Bachelor's programme Electrical Engineering

Program Overview

---

The University of Twente's three-year Bachelor's in Electrical Engineering program equips students with a solid foundation in electrical engineering principles and prepares them to design and implement innovative solutions to complex engineering challenges. Through hands-on projects and research involvement, students gain a comprehensive understanding of electrical engineering fundamentals, including circuit analysis, electronics, signal processing, and power systems. The program emphasizes collaboration with industry partners and provides personalized guidance, ensuring graduates are highly sought after in the field.

Program Outline

Degree Overview:

---

Overview:

The Bachelor's in Electrical Engineering at the University of Twente is a three-year, English-taught program that prepares students to devise high-tech solutions to practical problems and shape the future of technology.

---

Objectives:

• Develop a solid foundation in electrical engineering principles and concepts.
• Foster creativity and innovation in designing and implementing electrical engineering solutions.
• Equip students with the skills and knowledge to address complex engineering challenges.
• Prepare students for successful careers in the field of electrical engineering.

---

Program Description:

The program combines theoretical knowledge with practical experience through hands-on projects and research involvement. Students gain a comprehensive understanding of electrical engineering fundamentals, including:

• Circuit analysis and design
• Electronics and microelectronics
• Signal processing
• Control systems
• Power systems
• Embedded systems
• Computer architecture

---

Outline:

---

Year 1:

• Introduction to Electrical Engineering
• Mathematics for Electrical Engineers
• Physics for Electrical Engineers
• Programming for Electrical Engineers
• Electronics I
• Circuit Analysis

---

Year 2:

• Electronics II
• Digital Systems
• Control Systems
• Signal Processing
• Power Systems
• Embedded Systems

---

Year 3:

• Advanced Electronics
• Advanced Control Systems
• Advanced Signal Processing
• Power Electronics
• Renewable Energy Systems
• Project

---

Assessment:

---

Assessment Methods:

• Exams
• Quizzes
• Projects
• Presentations
• Lab reports

---

Assessment Criteria:

• Understanding of electrical engineering concepts
• Problem-solving skills
• Analytical abilities
• Communication skills
• Teamwork and collaboration

---

Teaching:

---

Teaching Methods:

• Lectures
• Tutorials
• Lab sessions
• Project work
• Guest lectures

---

Faculty:

• Highly qualified and experienced professors and researchers in electrical engineering.

---

Unique Approaches:

• Emphasis on hands-on learning through projects and research involvement.
• Close collaboration with industry partners to ensure program relevance.
• Small class sizes and personalized guidance.

---

Careers:

---

Potential Career Paths:

• Electrical Engineer
• Electronics Engineer
• Control Systems Engineer
• Signal Processing Engineer
• Power Systems Engineer
• Embedded Systems Engineer
• Research and Development Engineer

---

Opportunities:

• High demand for electrical engineers in various industries.
• Excellent job prospects with competitive salaries.
• Opportunities for career advancement and leadership roles.

---

Outcomes:

• 99% of graduates find employment within a month of completing their Master's degree in Electrical Engineering.
• Many alumni receive multiple job offers before graduation.