Power Electronics

Total Path Completion

Design and analyse switch-mode power supplies, inverters, motor drives, and energy conversion systems used in EVs, renewables, and industrial equipment.

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Phase 1: Circuit Foundations

Circuit Theory & Analysis

Build the circuit analysis toolkit required for all power electronics design work.

Power Semiconductor Devices

Understand the physics and datasheet specs of the switches used in modern power converters.

Magnetics Design

Design inductors and transformers that are the heart of every switched-mode power supply.

Phase 2: Converter Topologies

DC-DC Converter Topologies

Analyse and design buck, boost, and isolated converter topologies used everywhere in power systems.

Converter Control & Feedback

Design stable closed-loop feedback controllers for regulated power supplies.

Power Factor Correction (PFC)

Understand AC-DC front-end PFC stages used in all grid-connected equipment.

Phase 3: Motor Drives & Inverters

Inverter Design & Modulation

Design and analyse 3-phase inverter bridges used in motor drives, UPS, and solar inverters.

Field-Oriented Control (FOC)

Implement high-performance FOC for BLDC and PMSM motors used in EVs and industrial drives.

Phase 4: System Design & Testing

SPICE & Power Simulation

Simulate converter circuits before building hardware to validate design choices.

Power PCB Layout & Testing

Apply power-specific PCB layout rules and safely test high-voltage, high-current prototypes.