List of Experiments
1. To get in touch with development tool/environment for ATMEL microcontroller program and architecture. To know the overview of Kiel software and an introduction to ATMEL 8051 architecture.
2. Write an embedded C program to add subtract multiply divide 16-bit data by ATMEL microcontroller. Write a separate module for each of the arithmetic module and bind it under a single module.
3. Write embedded c program to generate 10 Khz frequency using interrupts on P1.2 ant to view it on the CRO.
4. Write a program to interface 16X2 LCD to ATMEL microcontroller and use port P0 for interfacing it and use port P1 to interface keyboard.
5. Write a program to control DC motor using PWM method. To monitor the PWM status and control the speed of DC motor in 100% and 25% duty cycle pulse.
6. Write a program to control Position of servo motor. Using any of the ports to be input and output ports and provide an option for a switch to control the position of the motor.
7. Transmission and reception of data. The module has to be designed to have a clear understanding of how serial and parallel interface devices are controlled and interfaced with microcontroller.
8. To program and implement the temperature and pressure measurement units. Using appropriate sensor modules interfaced to the microcontroller indicate the changes in real world through the LEDs.
NOTE; Use AT89C52 microcontroller as main kit with peripherals and KeilμVision 4/ Equivalent tool.
Course outcomes:
At the end of the course the student will be able to:
Conduction of Practical Examination:
1 . All laboratory experiments (nos) are to be included for practical examination.
2 . Students are allowed to pick one experiment from list
3 . Strictly follow the instructions as printed on the cover page of answer script for breakup of marks
4 . Change of experiment is allowed only once and marks allotted to the procedure part to be made zero.