8226 modules
Page 266
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AICE2003 2027-28
Electronics
Digital electronics under-pins all current computation and networked systems. This module introduces some of the fundamental analogue electronic principles and ideas that digital logic is built on, then moves on to digital abstractions for designing circuits. This includes aspects of digital performance, styles of circuit, functional and non-functional correctness, and includes hands-one experience in the design and deployment of digital circuits in FPGAs. -
AICE2003 2026-27
Electronics
Digital electronics under-pins all current computation and networked systems. This module introduces some of the fundamental analogue electronic principles and ideas that digital logic is built on, then moves on to digital abstractions for designing circuits. This includes aspects of digital performance, styles of circuit, functional and non-functional correctness, and includes hands-one experience in the design and deployment of digital circuits in FPGAs. -
FEEG2004 2026-27
Electronics and Control
Modern mechanical and acoustic systems contain numerous electronic and control components. For example, an electric vehicle may have speed, traction and active noise control systems. Practicing Mechanical and Acoustical Engineers therefore require a working knowledge of electronics and control systems. This module provides students with the necessary understanding of the design and analysis of these systems in the time and frequency domain. The skills and mathematical techniques developed in this module are applicable across a wide range of engineering domains including mechatronics, automotive, system dynamics and biomedical engineering. -
FEEG2004 2028-29
Electronics and Control
Modern mechanical and acoustic systems contain numerous electronic and control components. For example, an electric vehicle may have speed, traction and active noise control systems. Practicing Mechanical and Acoustical Engineers therefore require a working knowledge of electronics and control systems. This module provides students with the necessary understanding of the design and analysis of these systems in the time and frequency domain. The skills and mathematical techniques developed in this module are applicable across a wide range of engineering domains including mechatronics, automotive, system dynamics and biomedical engineering. -
FEEG2004 2027-28
Electronics and Control
Modern mechanical and acoustic systems contain numerous electronic and control components. For example, an electric vehicle may have speed, traction and active noise control systems. Practicing Mechanical and Acoustical Engineers therefore require a working knowledge of electronics and control systems. This module provides students with the necessary understanding of the design and analysis of these systems in the time and frequency domain. The skills and mathematical techniques developed in this module are applicable across a wide range of engineering domains including mechatronics, automotive, system dynamics and biomedical engineering. -
ELEC6248 2029-30
Electronics for Spacecraft
This module will be first offered in the 2020/21 academic year.
This module looks at the specific and somewhat unique requirements for electronics on spacecraft such as, radiation effects, other environmental hazards, e.g. space debris, atomic oxygen, low energy and high energy plasma (spacecraft charging and arcing).
It will also address some of the key issues involved in using electronic parts in space including the design for the thermal environment (e.g. no convection), mass and volume constraints and the use of COTS. Future developments like miniaturisation (cubesats, microsats) and the use of MEMS in the space environment will be presented as well.
The overall objective will be to introduce the students to the peculiarities of using electronics in space and how these drive the designs and influence the choice of the components selected. -
ELEC6248 2030-31
Electronics for Spacecraft
This module will be first offered in the 2020/21 academic year.
This module looks at the specific and somewhat unique requirements for electronics on spacecraft such as, radiation effects, other environmental hazards, e.g. space debris, atomic oxygen, low energy and high energy plasma (spacecraft charging and arcing).
It will also address some of the key issues involved in using electronic parts in space including the design for the thermal environment (e.g. no convection), mass and volume constraints and the use of COTS. Future developments like miniaturisation (cubesats, microsats) and the use of MEMS in the space environment will be presented as well.
The overall objective will be to introduce the students to the peculiarities of using electronics in space and how these drive the designs and influence the choice of the components selected. -
ELEC6248 2028-29
Electronics for Spacecraft
This module will be first offered in the 2020/21 academic year.
This module looks at the specific and somewhat unique requirements for electronics on spacecraft such as, radiation effects, other environmental hazards, e.g. space debris, atomic oxygen, low energy and high energy plasma (spacecraft charging and arcing).
It will also address some of the key issues involved in using electronic parts in space including the design for the thermal environment (e.g. no convection), mass and volume constraints and the use of COTS. Future developments like miniaturisation (cubesats, microsats) and the use of MEMS in the space environment will be presented as well.
The overall objective will be to introduce the students to the peculiarities of using electronics in space and how these drive the designs and influence the choice of the components selected. -
ARTD1142 2026-27
Elements of Graphic Communication
In this module you will further develop your understanding of the key elements of graphic communication practice. A critical engagement with core skills across design, type, motion and illustration will reinforce the emphasis on interdisciplinarity within the Graphic Communication programme.
You will continue to develop your craft skills through an engagement with traditional production processes and specialist technical skills. The essential theories, practices and principles of graphic communication that were explored in semester one will be integrated and applied alongside these key elements to further develop your relationship with interdisciplinary design practice. -
ARTD1142 2027-28
Elements of Graphic Communication
In this module you will further develop your understanding of the key elements of graphic communication practice. A critical engagement with core skills across design, type, motion and illustration will reinforce the emphasis on interdisciplinarity within the Graphic Communication programme.
You will continue to develop your craft skills through an engagement with traditional production processes and specialist technical skills. The essential theories, practices and principles of graphic communication that were explored in semester one will be integrated and applied alongside these key elements to further develop your relationship with interdisciplinary design practice.