# HSSlive: Plus One & Plus Two Notes & Solutions for Kerala State Board

## Plus One Electronics Practical Viva Questions and Answers Plus One Electronics Practical Viva Questions and Answers

Plus One Electronics Practical Viva Questions and Answers: In this article, we will provide some of the most asked practical viva questions and answers asked in the Plus One Electronics Practical exam each year. We have compiled this list from viva questions from analysis of previous practical exams and collected these Plus One Electronics Practical Viva Questions and Answers for students preparing for upcoming Electronics practical exams.

## Plus One Electronics Practical Viva Questions and Answers

Plus One Electronics Practical Viva Exam. A necessary evil. Most students break out in a cold sweat at the mere thought. How do I prepare? What are they going to ask me? What should I ask them? Those are just a few of the questions that run through the mind of the average student.

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## Plus One Electronics Practical Viva Questions & Answers

We have listed below the list of most asked plus One Electronics practical viva questions along with answers of each below:

1. What is an ideal voltage source?
Answer: A device with zero internal resistance.

2. What is an ideal current source?
Answer: A device with infinite internal resistance.

3. What is a practical voltage source?
Answer: A device with small internal resistance.

4. What is a practical current source?
Answer: A device with large internal resistance.

5. The voltage out of an ideal voltage source is
A. Zero
B. Constant
D. Internal resistance dependent

6. The current out of an ideal current source is
A. Zero
B. Constant
D. Internal resistance dependent

7. The path between two points along which an electrical current can be carried is called
A. A network
B. A relay
C. A circuit
D. A loop

8. The formula for current as per Ohm’s Law is
A. Voltage / Resistance
B. Resistance * Voltage
C. Voltage + Resistance
D. Resistance / Voltage

9. The unit of electrical resistance is
A. Volt
B. Amp
C. Ohm
D. Coulomb

10. In a constant voltage DC circuit, when the resistance increases, the current will
A. Decrease
B. Stop
C. Increase
D. Remains constant

## Basic Semiconductor Theory Questions

1. Number of valence electrons in a silicon atom are
A. 1
B. 4
C. 8
D. 16

2. The most commonly used semiconductor element is
A. Silicon
B. Germanium
C. Gallium
D. Carbon

3. Copper is a
A. Insulator
B. Conductor
C. Semiconductor
D. Super Conductor

4. Number of protons in the nucleus of a silicon atom are
A. 4
B. 14
C. 29
D. 32

5. The valence electron of a conductor are also called as
A. Bound electron
B. Free electron
C. Nucleus
D. Proton

6. An intrinsic semiconductor at room temperature has
A. A few free electrons and holes
B. Many holes
C. Many free electrons
D. No holes

7. At room temperature, an intrinsic semiconductor has some holes in it due to
A. Doping
B. Free electrons
C. Thermal energy
D. Valence electrons

8. The number of holes in an intrinsic semiconductor is
A. Equal to number of free electrons
B. Greater than number of free electrons
C. Less than number of free electrons
D. None of the above

9. Holes act as
A. Atoms
B. Crystals
C. Negative charges
D. Positive charges

10. Pick the odd one in the group
A. Conductor
B. Semiconductor
C. Four valence electrons
D. Crystal structure

11. To produce P-type semiconductors, you need to add
A. Trivalent impurity
B. Carbon
C. Pentavalent impurity
D. Silicon

12. Electrons are the minority carriers in
A. Extrinsic Semiconductors
B. p-type Semiconductors
C. Intrinsic Semiconductors
D. n-type Semiconductors

13. A p-type semiconductor contains
A. Holes and Negative ions
B. Holes and Positive ions
C. Holes and Pentavalent atoms
D. Holes and Donor atoms

14. How many electrons does pentavalent atoms have?
A. 1
B. 3
C. 4
D. 5

15. Negative ions are
A. Atoms that obtained a proton
B. Atoms that lost a proton
C. Atoms that obtained an electron
D. Atoms that lost an electron

16. What is the result of Ionization in PN Junction on either side of potential barrier?
A. Barrier Voltage
B. Junction
C. Depletion Region
D. Forward Voltage

17. The cause of Depletion Region is __________
A. Diffusion
B. Ions
C. Doping
D. Forward Voltage

18. Which of the following is a Semiconductor?
A. Argon
B. Carbon
C. Mica
D. Ceramic

19. Doping material among the following is
A. n-type Semiconductor
B. Majority Carriers
C. Extrinsic Semiconductor Material
D. Pentavalent Material

20. We can easily activate minority carriers using
A. Forward Voltage
B. Doping
C. Heat
D. Pressure

## Basic Semiconductor Diode Questions

1. Depletion layer is caused by
A. Doping
B. Recombination
C. Barrier potential
D. Ions

2. The reverse current in a diode is usually
A. Very small
B. Very large
C. Zero
D. In the breakdown region

3. Avalanche in Diode occurs at
A. Barrier potential
B. Depletion layer
C. Knee voltage
D. Breakdown voltage

4. The potential barrier of a silicon diode is
A. 0.3 V
B. 0.7 V
C. 1 V
D. 5V

5. The reverse saturation current in a Silicon Diode is _____ than that of Germanium Diode
A. Equal
B. Higher
C. Lower
D. Depends on temperature

6. A Diode is a
A. Bilateral Device
B. Nonlinear Device
C. Linear Device
D. Unipolar Device

7. The diode current is large for which condition
A. Forward Bias
B. Inverse Bias
C. Poor Bias
D. Reverse Bias

8. The output voltage signal of a bridge rectifier is
A. Half-wave
B. Full-wave
C. Bridge-rectified signal
D. Sine wave

9. If the maximum DC current rating of diodes in Bridge Rectifier is 1A, what is the maximum DC load current?
A. 1A
B. 2A
C. 4A
D. 8A

10. Voltage multipliers produce
A. Low voltage and low current
B. Low voltage and high current
C. High voltage and low current
D. High voltage and high current

11. What is a Clipper?
Answer: A circuit that removes a part (positive or negative) of a waveform so that it doesn’t exceed a certain voltage level.

12. What is a Clamper?
Answer: A circuit that adds a DC voltage (positive or negative) to a wave.

13. Zener diode can be described as
A. A rectifier diode.
B. A device with constant – voltage.
C. A device with constant – current.
D. A device that works in the forward region.

14. If the Zener Diode is connected in wrong polarity, the voltage across the load is
A. 0.7 V
B. 10 V
C. 14 V
D. 18 V

15. Since diodes allow flow of current in only one direction, they can be used for
A. Current Limiting
B. Reverse Polarity Protection
C. Storing Charge
D. Voltage Regulation

16. When you test a good diode with a multimeter, it shows
A. Low resistance when forward biased or reverse biased
B. High resistance when forward biased or reverse biased
C. High resistance when forward biased and Low resistance when reverse biased
D. Low resistance when forward biased and High resistance when reverse biased

17. When does current flow in a PN junction?
A. When both p-type and n-type elements are at same potential
B. When there is no potential at either p-type or n-type elements
C. When p-type element is at more positive potential than n-type
D. When n-type element is at more positive potential than n-type

18. Clamping Circuits are generally used in
B. FM Transmitters
C. Signal Generators (Square, Trapezoid, etc.)
D. All the above

19. Units of measurement for forward bias and reverse current of a diode are
A. µA and µA
B. mA and µA
C. µA and mA
D. mA and mA

20. What graphical method is used for modelling Diode Characteristics
A. Exponential Method
B. Small Signal Approximation
C. Iteration Method
D. Constant Voltage Drop Method

## Basic Transistor Questions

1. Number of PN Junctions in a Transistor
A. One
B. Two
C. Three
D. Four

2. The doping concentration of Base in NPN Transistor is
A. Lightly Doped
B. Moderately Doped
C. Heavily Doped
D. Not Doped

3. The Base – Emitter Diode (Base – Emitter Junction) in an NPN Transistor is
A. Doesn’t conduct
B. Forward Biased
C. Reverse Biased
D. Operates in breakdown region

4. The size comparison between Base, Emitter and Collector is
A. Base > Collector > Emitter
B. Emitter > Collector > Base
C. Collector > Emitter > Base
D. All are equal

5. The Base – Collector Diode (Base Collector Junction) is usually
A. Reverse Biased
B. Forward Biased
C. Breakdown Region
D. No Conduction

6. The DC Current Gain of a Transistor is
A. Ratio of Emitter Current to Collector Current
B. Ratio of Base Current to Emitter Current
C. Ratio of Collector Current to Base Current
D. Ratio of Base Current to Collector Current

7. If base current is 100µA and current gain is 100, then collector current is
A. 1A
B. 10A
C. 1mA
D. 10mA

8. The majority carriers in NPN and PNP Transistors are
A. Holes and Electrons
B. Electrons and Holes
C. Acceptor Ions and Donor Ions
D. None

9. A Transistor acts as a
A. Voltage Source and a Current Source
B. Current Source and a Resistor
C. Diode and Current Source
D. Diode and Power Supply

10. The relation between Base Current IB, Emitter Current IE and Collector Current IC is
A. IE = IB + IC
B. IB = IC + IE
C. IE = IB – IC
D. IC = IB + IE

11. The total power dissipated by a transistor is a product of collector current and
A. Supply Voltage
B. 0.7V
C. Collector – Emitter Voltage
D. Base – Emitter Voltage

12. The input impedance of Common Emitter Configuration is
A. Low
B. High
C. Zero
D. Very High

13. The output impedance of Common Emitter Configuration is
A. Low
B. Very Low
C. High
D. Zero

14. Two types of Bipolar Junction Transistors (BJTs) are
A. nnn and ppp
B. npn and pnp
C. pnn and npp
D. nnp and ppn

15. What are the common faults in BJT?
A. Internal Short
B. Open Bias Resistor
C. External Open and
D. nnp and ppn

16. The usual operating region of Transistors in Digital Circuits is
A. Active Region
B. Linear Region
C. Breakdown Region
D. Cutoff and Saturation Region

17. Another name for Emitter Follower Configuration is
A. Common Base Amplifier
B. Common Emitter Amplifier
C. Common Collector Amplifier
D. Darlington Pair

18. BJT is a _________ and a FET is ________
A. Bipolar and Unipolar
B. Bipolar and Bipolar
C. Unipolar and Unipolar
D. Unipolar and Bipolar

19. The current gain in Common Base configuration (α) is
A. Ratio of Base Current to Emitter Current (IB/IE)
B. Ratio of Collector Current to Emitter Current (IC/IE)
C. Ratio of Collector Current to Base Current (IC/IB)
D. None

20. Relation between α and ß is
A. α = ß / (ß + 1)
B. ß = α / (1 – α)
C. α = ß * (ß + 1)
D. α = ß / (ß – 1)

## Importance of Plus One Electronics Practical Viva Questions & Answers

All students should know the plus One Electronics practical viva questions to enhance their preparation in the right direction for the examinations. It will help the students to get an answer and help them to manage their time during the exam effectively.

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