BEng-(Hons)-in-Mechanical-Engineering---Mechatronics

Overview
Curriculum

Duration: 48 weeks

Categories: Faculty of Engineering, Top-up Degree

BEng (Hons) in Mechanical Engineering (Mechatronics)

Master Integrated Smart Systems with a BEng (Hons) in Mechanical Engineering (Mechatronics) at BIET

Become a pioneer in intelligent machines and automated systems with the BEng (Hons) Mechanical Engineering (Mechatronics) degree at BIET. This innovative 180-credit program delivers expert integration of mechanics, electronics, control systems, and embedded programming. Designed for future mechatronics engineers and robotics specialists, our interdisciplinary curriculum focuses on designing and implementing smart systems like industrial robots, automated vehicles, and precision instrumentation. Graduates are ready for high-demand roles in automation, advanced manufacturing, and robotics, or progress to specialized postgraduate study.

Entry Qualification:

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

Delivery

Duration: 12 Months – Full Time | Weekdays & Weekends

Curriculum

10 Sections
0 Lessons
48 Weeks

Expand all sectionsCollapse all sections

Dynamics
Basic Dynamics, Rigid Body Motion, Vector Methods, Single Dot Vibration, Vibration, Damping and it's effects, Forced Oscillation, Introduction to 2 depth of field, 7-d wave equations, Mechanisms Vector analysis of mechanisms for position, velocity and acceleration, Crank-slider mechanisms.
0
Mechanics of Materials
Design codes and standards, Energy methods in structural analysis, Impact Fatigue analysis, Fracture mechanics, creep and plastic stress analysis.
0
Design And Electromechanical System
Design and application of machine elements, Application of Electromechanical elements, Materials of construction, Manufacture of mechanical elements, Design and realisation of electromechanical systems.
0
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
Stress Analysis
Stress concentration, bending of composite beams, torsion, elastic plastic analysis, buckling of struts, beam deflections, Moh rs circle for stress and strain, Rosette analysis, Failure criteria for ductile and brittle materials.
0
Control Engineering
System modelling, Time response of first and second order systems, Block diagram representation, Frequency response of first and second order, System identification, S-Plane and Root Loci, Controllers (PID, IP-D, etc).
0
Individual Project
This module is designed to give the student an opportunity to undertake individual and self-directed 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.
0
Materials For Semiconductors
This module will cover the different properties (electrical, optical, and magnetic) of electronic materials in relation to their importance in the semiconductor industry and their technological applications such as wafer devices, solid-state fuel cells, lithium secondary batteries, light-emitting diodes and solid-state lasers. This will include semiconductors, electronic ceramics, conducting polymers and optical and magnetic materials. This module will also cover processes and operations in semiconductor manufacturing.
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Integrated Electro - Mechanical Systems
This course teaches the design of mechatronic systems which integrate mechanical, electrical, and control systems engineering. The approach is problem led with majority of the learning being achieved by working in small groups on design tasks that require the integration of disciplines that are required when considering mechatronic systems. To ensure active engagement in the material the module is designed to provide significant laboratory-based design experiences and the consideration of real engineering problems. The module provides an opportunity for students who wish to learn through laboratory based project work in a small collaborative design team and so helps students understand the role of an engineer working in such an environment.
0
Energy Technologies
This module teaches the principles and practice of a number of conventional and renewable power generation systems including technical, economic, environmental and political considerations.
0