LPU - Lovely Professional University
What you'll learn

1. Apply basic electrical laws for analysing resistive circuits. 2. Perform number system conversions and simplify logic expressions. 3. Design and simulate combinational logic circuits. 4. Analyse and implement sequential circuits using flip-flops and counters. 5. Design shift registers and synchronous/asynchronous counters. 6. Interface sensors with Arduino/ESP32 and develop basic embedded applications.

  • Ohm’s Law, Kirchhoff’s Law, Voltage division rule, Current division rule Application on Resistive networks using software
  • Number system, logic gates and their properties,Boolean algebra, SOP and POS, K- Map (up to 4 variables) Logic implementation using software
  • Combinational Logic Circuits: Adders, Subtractors, Multiplexers, De-multiplexers, Decoders, Encoders, Comparator up to 2 bits Logic building using Software
  • Latch (SR and D), Flip-Flop (SR, JK, D and T), Master-Slave flip-flop, Conversion of basic flip-flop Simulation of the flipflops and counter through software
  • Registers: Operation of basic shift registers (SISO, SIPO, PISO, PIPO), Counters: Asynchronous counter, Synchronous counter, Special counters: Ring counter and Johnson ring counter
  • Analog and digital signals, Arduino board (pin configuration and description), basic principle of IR sensor, LDR, ultrasonic sensor, Temperature sensor (DHT11/DHT22) Interfacing of sensors through Arduino-UNO or ESP-32

Avatar
Dr. Pawandeep Kaur
Associate Professor

Dr.Pawandeep Kaur,working as Assosiate Professor in the School of Commputer Sienec and Engineering at Lovely Professional University, Punjab, India. She has earned his Master of Technology in Electronics and Communication Engineering (VLSI) from NIT Jalandhar, Punjab, India in 2008 and her graduation in 2005, respectively. Doctorate in Semiconductor Device. She has published research articles in SCI / SCOPUS journals and conferences and guided undergraduate and postgraduate students. Her Topics of interest in research are VLSI (low power analog and digital circuits), network, power monitoring in solar system, Semiconductor Device, Biosensors, IoT implementations etc.