HESS; this will improve the system performance.
Investigation of Thermal Response of Disc Brake System: A Review
A comprehensive review of the thermal response of disc brake system has been made. Extensive research has been carried out on the operating problems, the material for the rotor, design of the rotor
Modelling of DC/DC Bidirectional Converter for Electric Vehicles Application
TLDR
A model of a DC/DC bidirectional converter for electric vehicles applications is developed for educational purposes.
...
1
2
...

References

SHOWING 1-10 OF 12 REFERENCES
Studies of regenerative braking in electric vehicle
  • M.K Yoong, Y. Gan, K. Chew
  • Engineering
    2010 IEEE Conference on Sustainable Utilization and Development in Engineering and Technology
  • 2010
Generally the braking system for a car is based on hydraulic braking technology. However, this traditional braking methodology causes a lot of energy wastage since it produces unwanted heat during
Compact regenerative braking scheme for a PM BLDC motor driven electric two-wheeler
  • P. B. Bobba, K. Rajagopal
  • Engineering
    2010 Joint International Conference on Power Electronics, Drives and Energy Systems & 2010 Power India
  • 2010
Regenerative method of braking of an electric vehicle (EV) helps in efficient utilization of the battery power to increase the range of the vehicle. Methods described in literature for the
Modeling and analysis of hybrid energy storage systems used in Electric vehicles
  • P. B. Bobba, K. Rajagopal
  • Engineering, Environmental Science
    2012 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES)
  • 2012
This paper deals with the design and modelling aspects of hybrid energy storage system (HESS) used in Electric vehicles. Modelling of HESS includes modelling of battery, Ultra-capacitor and the
Regenerative braking control for light electric vehicles
In this paper, a cost effective single stage bidirectional DC/AC converter is designed and implemented using a general full-bridge inverter without any additional power switches or bulky passive
An Introduction to Regenerative Braking of Electric Vehicles as Anti-Lock Braking System
Anti-lock braking systems (ABS) are well known in the automotive industry as one of the most critical active safety systems. ABS improves vehicle safety by reducing longitudinal breaking distance.
Regenerative braking of series-wound brushed DC electric motors for electric vehicles
The most widely used configuration of DC machines is series-wound type. The main advantages are simpler control system design and no separately excited field windings. However, the use of DC motors
Rotating inertia impact on propulsion and regenerative braking for electric motor driven vehicles
  • J. Lee, D. Nelson
  • Engineering
    2005 IEEE Vehicle Power and Propulsion Conference
  • 2005
A vehicle has several rotating components such as a traction electric motor, the driveline, and the wheels and tires. The rotating inertia of these components is important in vehicle performance
Switched robust control of regenerative braking of electric vehicles
The robust control of regenerative braking of electric vehicles is presented based on the switched system theory in this paper. The continuous state variables and discrete-event state variables
Optimal Sizing of Energy Storage for Regenerative Braking in Electric Railway Systems
The problem of optimally sizing hybrid energy storage systems (HESS) installed in electric railway systems, considering the effect of regenerative braking is studied in this paper. HESSs combine
Regenerative braking in induction motor drives in applications to Electric Vehicles
Electric traction is a promising technology that can bring out significant improvement in vehicle performance, fuel efficiency and energy utilization. The energy management in the traction system can
...
1
2
...