Applications of power semiconductor technology for the control and conversion of electric power in: electric machine drives; all forms of transport; manufacturing; heating; lighting; building services and industrial scale power conditioning.
Circuits commonly used including: all types of converters; inverters; active filters; switched mode power and uninterruptible power supplies.
Performance management of power electronic systems including: power factor correction and harmonic spectrum management; thermal management; EMC and noise mitigation; fusing and protection.
Techniques for controlling, analysing, modelling and/or simulation of power electronics circuits and complete power electronic systems
Devices used in power electronic applications including: power semiconductor devices; photovoltaic devices; passive components; wound components; batteries and fuses.
Circuits commonly used including: all types of converters; inverters; active filters; switched mode power and uninterruptible power supplies.
Acoustics Sound in the Time Domain, Sound in the Frequency Domain, Digitized Sound, Describes and pictures digitized sound, Sampling Rate, Shows effects of sampling rate and aliasing, Sample Resolution, Shows effects of reduced sample, Synthesis of Speech
Acoustics Primer Sound, Speed of Sound, Sound Waves, Frequency, Amplitude, Wave shape, Phase, Resonance, Reflection, Reverberation, Standing Waves, How the Ear Works, Pitch and Tuning, Loudness, Timbre, Localization, Music Cognition, References, Acoustics, Studio Gear, MIDI, Synthesis, Digital Audio, to understand the relationship of noise to sound; the physical properties of sound; the terms used to describe sound waves; the relationship between sound pressure, sound intensity and sound power; the way sound waves propagate
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