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MSc Microelectronic and Communications Engineering

City Campus, Northumbria University

 

INTAKE: Jan & Sept

Program Overview

The MSc Microelectronic and Communications Engineering program at Northumbria University is designed to provide students with in-depth knowledge and practical skills in the field of microelectronics and communications. This two-year program offers a comprehensive curriculum that covers various aspects of electronic systems, communication technologies, and their applications. 

  1. Advanced Curriculum: The program curriculum is carefully designed to provide students with a solid foundation in microelectronics and communications engineering. It covers a wide range of topics, including digital electronics, VLSI design, communication networks, signal processing, wireless communications, and RF engineering.

  2. Specialization Opportunities: Students have the flexibility to specialize in specific areas of interest within microelectronics and communications engineering. They can choose from elective modules such as embedded systems, optical communications, antenna design, and advanced signal processing, allowing them to tailor their studies according to their career aspirations.

  3. Industry-Relevant Skills: The program emphasizes practical learning and hands-on experience. Students have access to state-of-the-art laboratories and facilities where they can apply theoretical concepts to real-world engineering problems. They gain practical skills in designing, analyzing, and implementing microelectronic systems, communication networks, and wireless technologies.

  4. Industry Collaboration: Northumbria University has strong links with industry, ensuring that the program's content remains up-to-date and relevant. Students benefit from guest lectures, industry projects, and opportunities for industry placements or internships, providing valuable industry exposure and enhancing their employability.

  5. Research Opportunities: The university's research expertise in microelectronics and communications engineering creates opportunities for students to engage in cutting-edge research projects. They can work alongside experienced researchers and contribute to ongoing research initiatives, gaining valuable research skills and knowledge.

  6. Professional Accreditation: The MSc Microelectronic and Communications Engineering program is accredited by professional bodies such as the Institution of Engineering and Technology (IET). This accreditation ensures that the program meets the standards and requirements set by the industry, enhancing the recognition and value of the degree.

  7. Career Support: Northumbria University provides comprehensive career support to its students. The dedicated careers team offers guidance on career planning, job searching, and networking opportunities. They organize career fairs, industry events, and workshops to connect students with potential employers and enhance their employability.

  8. Global Perspective: The program attracts a diverse student cohort, providing a multicultural learning environment. Students have the opportunity to collaborate with peers from different backgrounds, cultures, and perspectives, enhancing their global awareness and cross-cultural communication skills.

  9. Industry Demand: The field of microelectronics and communications engineering is in high demand globally. Graduates of the program can pursue exciting career opportunities in industries such as telecommunications, semiconductor manufacturing, electronics design and development, research and development, and wireless technology companies.

  10. Further Education: The MSc Microelectronic and Communications Engineering program also prepares students for further academic pursuits, including doctoral studies and research positions in academia or industry.

Northumbria University's MSc Microelectronic and Communications Engineering program provides students with a comprehensive education in a rapidly evolving field. The combination of theoretical knowledge, practical skills, industry collaboration, and career support equips graduates with the necessary tools to excel in their careers and contribute to technological advancements in the field of microelectronics and communications engineering.

Pollster Education

Location

City Campus, Northumbria University

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

£ 19500

Postgraduate Entry Requirements:

  • Applicants should have successfully completed a bachelor's degree or its equivalent from a recognized institution with a minimum overall score of 55% or equivalent.
  • English language proficiency is required, and applicants must provide evidence of their English language skills through an approved language test.
    • IELTS: A minimum overall score of 6.5 with no individual component below 6.
  • Some postgraduate programs may have specific subject prerequisites or additional requirements.

Students must provide:

  • academic marksheets & transcripts
  • letters of recommendation
  • a personal statement - SOP
  • passport
  • other supporting documents as required by the university.

Work experience: Some postgraduate courses may require relevant work experience in the field.

It is important to note that meeting the minimum entry requirements does not guarantee admission, as the university considers factors such as availability of places and competition for the program. Some courses may have higher entry requirements or additional selection criteria, such as interviews or portfolio submissions.

Northumbria University is dedicated towards providing support and opportunities for international students to pursue their education. The university offers a range of scholarships specifically designed to assist international students with their tuition fees and living expenses. These scholarships recognize academic excellence, leadership potential, and contribution to the community.

  1. Northumbria Global Scholarship: The Northumbria Global Scholarship is a merit-based scholarship available to international undergraduate and postgraduate students. It provides a partial tuition fee reduction of up to £6,000 for the first year of study. The scholarship is awarded based on academic achievement, and applicants are automatically considered upon applying for a full-time course at Northumbria University.
  2. Vice-Chancellor's International Scholarship: The Vice-Chancellor's International Scholarship is a prestigious scholarship offered to exceptional international students enrolling in a postgraduate taught program. It provides a tuition fee reduction of up to £2,500. The scholarship is competitive, and applicants are assessed based on academic achievement, personal statement, and references.
  3. Country-Specific Scholarships: Northumbria University also offers scholarships specific to certain countries or regions. These scholarships aim to attract high-achieving students from specific countries or regions and provide financial support for their studies at Northumbria University. The eligibility criteria and application process vary depending on the specific scholarship.
  4. External Scholarships: International students may be eligible for external scholarships provided by government bodies, organizations, or foundations in their home countries. These scholarships are external to the university but can be used to support studies at Northumbria University. 

Graduates of the MSc Microelectronic and Communications Engineering program from Northumbria University are well-prepared for a wide range of career opportunities in the rapidly evolving field of microelectronics and communications. The program equips students with the necessary skills and knowledge to excel in various sectors and industries.  

  1. Microelectronics Engineer: Graduates can pursue careers as microelectronics engineers, designing and developing electronic systems and devices. They can work on projects involving integrated circuits, sensors, power electronics, and other microelectronic components.

  2. Communication Systems Engineer: With their expertise in communication technologies, graduates can work as communication systems engineers, developing and maintaining communication networks, wireless systems, and telecommunications infrastructure.

  3. RF Engineer: RF (Radio Frequency) engineers specialize in designing and optimizing wireless communication systems, such as mobile networks, satellite communication systems, and radar systems. Graduates can work in industries related to wireless technology and RF engineering.

  4. Embedded Systems Engineer: Embedded systems engineers focus on designing and developing computer systems embedded within other devices or products. Graduates can work on projects involving consumer electronics, automotive systems, medical devices, and industrial automation.

  5. Signal Processing Engineer: Signal processing engineers work on analyzing and manipulating signals to extract meaningful information. Graduates with expertise in signal processing can find opportunities in industries such as telecommunications, audio and video processing, image processing, and data analysis.

  6. Research and Development (R&D) Engineer: Graduates can pursue careers in research and development, working on cutting-edge projects to advance microelectronics and communications technologies. They can work in industrial research labs, government research organizations, or academic institutions.

  7. Project Manager: With their technical knowledge and engineering skills, graduates can transition into project management roles, overseeing the planning, execution, and delivery of complex engineering projects related to microelectronics and communications.

  8. Consultant: Graduates can work as consultants, providing expert advice and solutions to organizations in industries such as telecommunications, electronics manufacturing, and technology consulting firms. They can offer specialized knowledge in microelectronics, communications, and engineering management.

  9. Entrepreneurship and Start-ups: Graduates with a passion for innovation and entrepreneurship can start their own ventures in areas such as IoT (Internet of Things), wearable technology, smart devices, or telecommunications services.

  10. Further Studies: The MSc Microelectronic and Communications Engineering program also provides a solid foundation for students who wish to pursue further studies at the doctoral level or engage in advanced research in academia or industry.

The career prospects for graduates of the MSc Microelectronic and Communications Engineering program are promising, given the increasing demand for professionals with expertise in microelectronics, communications, and emerging technologies. The program's strong industry connections, practical focus, and global perspective equip graduates with the skills and knowledge sought after by employers in various sectors, including telecommunications, electronics, research and development, and technology-driven industries.

Northumbria University's strong reputation in engineering education, combined with the practical skills and industry exposure gained during the program, enhances the employability of graduates and positions them for successful careers in the field of microelectronics and communications engineering.

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