BEng-Hons-in-Electrical-and-Electronic-Engineering

Overview
Curriculum

Duration: 48 weeks

Categories: Faculty of Engineering, Top-up Degree

BEng (Hons) in Electrical and Electronic Engineering

Launch Your Professional Engineering Career with a BEng (Hons) in Electrical and Electronic Engineering at BIET

Become a Chartered Engineer and design the future of technology with the BEng (Hons) Electrical and Electronic Engineering degree at BIET. This professionally accredited 180-credit program delivers advanced expertise in power systems, electronics design, embedded systems, renewable energy, and digital signal processing. Designed for future electrical engineers and electronics specialists, our industry-led curriculum combines deep theoretical knowledge with practical projects in robotics, smart grids, and communications. Graduate with the accredited degree required for high-level roles in power generation, automotive electronics, and telecommunications or continue to an MSc.

Entry Qualification:

O/L and A/L with BIET Higher Diploma in Engineering Technology, or
O/L and BIET University Foundation Program with BIET Higher Diploma in Engineering Technology, or
O/L and A/L with any relevant Higher Diploma

Delivery

Duration: 12 Months – Full Time | Weekdays & Weekends

Curriculum

9 Sections
0 Lessons
48 Weeks

Expand all sectionsCollapse all sections

Digital Design
Design, modelling and implementation of digital systems through the use of HDL (Hardware Description Languages) Microprocessor architectures from a hardware design perspective, the basic components and functionality.
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Control
Introduction of system modelling and the use of transfer functions. System classification by order. System time responses and behaviour. Closed loop feedback control and block diagrams Use of the 'S' plane. Root locus plots. Frequency response analysis Modifying behaviour and the design of standard controllers Computer software for simulation and design of control systems.
0
Signal Processing and Circuites
The signal processing and circuits module focuses on analyzing, processing, and transmitting signals in electrical systems. Students learn theoretical foundations, practical methods, and software tools for signal processing. They also gain knowledge of circuit analysis techniques, network theorems, and electronic components' behavior.
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Energy Technologies
The principles and practice of a number of conventional and renewable power generation systems including technical, economic, environmental and political considerations. Review of basic concepts of energy, power and efficiency; energy use inhuman activity. Renewable Energy systems: power from water, wind, biomass, solar electricitygeneration and solar thermal systems. Overview of power from nuclear energy Basics of electrical machines and distribution networks; structure of the Singapore electricity industry. Energy use in Transport; future vehicle developments.
0
Digital Signal Processing
Time Domain Analysis, Frequency Domain Analysis, Fourier Theory, Z-transform, Filter Design, DSP Chips
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Control System Design
Enhanced classical control system analysis and design. Control mathematics Advanced control concepts. Modelling and analysis of multivariable control systems. Design of multivariable state-feedback controllers, Digital control system analysis and design with applications Basic mechanism on dynamic system modelling.
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Materials For Semiconductors
The materials for semiconductors module focuses on the properties, fabrication, and applications of semiconductor materials. Students learn about crystal structures, energy bands, doping techniques, and the behavior of semiconductor devices. The module covers fabrication processes, characterization methods, and explores advanced topics.
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Power Electronics
Operating principles of power electronic converters, Modern design of power electronic circuits, Analysis and performance of power electronics circuits, Modern power electronics usages (Flexible AC Transmission Systems) Designing the simulation case of Power Electronic systems.
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Individual Project
This module is designed to give the student an opportunity to undertake individual and selfdirected work, in an area of their choice, related to their award, and to further develop their engineering-based knowledge. The project may encompass any aspect of engineering, and may result from a student's industrial work, personal interest or experience at the university. The learning will be predominantly independent, self-directed study, with the support of a project supervisor / the module leader.
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