B Eng (Hons) in Electrical & Electronic Engineering

This is a Top Up Degree programme. Awarded by the University of West England.

This course covers a wide range of subject areas for a digital-development environment such as the semiconductor industry in Singapore. Graduates are likely to find strong employment within companies like United Technologies, Rolls Royce, Micron, and others who regularly engage our graduates.

Next Intake: 14 October 2019

  • Covers a variety of skills for the electronics industry
  • Hands on approach to complex-advanced topics
  • Become qualified for mid-level engineering roles
  • Designed for the Singapore semiconductor industry
  • Pick up skills and knowledge to advance your career
  • Boost your portfolio of work so you can impress future employers

Get Your Industry Recognized UK Degree

This programme earns you the title of bachelor of engineering.

 

A degree is an essential requirement of your life as a professional engineer. Just like many of our graduates who have gone before you, this course could lead to the next stage in your career.

Foundation Diploma

Higher Diploma

Bachelors Degree

Actual Student Projects

Have a look at some of our students work.

Modules In This Course

Digital Design

This module covers the design of microprocessors and DSP structures, circuit and logic behaviour, performance and speed and power consumption of digital systems and a variety of core skills and knowledge that is essential to correct digital design.

 

Signal Processing

Signal Analysis, Power, Laplace Transforms, Frequence response, Filters, and Systems Electronics.

 

Control

System modelling and the use of transfer functions. Developing models from first engineering principles, and using Laplace operators. System classifications by order as well as system time and response and behaviour. Closed loop feedback control and the use and manipulation of Block diagrams.

Energy Technologies

The principles and practice of conventional and renewable power generation systems as well as technical, economic, environmental and political consideration. We also explore generating power from water, wind, biomass, solar, solar thermal, and nuclear sources.

Digital Signal Processing *

As systems move from analog to digital, we need to swap our understanding of engineering principles to the digital realm and how their performance is assessed. The fundamental system design has also changed using electronic design automation tools and various new methodology.

Materials for Semiconductors

Control Systems Design

This module covers enhanced classical control system analysis and design, control mathematics, use of MatLab, Advanced control concepts, Modelling and analysis of multivariable control systems, Design of multivariable state-feedback controllers, digital control systems analysis and design.

Power Electronics 

Power Electronic Systems, DC to DC Choppers, AC to DC Converters, DC to AC Inverters, AC to AC Regulators, Switched Mode Power Supplies, Power Electronic Switches, High Voltage DC Transmission, FACTS (Flexible AC Transmission Systems), Power Electronics for Wind, Solar and Hydro: Grid Interconnection

Individual Project

This module is the culmination of all that you have learned in this course and before, into a single, individual project.

Career Opportunities

  • Work on SoC Architecture
  • Optimize and optimize with architect
  • System block development
  • Work on SoC floorplan with architect SoC
  • Development of test plans for IoT and Wifi or router related products
  • Execute test plans and report potential issues
  • Perform different types of testing
  • Co-work with R&D team to reproduce customer issues
  • Pre-test for certification
  • Direct activities of an integrated hardware/software systems oriented products
  • Design and develop electronic and electro-mechanical equipment
  • Conduct feasibility studies on engineering proposals
  • Collect operational data and prepare customer application information
  • Select, develop, and evaluate personnel to ensure efficient operation of this function.
  • Perform and accomplish research and development of prototype through to production
  • Apply latest technologies in new automation prototype and product development
  • Specify, develop, test, analyse, and improve the existing mechatronic system
  • Adopt current industry standards/methodology to work.
Duration

12 months (Full-Time)

 

Delivery Mode

Weekday Mode: Mondays to Fridays, 9am to 5pm

Weekend Mode: Saturday 12pm onwards, and Sunday 9am to 5pm

 

Mode of Assessment

Written Reports, Presentations, Examinations, Projects, and Interviews

 
Graduation Requirements

Students must successfully complete all modules unless granted a compensation pass, or module exemptions.

Minimum Age
20 years of age in the year of application

Minimum Academic Qualifications

– Auston Higher Diploma in the relevant field; or

– Or other recognized qualifications. Pearson HND’s are not accepted for direct entry.

 

Transfer Applicants

Transfer applicants with other equivalent qualifications based on Singapore criterion may be given exemptions on academic qualifications

Mature Candidates

At least 30 years of age and 8 years of working experience may be admitted on a case by case basis with a minimum of 10 years of formal education and certificates that is deemed equivalent by the Academic Board.

English Proficiency

– C6 or better for O Levels

– IELTS 6.5 or equivalent

– CEFR B2 or higher

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