Problem A circuit consisting of 5 inputs and 2 outputs as shown below is used to...
A circuit consisting of 5 inputs and 2 outputs as shown below is used to drive a BCD to 7-Segment Code Converter, as well as a 7-Segment Display. Y1 X2 Xs Y2 In this circuit X acts as a control signal, when LOW, the circuit compares the 2-bit binary numbers represented by X2Xj and X4Xs. If the first number is greater than the second, the output YiY2 equals 1. If the second number is greater than the first, the output...
1. Design a circuit that multiplies two 2-bit numbers in a signed binary system. 2. Design a circuit that tells the number of "1's" in single digit BCD. 3. Consider to represent a hexadecimal number using a 7-segment device. how to do? (Draw a truth sheet too.
Design a circuit that has a 3 bit binary input (representing 0 through 7) and outputs a 1 if the input is a prime number. A prime number (or prime) is a natural number greater than 1 that has no positive divisors other than 1 and itself. a) Fill out a truth table that represents the logic equation for this circuit: Y = F(A,B,C). b) Using a Karnaugh map simplify the logic equation.
Please solve the problems from 2_5 Digital system Problem 2 Design a combinational circuit with inputs a, b, c, d and outputs w, x, y, z. Assume that the inputs a, b, c d represent a 4-bit signed number (2s complement). The output is also a signed number in 2s complement which is 5 greater than the input if the input is less than 2, and is 2 less than the input if the input is greater than or equal...
2. Design a combinational logic circuit with three inputs x, y, and z, and three outputs A, B, and C. When the binary input value is 0, 1, 2, or 3, the binary output value is 2 greater than the input, i.e. (ABC) = (xyz) + 2. Otherwise, the binary output value is 3 less than the input, i.e. (ABC) = (xyz) – 3.
Design a combinational circuit with three inputs, x , y, and z, and three outputs, A, B , and C . When the binary input is 0, 1, 2, or 3, the binary output is one greater than the input. When the binary input is 4, 5, 6, or 7, the binary output is two less than the input. 1) Truth table 2) Logic circuit 3) Boolean function of A using minterms ( use Boolean algebra) 4) Boolean function of...
Design a combinational circuit with three inputs, x, y, z, and three outputs, A, B, C. When the binary input is 0, 1, 2, or 3, the binary output is one greater than the input. When the binary input is 4, 5, 6, or 7, the binary output is two less than the input.
Question 5. Design an optimized circuit for the function output that compares 2-bit numbers (A and B) and detects A is greater than B. (Hint: Truth table, Boolean function, gate implementation)
Question 5. Design an optimized circuit for the function output that compares 2-bit numbers (A and B) and detects A is greater than B. (Hint: Truth table, Boolean function, gate implementation)
Design a circuit with three inputs (A, B, C) and two outputs (F1, F2). The first output F1 is logic 1 if the number of l’s in the binary number is less than the number of O's, otherwise F1 is logic 0. The second output F2 is 1 if the binary input is 2, 4, 5, 6,7 otherwise the second output F2 is logic 0. a. Derive the truth-table for F1 and F2 as a function of the 3 inputs....