Embedded Systems Internship | Embedded Systems online Course

Embedded Systems designs | Online training and internships

An Embedded System can be defined as a microprocessor or a microcontroller-based system combining hardware and software which is essentially designed to perform dedicated functions within a larger electrical or mechanical system. In simpler terms, an embedded system is a combination of software and hardware which is designed specifically for a particular function within a larger system. These Systems can either be programmable for their functionality or can be fixed.

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Overview of Embedded Systems

The first modern real-time embedded system goes way back to the 1960s. It was the Apollo Guidance Computer which was developed by the efforts of Dr. Charles Stark Draper and his team at MIT for the Apollo Program. This system was specifically designed to collect data automatically and provide critical calculations for the Lunar module and the Apollo Command Module.Since then many developments have been made in this technology and today this microcontroller-based embedded system has already entered into every aspect of consumers’ daily lives ranging from cellphones to credit card readers, thermostats, traffic lights, and the list is never-ending.

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The main characteristic of embedded systems is that they are designed to be task-specific. They usually perform a single task within a larger system. For example, a cell phone is a system that comprises a combination of embedded systems and isn't an embedded system on its own; and this combination allows it to perform a variety of tasks. In addition to this, embedded systems include the following characteristics:

  • Comprises mainly of Hardware, Software, and Firmware.
  • It is embedded into a larger system and is restricted to perform a single task within the system.
  • Either microprocessor-based or microcontroller bases- both forms of integrated circuits that supply the system computing power.
  • They are usually used for sensing and real-time computing activities that use IoT devices that are connected to the network.
  • Vary according to the complexity of the tasks they perform which affect the main elements.
  • Usually required to complete their task under a time constraint so that it ensures smooth functioning of the larger system.

The basic structure of an Embedded system can be categorized into the following components:

  • Sensor:- Measures and quantifies the physical response to an electrical signal or say a format that can be read by an embedded systems engineer or say even any other electrical system. It can also store the data for future use and analysis.
  • A-D converter:- A converter that converts analog signals into a digital form that is then sent further by the sensor.
  • D-A converter:- A converter that converts digital signals into an analog form.
  • Actuator:- An actuator does the job of comparing the output given by the D-A converter tp the actual output and stores the approved output.

As discussed above its quite evident that our everyday lives include so many embedded systems and without them, we couldn't imagine how we would get through our days if we actually think about it. And it is necessary for IT professionals or students from ECE background get themselves skilled and trained in the right environment. There are a plethora of courses available in the market but none of them offer exceptional training as all of them focus mainly on the theoretical part rather than the practicality of this technology. But not to worry as Verzeo Edtech has got you covered with their Embedded systems internship for ECE students.

Their internship in embedded systems covers embedded systems in such a way that students or even people interested in this won't have the need to look for another internship in embedded systems. All doubts and questions that a person even with decent knowledge in embedded systems will get solved by the embedded systems internship.

Some of the main characteristics of this embedded systems internship has that make it exceptional are:

  • Access to exclusive course material and relevant resources.
  • Weekly mentoring and frequent Q&A sessions with experts.
  • No cost EMI option.
  • Live virtual classrooms with 24 x 7 assistance.
  • Certificates to make your course completion a distinct and renowned achievement from major companies.
  • E-learning powered by AI for efficient learning.

This embedded systems internship for ECE students familiarizes its students with the following concepts:

  • Embedded Systems Basics
  • 8051 Architecture Overview
  • Memory management with SFRs
  • Addressing Modes & Instruction Sets
  • ALP Operations
  • C-embedded I/O
  • 8051-LCD interfacing
  • Timers and Counters
  • Serial Communication protocols
  • Interrupts and Priority
  • Protocols programming
  • Advanced Microcontrollers
  • I/O functionalities

It definitely isn't limited to these concepts. Since provision for live interactive sessions with industry experts are given, students even get relevant and latest trends in this technology.

According to a 2018 report published by QYResearch, the global market for the embedded systems industry was valued at $68.9 billion in 2017 and is expected to rise to $105.7 billion by the end of 2025.Along with future technologies such as Artificial intelligence, Machine learning, etc the use of embedded systems is increasingly being utilized even more. It's high time that students quickly grab the opportunity and take the required steps to begin their careers and build it the right way with Verzeo.

Concepts covered in Embedded Systems

An overlook of what Embedded Systems are and their presence and usage through time.

Processor core and Functional Block Diagram - Get to know about the architecture of model 8051, the basic embedded circuit, from a functional level to the processor level.

Learn about the division and purpose of SFRs within the system that manages the memory flow.

The technical deep-dive into the codes and mnemonics that run instructions for various arithmetic and logical operations within the embedded system.

Construction of an assembly level circuit through the use of basic Assembly level language.

Interfacing LEDs and Switches - Introduction to LEDs and Switches, their usage, and the depiction of various changes in flow control within the system.

Learn about how to interface a separate LCD with an 8051 system Interfacing keypad matrix with 8051 - Learn to interface the programming matrix of a keypad with an 8051 system to facilitate input access.

Timers and Counters are circuits that keep the process operation in check and maintain the proper flow of the programming within the system so that it is not overused.

Get to know about the UART protocol that aids in the asynchronous transmission of serial data. It is an anomalous way to send serial data in a quick manner.

Learn about how various processes within the embedded system are managed and accorded priority as per their importance and usage.

Learn about various protocols or system procedures that relay communication from source to destination and their specific programming commands to run operations.

ARM cortex Programming with embedded C - Build upon the concepts of controllers with knowledge of more advanced equivalents.

Interfacing LEDs and Switches, LCD with ARM controller - Understand the relation between advanced ARM controller and the various interfacing and transmission functionalities.

Project Titles

Check out the projects on Embedded Systems. Work on your project and get certified along with the desired skill-set to become industry ready.

Embedded Systems

8051 Architecture Creation

Implement a working model that simulates the architecture and functions of a developed 8051 controller.

Creating an IoT circuit

Create cool IoT circuits that can connect and power various electrical sources within your house or any environment.

LED Switch Control Circuit

Design a circuit that simulates the working of a Control circuit that relays commands through LED pulse signals

Certified Course

The journey of learning never ends but there are milestones along the way we have to keep and reach to attain our ultimate goals.

Your milestones here will be the certificates you receive and deserve. Certificates from Verzeo and top institutions to boost your CV and your career prospects.

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Pricing Plan

Our courses are provided at the best rates in the industry across various plans that fit perfectly in your budget and offer you the best of services.

Self placed

₹ 4000


Course Completion Certificate

1 minor project + 1 major project

Internship Certificate from Verzeo on successful project completion

8 + hours mentor training

Cobranded Internship Certificate

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Mentor Led

₹ 7000


Course Completion Certificate

1 minor project + 1 major project

Internship Certificate from Verzeo on successful project completion

16 + hours mentor training & project assistance

Cobranded Internship Certificate

Proceed

Advanced

₹ 10000


Course Completion Certificate

2 minor project + 2 major project

Internship Certificate from Verzeo on successful project completion

24 + hours mentor training & project assistance

Cobranded Internship Certificate

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Frequently Asked Questions

We are always committed to giving the right answers, not the best ones. Get to know the most commonly asked queries from people as catalogued here for your convenience.

Embedded systems contain the art of manufacturing specialised circuits in a miniscule scale which together can help the operation of bigger electronic devices and their production as well in an easier way.

Embedded Systems form a crucial part of the machine hardware industry due to the capability of forming multiple electronic components on a single board which saves space and cost as well as modern industries such as electrical energy sources and IoT devices to establish human-less connectivity between machines.

To become an expert in Embedded Systems, a person must have good knowledge of various components used in a electrical transmission system right from simple components like transistors, resistors etc to complex functional microcontrollers.

On an average an Embedded Systems Engineer earns a healthy ₹5-6 LPA, with highest figures touching up to ₹8 LPA.

Embedded Systems is the next-gen application that is driving automation and device connectivity. Through embedded systems we can make multiple devices connect within a single lattice and also make multiple system chips at an easier rate with more components able to be fabricated on a single small chip, it is a field of great potential and reward.

Verzeo does have a department dedicated to the placement of students and is successful in arranging career guidance throughout the year. Verzeo has been successful in maintaining high placement statistics over the years and the fact registered students bear the recession blues with record-breaking placements itself is a testimony to superior quality.

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