MBM Master of Business Management
The MBM program at the University of Essex is designed to develop well-rounded business...
Colchester Campus
INTAKE: October
The BEng Computers with Electronics program at the University of Essex provides students with a comprehensive understanding of the principles and applications of computer systems and electronics. This interdisciplinary program combines elements of computer science, software engineering, and electronics to equip students with the knowledge and skills needed to design, develop, and implement innovative computing and electronic systems. Students learn about hardware and software integration, digital electronics, embedded systems, and computer architecture, preparing them for careers in various technology-driven industries.
Computer Architecture and Systems Design: Students study the fundamental principles of computer architecture and gain insights into designing and optimizing computer systems. They learn about CPU design, memory hierarchies, and system-level optimizations.
Embedded Systems Development: The program emphasizes embedded systems, enabling students to develop skills in designing and programming microcontroller-based systems. Students learn to interface hardware components with software applications for real-world applications.
Digital Electronics: Students delve into digital electronics, including logic design, circuits, and signal processing. They gain hands-on experience in designing and troubleshooting digital circuits, essential for understanding electronic systems.
Software Engineering: The program covers software development methodologies, algorithms, and data structures. Students learn to develop software applications for various platforms, focusing on efficiency, scalability, and reliability.
Electronics and Circuit Design: Students acquire knowledge of electronics, including analog and digital circuit design, PCB layout, and electronic prototyping. They learn to analyze and design electronic circuits for different applications, integrating hardware and software components.
Industry-Driven Projects: The program emphasizes practical learning through industry projects and internships. Students work on real-world challenges, collaborating with industry partners to gain valuable experience and insights.
Advanced Topics in Computing and Electronics: Students explore advanced topics such as artificial intelligence, machine learning, IoT (Internet of Things), and digital signal processing. They apply theoretical concepts to solve complex problems and innovate in emerging technology areas.
Transferable Skills: In addition to technical skills, students develop transferable skills such as problem-solving, critical thinking, teamwork, and communication. These skills are essential for success in the technology sector and prepare graduates for leadership roles.
Colchester Campus
IELTS: 6
£ 20650
Undergraduate Entry Requirements
Academic Qualifications: Applicants should have successfully completed their secondary education with a minimum overall score of 70 to 75% or equivalent in their respective country's grading system.
English language proficiency:
Students must provide:
It is important to note that entry requirements may vary across different programs and courses. Additionally, meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as the number of available places and competition for certain courses.
The University of Essex offers a range of scholarships and financial support options to assist students in their academic journey. These scholarships are designed to recognize and reward academic excellence, promote diversity and inclusion, and provide assistance to those facing financial challenges.
Academic Excellence Scholarships: The university offers scholarships to outstanding students who demonstrate exceptional academic achievements. These scholarships are typically merit-based and provide financial support towards tuition fees or living expenses.
International Scholarships: The University of Essex provides scholarships specifically designed for international students. These scholarships aim to attract and support talented students from around the world. Eligibility criteria and award amounts may vary, and they may cover a portion of tuition fees or provide assistance with living expenses.
Subject-specific Scholarships: Some departments and schools within the university offer scholarships tailored to specific academic disciplines. These scholarships are often awarded to students with exceptional academic records or those who demonstrate a strong commitment to their field of study.
Access and Participation Scholarships: The university is committed to promoting diversity and inclusion. It offers scholarships and financial support to students from underrepresented backgrounds, including those from low-income families or individuals who are the first in their family to attend university.
Government-funded Scholarships: In addition to internal scholarships, the University of Essex provides information and guidance on scholarships and funding opportunities offered by external organizations and government agencies. These scholarships may be available to students based on factors such as nationality, field of study, or research interests.
Sports Scholarships: The university recognizes the importance of sports and offers scholarships to talented athletes who demonstrate exceptional sporting abilities. These scholarships provide financial support along with access to sports facilities, training programs, and dedicated support services.
It is important to note that scholarship availability, eligibility criteria, and application processes may change over time.
Graduates of the BEng Computers with Electronics program at the University of Essex are equipped with a versatile skill set that opens doors to exciting career opportunities in various technology sectors. The program's interdisciplinary nature, combining computer science and electronics, prepares graduates for roles that require expertise in hardware-software integration, embedded systems development, and digital electronics.
Embedded Systems Engineer: Graduates can pursue roles as embedded systems engineers, designing and developing microcontroller-based systems for industries such as automotive, aerospace, healthcare, and consumer electronics. They work on projects involving firmware development, sensor integration, and real-time systems.
Hardware Design Engineer: With a strong foundation in electronics and circuit design, graduates can work as hardware design engineers, responsible for designing and testing electronic components, PCBs (Printed Circuit Boards), and system-level architectures. They collaborate with cross-functional teams to bring innovative products to market.
Software Engineer (Embedded Systems): Graduates can pursue software engineering roles focused on embedded systems and firmware development. They write efficient code to control hardware devices, optimize system performance, and ensure reliability and security in embedded applications.
Digital Design Engineer: Graduates with expertise in digital electronics can work as digital design engineers, specializing in logic design, FPGA (Field-Programmable Gate Array) development, and ASIC (Application-Specific Integrated Circuit) design. They contribute to the development of high-performance digital systems.
Systems Analyst: Graduates can leverage their skills in system-level analysis and design to work as systems analysts, assessing organizational needs and designing integrated computer and electronic systems. They play a critical role in optimizing technology infrastructure and improving operational efficiency.
Telecommunications Engineer: Graduates interested in telecommunications can pursue roles as telecommunications engineers, designing and maintaining network systems, wireless communication technologies, and data transmission protocols. They contribute to the development of 5G networks and IoT (Internet of Things) applications.
Research and Development (R&D) Specialist: Graduates can explore careers in research and development, working for technology companies or research institutions. They contribute to innovative projects, conduct experiments, and prototype new technologies, shaping the future of computing and electronics.
Product Development Manager: With a combination of technical and managerial skills, graduates can transition into product development management roles. They oversee the entire product lifecycle, from ideation and design to manufacturing and launch, ensuring that products meet market needs and quality standards.
Entrepreneurship and Startups: Some graduates may choose to start their own technology ventures, leveraging their technical expertise and innovation to launch startups focused on hardware-software integration, IoT solutions, or consumer electronics.