Full Course Description
Master Embedded Systems and lead the future of technology. Learn Microcontroller Programming, RTOS, and Firmware Development.
Course Overview
- Next Batch:New batches start every month. Limited seats available – enroll early!
- Course Duration:6 Weeks (Flexible schedules with part-time and full-time options).
- Eligibility: Engineering learners Diploma Holders Electronics Hobbyists Professionals Looking to Upskill.
- Engineering learners.
- Electronics Hobbyists.
- Professionals Looking to Upskill.
Embedded Systems Training Course
- Learn Embedded C programming and microcontroller architecture fundamentals.
- Interface sensors, actuators, and peripherals with microcontrollers.
- Design and simulate circuits using Proteus and Keil tools.
- Develop real-time embedded applications for automotive, robotics, and IoT.
- Work with advanced controllers like ARM Cortex and Arduino boards.
- Prepare for the Embedded Systems Professional credential preparation assessment and embedded engineer roles.
Overview of Embedded Systems Training Course
The Embedded Systems professional learning track is designed for electronics and computer engineering learners who want to master the integration of hardware and software. It focuses on microcontroller programming, embedded design, and system-level development, providing you with the specialized technical expertise needed to advance your career.
Through hands-on hardware labs and real-world projects, learners gain hands-on experience in designing embedded systems for automation, robotics, and IoT devices. By the end of the program, you'll earn your Embedded Systems credential preparation and be qualified to work as an Embedded Developer, Hardware Engineer, or IoT Specialist.
1. Programming Foundations
- Basics of C Programming.
- Statements, Loops, Functions.
- Arrays, Strings, and Pointers.
2. Core Embedded Concepts
- Embedded System Basics & Components.
- Microprocessor vs. Microcontroller.
- Classification (RISC, CISC, Von-Neumann, Harvard).
3. Controllers and Architecture
- PIC16F877A and AVR (ATMega8/32).
- Block and Pin Diagram Explanation.
- Special Features and Memory Architecture.
4. Development Tools & IDEs
- PROTEUS, Debugger, Compiler, Emulator.
5. Real-Time Device Interfacing
- LED, LCD (4-bit & 8-bit), 7-Segment.
- Switches, Keypads, Motors, Relays.
- ADC Interfacing, Timers & Counters.
- UART Programming & Interrupt Handling.