Entry requirements

130 credits in Science/Technology including Power Engineering and Power Electronics.

Learning outcomes

After a successfully completed course the students should be able to:

• generate a PWM signal using a microcontroller,
• use a microcontroller for analog and digital measurements,
• explain how a number of industrial sensors function,
• use the digital communication protocols I2C and SPI,
• model the thermal losses in an inverter,
• explain how a BLDC motor works,
• use power electronics for controlling a BLDC motor.

Content

Microcontroller structure, timers and interrupts. Digital communication (I2C and SPI). Analog to digital conversion.

Industrial sensors (Hall-effect, ultrasound, temperature). Thermal losses in semiconductors (diodes / IGBT / MOSFET). Use of the power electronics for the motor control. Function and control of electric motors (DC / BLDC).

Instruction

Lectures, laboratory exercises and project supervision.

Assessment

Written exam (3 credits), written report (1 credits) and a project demonstration (1 credit).