Embedded C Programming Course

Master Embedded C programming for microcontrollers and embedded systems. Learn memory management, interrupt handling, peripheral interfacing, and real-time applications.

Duration 2.5 Months (80 Hours)
Mode Live Online / Offline
900+ Students
150+ Partners
85% Placement

📈 Your Market Value After This Course

What you'll achieve and how much you can earn after completing Embedded C

Fresher / Entry Level

₹3.5 - 6 LPA

0-2 years experience

  • Junior Embedded Engineer
  • Firmware Trainee
⭐ Most Common

Mid Level

₹6 - 12 LPA

2-5 years experience

  • Embedded Software Engineer
  • Firmware Developer

Senior / Expert Level

₹14 - 30+ LPA

5+ years experience

  • Senior Embedded Architect
  • Embedded Systems Manager

🎯 Job Roles You Can Apply For

Embedded Engineer
Firmware Developer
Embedded Software Engineer
IoT Engineer
Systems Engineer
Hardware Engineer

⚡ Skills You'll Master

Embedded C
Microcontrollers (8051, AVR, ARM)
Bit Manipulation
Interrupt Handling
Timer/PWM Programming
ADC Programming
UART, I2C, SPI Protocols
FreeRTOS
Embedded Debugging
Oscilloscope & Logic Analyzer

📚 Complete Course Syllabus

Master every aspect with our comprehensive curriculum

Module 1: Introduction to Embedded Systems

  • What are Embedded Systems - Applications
  • Characteristics of Embedded Systems
  • Embedded System Components - Hardware, Software, Firmware
  • Embedded C vs Standard C
  • Embedded Development Tools - Compilers, Debuggers, Simulators
  • Introduction to Microcontrollers - 8051, PIC, AVR, ARM
  • Embedded C Development Environment Setup

Module 2: C Programming Refresher for Embedded

Module 3: Embedded C Basics

  • Embedded C Syntax & Structure
  • Data Types for Embedded - signed/unsigned, fixed-point
  • volatile Keyword - Purpose & Usage
  • const Keyword in Embedded Programming
  • static Keyword - Variable Persistence
  • register Keyword for Optimization
  • Inline Functions in Embedded C
  • Writing First Embedded C Program

Module 4: Memory Management in Embedded C

  • Memory Architecture of Microcontrollers
  • RAM vs ROM - Flash, EEPROM, SRAM
  • Stack vs Heap in Embedded Systems
  • Memory-Mapped I/O
  • Linker Scripts & Memory Sections
  • Memory Optimization Techniques
  • Memory Leak Detection in Embedded C

Module 5: Bit Manipulation & Register Programming

  • Bitwise Operators - &, |, ^, ~, <<, >>
  • Setting, Clearing, Toggling Bits
  • Reading Specific Bits from Registers
  • Bit Fields in Structures
  • Working with Register Addresses
  • #define for Register Bit Macros
  • Bit Manipulation Best Practices

Module 6: Interrupts & Exception Handling

  • What are Interrupts - Polling vs Interrupts
  • Interrupt Service Routine (ISR)
  • Interrupt Vector Table (IVT)
  • Interrupt Priority & Nesting
  • External Interrupts vs Internal Interrupts
  • Writing ISR in Embedded C
  • Interrupt Latency & Timing
  • Disabling/Enabling Interrupts

Module 7: Timers & Counters

  • Introduction to Timers & Counters
  • Timer Modes - Normal, CTC, PWM, Fast PWM
  • Timer Registers - TCNT, OCR, ICR
  • Generating Delays using Timers
  • Timer Interrupts
  • Pulse Width Modulation (PWM) Generation
  • Input Capture & Output Compare
  • Watchdog Timer (WDT)

Module 8: Communication Protocols (I2C, SPI, UART)

  • Introduction to Serial Communication
  • UART - Universal Asynchronous Receiver Transmitter
  • UART Programming - Baud Rate, Data Bits, Stop Bits
  • RS232 & RS485 Standards
  • I2C - Inter-Integrated Circuit Protocol
  • I2C Programming - Master/Slave, Start/Stop Conditions
  • SPI - Serial Peripheral Interface
  • SPI Programming - CPOL, CPHA, Clock Settings
  • CAN Protocol for Automotive
  • USB Communication Basics

Module 9: ADC & PWM Programming

  • Analog to Digital Converter (ADC) Basics
  • ADC Resolution - 8-bit, 10-bit, 12-bit
  • ADC Registers - ADMUX, ADCSRA, ADCL, ADCH
  • ADC Programming - Single Conversion vs Free Running
  • ADC Interrupts
  • Pulse Width Modulation (PWM) Generation
  • PWM Modes - Fast PWM, Phase Correct PWM
  • PWM Duty Cycle Calculation
  • Applications - LED Dimming, Motor Speed Control

Module 10: Microcontroller Architecture (8051, AVR, ARM)

  • 8051 Microcontroller Architecture
  • 8051 Pin Diagram & Ports
  • 8051 Programming in Embedded C
  • AVR Microcontroller Architecture (ATmega328P)
  • AVR Programming with Atmel Studio
  • ARM Cortex-M Architecture
  • ARM Programming with Keil uVision
  • STM32 Microcontrollers
  • Raspberry Pi Pico - RP2040
  • Selecting Microcontroller for Projects

Module 11: Real-Time Operating Systems (RTOS)

  • What is Real-Time Operating System
  • Soft RTOS vs Hard RTOS
  • FreeRTOS Introduction
  • Tasks & Task States - Running, Ready, Blocked, Suspended
  • Task Scheduling - Preemptive, Cooperative
  • Inter-Task Communication - Queues, Semaphores, Mutexes
  • Task Priorities & Starvation
  • RTOS Memory Management
  • Porting FreeRTOS to Microcontrollers
  • RTOS Application Design Patterns

Module 12: Real-World Embedded Projects

  • Project 1: LED Blinking with Delay
  • Project 2: 7-Segment Display Counter
  • Project 3: LCD Display Interface
  • Project 4: Temperature Sensor (LM35) with ADC
  • Project 5: Servo Motor Control using PWM
  • Project 6: UART Communication with PC
  • Project 7: I2C EEPROM Read/Write
  • Project 8: SPI OLED Display Interface
  • Project 9: RTOS Task Management
  • Capstone Project - Complete Embedded System

⭐ Why Choose Tekksol Global?

We provide the best learning experience with industry experts

Expert Trainers

Learn from industry professionals with 12+ years of embedded systems experience

Hands-on Projects

Work on 10+ real-time embedded projects with actual hardware

Industry Certification

Get globally recognized Embedded C certification

100% Placement Support

Tie-ups with 150+ companies for embedded roles

Resume Building

Professional resume & portfolio with embedded projects

Mock Interviews

Regular mock interviews with detailed feedback

💻 Real-Time Projects

Build impressive portfolio with industry-relevant projects

Smart Temperature Monitoring System

Build a temperature monitoring system using LM35 sensor, ADC, and LCD display with alarm alerts.

Embedded C AVR/Arduino ADC LCD

Servo Motor Control System

Create a servo motor control system using PWM for precise angle positioning and automation.

Embedded C PWM Timer Servo Motor

RTOS Task Scheduler

Implement a real-time task scheduler using FreeRTOS with multiple tasks and inter-task communication.

Embedded C FreeRTOS Queues Semaphores

🚀 Placement Assistance

We're committed to your success beyond the course

Placement Support Includes:
  • Resume & LinkedIn Profile Building
  • Aptitude & Technical Training
  • Mock Interviews with Industry Experts
  • Soft Skills & Communication Training
Our Hiring Partners:
  • 500+ Hiring Partners
  • Unlimited Interview Opportunities
  • Job Portal Access
  • Life-long Placement Support
Our Top Hiring Partners
TCS
Infosys
Wipro
IBM
Capgemini
Accenture
HCL
CTS
Mahindra Tech
Dell
Amazon
Oracle
TCS
Infosys
Wipro
IBM
Capgemini
Accenture
HCL
CTS
Mahindra Tech
Dell
Amazon
Oracle

❓ Frequently Asked Questions

Got questions? We've got answers

What are the prerequisites for Embedded C course?
Basic knowledge of C programming is required. No prior embedded experience needed.
What is the duration of the course?
The course duration is 2.5 months (80 hours) with flexible batch timings.
What microcontrollers will I learn?
You will learn 8051, AVR (Arduino), ARM Cortex-M, and STM32 microcontrollers.
What projects will I build?
You will build 10+ projects including Temperature Monitor, Servo Control, and RTOS scheduler.
Is placement assistance provided?
Yes, we provide 100% placement assistance with 150+ hiring partners.

🚀 Ready to Start Your Embedded C Journey?

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