Dynamic Analysis of Power Electronic Converters, 5 cr

Tampere University

Teaching periods

Course code

EE.PEE.320

Language of instruction

English

Academic years

2021–2022, 2022–2023, 2023–2024

Level of study

Advanced studies

Grading scale

General scale, 0-5

Persons responsible

Responsible teacher:

Tomi Roinila

Responsible organisation

Faculty of Information Technology and Communication Sciences 100 %

Coordinating organisation

Electrical Engineering Studies 100 %

Defining averaged, linearized and state-space models of DC-DC converters operated in CCM. Solving steady-state operating point.
Solving small-signal transfer functions, defining two-port models for DC-DC converters and constructing and solving control block diagrams.
Using transfer functions to design stable feedback control utilizing the loop-shaping method. Validating control performance using simulator.

Symbolic analysis using MATLAB.
Understanding relations between time-domain and frequency-domain behavior using equivalent first and second-order system dynamics. The concept of dominant poles.
Nyquist contour and its relation to frequency-response of a loop gain. Controller realization.

Designing systems for specified time-domain performance. Control design constraints caused by RHP-zero. The effect of nonideal source and load to dynamic performance.
Analog and digital implementation of controllers. Origin of control delays in a DC-DC converter.

Learning outcomes

Prerequisites

Compulsory prerequisites

Learning material

Equivalences

Studies that include this course

Completion option 1

Completion of all options is required.

29.08.2023 – 18.11.2023

23.10.2023 – 25.11.2023