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Course Outline
Introduction
Overview of Embedded Systems
- Real-world applications: Watches, DVD players, mobile phones, etc.
- Distinctions between real-time operating systems and Embedded Linux, among others.
- Resource constraints: size, speed, and power consumption.
Overview of Microcontroller Architecture
- Microcontrollers versus microprocessors.
- Selecting an appropriate Microcontroller Architecture.
Starting a Project
- Defining design requirements.
- Preparing the development environment, tools, and hardware.
- Interfacing between the microcontroller and a PC.
Programming a 8051 Microcontroller Using Embedded C
- Working with system peripherals.
- Interfacing with user peripherals.
- General Purpose Input/Output (GPIO).
Programming an ARM CORTEX M-3 Using Embedded C
- Working with system peripherals.
- Interfacing with user peripherals.
- General Purpose Input/Output (GPIO).
Programming an ARM9 CPU Core Using Embedded C
- Working with system peripherals.
- Interfacing with user peripherals.
- General Purpose Input/Output (GPIO).
Testing and Debugging
- Tools and techniques.
- Optimization for size, speed, and power consumption.
Deploying an embedded system
- Environmental considerations.
- Securing a device.
Troubleshooting
Summary and Conclusion
Requirements
- A foundational understanding of electronics.
- Prior experience with C programming.
- All participants must provide their own hardware (such as microcontrollers and cables) and software (such as IDEs). Please consult the training coordinator for specific technical requirements.
Target Audience
- Electronics engineers.
- Software developers who possess knowledge of electronics.
35 Hours
Testimonials (1)
Just getting off the ground and doing some basic things was super useful
