Part time electronic engineering Level 5 course online

Monday, 19 May 2025 07:51:50

International Students can apply

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Part time electronic engineering Level 5 course online

Overview

Electronic Engineering is a dynamic field that requires innovative problem-solving skills. Our Part-time Level 5 course online is designed for individuals seeking to upskill in this area.

Develop your knowledge in areas such as circuit design, microcontrollers, and embedded systems, with a focus on practical applications.

Our course is ideal for those looking to enhance their career prospects in industries like electronics manufacturing, mechanical engineering, and computer science.

With flexible online learning, you can balance your studies with work and other commitments.

Explore our course and discover how you can stay ahead in the field of electronic engineering. Learn more today and take the first step towards a rewarding career.

Electronic Engineering is at the forefront of innovation, and this Part-time Level 5 course online is designed to equip you with the skills to stay ahead. With a focus on practical applications, you'll gain a deep understanding of electronic systems, circuits, and microcontrollers. The course features flexible online learning, allowing you to balance study with work and life. Upon completion, you'll be equipped with the knowledge to pursue a career in electronics engineering, with opportunities in industries such as aerospace, automotive, and renewable energy. Career prospects are excellent, with median salaries ranging from £35,000 to £60,000.

Entry requirements




International Students can apply

Joining our world will be life-changing with a student body representing over 157 nationalities.

LSIB is truly an international institution with history of welcoming students from around the world. With us, you're not just a student, you're a member.

Course Content

• Circuit Analysis and Design
This unit covers the fundamental principles of circuit analysis, including Ohm's law, Kirchhoff's laws, and Thevenin's theorem. Students will learn to analyze and design electronic circuits, including series and parallel circuits, and will develop skills in using circuit analysis software. • Microcontrollers and Embedded Systems
This unit introduces students to microcontrollers and embedded systems, including the Arduino platform. Students will learn to program microcontrollers, understand the basics of embedded systems, and develop skills in designing and implementing embedded systems. • Digital Logic and Design
This unit covers the basics of digital logic, including Boolean algebra, digital circuits, and logic gates. Students will learn to design and implement digital circuits, including counters, multiplexers, and demultiplexers, and will develop skills in using digital logic software. • Power Electronics and Motor Control
This unit covers the principles of power electronics, including DC-DC converters, AC-DC converters, and motor control. Students will learn to design and implement power electronic circuits, including motor control systems, and will develop skills in using power electronics software. • Communication Systems and Networks
This unit introduces students to communication systems and networks, including wireless communication, wired communication, and network protocols. Students will learn to design and implement communication systems, including wireless networks and wired networks, and will develop skills in using communication software. • Control Systems and Automation
This unit covers the principles of control systems, including feedback control, feedforward control, and model predictive control. Students will learn to design and implement control systems, including automation systems, and will develop skills in using control systems software. • Electromagnetic Compatibility (EMC) and Radio Frequency (RF) Engineering
This unit covers the principles of electromagnetic compatibility (EMC) and radio frequency (RF) engineering, including electromagnetic radiation, shielding, and filtering. Students will learn to design and implement EMC and RF systems, including wireless communication systems and radar systems. • Computer-Aided Design (CAD) and Simulation
This unit introduces students to computer-aided design (CAD) and simulation software, including SPICE, MATLAB, and Simulink. Students will learn to use CAD and simulation software to design and analyze electronic circuits, including power electronics and control systems. • Internet of Things (IoT) and Sensor Systems
This unit covers the principles of IoT and sensor systems, including sensor networks, IoT protocols, and sensor data analysis. Students will learn to design and implement IoT and sensor systems, including wireless sensor networks and IoT applications. • Renewable Energy Systems and Energy Efficiency
This unit covers the principles of renewable energy systems, including solar energy, wind energy, and energy efficiency. Students will learn to design and implement renewable energy systems, including energy storage systems and energy efficiency measures.

Assessment

The assessment is done via submission of assignment. There are no written exams.

Fee and Payment Plans

30 to 40% Cheaper than most Universities and Colleges

Duration

The programme is available in two duration modes:

:
:
This programme does not have any additional costs.
The fee is payable in monthly, quarterly, half yearly instalments.
You can avail 5% discount if you pay the full fee upfront in 1 instalment

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40% Cheaper

Our course fee is up to 40% cheaper than most universities and colleges.

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Accreditation

Apply Now

  • 1. Complete the online enrolment form and Pay enrolment fee of GBP £10.
  • 2. Wait for our email with course start dates and fee payment plans. Your course starts once you pay the course fee.
  • Apply Now
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Career path

Electronic Engineering Career Roles in the UK

Role Description
Electrical Engineer Design, develop, and test electrical systems, including electrical circuits, electronics, and electromagnetism.
Mechanical Engineer Design, develop, and test mechanical systems, including mechanical devices, machines, and mechanical systems.
Software Engineer Design, develop, and test software programs, including algorithms, data structures, and software applications.
Aerospace Engineer Design, develop, and test aircraft, spacecraft, and missiles, including aerodynamics, propulsion systems, and structural analysis.
Automotive Engineer Design, develop, and test vehicles, including engines, transmissions, and braking systems.

Key facts about Part time electronic engineering Level 5 course online

Part-time electronic engineering Level 5 courses online offer students the flexibility to balance academic studies with work commitments, making it an ideal option for those in the industry.

Learning outcomes of these courses typically include the design, development, and testing of electronic systems, as well as the application of electronic engineering principles to real-world problems.

Duration of these courses can vary, but most part-time electronic engineering Level 5 courses online are designed to be completed over 2 years, with students typically attending one or two days per week.

Industry relevance is a key aspect of these courses, with many institutions partnering with local companies to provide students with hands-on experience and project-based learning.

Graduates of part-time electronic engineering Level 5 courses online can expect to be equipped with the skills and knowledge required to work in a variety of roles, including design engineer, development engineer, and project manager.

These courses are also relevant to those looking to transition into a career in electronic engineering, providing a solid foundation in the principles and practices of the field.

Online learning platforms offer a range of benefits, including flexibility, accessibility, and cost-effectiveness, making it an attractive option for students who need to balance work and study commitments.

Electronic engineering is a rapidly evolving field, and these courses are designed to keep pace with the latest developments and technologies, ensuring that students are equipped with the skills and knowledge required to succeed in their chosen career.

Why this course?

Part-time Electronic Engineering Level 5 Course Online holds immense significance in today's market, driven by the increasing demand for skilled professionals in the field of electronics engineering. According to the UK's Higher Education Statistics Agency (HESA), there were over 14,000 students enrolled in electronic engineering courses in 2020, with a significant proportion opting for part-time and online programs.
Year Number of Students
2018 10,300
2019 11,400
2020 14,100
Google Charts 3D Column Chart:
The growth in demand for part-time electronic engineering Level 5 courses online can be attributed to the increasing need for skilled professionals in the field of electronics engineering, driven by the rapid advancements in technology. With the rise of the Internet of Things (IoT), artificial intelligence, and robotics, the demand for electronic engineers is expected to increase, making online part-time courses an attractive option for professionals looking to upskill or reskill.

Who should enrol in Part time electronic engineering Level 5 course online?

Ideal Audience for Part-time Electronic Engineering Level 5 Course Online

Individuals with a strong foundation in electronic engineering and a desire to enhance their skills and knowledge in a part-time online environment are the ideal candidates for this course.

Typically, these individuals are UK-based professionals working in industries such as aerospace, automotive, or renewable energy, with a minimum of 2-3 years of experience in electronic engineering.

According to a report by the Institution of Engineering and Technology (IET), there are over 140,000 electronic engineers employed in the UK, with a high demand for skilled professionals in emerging technologies such as IoT, AI, and robotics.

Prospective learners should possess a good understanding of electronic engineering principles, including circuit analysis, microcontrollers, and digital signal processing.

Those interested in pursuing a career in research and development, or seeking to transition into a related field such as mechatronics or biomedical engineering, may also benefit from this course.