Digital Electronics Combinational Logic Analysis Online Test
Finish Quiz
0 of 20 questions completed
Questions:
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
Information
Digital Electronics Combinational Logic Analysis Online Test. The Digital Electronics Full online mock test paper is free for all students and Very Helpful for Exam Preparation. Digital Electronics Question and Answers in English. Digital Electronics Online Mock test for Digital Electronics Combinational Logic Analysis Topic. Here we are providing Digital Electronics Combinational Logic Analysis Online Test Series in English. Check Digital Electronics Mock Test Series 2024.
This paper has 30 questions.
Time allowed is 30 minutes.
The Digital Electronics online Mock Test Exam is Very helpful for all students. Now Scroll down below n click on “Start Quiz” or “Start Test” and Test yourself.
You have already completed the quiz before. Hence you can not start it again.
Quiz is loading...
You must sign in or sign up to start the quiz.
You have to finish following quiz, to start this quiz:
Results
0 of 20 questions answered correctly
Your time:
Time has elapsed
You have reached 0 of 0 points, (0)
Average score |
|
Your score |
|
Categories
- Not categorized 0%
Pos. | Name | Entered on | Points | Result |
---|---|---|---|---|
Table is loading | ||||
No data available | ||||
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
- 13
- 14
- 15
- 16
- 17
- 18
- 19
- 20
- Answered
- Review
-
Question 1 of 20
1. Question
The output of an exclusive-NOR gate is 1. Which input combination is correct?
Correct
Incorrect
-
Question 2 of 20
2. Question
One positive pulse with tw = 75 µs is applied to one of the inputs of an exclusive-OR circuit. A second positive pulse with tw = 15 µs is applied to the other input beginning 20 µs after the leading edge of the first pulse. Which statement describes the output in relation to the inputs?μ
Correct
Incorrect
-
Question 3 of 20
3. Question
The inverter can be produced with how many NAND gates?
Correct
Incorrect
-
Question 4 of 20
4. Question
A 4-variable AND-OR circuit produces a 0 at its Y output. Which combination of inputs is correct?
Correct
Incorrect
-
Question 5 of 20
5. Question
A 4-variable AND-OR circuit produces a 1 at its Y output. Which combination of inputs is correct?
Correct
Incorrect
-
Question 6 of 20
6. Question
How many 2-input NOR gates does it take to produce a 2-input NAND gate?
Correct
Incorrect
-
Question 7 of 20
7. Question
The output of a NAND gate is LOW when all inputs are HIGH at the same time.
Correct
Incorrect
-
Question 8 of 20
8. Question
When the output of an AND-OR circuit is complemented, it results in an AND-OR-Invert circuit.
Correct
Incorrect
-
Question 9 of 20
9. Question
If one input to a 2-input AND gate is HIGH, the output reflects the other input.
Correct
Incorrect
-
Question 10 of 20
10. Question
A NAND gate can function as a negative-OR gate.
Correct
Incorrect
-
Question 11 of 20
11. Question
An AND gate is a universal gate.
Correct
Incorrect
-
Question 12 of 20
12. Question
A NOR gate is a universal gate.
Correct
Incorrect
-
Question 13 of 20
13. Question
An exclusive-OR gate’s output is HIGH when its inputs are equal.
Correct
Incorrect
-
Question 14 of 20
14. Question
A VHDL component is a predefined logic function.
Correct
Incorrect
-
Question 15 of 20
15. Question
The output of an AND gate is HIGH when any input is HIGH.
Correct
Incorrect
-
Question 16 of 20
16. Question
A NOR gate’s truth table is the opposite of that of an OR gate.
Correct
Incorrect
-
Question 17 of 20
17. Question
A gate can drive a number of load gate inputs up to its specified ________.
Correct
Incorrect
-
Question 18 of 20
18. Question
If both inputs of a 2-input NOR gate are connected, the gate will function as an ________.
Correct
Incorrect
-
Question 19 of 20
19. Question
Assume that you have a 3-input NAND gate but need only a 2-input gate. The unused input should be ________.
Correct
Incorrect
-
Question 20 of 20
20. Question
A node is defined as ________.
Correct
Incorrect