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Embedded Systems Course

Name: Embedded Systems Course in Noida – Learn & Get Certified
Brand: TheIotAcademy
Rating: 4.8 (1781 reviews)

The IoT Academy’s Embedded Systems Course offers in-depth training in embedded design, microcontrollers, programming, and RTOS. Gain hands-on experience and industry-ready skills to become an expert in embedded technologies.

4.8 out of 5 based on 1810 votes

4.7/5

4.8/5

97%Placement Rate

6500+Student Placed

60%Average Salary Hike

400+ Hiring Partners

Benefits of Embedded Systems Course

Industry-Standard Labs & Kits

Global Certification

Practical Training & Projects

Flexible Course Structure

Expert Mentor Support

Placement Assistance

Peer Learning

Outstanding Placement Metrics

Academic Partners

E&ICT Academy IIT Guwahati

E&ICT Academy IIT Kanpur

IIT Jodhpur

E&ICT Academy IIT Roorkee

NIT Patna

IIT Bhilai

ASTU Guwahati

Himachal Pradesh University

Program Overview

Our IoT and embedded systems online course helps beginners to learn step by step and become skilled professionals. The course is practical and hands-on, where you will work with microcontrollers, sensors, RTOS, and real IoT projects.

Introduction To Embedded Course

We teach you how to code microcontrollers and their parts from the very beginning. Our Embedded Systems Course covers RTOS, firmware, embedded Linux, and device drivers. The training is practical, professional, and affordable. You save time, effort, and money while learning. Embedded programming can feel hard, but our simple lessons make it easy to understand. With us, students and engineers can learn with confidence.

Objectives of Embedded Systems Training

You learning the most fundamental and advanced topics is the main goal of embedded systems training in Noida. We help you:

Prepare for the embedded systems programming industry. You are job ready after finishing all necessary embedded assignments and projects.
Learn the most cutting-edge Embedded Systems in India and become certified.
Learn how to use Qt, a cross-platform GUI framework, to create embedded programmes for the automotive and industrial sectors.
Gain employment with Core Embedded & IoT firms.

Is there any trial class or demo session available?

Yes! We offer one demo class so you can experience our teaching style before enrolling. This trial session will give you a clear idea of how we simplify complex embedded concepts and provide hands-on learning.

Fresher Salary After an Embedded Systems Training

Embedded systems engineers in India can earn between 1.5 lakhs and 11.1 lakhs per year, depending on their experience, from less than one year to six years. On average, they earn about 4 lakhs yearly. Our course materials are carefully made and updated, helping students succeed. Companies that hire students certified in our embedded testing course get many benefits, like faster project work and lower costs.

Career prospects After Embedded Systems Course

To be the best in your field and get jobs in top companies, you need to focus on details. The IoT Academy’s online Embedded Systems courses have given great results. Our course helps both students and working professionals. There is a big demand for embedded software engineers. Companies always want skilled engineers who can create new solutions for their products. As the world becomes more digital, embedded software engineers will always be needed. So, if you have the right skills, now is a great time to join this exciting field.

Reasons for the Rise in Demand for the Embedded Systems Course

Today, many companies need software engineers. In India and the US, the need for embedded software engineers is even higher. These experts help make things like computers and system software. Because of this, embedded software engineers are always needed. They usually earn more money than people in other jobs. After taking an embedded systems course, you have many job options in this growing field. If you have the right skills, you can do well in this work. Working in embedded systems has both good benefits and some challenges.

Roles and Responsibilities in Embedded Systems Programming

The following are some of the duties of an embedded software engineer:

Software development and implementation for embedded hardware.
Composing, testing, coding, and debugging system software Analysis and improvement of the system resources' productivity, security, and scalability.
From guidelines to production and commercial deployment, design software for embedded systems.
Integrate and test fresh product ideas
Assist with software QA, and improve performance of I/O
Help for post-production interacting with hardware design and development
Examine open-source and third-party software

Top Hiring Industries for the Embedded System Engineers

Embedded engineers write software and firmware for microcontrollers or microprocessors. They work with electronic devices like brake systems, remote controls, phones, and home appliances. Their job includes testing, checking results, reporting, and writing code. They also work with other engineers to fix problems found during tests. Embedded engineers can work in tech companies, electronics firms, and car makers. They need to work well with others because they team up with engineers from different areas, such as product development, hardware, software, mechanical, and manufacturing. These reasons show why learning it from this embedded training institute is a good idea.

Certificate after Embedded Systems Course

You may master all the basic and advanced concepts by attending our embedded systems course in Noida. You will receive a training certificate once you have finished the embedded testing course. This credential is accepted as proof of your expertise in this field and is recognised throughout the world.

Explore the other Courses by The IoT Academy

We are not only an embedded training institute, but also make you skilled in fields like:

IoT Course
Machine Learning Course
Python Certification Course
Generative AI Certification Course
Data Analytics With Gen AI Certification Course
Digital Marketing Certification and more..

Apply Now To Get Exclusive Scholarship

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What We Provide in Embedded Systems Certification Course

Advanced

Duration: 6 Months

Batch Start: 30^th September 2025

Download Brochure

Intermediate

Duration: 3 Months

Batch Start: 30^th September 2025

Download Brochure

Basic

Duration: 1.5 Months

Batch Start: 30^th September 2025

Download Brochure

Module 1: Embedded C Programming Fundamentals

C Variables and Constants
C Preprocessor
Control Flow Statements
Functions & Call back Functions
Array and String
Pointer Concept
Structures, Union & Enumerated Data Type
C Memory Management
Storage classes

Module 2: Introduction to Embedded Systems

Fundamentals of Embedded Systems
Sensors/Actuators
Microcontroller units and Microcontroller Architecture (Arduino, ATmega16/32,168)
About communication protocols (Serial port, SPI, I2C, UART, CAN, USB, Modbus)
About peripherals (like ADC, Timers, RTC, Interrupts, Polling, DMA)
Memory architecture and handling (stack, heap, cache)
Application-Driven Selection of Microcontrollers
Embedded Circuit Design basics
Role of Arduino and AVR in embedded development
Applications in IoT, robotics, automation, and automotive

Module 3: Interfacing with Arduino and ATmega16

AVR architecture (ATmega16/32/328P)
Memory organization (program, data, EEPROM, SRAM)
I/O ports and registers
Clock system, reset
AVR toolchain (AVR-GCC, Atmel Studio, Proteus simulation)
Arduino IDE setup and structure of a sketch
Pin configuration and GPIO basics
Digital I/O programming (LED, switch, buzzer)
PWM control (LED brightness, motor control)
Serial communication with Arduino IDE
Writing Embedded C for AVR (low-level register access)
ISR (Interrupt Service Routine) writing in C
Comparison: Arduino functions vs AVR register-level code
AVR timer modes (normal, CTC, PWM)
Stepper motor control
Servo motor control (Arduino Servo library vs AVR PWM)
AVR Fuse bits and configuration
In-System Programming (ISP)
Code size and power optimization
Relays for high-voltage switching

Module 4: Embedded with STM32

Concept About STM32
Concept about ARM platform
Introduction to Microcontrollers (Based on Architecture Selected)
ARM microcontroller Architecture
Instruction set architecture - pipelines
Registers banks/mode and states theory
Clock and reset systems, timers and Memory Organisation
IDE Configuration, Linker Script, Compiler Optimization Options
Exception/Interrupt handling
C and Embedded C Migration
Memory /IO and peripherals - (I2C/SPI/UART/GPIO/Timer/PWM/ADC)
Debugging tools like SWV debugger
CAN interfacing with STM32 and Arduino
Modbus communication with STM32
Debugging & Optimization
Major Projects:
- Home Automation with Arduino + Relays + Wi-Fi
- Digital Energy Meter with AVR + LCD + EEPROM
- Smart Weather Station (Arduino + IoT)
- Industrial Motor Controller (PWM + UART monitoring)
- LoRa-based Remote Sensor Node (LoRa SX1278)

Module 5: Embedded RTOS (Real-Time Operating System) with STM32

Introduction to Real-Time Systems Hard Real & Soft Real
Difference between GPOS (Linux/Windows) and RTOS
Applications: Automotive, Robotics, Aerospace, IoT
RTOS kernel architecture
Tasks/Threads & states
Context switching & scheduling
Latency in real-time systems
Determinism & responsiveness
Creating, deleting, suspending, and resuming tasks
Task priorities & priority inversion problem
Task scheduling algorithms:
Multitasking vs Multiprocessing
Inter-Task Communication
Semaphores (binary, counting)
Mutexes & priority inheritance
Event flags/groups
Message queues
Time Management
System tick timer
Delays & periodic tasks
Timer services in RTOS
Interrupt handling in RTOS
ISR (Interrupt Service Routine) vs Task handling
Heap management in RTOS
Module 9: Power Management in RTOS
Low-power modes & sleep states
Debugging & Optimization
RTOS debugging tools (Tracealyzer, Segger SystemView)
Lab Experiments (Hands-On)
- Creating multiple tasks with FreeRTOS
- Blinking LEDs with different priorities
- Implementing delay using RTOS tick
- UART communication using queues
- Semaphore-based switch debounce
- Interfacing sensor using RTOS tasks

Module 6: Introduction To IoT

What is IoT
- IoT application in different domains
- Trends in IoT Market
- Smart things
- Gate ways
- Middleware
- Edge vs Cloud functional partitioning
IoT Architecture
- Tech Stack.
- Hardware Development Platforms
- Software Development Platforms
- Communication Protocols
- Power Requirements in IoT
- Cloud, its components and IoT
- Data Streaming and IoT
- Data Store and IoT
- Analytics & Visualization and IoT IoT
- Security
NODEMCU (ESP8266)
- Install IDE Software
- Introduction to NODEMCU (Esp8266)
- Pinout of NODEMCU
- Programming Of NODEMCU
- Weather monitoring solution
- Automatic street lights

Module 7: Advanced Communication Protocols & Networking

Communication Protocols
- Introduction to communication architecture - Network protocol stack
- RF: ZigBee, BlueTooth, BLE.
- Communication Channels: GSM/GPRS, WiFi, LoRa & LoRaWAN
- NB-IoT, Comparison between different RF Technologies.
- IPv4 addressing problem for IOT and introduction to IPV6
SOCKETS
- Socket connection & Attributes
- Creating a Socket
- Socket Addresses
- Naming a Socket & Socket Queue
- Accepting Connections
- Requesting Connections
- Closing a Socket
- Socket Communications Processes
NODE-RED
- Installation of Nodejs,
- Installation of Node-Red,
- Building your first flows
- Basic nodes and flows
- A tour of the core nodes
- The Node-RED programming model
- Dashboards and UI techniques
- Local broker installation,
- Connection between local broker and Node-RED

Module 8: Cloud Computing & IoT Services

Cloud Computing
- Cloud Computing & Benefits of Cloud
- Deployment Models (Saas, Paas, Iaas)
- AWS-IOT Core
- Micro-Soft Azure
- Things-peak
- Google Firebase
- SQL and NoSQL Data bases
- Integration with MySQL
- IoT Cloud Platform: Device Management
IoT Security
- Introduction to mbed TLS and SSL
- Importance of IoT application
- AES encryption basis
IoT Cloud Services
- IoT Cloud Architecture
- Services-SAAS-PAAS-IAAS
Industry 4.0
- Introduction to Industry 4.0
- Road to Industry 4.0
Use Cases
- Automobile- basic overview
- Electrical Vehicle

Module 9: Embedded with Raspberry Pi by using Python

Python Programming Fundamentals

Data types and type conversion
Variables and basic operations
Flow control
Loops
Lists, Set,Tuple and Dictionary
Functions
File Handling
Class and Objects
Modules & Packages
Error/ Exception Handling

What is Linux

Introduction to Linux
History of Unix & Linux
Linux distributions (Debian, Ubuntu, Fedora, Yocto, etc.)
Open-source software & GNU philosophy
Linux architecture: Kernel, Shell, File System, Utilities
Logging in, working with shell (bash, ssh)
Linux directory structure (/bin, /etc, /dev, /home, /proc, /sys)
File operations: ls, cat, cp, mv, rm, touch
File permissions & ownership (chmod, chown)

Introduction to Raspberry pi with Interfacing

Setup and installation
Basic Led blink
PWM motor with R-PI
Switch with R-PI
Raspberry pi OS walkthrough
Code execution and data generation
ThingSpeak with R-Pi
DHT11 sensor data by R-Pi
Lora connectivity with Thingspeak R-Pi

Module 10: Embedded Linux

LINUX INTERNALS

Linux internals
Linux introduction and installation.
Linux Shell Commands
Shell Scripting
Make Files
Process Management
File Operation
Signals in Linux
Linux Scheduler & Memory Management
Linux Multi-Threading Programming
Network Programming in Linux

Linux Porting

Introduction, Setup & Hardware
Toolchain & Hardware Practical's
Bootloader U-Boot
U-Boot Porting
Customizing Bootloader
Linux Kernel
Kernel Porting & Compilation
Kernel Modification
Root File System
Embedded Application Development

Linux - Device Drivers

Introduction and Arch of Linux Device Drivers
Kernel Module Programming
Loadable kernel module
Character Device Drivers
Led Device Driver
Uart device driver
Process creation calls (fork,vfork,execv)
LDDM (Linux Device Driver Model)
Writing and testing of Board File
what is the Device Tree
Advantage for creating a Device Drivers

Yocto with Linux

Yocto Architecture
Recipes defines everything in Yocto
Layers makes Yocto Modular & Structured
Adding new Hardware support using BSP Layers
Custom Distribution & Images

Module 1: Embedded C Programming Foundation

Recap of Embedded C
Datatypes
Array
Conditional Statements
Functions / Callback function
Structures
Pointers
Storage classes

Module 2: Embedded System Fundamentals & Hardware

Embedded System
Basic Concepts
Sensors/Actuators
Microcontroller units and Architecture (Arduino)
Interfaces (serial port, SPI, I2C, UART)
ADC, Timers, RTC, Interrupts, Polling
Memory architecture
Application-driven Selection of Microcontrollers

Module 3: IoT Architecture & Signal Processing

IoT Architecture
Architecture.
Tech Stack.
Hardware Development Platforms
Software Development Platforms
Communication Protocols
Power Requirements in IoT
Cloud, its components and IoT
Data Streaming and IoT
Data Store and IoT
Analytics & Visualization and IoT
Security
Signal And Acquisition
Analog and Digital
Industrial Terminology
Live Use Cases
H/W Components
Client, Device, Rule, Alarm, Device Data, Event
Sensor data is being sent to the Cloud platform
Actuation through BLE
Visualization through a time dashboard
How the problem gets solved through big data and visualization

Module 4: NODEMCU Development & Practical Implementation

NODEMCU (ESP8266)
Install IDE Software
Introduction to NODEMCU(Esp8266)
Pinout of NODEMCU
Programming Of NODEMCU
Weather monitoring solution
Automatic street lights

Module 5: IoT Protocols & Communication Technologies

IoT Protocols
HTTP/REST
MQTT
COAP
AMQP
WEBSOCKETS
6LoWPAN
Communication
Introduction to communication architecture - Network protocol stack
Different protocols
RF: ZigBee, BlueTooth, BLE, Zwave.
Communication Channels: GSM/GPRS, WiFi, LoRa & LoRaWAN
NB-IoT, Comparison between different RF Technologies.
IPv4 addressing problem for IOT and introduction to IPV6

Module 6: NODE-RED Development Platform

NODE-RED
Installation of Nodejs,
Installation of Node-Red,
Building your first flows
Basic nodes and flows
A tour of the core nodes
The Node-RED programming model
Dashboards and UI techniques
Local broker installation,
Connection between local broker and Node-RED

Module 7: Cloud Computing & IoT Platforms

Cloud Computing
Cloud Computing
Benefits of Cloud
Deployment Models
AWS-IOT Core/ SageMaker
Greengrass
Google IOT Cloud
Thingspeak
IBM Bluemix
AWS
AZURE
Google Firebase
SQL and NoSQL Databases
Integration with MySQL
MongoDB
IoT Cloud Platform: Device Management

Module 8: IoT Security, Cloud Services & Industry 4.0

IoT Security
Introduction to mbed TLS and SSL
Importance of IoT applications
AES encryption
IoT Cloud Services
IoT Cloud Architecture
Services-SAAS-PAAS-IAAS
Industry 4.0
Introduction to Industry 4.0
Road to Industry 4.0

Module 1: Introduction to IoT & Career Foundation

Introduction to IoT
Introduction to Internet of Things (IoT)
Different skills required to become an IoT developer

Module 2: Embedded C Programming Fundamentals

Embedded C
Why C in embedded system
Data types and operators
Selection & Loops
Functions
Pointers
Callbacks functions
Structure
Memory and scope

Module 3: IoT Components & Technology Overview

IoT Components
Sensors
Switches
Microcontrollers
Gateways
Cloud
Overview of ML, AI & Data science

Module 4: Hardware Platforms & Programming

Ardiuno Basics
Creating Sketches
Python Basics
Python Basic
Raspberry Pi
Controlling Raspberry Pi GPIOs

Module 5: Communication Protocols

Embedded Protocols
UART,I2C, SPI
IoT Protocols
MQTT, COAP, TCP/IP, HTTP

Module 6: Practical Implementation & Cloud Integration

ConnectiFY
Using Node MCU and Arduino with ConnectiFY

Career Opportunities: What Can You Become?

After completing the Embedded Systems course, you can explore the following career paths:

Embedded Systems Engineer

IoT Developer

Firmware Engineer

Embedded Software Engineer

Hardware Design Engineer

RTOS Engineer

Automotive Embedded Engineer

Embedded Security Engineer

Robotics Engineer

Industrial Automation Engineer

Medical Device Engineer

Embedded AI Engineer

Course Fee & Payment Option

Benefits

Accelerate your transition into the tech industry with our support

Industry-standard curriculum by expert

1:1 live doubt support (Unlimited)

Dedicated, focused, personalised placement assistance.

Peer Interaction and network building

Full fees refundable within 7 days

₹ 12000 Including GST

Quote For Offer

Our Payment Options

We offer the following payment options for one-time/EMI payment

Internet Banking
Credit/Debit Card
UPI Payment

Hands-On Learning with Dedicated Labs and Embedded Systems Kits

Hands-on Learning: The course emphasizes practical experience beyond theoretical knowledge.
Dedicated Lab Access: Students get access to a specialized lab equipped with industry-standard embedded systems kits.
Real-Time Skill Development: Engage in hands-on activities to build and refine embedded systems skills in real-time.
Live Projects & Simulations: Work on real-world projects and simulations to gain practical, job-ready experience.
Comprehensive Understanding: Learn everything from circuit design to embedded programming in a practical setting.

Career Services You Will Get

The Embedded Systems course provides comprehensive career services to kickstart your journey:

Interviews with Top Companies

Gain access to exclusive interview opportunities upon successfully submitting projects. Be considered for roles by over 400+ hiring partners.

100% Placement Support

Enjoy guaranteed placement support after completing the program and meeting the defined passing criteria.

Mock Interview Guidance

Participate in multiple mock interviews led by industry experts, with comprehensive feedback to improve your performance.

1-on-1 Mentoring Sessions

Engage in personalized mentoring sessions to develop the skills and mindset necessary to secure your dream job.

Industry-Oriented Sessions

Attend interactive live sessions guided by industry experts, designed to help you enhance your professional attitude and technical skills.

Resume With LinkedIn & GitHub Profile Assistance

Receive expert guidance on curating an impressive resume and LinkedIn profile, increasing your chances of catching the attention of top recruiters.

Success Stories From Our Learners

Meet our Alumni shaping the future worldwide with our high-profile Embedded Systems course.

Hemant Raj

Placed In -

The IoT Academy's Embedded System course was a game-changer for me! The hands-on projects helped me understand complex concepts easily. I feel confident in my skills now and ready for a career in IoT!

Dharmendra

Placed In -

I loved the Embedded System certification course! The instructors were knowledgeable and supportive. The practical experience I gained was invaluable. I highly recommend this course to anyone looking to enter the IoT field!

Ritik Verma

Placed In -

Completing the Embedded System course at The IoT Academy was an amazing experience. The curriculum was well-structured, and I learned so much. I now have the skills to pursue my dream job in technology!

View All Profile

Embedded Systems Course Certification

Globally Recognized Certification

The certificate is recognized worldwide, meets industry standards, and demonstrates expertise in a specific field globally.

Career Support

This certification provides career support services, including job placement assistance, resume-building workshops, and access to job boards.

Credibility and Validation

You can add this Embedded Systems course certificate to your CV/Resume, LinkedIn, and other Job portals.

Tools & Technologies

Programming

C, C++
Python
Bash
Python for Automation

Communication

Wireless Protocols (Wi-Fi, Bluetooth, Zigbee, LoRa, MQTT)
Wired Protocols (SPI, I2C, UART, CAN, RS-485)
Network Protocols (TCP/IP, Modbus, Ethernet)

Hardware

Microcontrollers and Microprocessors
Development Boards
Power Supply Units (PSUs)
Sensors and Actuators
Prototyping Tools

Software

Real-Time Operating Systems (RTOS)
Integrated Development Environments (IDEs)
Version Control Tools
Simulation and Emulation Tools
Debugging Tools
Compilers and Assemblers

FAQ - Embedded Systems Course

We may be able to assist you with a problem you may be having related to the Embedded System Course! Please refer to the types of frequent problems listed below, that will be useful in resolving them. For more assistance mail us at info@theiotacademy.co

Can you learn soft skills during embedded systems training?

Yes, it is possible to gain soft skills. Soft skills can be learned over time, like any other skill. But some people may naturally possess them due to their nature and upbringing. Soft skills are like a muscle that must be exercised and maintained to stay in top condition, which is another analogy to hard skills. Although you won't leave a leadership course feeling like the greatest leader ever, you will understand typical tactics used by leaders and how to begin developing that skill inside yourself.

What do soft skills mean?

Soft talents, as opposed to being dependent on credentials, technical skills, or professional experience, tend to be more personality-focused. It also comprises transferable skills, interpersonal skills, social skills, and people skills.

Advantages of expertise in soft skills

Organisations can benefit in a variety of ways from excellent soft skills. For instance, businesses that offer opportunities for soft skills training assist in facilitating the long-term career success of their employees and promote a work environment centred on ongoing professional development.

Why Do Employers Ask About Soft Skills in Interviews?

Because they favour employing applicants who can adjust to various settings. Even after embedded systems course, employers may inquire about soft skills during an interview. Employers may learn more about your personality, how well you collaborate with others to achieve goals, and your workflow management skills by asking you questions that focus on your soft skills.

Why do I pursue certification in Embedded Systems Course?

First and foremost, we must keep in mind that learning is a process, and we must do everything in our power to make this process simple, continuous, and orderly. You do it better and with more fervour when you prepare for a certification exam. Your academic process is significantly impacted favourably by a certification exam. The second benefit of qualifying is the substantial improvement in your marketability. When looking for promotions, the embedded course certification provide tremendous leverage and serve as a sign of knowledge. The credentials help students feel more confident about their ability to carry out a particular job by demonstrating to employers their knowledge and skills.

Do you offer advice on choosing a career?

Without a doubt. The IoT Academy includes career guidance. Students may experience confusion for a variety of reasons, some of which are listed below:

Should I begin working now or pursue further education?
Is it possible for me to obtain a Letter of Recommendation (LOR) from my mentors if I pursue higher education?
Do I belong to a large corporation or a start-up?
Developer or tester? Which one is ideal for a career launch?

How crucial is it to a good job to have an impressive resume?

Resumes are crucial to shortlist a profile after an embedded systems course. It should show off the relevant technical know-how and project results to highlight the individual's capacity. Our experience has shown that students tend to copy and paste from their friends' and colleagues' resumes rather than investing much time in creating a quality resume. In addition, new engineers nowadays won't have much experience to list on their résumé once their degree is complete.

As a fresher, What placement assistance can you offer me?

Businesses that are looking for qualified IoT staff are aware of our embedded systems course content and training methods. They know our mentoring team's industry knowledge and gain benefits from faster deployment. Companies enjoy lower costs, and greater hiring conversion when they hire our certified candidates. Our training programmes are rigorous and practical, allowing students to engage in immersive learning experiences. When these candidates meet with placement firms, a win-win situation is achieved by securing placements for both the firms and our trained IoT freshmen students.

When can I begin attending placements after enrolling?

Once students have finished their programming language modules, they can join placements for our embedded systems training. But, placements will continue throughout the rest of the course and even after it has ended.

Where can I find a job after the Embedded Systems Course?

The job description for embedded engineers differs per sector. Vertical and horizontal skill matrix classification is to blame for this. Depending on where you fit, it may give you access to a wide range of professional options. At a high level, the job description for an embedded engineer is as follows:

Embedded systems engineer
Embedded software engineer
Senior embedded systems engineer
Principal embedded systems engineer

What do embedded system companies expect during placements?

Proof of professional activity in software engineering
Certification from an embedded training institute.
Having practical development and troubleshooting experience with embedded targets
Solid C or C++ programming background
A track record of designing embedded devices using real-time, preemptive operating systems
Good grasp of IP protocols, interfaces, and hardware subsystems.
familiarity with peer review, defect tracking, and software configuration management technologies.
Adequate understanding of how to interpret component data sheets and schematics
Strong writing and documentation skills

What benefits do embedded projects offer?

Projects serve as concrete evidence of your knowledge of a certain technology. For a placement firm, it's important to see something that sets the kid apart from other college freshmen so they can be sure they've done something on their own. In conclusion, as more businesses hire freshers with expertise in technology, they expect a short ramp-up period to deliver their customer projects. It is accommodated in the embedded testing course syllabus.

Will mentors be able to help if I am interested in a particular project topic?

In some cases during Embedded Systems Course. Our mentors will assist you in directing you towards execution as long as the project is within the parameters of the course topics. They may make an effort to support by contributing some high-level inputs if the issue is distinct.

What Are the Tasks of Embedded System Engineers?

You will be a pioneer in creating cutting-edge technology that may transform how people connect as an embedded software engineer at a FAANG company. Engineers who work in embedded systems are adaptable and have specific leadership traits. An embedded systems training will prepare you for these tasks.

Is attendance in the embedded systems course required?

Yes,each week, participation in a live session is necessary. Absences are only excused in cases of extreme illness or other genuine situations, in addition to a minimal "free absence" allotment. You shouldn't enlist if you know you'll have to miss a lot of class meetings to look for work. Students with a high rate of absences won't receive course credit.

How can I get my questions answered in embedded systems training?

If you have a query, you can contact our team of mentors through a variety of support channels, such as chat, WhatsApp groups, etc., where you can get answers. If it still doesn't answer your question, one of our mentors will arrange a one-on-one meeting to address your concerns.

Which kind of study materials are offered by the embedded training institute?

Our Embedded Systems Course materials were created to make our instruction entirely practical. Presentation slides, template and example programmes, cheat sheets and worksheets, programming manuals, and a huge number of e-books are all included. Instead of having you read a tonne of theory in textbooks, we make sure you have enough information to get started using it practically.

What is an embedded systems course assessment system? What benefit will I receive from it?

Our students can take assessments provided by The IoT Academy. This keeps our evaluation system dynamic and ever-changing, keeping it in line with business requirements. It assists students in reviewing some crucial questions at the time of placement.

What kind of embedded systems projects am I going to work on?

After completing the necessary classwork and assignments for the embedded testing course, you will be awarded a set of module-specific projects. These projects, which are based on real-world use cases, will expose you to a variety of different facets of the creation of embedded systems products in a hands-on, practical way.

I need a certificate in a particular format. Will you offer it to me?

Various factors apply in embedded systems programming. Students come to us seeking a variety of credentials for varied benefits. Some examples include:

Applying for higher education
Obtain a specific government scholarship
Applying for a specific position that requires confirmation of course completion with Emertxe
Requesting tax benefits for course fees paid, bona fide certificate

Every request made by a student is carefully reviewed by our placement team, who also assess its value and legitimacy before providing the necessary certification.

I am considering pursuing a master's degree. Will this course be beneficial to me?

The advanced embedded systems training offered by The IoT Academy is a rigorous, experiential learning programme that emphasises hands-on application. Its main goal is to increase the employability of entry-level engineers by helping them secure fresher positions in Embedded Systems. Having said that, some of our students enrol in this course as a transitional course before beginning their Master's Degree, particularly with overseas universities.

What is the batch size in your embedded training institute?

We begin classes in batches, but after a few sessions, some students complete their assignments faster while others take their time. We do not ask sluggish you to leave the classroom and enter the next one, nor do we stop fast-moving students from doing so. Each student is expected to complete all assignments at their pace.

How unique is this embedded systems training?

Without question, you cannot learn what we teach here through books; instead, we teach through training. Through years of industrial experience, we have acquired it. As a step up from simple training, we follow a thorough strategy that transforms you into an embedded engineer with the capacity to unlock the doors to the enchanted universe of possibilities.

Will this training assist me overcome my poor academic standing and create a more impressive resume for potential employers?

It first depends on your recruiter. If the business is a service provider, they will assess your technical skills/ability after learning more about your academic accomplishments. Good projects on your resume will matter if it's a product-based corporation. As soon as the course is through, we can give you real-world assignments that might be of interest to recruiters. Your level of clarity when working on these initiatives will determine how valuable they are.

What is the fee for the Embedded systems certification course?

The Embedded System course fees in Noida are 46,999 INR for 6 months and 29,499 INR for 3 months. Discounts are also available based on the student's eligibility, early enrollment, or group registration criteria.

Are there any additional costs besides the course fees?

No, there is no additional cost besides the program fee. You do not have to pay extra to get a certificate and practical training.

What is seat booking or the token amount?

To enroll in the Embedded Systems certification course, you have to pay only 500 INR as a token amount.

Is there any scholarship or EMI option available for fees?

Yes, scholarships and EMI options are available for the course fees. You can avail of up to 40% discounts on pre-registration and other eligibility criteria. For EMI, students can opt for flexible installment plans to pay the fees over some time, making it easier to manage.

What payment methods do you accept for the course fees?

We accept multiple payment methods to make the process convenient for you. These include Cash payment, Internet Banking, Credit/Debit cards, and UPI Payments.

Can I get a refund if I withdraw from the course?

Refunds for course withdrawals are subject to our refund policy.