POWER ELECTRONICS DESIGN AND TESTING

We utilize our infrastructure & knowledge to impart industry relevant skill

Course Content

  • Class room training on fundamentals of semi-conductor devices (BJT, MOSFET, IGBT)
  • Class room training and testing of AC-DC & DC-DC converters
  • DC-DC Converter topologies:
    • Buck Converter (Synchronous and Asynchronous)
    • Boost Converter (Synchronous and Asynchronous)
    • Buck-Boost Converter (Synchronous and Asynchronous)
    • Inverting Buck-Boost Converter (Isolated and Non-Isolated)
    • Fly-back Converter (Isolated and Non-Isolated)
    • SEPIC converter                                                                 
  • AC-DC Converter topologies
    • Half bridge and Full bridge, PFC controlled and high efficiency converter
  • Components selection and design of magnetics (Inductor and Transformer)
  • Simulation of Voltage and Current waveforms for the design using PSPICE tool
  • Assembling, testing of the circuits in lab and board bring up.
  • Calculation of power loss for each components and estimating the loss budget and efficiency
  • Study on thermal analysis  and EMI/EMC analysis

Power electronics design and testing course

  • During the course of power electronics design and testing, students have to submit a number of assignments on various converters topologies and with complete design, BoM, analysis report, Power dissipation calculation and simulation waveforms.
  • Students are responsible for the PCB design and procurement of the required components
  • After assembling the components on the PCB, students need to test their design in lab and verify the results
  • Faculty is entrusted with not only giving the relevant assignments to the students, but also evaluating the assignments submitted by the students, and giving the needful corrections, clarifications and suggestions

Advantages on Power electronics course in OnFet

  • Training provided by industrial experts having working experience
  • Excellent Lab facilities with latest Instruments
  • Opportunity to learn all converter topologies with industrial standards
  • Opportunity to learn EMI/EMC concepts in lab
  • Analysis on thermal characteristics of components
  • Experience on simulation using PSPICE, LTSPICE, TINA & MAT LAB tools
  • Experience on Equipment handling
  • Experience on reverse engineering

Duration

  • Duration: 3 months
  • Weekdays - 5:30 PM - 8:30 PM
  • Weekend - 10:00 AM - 6:00 PM

Schematic

Power Supply Boards

Thermal Simulation Images

Simulation Wave Form