Reverse bias applied to a P-N junction diode

Increases the minority carriers upward

Increases the majority carrier current

In fordward-biased semiconductor diode the current flows from

Current flows from anode to cathode.

Current flows from cathode to ground.

Current flows in both directions equally.

Current does not flow in a forward-biased diode.

Deplection region in PN junction diode is formed due to

Diffusion of charge carriers leading to recombination.

Due to free charge carriers containing only uncompensiated immobile ions

Presence of impurities in the semiconductor material.

High temperature causing thermal breakdown.

Which of the following is the application of LED?

Display screens and lighting applications

Reference diode in transistor circuit

In the field of optical communication

Due to which reason the new energy level is formed in band structure just above the Valance Band

Due to the addition of trivalent impurity in P-Type

Due to increasing temperature in N-Type

Due to increasing temperature with constant impurity concentration in P-Type

Due to the addition of pentavalent impurity in P-Type

In LED during recombination

Electron in C.B. of N falls in V.B. of P

Electron in V.B. of N falls in C.B. of P

Electron in V.B. of P falls in C.B. of N

Electron in C.B. of P falls in V.B. of N

In N-Type semiconductor at 0K the position of Fermi level is

In Middle of the bottom of Conduction Band and Donor Level

In between the middle of top of Valance Band and Conduction Band

In middle of the bottom of Conduction Band and Acceptor Level

Choose the correct statement about, zener diode

It work as a voltage regulator in reverse bias and behaves like simple P-N junction diode in forward bias

It work as a voltage regulator in both reverse bias and forward bias

It work as a voltage regulator in only in forward bias

It work as a voltage regulator in reverse bias and behaves like simple P-N junction diode in reverse bias

Hall voltage is directly proportional to?

Magnetic field strength and current

which statement is correct? (the dark circles represent the electrons)

Electron moves across the p-n junction, makes the diode forward biased

p-type of the diode is connected to the negative terminal.

current will not flow in the circuit

Let n p and n e be the number density of holes and conduction electrons respectively in a semiconductor. Then,

n p = n e in an intrinsic semiconductor, I = I p + I e

n p > n e in an intrinsic semiconductor, I < I p + I e

n p = n e in an extrinsic semiconductor, I > I p + I e

n p > n e in an intrinsic semiconductor, I = 0( Here, I p = current due to holes,I e = current due to electrons, I= total current)

Which among these is NOT the property of a semiconductor?

Semiconductors are temperature insensitive

Four electrons in the valence band forming covalent bonds

At 0 Kelvin semiconductor acts like an insulator

Semiconductors have two type of charge carriers

Which among these is the fundamental characteristic of a p type semiconductor

Has a tendency to gain an electron

Electrons are the majority charge carriers

Has a tendency to donate an electron

Method implemented to increase conductivity is

Shining light of proper wavelength on the semiconductor

A semiconductor photodiode is

A device that converts light into electrical current using semiconductor materials.

a reverse bias pn junction diode

A device that amplifies electrical signals using light.

A component that filters out unwanted frequencies from signals.

In a Zener diode, what is the primary purpose of the breakdown voltage?

To regulate voltage in reverse bias

To increase the forward voltage drop

To allow current to flow in the forward direction

What is the effect of temperature on the conductivity of intrinsic semiconductors?

Conductivity increases with increasing temperature

Conductivity decreases with increasing temperature

Conductivity becomes zero at high temperatures

semiconductor unit-1

Authored by Devesh Talatule

Physics

University

50 Questions

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MULTIPLE CHOICE QUESTION

30 sec • 1 pt

The intrinsic carrier density is 1.5 × 10^16 m^-3 . If the mobility of electron and hole are 0.13 and 0.05 m^2 v^-1 s^-1 . Calculate the conductivity

4.32 × 10^-4 ohm^-1 m^-1

4.60 × 10^-5 ohm^-1 m^-1

5.00 × 10^6 ohm^-1 m^-1

2.24 × 10^3 ohm^-1 m^-1

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

In a forward bias P-N junction diode which of the following is correct

It has high resistance

Current flow due to minority charge carrier

Current flowing through diode is small

It has low resistance

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which of the following is a characteristics of a zener diode?

It consist in forward bias only

It has a sharp breakdown voltage in reverse bias

It has high forward voltage drop

It is not used for voltage regulation

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Applications of zener diode are
1. voltage regulater
2. for meter protection
3.rectifier
4.signal diode in communication circuit
5.reference diode in transister circuit

1,2,4

only 2 and 4

1,2,5

only1

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

In a Semiconductor the number density of intrinsic charge carriers at 27℃ is 1.5 × 10^16 m^-3 . If the semiconductor is doped with an impurity atom then the hole density increase to 4.5 × 10^22 m^-3 . The electron density in the doped semiconductor is

5 × 10^9 m^-3

6 × 10^9 m^-3

0.05 × 10^9 m^-3

0.5 × 10^-11 m^-3

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

In which semiconductor electrons are majority charge carriers and holes are minority charge carriers

Intrinsic semiconductor

P-Type

Extrinsic semiconductor

N-type

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

In which breakdown mechanism the electric field is weak or not strong enough and why

In field ionaisation, due to lightly doped junction

In impact ionaisation, due to lightly doped junction

In field ionaisation, collision of electron and host atom

In impact ionaisation, due to collision

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semiconductor unit-1

The intrinsic carrier density is 1.5 × 10^16 m^-3 . If the mobility of electron and hole are 0.13 and 0.05 m^2 v^-1 s^-1 . Calculate the conductivity

In a forward bias P-N junction diode which of the following is correct

Which of the following is a characteristics of a zener diode?

Applications of zener diode are
1. voltage regulater
2. for meter protection
3.rectifier
4.signal diode in communication circuit
5.reference diode in transister circuit

In a Semiconductor the number density of intrinsic charge carriers at 27℃ is 1.5 × 10^16 m^-3 . If the semiconductor is doped with an impurity atom then the hole density increase to 4.5 × 10^22 m^-3 . The electron density in the doped semiconductor is

In which semiconductor electrons are majority charge carriers and holes are minority charge carriers

In which breakdown mechanism the electric field is weak or not strong enough and why

Which material is commonly used for making semiconductor?

A Light Emitting Diode (LED) is fabricated using Gallium semi-conducting material whose band gap is 1.42 eV Then the wavelength of light emitted from the LED is

In a semiconductor no. of electron are 3 × 10^15 m^3 and no. of holes are 3.5 × 10^16 m^3 . If the mobility of electron and holes are 18 × 10^-3 m^2/Vs and 20 × 10^-4 m^2/Vs . Then calculate the conductivity of semiconductor.

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Similar Resources on Wayground

Popular Resources on Wayground

Discover more resources for Physics

semiconductor unit-1

The intrinsic carrier density is 1.5 × 10^16 m^-3 . If the mobility of electron and hole are 0.13 and 0.05 m^2 v^-1 s^-1 . Calculate the conductivity

In a forward bias P-N junction diode which of the following is correct

Which of the following is a characteristics of a zener diode?

Applications of zener diode are1. voltage regulater2. for meter protection3.rectifier4.signal diode in communication circuit5.reference diode in transister circuit

In a Semiconductor the number density of intrinsic charge carriers at 27℃ is 1.5 × 10^16 m^-3 . If the semiconductor is doped with an impurity atom then the hole density increase to 4.5 × 10^22 m^-3 . The electron density in the doped semiconductor is

In which semiconductor electrons are majority charge carriers and holes are minority charge carriers

In which breakdown mechanism the electric field is weak or not strong enough and why

Which material is commonly used for making semiconductor?

A Light Emitting Diode (LED) is fabricated using Gallium semi-conducting material whose band gap is 1.42 eV Then the wavelength of light emitted from the LED is

In a semiconductor no. of electron are 3 × 10^15 m^3 and no. of holes are 3.5 × 10^16 m^3 . If the mobility of electron and holes are 18 × 10^-3 m^2/Vs and 20 × 10^-4 m^2/Vs . Then calculate the conductivity of semiconductor.

Access all questions and much more by creating a free account

Similar Resources on Wayground

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Applications of zener diode are
1. voltage regulater
2. for meter protection
3.rectifier
4.signal diode in communication circuit
5.reference diode in transister circuit