Embedded Systems Course In ChennaiIndus automation is also a leading provider of solutions involving embedded systems as well as embedded systems course in Chennai. We have specially qualified engineers who have in-depth knowledge in the subject and out embedded systems labs is one of the best in Chennai.

The embedded training at Indus is intended to introduce students to the design and analysis of computational systems which interact with physical processes.

At Indus, we always take special care to provide an array of courses so that every student, whatever be his prior experience with embedded systems, can learn more and improve his skill sets. Please find the list of the current embedded systems training packages from us. Click on the package names to see more information about each package.

Certified Embedded Engineer [15 Days]

Embedded Systems Programmer [30 Days]

Embedded Application Development Engineer [45 Days]

Post Graduate Diploma In Embedded Systems [60 Days]

Practical uses of such systems include medical devices, toys & games, assisted living, monitoring and control of traffic & safety, automobile systems, process control & instrumentation, energy conservation, consumer electronics, energy management, environmental pollution control, air traffic control and communication systems, robotics, defense etc. to name a few.

VLSI Training In ChennaiThe major focus of this course will be on the integration of practical designs with frameworks of systems, including both software and hardware components. Real-time operating system building is the key point in the embedded training at Indus. Comprehensive coverage of 8051 and ARM processors allows you to ride with confidence into this domain, and be industry-ready in a matter of days.

Additionally, you can combine this course with other training programs from us, including any of the automation training programs as well as  the Matlab courses.

So if you are interested in making a career in embedded systems and associated technologies, do not waste time. Join our all encompassing embedded systems course in Chennai and get that kick start for your career today!

Certified Embedded Engineer [ 15 Days ]

Module 1: Embedded System Introduction

  • Introduction about PLDs
  • Introduction about Microprocessors
  • Introduction about Signal processing and Data processing
  • Introduction about Micro controllers
  • Microcontroller classifications
  • Introduction about 8051 Microcontroller
  • Introduction about ARM Controllers

Module 2: Application Development

  • Introduction about 805X and Interface
  • Introduction to Advance RISC Machine

Module 3: Language and Tools  

  • Introduction to Embedded C programming
  • Intro about KEIL IDE

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Embedded Systems Programmer [ 30 Days ]

Module 1: Embedded System Introduction

  • Introduction to PLDs
  • Introduction to Microprocessors
  • Introduction to Signal processing and Data processing
  • Introduction to Mixed signal Processing
  • Introduction to Micro controllers
  • Microcontroller classifications
  • Introduction to 8051 Microcontroller
  • Introduction to PIC Microcontrollers
  • Introduction to MSP430 Microcontroller
  • Introduction to ARM Controllers
  • Introduction to System On Chip(SoC)

Module 2: Application Development on 8051

Applications using External Peripherals

  • Interfacing of LEDs
  • Interfacing seven segment display,
  • Interfacing of LCD
  • Matrix Key-pad scanning
  • I2C device Interfacing.
  • External RTC
  • External EEPROM

Module 3: Application Development on ARM-7

Internal Peripheral Applications

  • Introduction to Advance RISC Machine
  • JTAG
  • SPI
  • UART
  • I2C
  • PWM
  • Vectored Interrupts
  • On-Chip ADC/DAC
  • RTC

Module 4: Language and Tools

  • Introduction to Embedded C programming
  • Data types, Qualifiers and Operators
  • Loop control and Functions
  • Array, Strings and Classes
  • Pointers and Structures
  • Arithmetic operations, and Type casting,
  • Call by Value, Call by Reference and Dynamic memory allocation.
  • Intro to KEIL IDE
  • Servo motor Drive Interface
  • Stepper Motor Drive Interface
  • Interfacing of LCD Interface
  • Interfacing of LEDs Interface
  • Matrix Key-pad Interface

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Embedded Application Development Engineer [ 45 Days ]

Module 1: Embedded System Introduction

  • Introduction to PLDs
  • Introduction to Microprocessors
  • Introduction to Signal processing and Data processing
  • Introduction to Mixed signal Processing
  • Introduction to Micro controllers
  • Microcontroller classifications
  • Introduction to 8051 Microcontroller
  • Introduction to PIC Microcontrollers
  • Introduction to MSP430 Microcontroller
  • Introduction to ARM Controllers
  • Introduction to System On Chip(SoC)

Module 2: Application Development on 8051

Applications using Internal Peripherals

  • Architecture
  • Memory
  • Addressing Modes
  • Instruction set
  • Timers/Counters
  • Stop watch
  • UART

Applications using External Peripherals

  • Interfacing of LEDs
  • Interfacing seven segment display
  • Interfacing of LCD
  • Matrix Key-pad scanning
  • I2C device Interfacing.
  • External RTC
  • External EEPROM

Module 3: Application Development on ARM-7

Internal Peripheral Applications

  • Introduction to Advance RISC Machine
  • JTAG
  • SPI
  • UART
  • I2C
  • PWM
  • Vectored Interrupts
  • On-Chip ADC/DAC
  • RTC

Module 4: Language and Tools

  • Introduction to Embedded C programming
  • Data types, Qualifiers and Operators
  • Loop control and Functions
  • Array, Strings and Classes
  • Pointers and Structures
  • Arithmetic operations, and Type casting,
  • Call by Value, Call by Reference and Dynamic memory allocation
  • Intro about KEIL IDE
  • Servo motor Drive Interface
  • Stepper Motor Drive Interface
  • Interfacing of LCD Interface
  • nterfacing of LEDs Interface
  • Matrix Key-pad Interface

Module 5: Real Time Operating System

  • Define Real Time Operating Systems (RTOS)
  • Comparison between normal (traditional) OS and Real Time OS
  • Why RTOS is required in Embedded systems

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Post Graduate Diploma In Embedded Systems [ 60 Days ]

Module 1: Embedded System Introduction

  • Introduction to PLDs
  • Introduction to Microprocessors
  • Introduction to Signal processing and Data processing
  • Introduction to Mixed signal Processing
  • Introduction to Micro controllers
  • Microcontroller classifications
  • Introduction to 8051 Microcontroller
  • Introduction to PIC Microcontrollers
  • Introduction to MSP430 Microcontroller
  • Introduction to ARM Controllers
  • Introduction to System On Chip(SoC)

Module 2: Application Development on 8051

Applications using Internal Peripherals

  • Architecture
  • Memory
  • Addressing Modes
  • Instruction set
  • Timers/Counters
  • Stop watch
  • UART

Applications using External Peripherals

  • Interfacing of LEDs
  • Interfacing seven segment display,
  • Interfacing of LCD
  • Matrix Key-pad scanning
  • I2C device Interfacing.
  • External RTC
  • External EEPROM

Module 3: Application Development on ARM-7

Internal Peripheral Applications

  • Introduction to Advance RISC Machine
  • JTAG
  • SPI
  • UART
  • I2C
  • PWM
  • Vectored Interrupts
  • On-Chip ADC/DAC
  • RTC

External Peripheral Applications

  • Interfacing Relay
  • Interfacing Buzzer
  • Interfacing pushbuttons
  • Power electronics drives control
  • DC motor Drive
  • Servo motor Drive
  • Stepper Motor Drive
  • Sensors

Module 4: Language and Tools

  • Introduction to Embedded C programming
  • Data types, Qualifiers and Operators
  • Loop control and Functions
  • Array, Strings and Classes
  • Pointers and Structures
  • Arithmetic operations, and Type casting,
  • Call by Value, Call by Reference and Dynamic memory allocation
  • Intro to KEIL IDE
  • Servo motor Drive Interface
  • Stepper Motor Drive Interface
  • Interfacing of LCD Interface
  • Interfacing of LEDs Interface
  • Matrix Key-pad Interface

Module 5: Real Time Operating System

  • Define Real Time Operating Systems (RTOS)
  • Comparison between normal (traditional) OS and Real Time OS
  • Why RTOS is required in Embedded systems
  • How RTOS helps to increase the scalability
  • Basic architecture
  • Types and features
  • Hard time systems
  • Real time kernels
  • Multitasking techniques
  • Time and memory management
  • Real time scheduling.

 

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