Embedded System Design

Objectives:

Studying a range of topics of immediate relevance to industry makes a student suitable for working in industries engaged in Embedded System and Electronic Product development. The purpose of this lab is to provide an excellent foundation for those wishing to engage in application research in this rapidly developing area.

Main Equipment’s Available
1. High-end multipurpose embedded Development board
This board is very useful for students to learn ARM7, AVR, 8051 and its interfacing with Micro SD Card interface, Graphical LCD, 8 LEDs, On board, LDR On board.
2. ARM Processor and Controllers
An ARM processor is one of a family of CPUs based on the RISC architecture developed by Advanced RISC Machines (ARM). The Keil MCBSTM32 Evaluation Board enables you to create and test working programs based on the STMicroelectronics STM32 family of ARM Cortex™-M3 processor-based devices.

 

3. AVR Microcontroller
Learn how to interface any sensor or input output device with ATmega32 microcontroller. Here we teach the students all input output interfacing.

4. 8085 Microprocessor

The PS-8085 board which demonstrates the capabilities of the 40-pin 8085(various families). All programs are provided to demonstrate the unique features of supported device.

 

5. 8051 Microcontroller

The P89V51RD2 are 80C51 microcontrollers with 16/32/64kB flash and 1024 B of data RAM. The flash program memory supports both parallel programming and in serial ISP. Parallel programming mode offers gang-programming at high speed, reducing programming costs and time to market.

6.Arduino Development Board

Arduino Development Board (micro embedded) used for programming of Micro ATmega328 & having flash memory of 32kb. Availability of interfacing present on microcontroller kit LED interfacing, Keyboard interfacing, LCD interfacing and other interfacing devices.

7. ARM CORTEX M3

ARM CORTEX M3 (micro embedded) used for programming of LPC1768 & having flash memory of 512kb. Availability of interfacing present on microcontroller kit LED interfacing, Keyboard interfacing, LCD interfacing and other interfacing devices.

8. DSP Development Board:

The TMS320C6748 DSP development kit is a scalable platform that breaks down development barriers for applications that require embedded analytics and real-time signal processing, including biometric analytics, communications and audio. A wide variety of standard interfaces for connectivity and storage enable you to easily bring audio, video and other signals onto the board.

9. MATLAB- Mathwork

MATLAB® combines a desktop environment tuned for iterative analysis and design processes with a programming language that expresses matrix and array mathematics directly. It includes the Live Editor for creating scripts that combine code, output, and formatted text in an executable notebook. MATLAB allows matrix manipulations, plotting of functions and data, implementation of algorithms, creation of user interfaces, and interfacing with programs written in other languages.

 

Some Innovative Project Works:

1.An Anchor Android Controlled Mini Rover for real time surveillance using Raspberry Pi 3
2.Smart Blind Stick

Some of Practical Project Experiments:

1 Familiarization with ARM board, RS-232C interface with PC

2. Traffic Light C.ontroller

3. An Android Controlled Mini Rover for real time surveillance using Raspberry Pi 3

4. SPI interface, ADC interfacing

5. Dining Philosophers Problem implementation in ARM processor

6. RMS Scheduler using Free RTOS

7. Program to demonstrate I2C Interface on IDE environment

8. Study and observation of Position control of Servo Motor 

 

English