MEL 1112
INDUSTRIAL ELECTRONICS AND INSTRUMENTATION
| This course presents the principles of industrial instrumentations. Students will be taught about various instruments used for different types of measurement. The course will enable students to understand the process of selecting measuring instruments and final control elements for performing different kinds of applications. |
MEM 1753
MEASUREMENT & INSTRUMENTATION
| This course is an introduction to advanced instrumentation and measurement. Key components studied in detail are a review of powerful measurement techniques and basic principles and typical problems of sensor elements, detailed up-to-date reviews of the features of temperature sensors, displacement sensors, flow sensors, level sensors, position sensors, motion sensors, and biometrics. This course also provides detailed knowledge on error and determination of uncertainties in measurement. Besides that, this course introduces the multi-sensor, Fusion application, wireless sensor network, and Internet of Things. Finally, the basic concepts of safety instrumented systems, standards, and risk analysis techniques will be discussed. |
MKEM 1753
ADVANCED INSTRUMENTATION AND MEASUREMENTS
| This course is an introduction to advanced instrumentation and measurement. Key components studied in detail are a review of powerful measurement techniques and basic principles and typical problems of sensor elements, detailed up-to-date reviews of the features of temperature sensors, displacement sensors, flow sensors, level sensors, position sensors, motion sensors, and biometrics. This course also provides detailed knowledge on error and determination of uncertainties in measurement. Besides that, this course introduces the multi-sensor, Fusion application, wireless sensor network, and Internet of Things. Finally, the basic concepts of safety instrumented systems, standards, and risk analysis techniques will be discussed. |
SEE 1123
INSTRUMENTATION AND ELECTRICAL MEASUREMENT
| This course introduces students some of the metrological terminologies used in experimental methods, concept of metrology and its application. The course will also provide understanding the concept of standardization as the management system of standards and quality. The measurement technique for electrical quantity and analysis of the result according to ISO Guide will be introduced as well. It will examine transducers in order to gain an awareness of what they can do. Transducer operations, characteristic and functions will be discussed |
SEE 2123
MEASUREMENT & INSTRUMENTATION
| This course is a core component of the electrical engineering curriculum, introducing students to control theory and its applications. |
SEE 2113
BASIC CONTROL THEORY
| The course focuses on the fundamental concepts of control systems, including block diagrams, transfer functions, and time/frequency domain analysis. It also covers modeling of physical systems and their analysis using tools like MATLAB. |
SEE 2003
BASIC ELECTRICAL ENGINEERING
This course likely covers fundamental electrical engineering principles and concepts.
SEE 2113
CONTROL: MODELLING AND SIMULATION
| This course introduces students to the fundamental ideas and definitions of control systems such as block diagrams, plants or processes, open-loop and closed-loop control systems, transfer functions and transient and steady state responses. Students will be taught how to obtain mathematical models of actual physical systems such as electrical, mechanical, electromechanical and simple fluid flow systems. Methods of system representation such as block diagram representation and signal flow graphs will be examined. The students will also be exposed to techniques of analysing control systems such as time domain analysis and stability. Finally, an introduction to the design and analysis of control systems using MATLAB will also be given. |
SKEE 2133
INSTRUMENTATION AND ELECTRICAL MEASUREMENT
| This course introduces students some of the metrological terminologies used in experimental methods, concept of metrology and its application. The course will also provide understanding the concept electrical measurement quantity using analogue and digital instruments. The interfaces of the instruments and also the quality of the signals acquired are introduced. Besides that, this course also introduces the type of electrical noise and the ways to reduce noise and interference. Finally, the fundamental principle of transducers, transducer operations, characteristic and functions will be discussed. |
SEE 3123
SYSTEM CONTROL
| The course begin with the root locus designs using root locus procedures and Matlab. Then, the PID controller will be designed using this the root locus approach. The PID controller will be used to improve the transient and steady state performances in the time domain using root locus approach. In the frequency domain approach, the Bode plot method will be utilised. The lead, lag and lead-lag compensators are introduced in improving the performance of the control system using the frequency domain approach. Finally, applications of control engineering in various fields will be studied. |
SEE 3113
CONTROL ANALYSIS AND DESIGN
| In this course, students are taught how to analyse the stability factor and how to improve the system performance. The PID controller families are used to improve the transient and steady-state performance. To help students familiarise with the time-domain design, revisit to the previous subject is performed at the beginning of the lecture. Besides the time-domain approach, analysis and design of the control system is also done using frequency-domain approach. In this approach, students are introduced to Bode plot and Nichols chart methods that are widely used. The lead, lag and lead-lag compensators are utilised in improving the performance of the control system. MATLAB software is utilised throughout the course. |
SKEI 3133
CONTROL: MODELLING AND SIMULATION
| This course introduces students to the fundamental ideas and definitions of control systems such as block diagrams, plants or processes, open-loop and closed-loop control systems, transfer functions and transient and steady state responses. Students will be taught how to obtain mathematical models of actual physical systems such as electrical, mechanical, electromechanical and simple fluid flow systems. Methods of system representation such as block diagram representation and signal flow graphs will be examined. The students will also be exposed to techniques of analysing control systems such as time domain analysis and stability. Finally, an introduction to the design and analysis of control systems using MATLAB will also be given. |
SEI 3133
INSTRUMENT ANALOG AND DIGITAL
| This course presents the principles and design for analog and digital meter design. In particular, it emphasises on the dc and ac meter measurements which include voltmeter, ammeter and ohmmeter. Types of noise and interfacing are introduce in this course. |
SEEI 3133
INDUSTRIAL INSTRUMENTATION AND APPLICATIONS
| This course presents the principles of industrial instrumentations. Students will be taught about various instruments used for different types of measurement. The course will enable students to understand the process of selecting measuring instruments and final control elements for performing different kinds of applications |
SEI 4153
TRANSDUCERS AND APPLICATIONS
| This course is designed to expose students to the available transducers used in the daily lives, industry and medical measurement. This course introduces students to the major views and theories in transducers and its application. It will examine some key principles of measurement and the importance of transducers in process industries and medical analysis. Students are required to demonstrate competencies in the use of various transducers depending on project requirement and able to show proficiency in choosing transducers for different measurement and applications |
SKEE 4012
PROFESSIONAL ENGINEERING PRACTICE
| This course introduces and exposes students to the concepts, theories and the practice of Professional Engineer. It highlights to the students profession of engineering, relevant acts and regulations, engineering code of ethics, engineers’ roles and responsibilities, engineering ethics, the impact of the work of engineer on society, and knowledges and the needs for sustainable development. In terms of knowledges of accreditation of engineering programme, and internationalization of engineers, elements of EAC and Washington are also discussed. Based on these knowledges, the students will work on projects to analyze real engineering issues and cases, both individually and in groups. |
