PROGRAMME OVERVIEW
Diploma in Electrical and Electronics Engineering (DEEE) programme develop students to solve the critical errors that occur in the industrial operation and machineries by applying the profound knowledge on the advance electrical power and power electronics, microcontroller and microprocessor that is applied in our daily latest smart technologies. Students also explore the programmable logic controller and techniques that is applied in today EE engineering. This level is concerned with the examining of day-to-day problems in appliances and solving them by applying
latest techniques and concepts.
| Module No | Module Title | Assessment Mode | Contact Hours |
|---|---|---|---|
|
01 |
Applied Engineering Mathematics |
Written Exam 100% |
32(Including Assessment) |
|
02
|
Electrical and Electronics Principles |
Written Exam 100% |
32(Including Assessment) |
|
03 |
Microprocessor and Microcontroller |
Written Exam 100% |
32(Including Assessment) |
|
04 |
Programmable Logic Controllers
|
Written Exam 100% |
32(Including Assessment) |
|
05 |
Applications of Power Electronics
|
Written Exam 100% |
32(Including Assessment) |
|
06 |
Advance Electrical Power |
Written E Exam 100% |
32(Including Assessment) |
Learning Objectives
• Applied Engineering Mathematics
• Electrical and Electronics Principles
• Microprocessor and Microcontroller
• Programmable Logic Controllers
• Applications of Power Electronics
• Advance Electrical Power
Applied Engineering Mathematics
On successful completion of this module a learner would be able to examine and design engineering situations and work out problems using
• Algebraic methods,
• Trigonometric methods,
• Calculus and
• Statistics and Probability.
Electrical and Electronics Principles
• On successful completion of this module a learner will be able to apply the basic electrical and electronics circuit theory, two-port network models, complex waves and RLC circuits.
Microprocessor and Microcontroller
On completion of this module, students will be able to understand and work with
• Introduce microprocessor-based systems and basics of the system design
• Understand and capable to design software, write and test programs for a microprocessor-based system
• Skills to design and build programmable interface devices.
• To introduce through case studies, the system design principles using 8085 and 8086 and its h/w architecture, instruction set, programming and 8051 microcontroller
Programmable Logic Controllers
Upon completion of this module, the participants will be able to:
• Understand the design and operational characteristics of a PLC system
• Understand PLC information and communication techniques
• Be able to apply programmable logic programming techniques
• Understand alternative implementations of programmable control
Applications of Power Electronics
• Understand common configurations for controlled and uncontrolled rectification
• Understand the methods used for AC motor control
• Understand the methods used for DC motor control
• Understand other applications of power electronics
Advance Electrical Power
• Understand the construction and properties of overhead lines and cables
• Understand symmetrical faults and protection schemes
• Be able to analyse power system transients
• Understand the synchronising and control of synchronous machines.
Entry Requirements
Minimum 3 GCE ‘O’ level including English with a pass at C6 OR
International Secondary qualification Pass (at Year 10) in 3 Subjects including English. OR
Matured students with 25 years old and minimum 3 years working experience with Pass in Newway International College Entry Proficiency Test
Class Mode
Face-to-Face and/or Online
Lecturers :
Mr. Rahul Dev (All modules)
Mr. Natarajan Chidambaram (All modules)
Mr. Mattakke Veedu Ragesh (All modules)
Mr. Alagappan Natarajan (All modules)
Student Teacher Ratio:
Lecture 1:18
Course Duration: 12 Months (Part Time)
Intake :
24 September 2023 ~ 23 September 2024
19 November 2023 ~ 18 November 2024
21 January 2024 ~ 20 January 2025
24 March 2024 ~ 23 March 2025
19 May 2024 ~ 18 May 2025
21 July 2024 ~ 20 July 2025
