DESIGN SECTION
Before the experiment, you are going to design a circuit which
has 4 inputs w, x, y, z and an output F.
If 4-bits input value is “odd number
which is higher than 4”, or
“3-bits highest even number” or
“4-bits highest even number”,
the output function F will be equal to 1. Otherwise F=0. Each
students have to design the circuit and have to do following steps
own by own.
You are going to;
a) Fill the truth table according to your
design.
b) Find the simplified AND-OR expression (Sum of Product) by using 4-variable K-map.
c) Draw the logic diagram of the simplified function by using 2-input-NAND gates.
DESIGN SECTION Before the experiment, you are going to design a circuit which has 4 inputs...
DESIGN SECTION You are going to design which has 4 inputs wi L V. and 4 outputs A, B.Cand D. The features of the circuit are; a combinational eircuit Inputs (w, x, y, z) Binary Code Outputs (A, B, C, DGray Code The circuit encodes Input Bit Sequence (Binary Code) to Gray Code. You are going to; a) Fill the truth table according to your design. b) Find the simplified AND-OR expressions for all 4 outputs (Sum of Product) by...
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....
Design a circuit with three inputs (A, B, C) and two outputs (F1, F2). The first output F1 is 1 when the binary input is 2, 3, 4, 7, otherwise the first output F1 is logic 0. The second output F2 is 1 when the input variables have more l's than 0's. The output is 0 otherwise. Input/ Output ABC F1 F2 000 001 010 011 100 101 a. Derive the truth-table for F1 and F2 as a function of...
Click Submit to complete this assessment Questions 10 points Design a digital circuit that reorders the bits of a 4-bit binary number as follows: If the number is even, bits by bb bby become b, bobby. For example, 0110 becomes 1001 If the number is odd, bits bybb, b, bbecome bybob. For example, 1001 becomes 0110 Solve the following on paper, and then fill in the blanks below: NOTE: In parts 3 and 4, there is no need to draw...
please anwer all the part of this lab and please use multisim. Lab 4: Basic Logic Gates and Multisim Tools Objectives: • Learn to use the Logic Converter in Multisim to generate truth tables, design circuits and simplify logic expressions. • Build logic circuits using basic TTL gates. Software and Materials: • Multisim One 7400 (quad 2-input NAND gate) IC chip Procedure: 1. Write a logic expression for the circuit below. Have your instructor check the expression. А B с...
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...
2. Design a combinational circuit that has 4 inputs A, B, C, D, and one output F. The function F- 1 if and only if two or more of the input variables are 1. a. Find the function F as a simplified algebraic expression. b. Draw the logic diagram for F
acer Question Three Design a circuit with t wo inputs x & y representing the bits in a binary number and outputs a& b also representing bits in a binary number. When t output is reversed. When the input is 1 and 3, the output s O and 2, the Any carry forward is discarded a) Show your truth table b) Find and simplify the Boolean expression for the o utputs a & b. c) Draw one logic circuit to...
Design the logic circuit to display a 3 bit octal numbers from 0 to 7 on a seven segment display shown below (for number 1 use segments b and c; for 6 include segment (a) Write the Truth Table with A, B. C representing the input bits (A is the MSB) and a, b, c, d, e, f and g representing the outputs to the seven segments. (b) Implement the circuit using a Programmable Logic Array (use simplified notation to...
Computer Science: Computer Architecture 3. Do the following problems: Consider a circuit with 4 binary inputs. It counts the number of 1’s on its input and expresses (encodes or represents) the count as binary values on 2 output lines. a. Draw a truth table to represent the functions of the circuit. b. Provide SOP expressions for the output lines. c. Simplify the SOP expressions. d. Implement the circuit using 2-input NAND gates. 4. do the fowolling problems: a. Verify: xyz...