2. NAND and NOR gates are the universal logic gates. To prove this property of universal gates, show how the basic/ standard logic gates (AND, OR, NOT) can be implemented using only NAND and NOR gates. (Hint: Show six circuits in total: three with only NAND gates and three with only NOR gates)
Solution:
Three gate AND,OR and NOT are separately implemented by using NAND gate , NOR gate.
2. NAND and NOR gates are the universal logic gates. To prove this property of universal...
NAND and NOR gates are universal, which means that you can implement every possible Boolean function with them. Remember that the NOT gate can be implemented using either a NAND or a NOR. Implement the following functions using only NAND and NOT gates. Do not simplify the functions for this problem. a. (a + b) (c' +d) b. (a'b + b'c)' Implement the following functions using only NOR and NOT gates. c. (a + ab'c)' d. (((a + b)' +...
Draw the logic diagram of a 2-to-4-line decoder using (a) NOR gates only and (b) NAND gates only. please show the steps
14. NAND and NOR are said to be universal gates because each and every gate can be made from these two gates Make AND, OR and NOT gates using just NAND gates. Make AND, OR and NOT gates using just NOR gates.
1. What logic gates are known as universal gates? (1 point) a) nand, nor b) and, or, not c) nand, nor, xor, xnor d) None of the above 2. Write the half adder truth table. (4 points) 3. Fill in the blank. (1 point) A2 to 1 mux has input lines. 4. True or False? (1 point) A Boolean algebraic sum of products expression is the complement of the product of sums expression. 5. What is the minimum POS expression...
First you must create a logic circuit using only basic gates such as AND, OR, NOR, NAND, NOT, etc. to implement an ADDER capable of adding two 4 bit binary numbers. Second you must create a logic circuit using only basic gates such as AND, OR, NOR, NAND, NOT, etc. to implement a Subtractor that is capable of subtracting the second number from the first, by converting the second number into its 2's complement form and then adding the resulting...
Create a truth table to implement AND logic using only NAND gates. Draw the circuit diagram (schematic) for the implementation. Do the same for OR logic using only NOR gates.
We know that the NAND gate is universal, so all other gates can be built using just NAND gates. Hence we should be able to build a half-adder using NAND gates. And we can. a) Draw the AND operation as a circuit using only 2 NAND gates b) Check your design in (a) by showing the full truth table for it c) Draw the OR operation as a circuit using only 3 NAND gates
For each of the following show the logic circuit with only NAND gates and also show the truth table. Create a NOT gate. Create an AND gate. Create an OR gate. Create a NOR gate. Create an XOR gate. Create a Half Adder
We know that the NAND gate is universal, so all other gates can be built using just NAND gates. Hence we should be able to build a half-adder using NAND gates. And we can. a) Draw the AND operation as a circuit using only 2 NAND gates [2 marks] b) Check your design in (a) by showing the full truth table for it [2 marks] c) Draw the OR operation as a circuit using only 3 NAND gates [2 marks]...
PRELIMINARY WORK 2: FUNCTIONS OF LOGIC GATES F (xyz) Figure 2.1-3-input-NAND Gate design by using just 2-input-NAND Gates Figure 2.2- Design of function F-xy+x'z, by using just 2-input-NAND Gates Simulate the logic circuits that are given in figure 2.1 and figure 2.2. Simulations can be done in Proteus, P-Spice or any simulation program that you want to use. You can take screenshot of your design for print out. Please fill the table 2.1 according to your simulation results. Experiment results...