Digital Electronics LAB

Syllabus

Experiment No

To plot the Characteristics of a BJT and FET.
Design and implement clipper and clamper (positive and negative for both)using diodes.
Design and implement an Astable Multivibrator circuit using 555 timer for a given frequency and duty cycle.
Given a 4-variable logic expression, simplify it using Entered Variable Map and realize the simplified logic expression using 8:1 multiplexer IC.Simulate and verify its working using Verilog code.
Perform n bit addition / subtraction using 4 bit full adder IC. Simulate and verify its working using Verilog code.
Design and implement BCD to gray code. Simulate and verify given decoder using VERILOG code.
Design and implement Ring counter and Johnson counter using 4-bit shift register and demonstrate its working. Simulate and verify the working using VERILOG code.
Design and implement a mod-n (n<8) synchronous up or down counter using J-K Flip-Flop ICs and demonstrate its working. Simulate and verify mod 8 synchronous up or down counter using VERILOG code.
Design and implement an asynchronous counter using decade counter IC to count up from 0 to n (n<=9) and demonstrate its working.
Design and implement a sequence Detector (3 bits) using Moore model and D flip flop. Simulate and verify the working using VERILOG code.