BS Electrical Engineering Technology
Introduction
Electrical Engineering Technology involves the study of machines, equipment, and systems related to electricity. The Department of Electrical Engineering at Ziauddin University, North Nazimabad, Karachi, offers a Bachelor of Science (BS) in Electrical Engineering Technology, typically spanning four years (8 semesters) as an evening programme. This programme is approved by the Higher Education Commission (HEC) and accredited by the National Technology Council (NTC).
Mission
To provide an environment to enhance and groom the young generation to become technologists with excellence.
Eligibility Criteria
HSSC (Pre-Engineering / Computer Science), A-level, or DAE (in Electrical/Electronics or a relevant trade) with 50% marks and above.
Scope and Opportunities
An Electrical Engineering Technology Graduate is capable of:
- Developing electrical products, conducting electrical system testing, engaging in technical sales, and providing field service
- They get employed by electrical power generation and transmission companies, construction firms, and manufacturing industries
Career Prospects
BS Electrical Engineering Technology opens up a wide range of career prospects for graduates, such as Electrical Technologist, Electronics Technician, Control System Technician, Power System Technician, Automation Technician, Instrumentation Technician, Telecommunications Technician, Field Service Technician.
BS Electrical Engineering Technology Fee Structure
BSc EET Fee Structure | Total (PKR) |
Admission (One Time Only) | 15,000 |
Security Deposit (One Time Only and Refundable) | 5,000 |
Monthly (payable each month for the duration of studies) | 8,500 |
Total (1st Month) | 28,500 |
Note:
The University reserves the right to modify the fees (if required). Fees once deposited is non-refundable, except security deposit. Application processing fee PKR2500 is applicable.
Program Educational Objectives (PEOs)
PEO 1: To nurture graduates with comprehensive knowledge and hands-on experience, leading them towards successful careers as electrical technologists.
PEO 2: To equip graduates with the ability to demonstrate technical expertise and effective communication skills for addressing engineering technology problems of broad scope.
PEO 3: To cultivate graduates who apply ethical and professional standards, while also embracing an entrepreneurial spirit that contributes to the socioeconomic advancement of society.
Program Learning Outcomes (PLOs)
PLO 1: ENGINEERING TECHNOLOGY KNOWLEDGE:
An ability to apply knowledge of mathematics, natural science, Engineering Technology fundamentals and Engineering Technology specialization to defined and applied Engineering Technology procedures, processes, systems or methodologies.
PLO 2: PROBLEM ANALYSIS:
An ability to Identify, formulate, research literature and analyze broadly-defined Engineering Technology problems reaching substantiated conclusions using analytical tools appropriate to the discipline or area of specialization.
PLO 3: DESIGN/DEVELOPMENT OF SOLUTIONS:
An ability to design solutions for broadly- defined Engineering Technology problems and contribute to the design of systems, components or processes to meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations.
PLO 4: INVESTIGATION:
An ability to conduct investigations of broadly-defined problems; locate, search and select relevant data from codes, data bases and literature, design and conduct experiments to provide valid conclusions.
PLO 5: MODERN TOOL USAGE:
An ability to Select and apply appropriate techniques, resources, and modern technology and IT tools, including prediction and modelling, to broadly-defined Engineering Technology problems, with an understanding of the limitations.
PLO 6: THE ENGINEERING TECHNOLOGIST AND SOCIETY: An ability to demonstrate understanding of the societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to Engineering Technology practice and solutions to broadly defined Engineering Technology problems.
PLO 7: ENVIRONMENT AND SUSTAINABILITY:
An ability to understand and evaluate the sustainability and impact of Engineering Technology work in the solution of broadly defined Engineering Technology problems in societal and environmental contexts.
PLO 8: ETHICS:
Understand and commit to professional ethics and responsibilities and norms of Engineering Technology practice.
PLO 9: INDIVIDUAL AND TEAM WORK:
An ability to Function effectively as an individual, and as a member or leader in diverse teams.
PLO 10: COMMUNICATION:
An ability to communicate effectively on broadly defined Engineering Technology activities with the Engineering Technologist community and with society at large, by being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
PLO 11: PROJECT MANAGEMENT:
An ability to demonstrate knowledge and understanding of Engineering Technology management principles and apply these to one’s own work, as a member or leader in a team and to manage projects in multidisciplinary environments.
PLO 12: LIFELONG LEARNING:
An ability to recognize the need for, and have the ability to engage in independent and life-long learning in specialist Engineering Technologies.
First Year | |||||||
Semester I | Semester II | ||||||
Code | Course | Cr. Hrs. | Code | Course | Cr. Hrs. | ||
ELH-111 | Islamic Studies | 3+0 | ELH-121 | Pakistan Studies | 3+0 | ||
ELH-112 | Social Ethics | ELQ-121 | Differential Equations | 2+0 | |||
ELE-111 | Communication Skills | 3+0 | ELN-122T | Numerical Analysis | 2+0 | ||
ELQ-111 | Calculus & Analytical Geometry | 2+0 | ELN-122L | Numerical Analysis | 0+1 | ||
ELN-112T | Applied Physics | 2+0 | ELM-121 | Project Management | 3+0 | ||
ELN-112L | Applied Physics | 0+1 | ELC-121T | Computer Programming | 2+0 | ||
ELC-111T | Information and Communication Technology | 2+0 | ELC-121L | Computer Programming | 0+1 | ||
ELC-111L | Information and Communication Technology | 0+1 | ELT-121T | Linear Circuit Analysis | 2+0 | ||
ELT-111 | Electrical Workshop | 0+2 | ELT-121L | Linear Circuit Analysis | 0+1 | ||
TOTAL | 12+4=16 | ELT-122 | Environment, Health and Safety | 1+0 | |||
TOTAL | 15+3=18 |
Second Year | |||||||
Semester III | Semester IV | ||||||
Code | Course | Cr. Hrs. | Code | Course | Cr. Hrs. | ||
ELH-211 | Professional Ethics | 3+0 | ELT-221T | Instrumentation and Measurements | 2+0 | ||
ELE-211 | Technical Report Writing | 3+0 | ELT-221L | Instrumentation and Measurements | 0+1 | ||
ELQ-211 | Linear Algebra | 2+0 | ELT-222T | Electrical Machines | 2+0 | ||
ELT-211 | Technical Drawing | 0+1 | ELT-222L | Electrical Machines | 0+1 | ||
ELT-212T | Electronic Devices and Circuits | 2+0 | ELT-223T | Signals and Systems | 2+0 | ||
ELT-212L | Electronic Devices and Circuits | 0+1 | ELT-223L | Signals and Systems | 0+1 | ||
ELT-213T | Logic Circuits and Applications | 2+0 | ELT-224T | Micro-Controller Systems | 2+0 | ||
ELT-213L | Logic Circuits and Applications | 0+1 | ELT-224L | Micro-Controller Systems | 0+1 | ||
ELT-214T | Electrical Network Analysis | 2+0 | ELT-225T | Electrical Power Transmission | 2+0 | ||
ELT-214L | Electrical Network Analysis | 0+1 | ELT-225L | Electrical Power Transmission | 0+1 | ||
TOTAL | 14+4=18 | ELI-221T | Basic Mechanical Technology | 1+0 | |||
ELI-221L | Basic Mechanical Technology | 0+1 | |||||
TOTAL | 11+6=17 |
Third Year | ||||||||
Semester V | Semester VI | |||||||
Code | Course | Cr. Hrs. | Code | Course | Cr. Hrs. | |||
ELT-311T | Control Technology | 2+0 | ELM-321 | Entrepreneurship | 3+0 | |||
ELT-311L | Control Technology | 0+1 | ELT-321T | Renewable and Alternative Energy Technologies | 2+0 | |||
ELT-312T | Communication Systems | 2+0 | ELT-321L | Renewable and Alternative Energy Technologies | 0+1 | |||
ELT-312L | Communication Systems | 0+1 | ELT-322T | Smart Grid Technology | 2+0 | |||
ELT-313T | Electrical Power Distribution and Utilization | 2+0 | ELT-322L | Smart Grid Technology | 0+1 | |||
ELT-313L | Electrical Power Distribution and Utilization | 0+1 | ELT-323T | Sensor Networks | 2+0 | |||
ELT-314T | Switchgear and Protective Devices Technology | 2+0 | ELT-323L | Sensor Networks | 0+1 | |||
ELT-314L | Switchgear and Protective Devices Technology | 0+1 | ELI-321T | Basic Civil Engineering | 1+0 | |||
ELT-315T | Industrial Drives and PLC | 2+0 | ELI-321L | Basic Civil Engineering | 0+1 | |||
ELT-315L | Industrial Drives and PLC | 0+1 | ELT-324 | Final Year Project – II | 0+3 | |||
ELT-316 | Final Year Project – I | 0+3 | TOTAL | 10+7=17 | ||||
TOTAL | 10+8=18 |
Fourth Year | |||||||
Semester VII | Semester VIII | ||||||
Code | Course | Cr. Hrs. | Code | Course | Cr. Hrs. | ||
ELT-411 | Supervised Industrial Training – I | 0+16 | ELT-421 | Supervised Industrial Training – II | 0+16 | ||
TOTAL | 0+16=16 | TOTAL | 0+16=16 |
Total Credit Hrs. | 136 |
LIST OF ELECTIVES
Social Sciences | ||
Code | Course | Cr. Hrs. |
ELH-211 | Professional Ethics | 3+0 |
ELH-212 | Organizational Behavior | 3+0 |
ELH-213 | Sociology for Technologist | 3+0 |
ELH-214 | Critical Thinking | 3+0 |
ELH-215 | Professional Psychology | 3+0 |
Management Sciences | ||
Code | Course | Cr. Hrs. |
ELM-121 | Project Management | 3+0 |
ELM-122 | Economics | 3+0 |
ELM-321 | Entrepreneurship | 3+0 |
ELM-322 | Leadership and Personal Grooming | 3+0 |
Natural Sciences | ||
Code | Course | Cr. Hrs. |
ELN-122T | Numerical Analysis | 2+0 |
ELN-122L | Numerical Analysis | 0+1 |
Breadth Electives | ||
Code | Course | Cr. Hrs. |
ELT-225T | Electrical Power Transmission | 2+0 |
ELT-225L | Electrical Power Transmission | 0+1 |
ELT-313T | Electrical Power Distribution and Utilization | 2+0 |
ELT-313L | Electrical Power Distribution and Utilization | 0+1 |
Depth Electives | ||
Code | Course | Cr. Hrs. |
ELT-314T | Switchgear and Protective Devices Technology | 2+0 |
ELT-314L | Switchgear and Protective Devices Technology | 0+1 |
ELT-315T | Industrial Drives and PLC | 2+0 |
ELT-315L | Industrial Drives and PLC | 0+1 |
ELT-321T | Renewable and Alternative Energy Technologies | 2+0 |
ELT-321L | Renewable and Alternative Energy Technologies | 0+1 |
ELT-322T | Smart Grid Technology | 2+0 |
ELT-322L | Smart Grid Technology | 0+1 |
ELT-323T | Sensor Networks | 2+0 |
ELT-323L | Sensor Networks | 0+1 |
Interdisciplinary Technology Electives (IDTE) | ||
Code | Course | Cr. Hrs. |
ELI-221T | Basic Mechanical Technology | 1+0 |
ELI-221L | Basic Mechanical Technology | 0+1 |
ELI-321T | Basic Civil Engineering | 1+0 |
ELI-321L | Basic Civil Engineering | 0+1 |