RQF Level 5 Electronic Engineering Diploma

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International Students can apply

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RQF Level 5 Electronic Engineering Diploma

Overview

Electronic Engineering


The Electronic Engineering Diploma at RQF Level 5 is designed for individuals seeking to develop a comprehensive understanding of electronic systems and technologies.


With a focus on practical application and theoretical knowledge, this diploma caters to those looking to enhance their skills in areas such as circuit design, microcontrollers, and embedded systems.


Some of the key topics covered include digital logic, microprocessors, and communication systems.


By completing this diploma, learners can gain the skills and knowledge required to pursue a career in electronic engineering or progress to further education and training.


Explore the Electronic Engineering Diploma at RQF Level 5 today and discover how it can help you achieve your career goals.

Electronic Engineering is at the heart of modern innovation, and our RQF Level 5 Electronic Engineering Diploma is designed to equip you with the skills and knowledge to succeed in this exciting field. By studying this course, you'll gain a deep understanding of electronic systems, circuits, and microcontrollers, as well as develop essential skills in programming, testing, and maintenance. With electronic engineering as your foundation, you'll be well-placed for a career in industries such as aerospace, automotive, or renewable energy, with opportunities for advancement into senior roles or starting your own business. Our course features electronic engineering projects, guest lectures, and industry connections.

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

• Electronic Circuit Design and Simulation using SPICE
This unit introduces students to the principles of electronic circuit design and simulation using SPICE (Simulation Program with Integrated Circuit Emphasis). Students will learn to design and analyze electronic circuits, including voltage and current sources, resistors, capacitors, and inductors. • Microcontrollers and Embedded Systems
This unit covers the basics of microcontrollers and embedded systems, including the ARM Cortex-M series and the Arduino platform. Students will learn to program microcontrollers using C and learn about the principles of embedded systems, including sensor integration and communication protocols. • Digital Signal Processing (DSP) and Filtering
This unit introduces students to the principles of digital signal processing (DSP) and filtering, including the Fast Fourier Transform (FFT) and the discrete-time Fourier transform (DTFT). Students will learn to design and implement digital filters, including low-pass, high-pass, and band-pass filters. • Power Electronics and Motor Control
This unit covers the principles of power electronics and motor control, including the use of power MOSFETs and IGBTs. Students will learn to design and implement power electronic circuits, including rectifiers, inverters, and motor control systems. • Communication Systems and Networking
This unit introduces students to the principles of communication systems and networking, including wireless communication systems, including Wi-Fi and Bluetooth. Students will learn to design and implement communication systems, including modulation, demodulation, and error correction. • Electronic Measurement and Instrumentation
This unit covers the principles of electronic measurement and instrumentation, including the use of oscilloscopes, multimeters, and data loggers. Students will learn to design and implement electronic measurement systems, including signal conditioning and data acquisition. • Control Systems and Automation
This unit introduces students to the principles of control systems and automation, including the use of PID controllers and model predictive control (MPC). Students will learn to design and implement control systems, including process control and robotics. • Electromagnetic Compatibility (EMC) and Electromagnetic Interference (EMI)
This unit covers the principles of electromagnetic compatibility (EMC) and electromagnetic interference (EMI), including the use of shielding and filtering. Students will learn to design and implement systems to minimize EMI and ensure EMC compliance. • Renewable Energy Systems and Energy Efficiency
This unit introduces students to the principles of renewable energy systems and energy efficiency, including solar and wind power. Students will learn to design and implement renewable energy systems, including energy storage and grid integration. • Human-Machine Interface (HMI) and User Experience (UX)
This unit covers the principles of human-machine interface (HMI) and user experience (UX), including the design of user interfaces and user-centered design. Students will learn to design and implement HMIs, including the use of human factors and usability testing.

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

Here are some of the most in-demand electronic engineering career roles in the UK, along with their job market trends, salary ranges, and skill demands.

1. Electrical Engineer

Design, develop, and test electrical systems, including electrical circuits, electronics, and electromagnetism.

2. Mechanical Engineer

Design, develop, and test mechanical systems, including mechanical devices, machines, and mechanisms.

3. Software Engineer

Design, develop, and test software programs, including algorithms, data structures, and software applications.

4. Electronics Engineer

Design, develop, and test electronic systems, including electronic circuits, electronics, and electromagnetism.

5. Control Systems Engineer

Design, develop, and test control systems, including control algorithms, sensors, and actuators.

6. Robotics Engineer

Design, develop, and test robots and robotic systems, including robotic arms, autonomous vehicles, and robotic vision.

7. Telecommunications Engineer

Design, develop, and test telecommunications systems, including telephone networks, internet protocols, and data transmission.

8. Computer Systems Engineer

Design, develop, and test computer systems, including hardware, software, and networking components.

Key facts about RQF Level 5 Electronic Engineering Diploma

The RQF Level 5 Electronic Engineering Diploma is a comprehensive qualification that equips learners with advanced knowledge and skills in electronic engineering, preparing them for successful careers in the industry.

Learning outcomes of the RQF Level 5 Electronic Engineering Diploma include designing, developing, and testing electronic systems, as well as understanding the principles of electronics, electromagnetism, and digital logic.

The duration of the RQF Level 5 Electronic Engineering Diploma typically takes one year to complete, with learners required to study a combination of theoretical and practical modules to achieve the qualification.

Industry relevance is a key aspect of the RQF Level 5 Electronic Engineering Diploma, as it provides learners with the skills and knowledge required to work in a variety of electronic engineering roles, including design, development, and maintenance of electronic systems.

Graduates of the RQF Level 5 Electronic Engineering Diploma can pursue careers in fields such as telecommunications, aerospace, automotive, and medical devices, among others, and can also progress to higher-level qualifications or enter the workforce directly.

The RQF Level 5 Electronic Engineering Diploma is recognized by employers and academic institutions alike, and is a valuable asset for anyone looking to establish a successful career in electronic engineering.

Why this course?

RQF Level 5 Electronic Engineering Diploma holds significant importance in today's market, particularly in the UK. The UK's electronics industry is a significant contributor to the country's economy, with a value of over **£140 billion** (Source: UK Electronics Industry Council). The demand for skilled electronic engineers is high, with the industry employing over **1.3 million people** (Source: ONS, 2020). To visualize the growth of the electronics industry in the UK, we can look at the number of electronic engineering graduates. According to the Higher Education Statistics Agency (HESA), the number of electronic engineering graduates in the UK has been steadily increasing, with a 10% rise in 2020 compared to the previous year.
Year Number of Electronic Engineering Graduates
2015 14,440
2018 17,490
2020 19,640

Who should enrol in RQF Level 5 Electronic Engineering Diploma?

Ideal Audience for RQF Level 5 Electronic Engineering Diploma
Individuals with a strong foundation in mathematics and science, typically those with a Level 3 qualification or equivalent, are well-suited for this diploma.
Those interested in pursuing a career in electronic engineering, such as design, development, and testing, will benefit from the skills and knowledge acquired through this diploma.
In the UK, the electronics industry is a significant contributor to the economy, with over 200,000 people employed in the sector, and the demand for skilled engineers is expected to continue growing.
Prospective learners should have a good understanding of programming languages such as C++, Python, or MATLAB, and be familiar with electronic circuit design and simulation tools.
By completing the RQF Level 5 Electronic Engineering Diploma, individuals can develop the skills and knowledge required to succeed in this field and potentially progress to higher-level qualifications or enter the workforce.