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18EI3008 IoT Lab 0:0:4 2
18EI3006 ADVANCED EMBEDDED SYSTEM LABORATORY L 0 T 0 P 4 C 2
18EI3007 EMBEDDED BASED VIRTUAL INSTRUMENTATION LABORATORY L T P C 0 0 4 2
Course Objective:
1. To impart the basic knowledge about ATMega Microcntroller and its functions. 2. To understand the concepts of embedded programming. 3. Acquire knowledge in interfacing techniques. Course Outcomes: After the completion of this course the student will be able to: 1. Identify the IDE for programming 2. Review the architectural overview of AVR microcontroller 3. Recall the embedded C programming structure 4. Create programs using I/O Modules 5. Demonstrate waveform generation using I2C 6. Interpret the concept of RTOS programming
List of Experiments
1. Bit and byte access 2. Timer and counter concepts 3. Concepts on interrupt 4. Interfacing peripherals 5. Interfacing peripherals - 7-segment display 6. ADC Interface 7. Embedded based filter design 8. Waveform generation with I2C 9. Interfacing stepper motor 10. Concepts on RTOS – task creation 11. RTOS – priority based scheduling 12. Miniproject
Course Objective:
1. To strengthen the knowledge of Virtual Instrumentation. 2. To understand the concept of signal processing 3. To introduce the concept of Data Acquisition. Course Outcomes: After the completion of this course the student will be able to: 1. Identify virtual instrumentation representation for simple circuits 2. Choose VI to develop real time applications 3. Apply block diagram concept for developing simple digital circuits 4. Design embedded applications using VI 5. Analyze various embedded algorithms and implement the same using VI 6. Specify and develop control system methods using VI
List of experiments:
1. LabVIEW Programming I (LOOP | STRUCTURES | FORMULA NODE) 2. LabVIEW Programming II (ARRAY | CLUSTER | GRAPH | CHART ) 3. Waveform Generators 4. Frequency Measurements Using Transition Duration Method 5. Analog Input and Output Interface Using NImyDAQ 6. Network Interface Using TCP/IP Functional Blocks 7. Real-Time Temperature Measurements by Interfacing Thermocouple | LM35 8. Speed and Direction Control for a Stepper Motor 9. Design and Analysis Analog of Filters Using NI-ELVIS Module 10. Embedded Implementation of Digital Filters Using SPEEDY33 11. Speed Control of DC Motor by Interfacing ARDUINO with LabVIEW 12. Development of Digital Voltmeter Using MCB2300 Embedded Board
