Obtaining your MSc is the next step after achieving a Bachelor's of Science. This can provide the qualification needed to go on to bigger and better things. Whether those things are job opportunities or further education, is entirely up to the student. A Master's in Science means your future is in your hands.
Getting an MSc in Electronics means developing new skills and enhancing those you already have. There is no single answer for the question, "What is an MSc in Electronics?" With such a degree, students can get hands on experience that will help them in the real world. For example, in a program like electrical engineering, students learn how to carefully design solutions before enacting them with content like Process Improvement Techniques. In these programs, your problem solving abilities can improve by leaps and bounds.
There are multiple benefits to take away from getting your Master's Degree in Science. By building on existing skills, it is possible to gain the qualification needed to enter new and prosperous job fields. Students will also be able to navigate their subject with greater confidence and provide better solutions to new problems.
When it comes to the cost of tuition, it often varies from program to program and country to country. This great variance often means there is a good fit to be found for every budget. Finding a price that fits is often as important as finding a course that fits.
After completing a Master's of Science and earning your qualifications, several different careers will be waiting for you. Entering the world of communications and working with a phone company is just one option. Any other company that makes or markets electronic products will also offer opportunities. Electronics experts even work to save lives in the field of defense. Electronics are widely used and job opportunities will be everywhere.
Application is an easy process to begin. Many programs allow students to apply online, and it is as simple as making a free account and downloading the application form. This is only the first step on an important journey. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
The programme aims to provide students with knowledge and skills in the key aspects of communication, semiconductor, medical and embedded electronics.
The programme aims to provide students with knowledge and skills in the key aspects of communication, semiconductor, medical and embedded electronics. Students can specialise in either communications electronics (embedded systems, networking, etc.) or cognitive electronics (sensors, sensor networks, medical diagnostics, measurement systems). The programme is supported by the ELIKO Competence Centre and the CEBE Centre of Excellence.
Electronics Engineering; Communication Engineering; Advanced Nanomaterials and Semiconductors
The students have a chance to take part in significant research projects (e.g. implantable devices for cardiac monitors, sensors and monitors for transplanted organs and tissues, material quality measurement systems, smart home and city systems)....
M.Sc. Program students must complete a total of at least thirty-six credit hours, within the following guidelines: Course-work of eighteen credit hours, including core co
Electronics and Communications Engineering (ECE):
M.Sc. Program students must complete a total of at least thirty-six credit hours, within the following guidelines:
Course-work of eighteen credit hours, including core courses of six credit hours, elective courses of nine credit hours and a Project-Based Learning course of three credit hours.
Thesis – work of eighteen credit hours.
M.Sc. students have to pass successfully six courses with three credit hours each.
ECE 501- Advanced Analog Integrated Circuits.
ECE 502- Advanced Digital and Data Communications.
The elective courses are divided into two major areas; Electronics and Communications. Each course is worth three credit hours. Students select the six credit elective courses from the sets of Electronics and/or Communications elective courses. Students can also select, with the aid of their academic advisors, elective courses from other interdisciplinary graduate programs....
Ghent University - Faculty of Engineering and Architecture
The Master of Science in Electrical Engineering offers in-depth training in the domains of electrical and electronics engineering and students can choose a focus on eithe
The Master of Science in Electrical Engineering offers in-depth training in the domains of electrical and electronics engineering and students can choose a focus on either Electronic Circuits and Systems (ECS) or Communication and Information Technologies (CIT).
The main focus is on analyzing, designing, fabrication and testing of smart devices and the internet-of-things. An electrical engineer shapes the strong evolution towards an environment where everything is ‘smart’ and where all these smart devices are connected and exchange information. Examples are smart cities, smart mobility, smart health care, smart grids, smart buildings, wearable electronics, robotics, sensor systems, devices improving safety and security, etc. The Master of Science in Electrical Engineering is the only course that covers the hardware aspects of all these smart devices. The program concentrates on analog and digital systems and communication networks, covering both hardware and software aspects but with a clear focus on electronic components and design at the circuit and system level. Both on an individual basis and as part of a team, masters of electrical engineering are capable of efficiently and methodically developing complex electronic (communications) systems for a broad field of applications, starting from the conception and analysis over the design, implementation, testing and up to the management of such systems. Our designs are based on a firm theoretical foundation and technological knowledge and are conceived by making appropriate use of state-of-the-art computer-aided design tools. Given the acquired research attitudes and competencies, masters of electrical engineering are able to support creative or...
This course provides education and training in selected military electronic systems. It is particularly suitable for those who will be involved with the specification, an
This course provides education and training in selected military electronic systems. It is particularly suitable for those who will be involved with the specification, analysis, development, technical management or operation of military radar, electro-optics, communications, sonar or information systems, where the emphasis will be on an Electronic Warfare environment. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. It is particularly suitable for those who, in their subsequent careers, will be involved with the specification, analysis, development, technical management or operation of military radar, electro-optics, communications, sonar or information systems, where the emphasis will be on an Electronic Warfare environment. A Military Electronic Systems Engineering graduate achieves a high level of understanding and detailed knowledge of military communications and sensor systems with particular regard to electronic warfare. In addition, the MSc course enables the student to carry out an in-depth investigation into an area of electronic warfare to further enhance their analytical capability....
We’re in the era of smart technology. Self-optimising systems that learn from their environment and adapt accordingly are already with us – and they’re here to stay. Our
We’re in the era of smart technology. Self-optimising systems that learn from their environment and adapt accordingly are already with us – and they’re here to stay. Our MSc Project Management (Electronic Engineering) is your chance to get involved. Study with us and you’ll build a combined set of management and engineering skills that’ll put you front and centre of Industry 4.0.
It’s one of our new project management courses – bringing vital management skills together with engineering expertise in other areas. Developed in line with the Association for Project Management (APM) and Project Management Institute (PMI) Body of Knowledge, it’s fully in sync with what professionals around the world want. Put simply, these are qualifications designed to get you ready for work....
New knowledge and improvement of existing skills are inherent in the development of electronics engineering. It provides the theoretical basis and design methods for elec
New knowledge and improvement of existing skills are inherent in the development of electronics engineering. It provides a theoretical basis and design methods for electronic systems and intellectual components: communications, computers, programming, software engineering, control and other electronic and electrical energy systems.
Practical and organizational skills are encouraged through project, design and laboratory work and management studies. Performed scientific research and totality of the knowledge conveyed by this programme allows our graduates to remain competitive in the labor market.
Long history of research in electronics engineering
KTU has a long history of expertise in electronics engineering: embedded systems design and analysis research is led by prof. V. Deksnys, prof. L. Svilainis is known for investigation in signal technologies....
A graduate receives the title of Master of Science in Electronics and Communications Engineering. They are prepared to perform research and development in the discipline
M.Sc. in Electronics and Telecommunications, specialization: Information and Communication Technologies
Master studies in Electronics and Telecommunications (specialization: Information and Communication Technologies) last three or four semesters. The 3-semester programme starts in end-February whereas 4-semester studies start in end-September.
The 3-semester programme version is meant for the B.Sc. graduates in the field of electronics and telecommunications exclusively (not in any other, related subject area).
The 4-semester programme additionally has a ‘preparatory’ semester and is dedicated to the Bachelor-level diploma holders in subject areas other than electronics and telecommunications (e.g. general electrical engineering, computer science, physics, technical physics, mathematics, control engineering etc.). Thus, ‘preparatory’ semester is mainly devoted to enhance and widen the student’s knowledge in telecommunications and electronics and the curriculum following it is identical to the 3-semester programme....
Microelectronic engineering affects nearly all aspects of our daily lives. RIT’s microelectronic engineering program is considered a world leader in the education of semi
Integrated microelectronic or nanoelectronic circuits and sensors drive our global economy, increase our productivity, and help improve our quality of life. Semiconductor and photonic devices impact virtually every aspect of human life, from communication, entertainment, and transportation to health, solid-state lighting, and solar cells. RIT’s microelectronic engineering program is considered a world leader in the education of semiconductor process engineers.
The microelectronic engineering masters provides a unique combination of physics, chemistry, and engineering in a state-of-the-art facility to prepare graduates for the real world. With internationally renowned professors with years of experience, courses are grounded in reality – practical skill and advanced theory, combine for comprehensive learning. Put your knowledge to work with a microelectronic engineering master from RIT....
This new masters course combines the disciplines of mechanical and electronic engineering with computer control systems. Offered full-time and part-time.
This is an MSc course in Embedded Systems with contributions from the fields of mechatronics and robotics.
Embedded systems are microprocessor-based systems within a larger mechanical or electrical system that performs a dedicated function or task. They encompass a wide variety of products ranging from small mobile phones to large process automation installations. A practising engineer in the field of embedded systems needs to have specialised expertise in more than one of the engineering subjects of this multi-discipline subject.
Our MSc is tailored to provide you with advanced learning in microprocessor systems that are at the heart of embedded systems, with additional contributions from the fields of mechatronics and robotics. This approach reflects the needs of the industry and is well supported by the range of expertise we have in our Department. ...
QUB Faculty of Engineering and Physical Sciences (EPS)
This programme is designed as a specialised extension to the study of Electronics at the undergraduate level. The programme provides students with the opportunity to deep
This programme is designed as a specialised extension to the study of Electronics at the undergraduate level. The programme provides students with the opportunity to deepen their understanding and develop specialist expertise in a range of advanced electronics subjects including microelectronics, sensors, signal processing, hardware and software design, communications, and digital systems.
Please note: Applications for this course, received after 30th June may not be accepted. A deposit will be required to secure a place.
Our facilities have recently undergone a £10m refurbishment and include laboratories for Microengineering, Electronics, Communications, Circuits, Instrumentation, Virtual Reality, Software Engineering, Renewable Energy, Power and Machines. The Queen's Advanced Micro-engineering Centre (QAMEC) is a Centre of Excellence for research and development employing silicon technology and MEMS technology....
The Master's Degree in Electronics and Communications Engineering aims to form a graduate with advanced skills in processing and information-transmission systems of and t
MSc Degrees in Electronics. Electronics and Communications Engineering
This is a 2-year graduate programme entirely taught in English, offered to both national and international students.
The Master's Degree in Electronics and Communications Engineering aims to form a graduate with advanced skills in processing and information-transmission systems of and to provide more specific knowledge in the design of devices and electronic systems. It provides the skills and methodological tools needed to design and develop systems for signal and image processing, antenna design, microwave systems and devices, analog and digital electronic design with applications in the fields of electronics, telecommunications....
The program provides high-level education to graduate students with a bachelor in electronics, communications, and other scientific disciplines. Besides traditional cours
The program provides high-level education to graduate students with a bachelor in electronics, communications and other scientific disciplines. Besides traditional courses, the syllabus includes other industry-oriented courses and opportunities for exposure to most recent advances in three different tracks.
Microelectronics is intended to offer in-depth knowledge of integrated circuits and systems.
The two-year program in Microelectronics is intended to offer a challenging high-level education and a stimulating research environment to talented students who hold a Bachelor degree in technology or science of substantial quality and level. The proposed program leverages a unique peculiarity of Pavia: the townhouse's several design and research centers of international semiconductor companies which tightly collaborate with the University to train students of high profile. Most companies host students for their graduation projects and participate, in co-operation with the University, in national and European research programs. STMicroelectronics supports a Laboratory housed inside the campus. Engineers graduated from Laurea Magistralis are nowadays employees of the most important international semiconductor companies in Italy and abroad: Austriamicrosystems, Broadcom, Conexant, Elpida Memory, Huawei, International Rectifier, Marvell, Maxim, MaxLinear, Micron, National Semiconductor, Qualcomm, STMicroelectronics....
Embedded Electronics Engineering offers a wide perspective, where digital and analogue design is regarded as one unit in which different domains interact. The focus is on
Embedded Electronics Engineering offers a wide perspective, where digital and analogue design is regarded as one unit in which different domains interact. The focus is on CMOS, where billions of devices are used to build a system on a single silicon die.
The Shanghai ranking (ARWU) ranks Lund University among the top 20 universities in the world in the field of Electrical and Electronic Engineering for the year 2017. This programme is demanding and unique in its offering, perfect preparation for your future career. The programme spans areas from radio frequency (RF) circuits through to data conversion and digital circuits. Another distinguishing feature is that circuit design is linked to the area of wireless communication, where RF front-ends are co-designed with digital baseband, which provides the opportunity to build complete transceivers....
The Electronics Engineering (EE) program is designed to provide the theoretical fundamentals of and a comprehensive technological background for leading-edge work in this
The Electronics Engineering (EE) program is designed to provide the theoretical fundamentals of and a comprehensive technological background for leading-edge work in this rapidly developing field. The program offers a balanced set of courses in the areas of electronic devices and circuits, optics, communication systems, networks, information and signal processing, from which our students are able to select their courses according to their own interests. The entire program is structured around an innovative project-based approach to education, which will challenge students to excel in defining and solving realistic design and engineering problems. With these skills, our EE graduates are expected to assume technological leadership positions in many sectors involving electronics and computing, where a sound knowledge of electronics engineering is vital for implementations of information technologies and system integration applications....
Through the Master's Programme in Electronics and Nanotechnology you can become a future trailblazer and game changer in wireless technologies, space technology or nanote
Through the Master's Programme in Electronics and Nanotechnology you can become a future trailblazer and game changer in wireless technologies, space technology or nanotechnology.
Electronics and nanotechnology enable many new things in our world: life becomes wireless with a growing number of mobile devices surrounding us, space technology is sky rocketing in the form of small satellites, and nanotechnology enables major breakthroughs in many fields, such as solar energy harvesting. Through the Master's Programme in Electronics and Nanotechnology you can become a future trailblazer and game changer in one of these fields.
The programme offers you fundamental knowledge in one of the following areas:...