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Advanced Embedded System Designing

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ADVANCED EMBEDDED SYSTEM DESIGNING

Advanced Embedded System Designing

Embedded Systems are microcontroller or microprocessor or DSP chip based electronic system  designed to perform dedicated task and run  software with a small memory footprint. Embedded System Engineering one of the fastest growing technology that makes the human life  more advanced. we can find embedded systems in Automotives, Homes, Industries, Hospitals, Research centers , Entertainment so on.An embedded system engineer has to

An embedded system engineer has to be design, develop and manage embedded products using the available tools with in the given specifications, cost and time frame. Professionals trained and skilled in these Technologies are rare and highly sought after group in the recruitment market place. Realizing the growth and promise of embedded systems in day-to- day life and the need  for trained man power in this promising area we are conducting this hands on training program.

We strongly believe that Our Training Sessions will be the breakthrough to promote and encourage the students in embedded system designing. Your trainers have enough passion, patience and experience. We promising that our whole support and guidance are always with you until you mastered embedded system designing.

RTOS

A real time kernel is software that manages the time and recourses of a microprocessor, microcontroller or Digital Signal processor (DSP), and provides indispensable services to your applications.

An RTOS generally contains a real-time kernel and other higher-level services such as file management, protocol stacks, a Graphical User Interface and other components.

why RTOS?

The demands of an  increasingly data-driven world mean that your IoT device will require robust and reliable software. For that, you will need a real-time operating system (RTOS).

3D printing and Designing

What is 3d printing?

A process for making a physical object from a three-dimensional digital model, typically by laying down many successive thin layers of a material.

How does 3D printer work?

It all starts with making a virtual design of the object you want to create. This virtual design is for instance a CAD (Computer Aided Design) file. This CAD file is created using a 3D modeling application or with a 3D scanner (to copy an existing object). A 3D scanner can make a 3D digital copy of an objectA real time kernel is software that manages the time and recourses of a microprocessor, microcontroller or Digital Signal processor (DSP), and provides indispensable services to your applications.

Microcontrollers covered in our training sessions

PIC Microcontroller  

This powerful (200 nanosecond instruction execution) yet easy-to-program (only 35 single word instructions) CMOS FLASH-based 8-bit microcontroller packs Microchip’s powerful PIC® architecture into an 40- or 44-pin . The PIC16F877A features 256 bytes of EEPROM data memory, 2 Comparators, 8 channels of 10-bit A/D converter, 2 CC/PWM functions, the synchronous serial port can be configured as either  SPI™  or I²C™ bus and USART.

AVR Microcontroller 

The high-performance, low-power Atmel 8-bit AVR RISC-based microcontroller combines 32KB of programmable flash memory, 2KB SRAM, 1KB EEPROM, an 8-channel 10-bit A/D converter. The device supports throughput of 16 MIPS at 16 MHz and operates between 4.5-5.5 volts.

Arduino  

Arduino is an open-source electronics platform based on easy-to-use hardware and software. It’s intended for anyone making interactive projects. Arduino senses the environment by receiving inputs from many sensors, and affects its surroundings by controlling lights, motors, and other actuators.

ARM Cortex M4  

The Tiva C Series TM4C123GH6PM microcontroller offers an 80-MHz, 32-bit ARM Cortex-M4 CPU with floating point, 256 kBytes of 100,000 write-erase cycles of flash memory, and a wide range of peripherals including motion control PWMs, 1-MSPS ADCs, eight UARTs, four SPIs, four I2Cs, USB H/D/OTG, and up to 27 timers.

Modules And Protocols

  • Zigbee
  • GSM
  • GPS
  • RFID
  • Fingerprint Sensor
  • WiFi
  • Bluetooth
  • RF Wireless
  • Ethernet
  • TCP/IP
  • MQTT

Syllabus

  • Introduction to embedded system  
  • Basic and Advanced microcontroller architectures
  • Embedded C programming  
    • Dayta tpes ,Storage classes, Conditional statements, Loops, Functions, Arrays, Pointers, Structures, Link list
    • Embedded C Problem Solving
  • Peripheral driver programming
    • GPIO programming(switches and LEDs)
    • LCD Interfacing
    • ADC
    • UART
    • Interrupt
  • Communication Protocols and Modules
    • WiFi ,  Bluetooth,  Zigbee, GSM, RF Transceivers, Ethernet, CAN
  • Sensor Modules
    • Temperature, pressure, Gas, Finger print, Light sensor, sound sensor, PIR, Ultrasonic sensor, Force sensor
  • RTOS
  • IOT
  • PCB Designing
  • Project development and Integration
  • Project presentation
  • Technical Interview Strategies

Outcomes Of Our Training Sessions

Learn how electronic gadgets are designed, developed, and built as embedded systems that change the world.

  • Design, Develop and build embedded systems
  • You will be able to transform  your  ideas to real products
  • Acquires  industrial exposure beyond the boundaries  of academics
  • Gather systematic approaches  towards the project development
  • Build skills in programming  and interfacing various modules and sensors with microcontrollers