Portable Battery

Portable Battery

Portable Battery

Learn how to design and build your own wireless power bank using PCB design tools and soldering techniques. This course introduces EasyEDA for schematic drawing and PCB layout, culminating in the creation of a functional wireless charging device.

Learn how to design and build your own wireless power bank using PCB design tools and soldering techniques. This course introduces EasyEDA for schematic drawing and PCB layout, culminating in the creation of a functional wireless charging device.

Learn how to design and build your own wireless power bank using PCB design tools and soldering techniques. This course introduces EasyEDA for schematic drawing and PCB layout, culminating in the creation of a functional wireless charging device.

Target Student

Secondary Student

Category

PCB-02

Number of Session

5

Session Duration

7 hours

Course Description

Course Description

Course Description

This course introduces students to the fundamentals of Printed Circuit Boards (PCBs) — the essential foundation of all electronic devices, often referred to as the "mother of electronic products." Students will use EasyEDA, a user-friendly online tool that allows them to design schematics and lay out PCBs without prior technical or coding knowledge.

By the end of the course, students will have completed a wireless power bank project. This smart device will support both standard USB charging and wireless charging through a built-in wireless charging chip that can detect and power compatible devices. The hands-on experience integrates design, fabrication, and real-world application, inspiring students to think like engineers and innovators.

This course introduces students to the fundamentals of Printed Circuit Boards (PCBs) — the essential foundation of all electronic devices, often referred to as the "mother of electronic products." Students will use EasyEDA, a user-friendly online tool that allows them to design schematics and lay out PCBs without prior technical or coding knowledge.

By the end of the course, students will have completed a wireless power bank project. This smart device will support both standard USB charging and wireless charging through a built-in wireless charging chip that can detect and power compatible devices. The hands-on experience integrates design, fabrication, and real-world application, inspiring students to think like engineers and innovators.

This course introduces students to the fundamentals of Printed Circuit Boards (PCBs) — the essential foundation of all electronic devices, often referred to as the "mother of electronic products." Students will use EasyEDA, a user-friendly online tool that allows them to design schematics and lay out PCBs without prior technical or coding knowledge.

By the end of the course, students will have completed a wireless power bank project. This smart device will support both standard USB charging and wireless charging through a built-in wireless charging chip that can detect and power compatible devices. The hands-on experience integrates design, fabrication, and real-world application, inspiring students to think like engineers and innovators.

Highlights

Highlights

Highlights

  • Hands-on creation of a functional wireless charging power bank

  • Web-based PCB design using EasyEDA (no software installation required)

  • Real-world product application and user-oriented design

  • Exposure to modern charging technologies (USB & wireless)

  • Basic electronics, soldering, and fabrication skills integrated into one project

  • Hands-on creation of a functional wireless charging power bank

  • Web-based PCB design using EasyEDA (no software installation required)

  • Real-world product application and user-oriented design

  • Exposure to modern charging technologies (USB & wireless)

  • Basic electronics, soldering, and fabrication skills integrated into one project

  • Hands-on creation of a functional wireless charging power bank

  • Web-based PCB design using EasyEDA (no software installation required)

  • Real-world product application and user-oriented design

  • Exposure to modern charging technologies (USB & wireless)

  • Basic electronics, soldering, and fabrication skills integrated into one project

Learning Outcome

Learning Outcome

Learning Outcome

  • Understand what a PCB is and its role in electronic devices

  • Learn how to use EasyEDA to design circuit schematics and PCB layouts

  • Build and test a smart product (wireless power bank)

  • Practice circuit board soldering and component placement

  • Gain insight into practical electronics and product innovation

  • Develop creativity and problem-solving through tech-based learning

  • Understand what a PCB is and its role in electronic devices

  • Learn how to use EasyEDA to design circuit schematics and PCB layouts

  • Build and test a smart product (wireless power bank)

  • Practice circuit board soldering and component placement

  • Gain insight into practical electronics and product innovation

  • Develop creativity and problem-solving through tech-based learning

  • Understand what a PCB is and its role in electronic devices

  • Learn how to use EasyEDA to design circuit schematics and PCB layouts

  • Build and test a smart product (wireless power bank)

  • Practice circuit board soldering and component placement

  • Gain insight into practical electronics and product innovation

  • Develop creativity and problem-solving through tech-based learning

Equipment Provided by School

  • Laptop or desktop computer (with USB port)

  • Internet access

  • Mouse

  • Soldering tool kit

  • Laptop or desktop computer (with USB port)

  • Internet access

  • Mouse

  • Soldering tool kit

  • Laptop or desktop computer (with USB port)

  • Internet access

  • Mouse

  • Soldering tool kit

Teaching Materials Provided By Semtron

  • Complete Wireless Power Bank PCB kit
    (includes PCB board, USB charging modules, wireless charging chip, battery connectors, and components)

  • Digital learning guides and tutorials

  • Step-by-step project documentation

  • Instructor presentation slides (upon request)

  • Complete Wireless Power Bank PCB kit
    (includes PCB board, USB charging modules, wireless charging chip, battery connectors, and components)

  • Digital learning guides and tutorials

  • Step-by-step project documentation

  • Instructor presentation slides (upon request)

  • Complete Wireless Power Bank PCB kit
    (includes PCB board, USB charging modules, wireless charging chip, battery connectors, and components)

  • Digital learning guides and tutorials

  • Step-by-step project documentation

  • Instructor presentation slides (upon request)

  • More Works More Works

Router Developing Board

PCB-03

Router Developing Board

PCB-03

Router Developing Board

PCB-03

Linux Developing Board

PCB-03

Linux Developing Board

PCB-03

Linux Developing Board

PCB-03

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Do you have questions about our services or want to learn about sustainable living?

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Do you have questions about our services or want to learn about sustainable living?

GET IN

TOUCH

Get Started

Get Started

Get Started

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