2) Construct a circuit that takes a 3-bit signed integer n as input and if 1 if and only if Use the combinational c...
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2) Construct a circuit that takes a 3-bit signed integer n as input and if if and on t(n) = n3 + 2n2-5n-6-0. Use the combinational circuit design process: Draw a black box for the circuit that specifies its inputs and output. Formalize the informal semantics of this circuit with a truth table. a) b) c) Construct the boolean formula corresponding to the truth table. Draw the circuit corresponding to the boolean formula. d)
2) Construct a circuit that...
3. Design a 4-bit combinational circuit that will detect if the input value is either a multiple of 3 (0,3,6,…) or a multiple of 4 (0,4,8,…). Draw the truth table, derive the simplified SOP Boolean expression and draw the simplified circuit.
part c
Problem 3 [10 points a) (5 points) Construct a circuit that takes as input a 3-bit number X-XXXo and increments it by one. L.e. if the input is 101 the output should be 110. Use only half adders. b) Construct a circuit that takes as input a 3-bit number X-XXxo and decrements it by one 1. (5 points) Show the truth table of the circuit. Then use a decoder and additional gates to implement it. So Ys Y2...
Q2 (20pts) Design a combinational ct that accepts an input 3-bit binary number (XYZ) and generates an output 4-bit binary number (ABCD) where output equal to the double of the input number. (a) Construct the truth table (b) State each output-bit as a function in sum of minterms (SOM) form: (c) State each output-bit as a function in product of maxterms (POM) form: ΠΜ(.) (d) Optimize the circuit using K-maps and find the simplified functions Show your work full-credit. Q3...
3) [9 marks] Using the combinational circuit design procedure discussed in the notes, design with a truth-table, simplify with K-maps, and draw the combinational circuit that accepts a 3-bit number and generates a 5-bit number output equal to 3X + 2 where X is the input number (if the input is 010 (2), the output should be (01000) 8 . Let the inputs be A, B, C and the outputs be V, W, X, Y, Z.
Design a combinational circuit that adds 1 to 3-bit unsigned binary number and produces an unsigned binary result. Do the following: (1) determine the number of inputs/outputs, (2) write the truth table, (3) simplify the output functions by using maps and (4) draw the logic diagram by using AND OR and NOT gates. Show the truth table, the map, and the logic diagram. Do NOT use adders.
Design a combinational circuit which inputs a three-bit binary number, and outputs the input number PLUS two if the input is less then or equal to 3, and outputs the minus two if the input is greater than 3. This should include the truth table for the operation, the karnaugh map(s), and the resulting circuit.
Title: Combinational Circuit Design and Simulation Objectives: a. b. c. Design combinational circuit Verify design with simulation Verify design with laboratory test data Materials Needed IBM Compatible computer, PSpice software, IC Chips (as needed), Data Switches, 4702 (1), LED (1). Pre-Lab: Problem Statement The four parameters in a chemical process control system to be monitored are temperature (T), pressure (P), flow (F), and level (L) of the fluid. The parameters are monitored by sensor circuits that produce a High logic...
Design a four-bit combinational circuit 2’s complementer. (The output generates the 2’s complement of the input binary number.) Show that the circuit can be constructed with exclusive-OR gates. Can you predict what the output functions are for a five-bit 2’s complementer? 1. Truth table 2. Logic circuit with exclusive-OR gates 3.The output functions for a five-bit 2’s complementer
The three-input MAJORITY circuit is a simple combinational circuit that outputs a logical 1 value whenever at least two of its inputs are equal to 1. Construct a truth table illustrating the behavior of the three-input MAJORITY circuit Determine the sum-of-minterms and product-of-maxterms expressions corresponding to the truth table from part A.