Design and Modelling of a CSC Converter with a variable DC link voltage to drive a Brushless DC Motor Drive

Project Code :TEPGED43

Objective

The main objective of this project is Dc and load voltage regulation and lesser components are considered. Eliminate the sparking, noise, electromagnetic interference (EMI).

Abstract

In this project, the design, modeling, and analysis of canonical switching cell converter (CSCC) fed brushless DC motor is proposed. CSCC converter is one of the advanced converter topology offering a variable DC link voltage enabling it to suit a multitude of applications. 

The modeled converter is employed to drive a BLDC motor and analyzed for different load conditions (Torque) and different DC link voltages to ensure the adaptability of the converter topology to suit a multitude of applications and conclusions has been drawn based on the analysis. The proposed topology is simulated in MATLAB/SIMULINK.

Keywords: canonical switching cell converter (CSCC), DC motor, DC link voltage, CUK converter, and ΞΆ converter.

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram

Specifications

Software Configuration:

Operating System :  Windows 7/8/10

Application Software :  Matlab/Simulink

Hardware Configuration:

RAM :  8 GB / 4 GB (Min)

Processor :  I3 / I5(Mostly prefer)

Learning Outcomes

  • Introduction to Matlab/Simulink
  • What is EISPACK & LINPACK
  • How to start with MATLAB
  • About Matlab language
  • About tools & libraries
  • Application of Matlab/Simulink
  • About Matlab desktop
  • Features of Matlab/Simulink
  • Basics on Matlab/Simulink
  • Introduction to motors.
  • Study of brush less DC Motor.
  • Design of brush less DC Motor.
  • Design of canonical switching cell converter.
  • Introduction to electrical drives.
  • Study of power converters.
  • Introduction to controllers.
  • We can learn about synchronous reference frame theory.
  • We can learn about Clark’s transformation.
  • Design of pi controller.
  • Introduction to the types of filters.
  • Introduction to closed loop, open loop control methods.
  • Study of PWM techniques.
  • Study of different types of loads.
  • Design of PWM.
  • Project Development Skills:
    • Problem analyzing skills
    • Problem solving skills
    • Creativity and imaginary skills
    • Programming skills
    • Deployment
    • Testing skills
    • Debugging skills
    • Project presentation skills
    • Thesis writing skills

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