Electronics & Embedded Technology Master's degrees combine principles from Mathematics, Computer & Software Engineering, and Electrical Engineering. Students learn the basic concepts used to build electrical devices and discover how to solve complex problems and new challenges that come with the constant demand for innovation.
You should study a Master's in Electronics and Embedded Technology if you've always wanted to know how gadgets work and how they are created. It's the ideal degree for students with an analytical mind, who enjoy tackling difficult tasks and aren't afraid of advanced mathematics.
Most Electronics & Embedded Technology degrees are offered as M.Sc. (Master of Science) or M.Eng. (Master of Engineering) degrees. Some universities offer programmes as M.A. (Master of Arts) degrees. It usually takes 1 or 2 years to graduate.
You can choose between a general Electronics and Embedded Technology degree or one of the various specialisations. Some of the most popular ones are Digital Signal Processing (DSP), Control Engineering, VLSI (Very Large-Scale Integration) Design Engineering, Communication Systems, Power Electronics, Radio Frequency (RF) and Microwave Engineering, and others.
The courses you'll take during a graduate degree in Electronics or Embedded Technology vary from one university and programme to another. However, you can expect to take classes in Embedded Computer Architecture, Real-Time Systems, Battery & Electrical Systems, the Internet of Things (IoT), Mobile Communication, Nanofabrication, Acoustoelectric Devices, Electromagnetic Compatibility, etc.
Electronics & Embedded Technology classes also help students to develop both technical and soft skills. They range from critical thinking, problem solving, and communication to project management, research abilities, data analysis, and creativity.
Electronics & Embedded Technology graduates can easily find work opportunities after their studies. Companies from all industries (e.g. telecommunication, computer manufacturing, aviation, scientific research) rely on new devices, systems, and technologies to improve their efficiency and design better products and services.
Some of the most popular jobs are electronics engineer, quality assurance (QA) engineer, embedded system engineer, electronics technician, field service technician, test engineer, fibre optics engineer, robotics engineer, etc. These are the most recent and exciting trends in Electronics and Embedded Technology: the emphasis on improving the security of embedded devices, the reduction of energy consumption, the use of deep learning programmes, the growing demand for smart TVs and other smart devices/appliances, and others.Read more about studying a Electronics & Embedded Technology degree
Not sure if Electronics & Embedded Technology is for you?
Studying in New Zealand is an excellent choice. The small island nation is one of the safest places in the world and has developed an education system based on the successful UK model. Tuition fees are relatively affordable, especially when compared to the US, and local universities are listed among the best in the world. The quality of the education is also confirmed by international tests, which reveal New Zealand students are in the top 10 in terms of academic success worldwide. As a student, you’ll also enjoy the friendliness of New Zealanders, and you’ll have the opportunity to try all kinds of fun and exciting outdoor activities, including hiking, scuba diving, ice climbing, canoeing, etc.Read more about studying abroad in New Zealand
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