Modeling and simulation of the transmission system for a chainless electric bicycle
Tutor / Supervisor
Student
Garcia Farreny, Alex
Document type
Bachelor thesis
Date
2015
rights
Open Access
Publisher
Universitat Politècnica de Catalunya
UPCommons
Abstract
This project, entitled Modeling and Simulation of the Transmission System for a Chainless
Electric Bicycle, consists in the design of the controllers' logics governing a chainless electric
bicycle's transmission in order to accomplish certain behavior in front of inputs such as
pedaling torque, slope gradient, frontal wind, gear selected, etc.
To better understand it, a chainless electric bicycle replaces the conventional mechanical
transmission (chain) by two electric machines; one in-hub motor working as a propulsion
electric drive to move the bicycle and the other electric machine between the two pedaling cranks
working as a generator to supply energy coming from the rider to the system. Then, each machine is
controlled by a controller+power converter system. Besides, a battery is placed to act as an
energy balancer whenever there is exceeding energy supplied by the generator or there is energy
lack coming from the pedals and required by the motor.
The main goal of the project is to design a system that could emulate a conventional bicycle in
terms of cyclist feedback when riding it. One of the main problems of actual chainless electric
bicycles is that the feeling of torque and speed in the rear wheel does not always correspond to
the action being carried out in the pedals.
Moreover, the controllers are optimally designed, and a set of riding modes (both emulating
conventional bicycles and new modes thanks to the chainless proposed topology) are designed to show
the great possibilities this kind of bicycles can offer in front of other commuting vehicles.
The project summarizes as follows:
- Research of similar options currently in the market and their weaknesses.
- Mathematical model creation of the system.
- Design of control algorithms for the electrical drives.
- Complete system behavior checking with Matlab/Simulink.
- Riding modes definition.
Finally, some conclusions are presented and future related projects are brought forward to
give an idea of the opportunities a chainless electric bicycle can bring.
