8226 modules
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ISVR6137 2026-27
Electroacoustics
Electroacoustic transducers, such as microphones and loudspeakers, are commonplace in the fields of acoustics and audio and it is important that acoustical engineers have an understanding of the theory and mechanisms of electroacoustic transduction. This module provides the knowledge to understand and predict the behaviour of a wide range of electroacoustic devices, and to relate this to real-world transducer technology. -
ISVR6137 2027-28
Electroacoustics
Electroacoustic transducers, such as microphones and loudspeakers, are commonplace in the fields of acoustics and audio and it is important that acoustical engineers have an understanding of the theory and mechanisms of electroacoustic transduction. This module provides the knowledge to understand and predict the behaviour of a wide range of electroacoustic devices, and to relate this to real-world transducer technology. -
PHYS2001 2026-27
Electromagnetism
Electromagnetism is one of the brilliant successes of nineteenth century physics and the equations formulated by Maxwell are believed to account exactly for all classical electromagnetic phenomena.
The aim of this course is to present the laws of electromagnetism, their experimental justification, and their application to physical phenomena. -
PHYS2001 2027-28
Electromagnetism
Electromagnetism is one of the brilliant successes of nineteenth century physics and the equations formulated by Maxwell are believed to account exactly for all classical electromagnetic phenomena.
The aim of this course is to present the laws of electromagnetism, their experimental justification, and their application to physical phenomena. -
ELEC2322 2027-28
Electronic and Computer Systems
This module provides a comprehensive understanding of how modern computer systems are built, starting from fundamental transistor-level design and extending to full operating systems. Students will first learn the fundamentals of electronic circuits, including logic gates, memory elements (DRAM, SRAM), and amplifiers. They will then examine how these components integrate into larger digital systems, such as microprocessors and memory hierarchies. The course covers the inner workings of a computer at various levels, from transistors to processors, peripherals, compilers, and operating systems. -
ELEC2322 2026-27
Electronic and Computer Systems
This module provides a comprehensive understanding of how modern computer systems are built, starting from fundamental transistor-level design and extending to full operating systems. Students will first learn the fundamentals of electronic circuits, including logic gates, memory elements (DRAM, SRAM), and amplifiers. They will then examine how these components integrate into larger digital systems, such as microprocessors and memory hierarchies. The course covers the inner workings of a computer at various levels, from transistors to processors, peripherals, compilers, and operating systems. -
ELEC2312 2026-27
Electronic and Photonic Devices
Semiconductor device technology has evolved beyond computation applications and is now increasingly being used in quantum electronics, data centres, lighting, lasers, high speed communications, photovoltaic energy harvesters, smart electronics for the Internet of Things, and sensing for healthcare and the environment. Semiconductor devices are not solely confined to silicon technology but include Group III-V compounds, such as gallium arsenide and indium gallium arsenide as well as other materials such silicon-germanium alloys, zinc oxide, molybdenum selenide and graphene. The next generation of semiconductor technologies will demand the knowledge and understanding to explore device platforms for new integrated circuit concepts and fabrication methods.
This module covers the physical principles and applications of a range of important semiconductor electronic and optoelectronic (photonic) devices including field effect and bipolar junction transistors (MOSFET, BJTs, IGBTs), solar cells, photodetectors, lasers and light emitting diodes (LEDs). Throughout the course, students are encouraged to read beyond the lecture materials provided and the core text books. -
ELEC2312 2027-28
Electronic and Photonic Devices
Semiconductor device technology has evolved beyond computation applications and is now increasingly being used in quantum electronics, data centres, lighting, lasers, high speed communications, photovoltaic energy harvesters, smart electronics for the Internet of Things, and sensing for healthcare and the environment. Semiconductor devices are not solely confined to silicon technology but include Group III-V compounds, such as gallium arsenide and indium gallium arsenide as well as other materials such silicon-germanium alloys, zinc oxide, molybdenum selenide and graphene. The next generation of semiconductor technologies will demand the knowledge and understanding to explore device platforms for new integrated circuit concepts and fabrication methods.
This module covers the physical principles and applications of a range of important semiconductor electronic and optoelectronic (photonic) devices including field effect and bipolar junction transistors (MOSFET, BJTs, IGBTs), solar cells, photodetectors, lasers and light emitting diodes (LEDs). Throughout the course, students are encouraged to read beyond the lecture materials provided and the core text books. -
ELEC1322 2025-26
Electronic Systems and Devices
To introduce the physical and electronic properties of materials that underpin semiconductors and semiconductor devices that underpin modern electronic technology.
To develop and understanding of electronic devices in circuits, to provide a range of circuit theory techniques for the analysis of resistive and active circuits and to introduce the analysis and design of active electronic circuits. -
ELEC1322 2026-27
Electronic Systems and Devices
To introduce the physical and electronic properties of materials that underpin semiconductors and semiconductor devices that underpin modern electronic technology.
To develop and understanding of electronic devices in circuits, to provide a range of circuit theory techniques for the analysis of resistive and active circuits and to introduce the analysis and design of active electronic circuits.