Explore to design and simulate electronic circuits in 3D and program 3D microcontrollers using blocks or code. You'll also get to simulate different Arduino boards and have fun with Electronics and microcontrollers.
£29.99 inc. VAT
More about the course
The course provides a comprehensive 3D design and simulation experience. The introduction of 3D circuit design and simulation opens up exciting opportunities for electronics enthusiasts eager to teach or learn through these immersive 3D circuits. This approach significantly reduces the learning curve for beginners, enabling a broader exploration of electronics.
Step into the realm of 3D circuit design and simulation with Electronic & Microcontrollers. Utilise high-quality graphics to create, modify, and update your circuits within a dynamic 3D environment. Tutorials will guide you through the basics of electronics, explaining the theory clearly and effectively.
If you're passionate about designing circuits and understanding their simulations, this course is perfect for you.
You'll have the chance to delve into the fascinating world of 3D simulations of diverse circuit boards, as well as 2D circuit design tools. Additionally, you will explore microcontroller simulation, testing, and programming, with and without coding.
You will have the following skills after completing this course:
- Explore Various Electronic Elements: Observe how different components respond to varying signals.
- Test and Analyse: Simulate diverse scenarios and circuit conditions to understand the behavior of each element before physical testing.
- Visualise Component Reactions: Witness components like LEDs and resistors fail when subjected to excessive current.
- Edit and Assemble Circuits: Wire and integrate various electronic elements seamlessly.
- Breadboard Usage: Learn to use breadboards effectively both in real life and within the simulation environment.
- RGB LED Application: Master the use of RGB LEDs in practical and simulated settings.
- Series and Parallel Circuits: Understand these circuit configurations through practical examples.
- Arduino Functions: Utilise Arduino for digital/analog input and output.
- Arduino Serial Monitor: Simulate the Arduino Serial Monitor.
- 3D Simulation: Experience 3D simulations of a variety of electronic components.
- 3D Circuit Wiring: Simulate real-life circuit wiring within a 3D platform.
- Signal Measurement: Measure electrical signals, including voltage, current, temperature, light, digital, and analogue signals.
- Arduino Programming: Program and simulate Arduino using both block-based and traditional coding methods.
- Microcontroller Programming: Program and simulate microcontrollers with and without coding using blocks and traditional coding techniques.
Who will benefit from this course?
The Circuit Design and Simulation: Electronic & Microcontroller course will benefit a wide range of individuals, including:- Electronics Enthusiasts: Anyone with a passion for electronics who wants to deepen their understanding of circuit design and simulation.
- Students: High school, college, and university students studying electronics, electrical engineering, or related fields.
- Educators: Teachers and instructors looking for interactive tools to teach electronic circuit concepts effectively.
- Hobbyists: DIY electronics hobbyists who enjoy creating and experimenting with circuits.
- Professionals: Engineers and technicians seeking to enhance their skills in circuit design, simulation, and microcontroller programming.
- Beginners: Individuals new to electronics who want to learn the basics of circuit design and simulation in an engaging, hands-on environment.
- Makers and Innovators: People involved in maker spaces, innovation labs, or startups who need practical skills in electronics and microcontroller programming.
- Researchers: Researchers working on electronic projects who need to test and simulate circuits before physical implementation.
Why Should You Take This Online Course?
- Expertly Designed and Delivered by Industry Experts: Developed and delivered by ASHRAF SAID ALMADHOUN -Professional Mechatronics Engineer.
- Immediate Recognition with an Instant E-Certificate: After finishing our online course, you will receive an instant E-certificate. This certification acknowledges your dedication and successful course completion, allowing you to demonstrate your newly gained knowledge and skills to potential employers, colleagues, or clients. The E-certificate validates your accomplishments immediately, raising your professional standing.
- Convenient Online Learning Experience: Because our course is entirely online, you may learn at your own pace and convenience. The course materials are accessible from anywhere and anytime, making it ideal for people with hectic schedules. The curriculum is delivered via captivating videos and extensive reading materials, creating a dynamic and interactive learning experience.
- Self-paced Learning for Maximum Progress: We recognise that everyone has various learning styles and time commitments. As a result, our online course provides self-paced study. You can work through the course materials independently, allowing for a more personalised learning experience. Our course supports your individual learning preferences, whether you like to immerse yourself in the information or take it step by step.
- Laptop, tablet, and smartphone compatibility: Our online course is device-compatible to improve accessibility. Whether you choose a laptop, tablet, or smartphone, you may easily access and interact with the course contents. This adaptability allows you to learn on the go, incorporating your studies into your everyday routine and maximising your learning possibilities.
Career prospects after completing this course:
Completing the Circuit Design and Simulation: Electronic & Microcontroller course can open up various career prospects in the electronics and technology sectors. Some potential career paths include:- Electronics Engineer: Design, develop, and test electronic systems and components for various applications.
- Electrical Engineer: Work on the design, analysis, and maintenance of electrical systems in industries such as power generation, telecommunications, and manufacturing.
- Embedded Systems Engineer: Develop embedded systems using microcontrollers and integrate them into larger systems.
- PCB Designer: Design printed circuit boards (PCBs) for electronic devices and ensure their functionality and reliability.
- Automation Engineer: Design and implement automated systems in industries such as manufacturing, automotive, and robotics.
- Research and Development Engineer: Engage in innovative projects to develop new electronic technologies and products.
- Technical Support Engineer: Provide technical assistance and troubleshooting for electronic systems and products.
- IoT Developer: Design and develop Internet of Things (IoT) devices and applications, integrating sensors, microcontrollers, and communication technologies.
- Product Development Engineer: Work on the creation and improvement of electronic products from concept to production.
- Test Engineer: Develop and execute testing protocols to ensure the functionality and reliability of electronic systems and components.
- Firmware Developer: Write and maintain low-level software for microcontrollers and other embedded devices.
- Educator/Trainer: Teach electronics and microcontroller programming at educational institutions or through online platforms.
- Robotics Engineer: Design and build robotic systems, integrating electronic circuits, sensors, and microcontrollers.
- Freelance Consultant: Provide expertise in circuit design and simulation to various clients and projects.
Industry Expert Instructor
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Course Content
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- Introduction 00:03:00
- Make a Free Account 00:02:00
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- Explaining the Interface and Simulating your First Circuit 00:08:00
- Editing Components 00:06:00
- Wiring Components 00:07:00
- Adding Components 00:08:00
- Ohm_s Law explained with Practical Example 00:10:00
- Arduino Digital Output – Led Control 00:09:00
- Arduino Dealing with Multiple LEDs and Breadboard 00:07:00
- Arduino Analog Output – Fading LED 00:14:00
- Dealing with RGB Leds with Potentiometers 00:12:00
- Bonus Lecture Manufacture a Professional PCB – By PCBWay 00:12:00