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Overview

Over the past few years the information technology industry has seen a sea change in its attitudes and the types of products it sells. There was a time when eager buyers snapped up anything and everything that claimed to be high-tech, without much regard to its functionality or usefulness. However, with the technology crash and the subsequent awakening, consumers have become more watchful and less willing to believe the claims of the techno evangelists. As a result, the focus in all areas of the industry is shifting from a search for 'the next high-tech gizmo' to a search for 'the product that will make a difference in people's lives'. This has lead to development in the newer fields of it, such as embedded systems. The embedded technology sector is currently amongst the fastest growing sectors within it’s segment and is likely to remain so for a long time to come. As a consequence, there is an increasing demand in this field for professionals who can deliver on the challenging requirements in this field.

Embedded system is an exciting and competitive discipline. This technology focuses on the boundary between hardware and software and explores the levels of hardware software in the vicinity of this boundary. An enthusiast in this field should realize this boundary as the central to this discipline, it is where compilation in software ends and interpretation in hardware begins.

Objective

So What Does it take to Become an Embedded Engineer?
It is obvious that such an engineer would need to have intimate knowledge of the innards of the digital domain. Even if he
is aimed to become an embedded systems programmer, He would need to have much greater familiarity with the hardware
subsystem than any applications programmer could hope to have. He would also need to have a close familiarity with the
tools that he uses to generate code. This course will enable an engineer to continue the lifetime of learning necessary for
staying at the forefront of this competitive discipline.

 

Eligibility

B.E. / B.Tech in Electronics, Computer Science, Instrumentations and Electrical Engineering discipline with a minimum of 60% aggregate. Final year students with good Academic track record can also apply.
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    Course Content  
   

 

Diploma in Embedded System Design

 

Course Highlights

  • Exposure to the complete design process of embedded system with wide range of controllers and RTOS

  • Thorough understanding of the fundamentals , especially Digital Electronics and C programming.

  • Providing hands on experience on wide range of tools used in the embedded industry.

  • Equal weight age for theoretical and practical sessions.

  • The arrangement of the course into 4 levels provides a great advantage for the student to analyze the skills imbibed and thus to thoroughly master the technology.

Module 1 - Embedded Systems Essential (ESE)

Concepts of Embedded Systems by comparing with Desktop PC. C and Data structures, hardware related C, Communicating through the I/O Ports from Turbo C etc., Electronics Basics through Digital. Introduction to VHDL programming, CPLD, FPGA.

 

Module 2 - Embedded Systems Design (ESD)

Design and development process of Embedded System using 8051, uController, Design of 8051 flash programmer, 8051 Interfaces to ADC / DAC / LCD / EEPROM / DS1307RTC etc., UART / I2C protocols and motor & object motion control using 8051, CMX scheduler, RTOS coding techniques. Embedded Networking with RCM3000 rabbit semiconductor. Dynamic C programming, Protocol development using TCP/IP libraries, Network application development using RCM3000 and Dynamic C.

 

Module 3 - Embedded Systems Advance (ESA)

Object oriented programming, Working with Cygwin cross compilers for POWERPC Hands on experience on working with protocol converters like BDM, Architecture, instruction set programming, Firmware development using MPC 850 (POWERPC), Boot code implementation, working on basic communications protocols like UART / ETHERNET, ARM architecture & instruction set programming.

 

Module 4 - Embedded Systems Building OS (ES-BO)

Kernel programming - IPC, System calls, process handling threads, management, Modular programming - Device driver development, Kernel configuration cross tool chain development for POWERPC / ARM on Linux, Porting Techniques, RTLinux Architecture, advantages, its significance, Real Time coding techniques on RTLinux.

Project Work

The Project work is an integrated part of the course and it is carried out along with the course. Students are encouraged to implement their innovative ideas in the project.

 

Course Duration

The Course duration is 396 hrs. - 99 Working Days.

 

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