Training on Embedded Systems Design for Electrical Engineers

Embedded systems are the core of modern electronics found in electric vehicles, consumer appliances, medical devices, smart meters, industrial machines, defense systems, and IoT devices. This industry-focused course is designed specifically for electrical engineers who want to develop real-time embedded applications using microcontrollers, sensors, communication protocols, and embedded software.

At Pertecnica, every learner undergoes skill assessment, skill gap training, and certification, ensuring that both beginners and experienced professionals receive personalized training based on their current abilities and industry requirements.

Who Should Attend?

  • Electrical and Electronics engineers

  • Professionals working in automation, EV, IoT, or manufacturing

  • Students preparing for embedded system job roles

  • Engineers who have experience but do not possess certification

Learning Outcomes

Through our unique Assessment–Training–Certification model, participants will:

  • Understand microcontroller architecture and peripheral interfacing

  • Write embedded C code for real-time applications

  • Integrate sensors, actuators, and communication modules

  • Develop products using IoT, wireless protocols, and embedded Linux

  • Debug and test embedded hardware and software

  • Build projects relevant to industry applications

Topics Covered

Fundamentals of Embedded Systems

  • Architecture of microprocessors and microcontrollers

  • Memory, I/O ports, interrupts, timers, ADC, PWM

  • Real-time applications in power systems and automation

Embedded Programming

  • C programming for embedded applications

  • Drivers, libraries, and peripheral control

  • Real-time debugging and performance optimization

Interfacing & Hardware Integration

  • Sensor interfacing (temperature, motion, pressure, current)

  • Actuator control (motors, relays, solenoids)

  • ADC/DAC usage for electrical measurements

  • Power management for embedded hardware

Communication Protocols

  • UART, SPI, I2C, CAN, Modbus

  • Wireless: Bluetooth, ZigBee, LoRa, Wi-Fi

  • Communication in EV control, smart meters & industrial automation

RTOS & Embedded Linux Basics

  • Task scheduling, semaphores, interrupts

  • Firmware development using RTOS

  • Linux-based embedded boards introduction

Testing & IoT Application Development

  • Firmware testing, debugging using JTAG/SWD

  • Mini projects in IoT, EV systems, smart grid & automation

  • Building prototypes with certification-based evaluation

Skill Assessment, Training & Certification

  • Skill Assessment identifies the learner’s existing knowledge in coding, electronics, and protocols.

  • Skill Gap Training provides customized learning plans based on assessment results to bridge missing competencies.

  • Certification is awarded only after performance in assessments, project work, and practical evaluations, making it valuable for industry jobs.

Career Opportunities

Certified learners can work as:

  • Embedded Systems Engineer

  • IoT Product Developer

  • Embedded Software/Hardware Developer

  • Automotive Embedded Engineer (EV, BMS, Telemetry)

  • Industrial Automation Embedded Engineer

  • Firmware and Debugging Specialist