(Solved): Design a 2 input to 4 output active low decoder with an active low enable. Circuit Behavior If ena ...

Design a 2 input to 4 output active low decoder with an active low enable. Circuit Behavior If enable is 1, all decoder outputs are 1's If enable is 0, the circuit operates as an active low decoder. a. Create the truth table. b. C. Derive the Boolean equations for each output. Use K-maps and/or Boolean algebra. Use Boolean theorems to convert the equations to a form that use only NAND gates and NOT gates to implement the circuit. (Hint: NOT gates are used at the lowest-level to generate any inverted inputs. Example: The equation (X' Y)' uses a NOT gate to invert the input X, generating the X' term. A NAND gate generates the term (X' Y)' Design a 3 input to 8 output active low decoder with an active low enable. Circuit Behavior If enable is 1, all decoder outputs are 1's ? If enable is 0, the circuit operates as an active low decoder. a. Create the truth table. b. Derive the Boolean equations for each output. Use K-maps and/or Boolean algebra.