What is Advanced Electronics?
By combining an understanding of circuits with the functionality of a microcontroller, electrical devices can be programmed to perform complex tasks that would be difficult—or even impossible—to achieve through electronics alone. Coding allows for precise control, automation, and adaptability, enabling devices to respond dynamically to inputs, make decisions, and execute intricate operations.
Advanced electronics integrates key programming concepts to enhance circuit functionality, making it possible to create intelligent systems that solve real-world problems. From automating industrial processes to enabling smart home technology, coding bridges the gap between simple electrical components and sophisticated, interactive machines.
Suitability
Grade 7 - Grade 11
Approximately 80Hrs.
Suggested pace by our lead trainer experts
40+ Projects
Carefully Curated by our Engineers and Teachers
Concepts Involved
- Inputs and out puts
- Delays
- Variables
- Mathematical operators
- Conditionals
- IF, While and For
- Digital vs Analog
- Timers and timing
- Mapping
- Functions
- Boolean
- Logic
- Passing and returning values
- Constraints
- Calibration
- Arrays and Strings
Why Advanced Electronics Engineering?
This comprehensive course offers a deep dive into the inner workings of technology, giving learners a thorough understanding of not only how technology functions but also how it is designed to perform its various functions. By combining the principles of electronics with coding, students will gain the skills and knowledge necessary to take their electronics projects to the next level.
By learning about complex electrical systems and advanced technologies, children can gain a deeper understanding of how electronics play a role in modern society and be inspired to pursue careers in related fields, such as robotics, automation, and computer engineering.
We focus on the use of the Arduino and its coding environment to bridge the gap between basic electronics circuits and advanced functionality through code. The Arduino platform provides a user-friendly text based interface for learning how to program and control electronic components, making it an ideal and challenging tool for students to grasp essential coding and circuit-building concepts but also gain valuable experience with microcontrollers as a whole. As they work with the Arduino, students become familiar with the principles and techniques used in many other microcontrollers.
Text coding
Learn text based coding through the arduino coding environment.
Coding functionality
Explore the various code functionality that can be achieved with a microcontroller.
Combining coding with circuits
Connect your circuits to the microcontroller and code to enhance what they can do.
Circuit images
Arduino and cable
Multi function circuit
Circuit components
Testing voltage and capacitance
Button digital input
LED control
Digital pin powering
Complex circuits
Coding microcontroller
Why Choose Us?
We believe in the power of immersive simulators and hands-on learning to build strong engineering mindsets. Our platform offers interactive engineering programs that allow students to explore and experiment with real-world concepts in a fun, engaging way. By combining cutting-edge technology with practical applications, we help students develop critical thinking, creativity, and problem-solving skills—essential for success in today’s rapidly evolving world.
Comprehensive Learning Approach:
Engaging simulations, hands-on STEM kits, and expert-designed courses that cover a wide range of topics.
Real-World Application:
Programs that connect theoretical learning with practical, real-life applications to make complex concepts more relatable.
Industry Collaboration:
Partnerships with leading companies and educational institutions to ensure our curriculum aligns with industry needs.
Empowering the Next Generation:
Focus on bridging the STEM skill and gender gap, helping students build confidence, creativity, and problem-solving abilities.
Some of live Words
The STEM simulator has been a great tool to supplement my son’s learning at home. He’s always loved tech, and this platform has helped him learn about sensors, robotics, and engineering concepts in an interactive way. I can see his confidence growing with each new challenge he tackles.
- Jack Dawson
Mathematics Teacher
I really enjoy using the STEM simulator! It’s an amazing way to learn about hardware, sensors, and coding. It feels like I’m working with actual equipment, but I can do it all from my computer. I’ve learned a lot about how things work, and it’s been so much fun!
- Olivia Hayes
Special Education Teacher
The STEM simulator is an excellent resource for teaching engineering and coding concepts. It’s easy to use and offers a variety of components and environments, making it perfect for both beginners and more advanced students. It allows for experimentation without the need for expensive equipment.
- Noah Bennett
Principal
The STEM simulator has been a game-changer for our school. We’ve integrated it into our STEM curriculum, and the students absolutely love it. It’s interactive, educational, and gives students a chance to experiment with real-world engineering applications. It’s a must-have for any school focused on innovation!
- Charlotte Mitchell
Parent Advocate & School Volunteer
A very simple and easy to use! No more messy wires! Works very well for our entire school.
- Ethan Lewis
Parent Representative
The most important part is we can use this kit for Grade 3-4 as well as higher grade students. A lot of possibilities with this kit. You can create easy projects as well as challenging projects for older students
- Allen Border
School Ass. Professor
This kit is an excellent educational tool for students to develop critical thinking and creativity. The instructions are easy to follow, and the kids love the hands-on experience of building their own robots. It’s not just about following steps but understanding the principles behind them.
- Adams Smith
Literacy Coordinator
The electronics kit is fantastic for students to learn about circuits and electrical components. It allows them to build and test their own creations, fostering hands-on learning. The kit also includes helpful guides, making it easy for them to understand the underlying concepts.
- Richard Margon
Primary School Teacher
Get in Touch
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Phone number+61 423 800 703
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Email usinfo@stementis.com
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AddressLevel 2, 11 York Street, Sydney, NSW 2000.
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