Syllabuses
Implement a function F = A∗B + C∗D with NAND gates.
Implement a function F = A∗B + C∗D with NAND gates.
Convert the following numbers as directed. (a) (41.513)_{10} into binary, octal and hexadecimal (b) (41.513)_{10} into base 2, 8 and 10 numbers (c) (26.86)_{10} to base 2 and 10 numbers
Convert the following numbers as directed.
(a) (41.513)_{10} into binary, octal and hexadecimal
(b) (41.513)_{10} into base 2, 8 and 10 numbers
(c) (26.86)_{10} to base 2 and 10 numbers
Draw logic diagram of JK Flip-Flop and give its characteristics table and equation.
Draw logic diagram of JK Flip-Flop and give its characteristics table and equation.
How to design a 8x1 MUX using two 4x1 MUX? Draw the circuit.
How to design a 8x1 MUX using two 4x1 MUX? Draw the circuit.
Write steps of designing a digital circuit design a full adder circuit.
Write steps of designing a digital circuit design a full adder circuit.
Simplify the Boolean function using K-map. F(x,y,z) = √ (0,1,2,4,5,6,8,9,12,13,14)
Simplify the Boolean function using K-map.
F(x,y,z) = √ (0,1,2,4,5,6,8,9,12,13,14)
Explain any two: a) Shannon's theorem for channel capacity b) Time division multiplexing c) Sample and HOLD circuit d) FSK
Explain any two:
a) Shannon's theorem for channel capacity
b) Time division multiplexing
c) Sample and HOLD circuit
d) FSK