Homework Answers
Question C_1
Similarity: The latches and flip-flops both follow feedback circuits.
Difference: A flip-flop has a dedicated external clock while, a latched don have one.
Question C_2
Boolean function for 2:1 Multiplexer
Y = A.X' + B.X
Question C_3
|
Select Input (X) |
A | B | Y |
| 0 | 0 | 0 | 0 |
| 0 | 0 | 1 | 0 |
| 0 | 1 | 0 | 1 |
| 0 | 1 | 1 | 1 |
| 1 | 0 | 0 | 0 |
| 1 | 0 | 1 | 1 |
| 1 | 1 | 0 | 0 |
| 1 | 1 | 1 | 1 |
Question C_4
Question C_5
Setup Time is the minimum amount of time data input should be held steady before the clock event so that the data input is reliably sampled by the clock event.
Hold Time is the minimum amount of time data input should be held steady after the clock event so that the data input is reliably sampled by the clock event.
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Part C. Digital Logic Question C 1( 20 points) Please describe the differences and similarities between Latches and...
Question 2: Combinational Logic (15 points) Implement the following Boolean function Z(A,B,C,D) = {(1,2,5,7,8,10,11,13,15) 2.1 (5...
Question 2: Combinational Logic (15 points) Implement the following Boolean function Z(A,B,C,D) = {(1,2,5,7,8,10,11,13,15) 2.1 (5 points) Write the truth table for Z. 2.2 (5 points) Implement Z using a single 16:1 multiplexer. Make sure that you mark all inputs and outputs clearly. 2.3 (5 points) Implement Z using an 8:1 multiplexer and all necessary gates. Make sure that you mark all inputs and outputs clearly.
Question 1 Digital Electronics and Combinational Logic 1a) Analog and Digital Electronics i. Write either "digital"...
Question 1 Digital Electronics and Combinational Logic 1a) Analog and Digital Electronics i. Write either "digital" or "analog" in this to indicate whether the property in that row is - typical of digital electronics or analog electronics. The first row has been completed as an example. Property Digital/Analog Difficult, manual circuit design Analog Continuous valued signals Tolerant of electrical noise Circuit state tends to leak Intolerant of component variations ii. In older cars the timing of the electrical pulses to...
(20 pts)VHDL. Implement the logic circuit specified in the following truth table by using a 4:1 m...
(20 pts)VHDL. Implement the logic circuit specified in the following truth table by using a 4:1 mulitiplexer ome regular logic gates. 11 Draw a schematic of your implementation. 2) Suppose that you are given the following VHDL code of a 4:1 multiplexer. Please write a VHDL code to describe your implementation by using structure modeling technique, by using the following 4:1 multiplexer asia your answer component in your structure modeling. Note that you do not need to re-write the following...
Question 3 (20 marks) (a) Define minterm and maxterm in Boolean functions. [4 marks] (b) The...
Question 3 (20 marks) (a) Define minterm and maxterm in Boolean functions. [4 marks] (b) The truth table of the function X is shown in Table 1 Table 1 A|B|C 0 0 0 (i) Write the Boolean expression for function X in maxterms. () Simplify function X. ) Draw the logic gates of the simplified function X. (iv) Explain the benefits of simplifying the Boolean functions for digital circuits. [5 marks] [5 marks] [3 marks] [3 marks]
I need help with part 1 and part 2 if anyone can help me out. To...
I need help with part 1 and part 2 if anyone can help me out. To
draw the schematic we use logic.ly. Thank you for your help.
Combinational Gates: Part A 1) 2 to 4 Decoder a. Draw a 2 input to 4 output decoder. Utilize class notes, ZYBooks, and other online resources to determine the proper schematic and functionality b. Create a truth table. c. Explain what the circuit is used for. d. Include 1 screen shot in your...
Given the FSM schematic below, answer the following question Question 1. (30 POINTS) Given the FSM schematic below, answer the following questions: A, A CLK si s, Output 0 0 Reset 1.A.) (6 POINTS)...
Given the FSM schematic below, answer the following
question
Question 1. (30 POINTS) Given the FSM schematic below, answer the following questions: A, A CLK si s, Output 0 0 Reset 1.A.) (6 POINTS) What are the Boolean equations for next state and output logic? 1.B.) (4 POINTS) Is this a Moore or Mealy FSM? Why? Please explain. 1.C.) (10 POINTS) Draw the truth table for next state and output logic for this circuit. 1.D.) (10 POINTS) Draw the state...
Please solve it clearly 2. For each of the following digital circuits, write the logic expression...
Please solve it
clearly
2. For each of the following digital circuits, write the logic expression that describes the output in terms of the inputs. There is no need to simplify the logic expressions. (8 points) c D D D A B E Solution A(C+ D) + BE F W X D Solution: Q=(W+X)(Y o Z)
QUESTION 2 (40 MARKS) Figure Q2 show Binary to Gray code converter block diagram. Based on...
QUESTION 2 (40 MARKS) Figure Q2 show Binary to Gray code converter block diagram. Based on that figure, design: (a) Circuit using logic gates. Obtain the truth table and represent Yo, Y1, Y2 and Y3 in minimized SOP Boolean algebra term. Draw the circuit using logic gates (CO2:P03 - 20 Marks) (b) Circuit using 8 to 1 Multiplexer with A, B, C as a data selector. Obtain the truth table of each multiplexer. Draw the circuit using 8 to 1...
Question 1. [5 points] Explain some of the similarities and some of the differences between using...
Question 1. [5 points] Explain some of the similarities and some of the differences between using a Laplace transform and using any other method to solve a differential equation. Give a first-order example of each. (Note: You must use full sentences. Only write on this page.)
(2) (5 pomis) TL A-011000103, B = 011011012. Clearly 3. Conversion between truth table, circuit diagram...
(2) (5 pomis) TL A-011000103, B = 011011012. Clearly 3. Conversion between truth table, circuit diagram and Boolean function. (1) (6 points) For the circuit below, write the Boolean expression F(A, B, C). Then write down the truth table for F. (2) (4 points) Draw a circuit schematic diagram which implements the following Boolean function. (Don't simplify the expression.) F(X2, X1, Xo) = x;'(x2+xo)' + xo'X1X2 (3) (10 points) The output of a logic function F(A,B,C) is one only if...
Question 2: Combinational Logic (15 points) Implement the following Boolean function Z(A,B,C,D) = {(1,2,5,7,8,10,11,13,15) 2.1 (5 points) Write the truth table for Z. 2.2 (5 points) Implement Z using a single 16:1 multiplexer. Make sure that you mark all inputs and outputs clearly. 2.3 (5 points) Implement Z using an 8:1 multiplexer and all necessary gates. Make sure that you mark all inputs and outputs clearly.
Question 1 Digital Electronics and Combinational Logic 1a) Analog and Digital Electronics i. Write either "digital" or "analog" in this to indicate whether the property in that row is - typical of digital electronics or analog electronics. The first row has been completed as an example. Property Digital/Analog Difficult, manual circuit design Analog Continuous valued signals Tolerant of electrical noise Circuit state tends to leak Intolerant of component variations ii. In older cars the timing of the electrical pulses to...
(20 pts)VHDL. Implement the logic circuit specified in the following truth table by using a 4:1 mulitiplexer ome regular logic gates. 11 Draw a schematic of your implementation. 2) Suppose that you are given the following VHDL code of a 4:1 multiplexer. Please write a VHDL code to describe your implementation by using structure modeling technique, by using the following 4:1 multiplexer asia your answer component in your structure modeling. Note that you do not need to re-write the following...
Question 3 (20 marks) (a) Define minterm and maxterm in Boolean functions. [4 marks] (b) The truth table of the function X is shown in Table 1 Table 1 A|B|C 0 0 0 (i) Write the Boolean expression for function X in maxterms. () Simplify function X. ) Draw the logic gates of the simplified function X. (iv) Explain the benefits of simplifying the Boolean functions for digital circuits. [5 marks] [5 marks] [3 marks] [3 marks]
I need help with part 1 and part 2 if anyone can help me out. To
draw the schematic we use logic.ly. Thank you for your help.
Combinational Gates: Part A 1) 2 to 4 Decoder a. Draw a 2 input to 4 output decoder. Utilize class notes, ZYBooks, and other online resources to determine the proper schematic and functionality b. Create a truth table. c. Explain what the circuit is used for. d. Include 1 screen shot in your...
Given the FSM schematic below, answer the following
question
Question 1. (30 POINTS) Given the FSM schematic below, answer the following questions: A, A CLK si s, Output 0 0 Reset 1.A.) (6 POINTS) What are the Boolean equations for next state and output logic? 1.B.) (4 POINTS) Is this a Moore or Mealy FSM? Why? Please explain. 1.C.) (10 POINTS) Draw the truth table for next state and output logic for this circuit. 1.D.) (10 POINTS) Draw the state...
Please solve it
clearly
2. For each of the following digital circuits, write the logic expression that describes the output in terms of the inputs. There is no need to simplify the logic expressions. (8 points) c D D D A B E Solution A(C+ D) + BE F W X D Solution: Q=(W+X)(Y o Z)
QUESTION 2 (40 MARKS) Figure Q2 show Binary to Gray code converter block diagram. Based on that figure, design: (a) Circuit using logic gates. Obtain the truth table and represent Yo, Y1, Y2 and Y3 in minimized SOP Boolean algebra term. Draw the circuit using logic gates (CO2:P03 - 20 Marks) (b) Circuit using 8 to 1 Multiplexer with A, B, C as a data selector. Obtain the truth table of each multiplexer. Draw the circuit using 8 to 1...
Question 1. [5 points] Explain some of the similarities and some of the differences between using a Laplace transform and using any other method to solve a differential equation. Give a first-order example of each. (Note: You must use full sentences. Only write on this page.)
(2) (5 pomis) TL A-011000103, B = 011011012. Clearly 3. Conversion between truth table, circuit diagram and Boolean function. (1) (6 points) For the circuit below, write the Boolean expression F(A, B, C). Then write down the truth table for F. (2) (4 points) Draw a circuit schematic diagram which implements the following Boolean function. (Don't simplify the expression.) F(X2, X1, Xo) = x;'(x2+xo)' + xo'X1X2 (3) (10 points) The output of a logic function F(A,B,C) is one only if...
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