Semiconductors

Question 1

Disadvantages of vacuum tube devices

Answer 1

• bulky
• consume high power
• operate at high voltage
• limited life
• low reliability

Question 2

Differences between semiconductors and vacuum tubes

Answer 2

• flow of charge carriers are within the solid itself
• no external heating or large evacuated space is required
• small size, consume low power, operate at low voltage, long life, high reliability

Question 3

Applications of semiconductors

Answer 3

• Liquid Crystal Display (LCD) monitors instead of Cathode Ray Tubes (CRT) in television and computers
• naturally occurring crystal of galena (lead sulphide) was used as detector of radio waves
• pn junction diode in rectifiers, transistors, etc.

Question 4

Order of conductivity

Answer 4

Metals : 10² - 10⁸
Semiconductors : 10⁵ - 10^{-6
Insulators : 10-11 - 10-19}

Question 5

Order of conductivity

Answer 5

Metals : 10² - 10⁸
Semiconductors : 10⁵ - 10^{-6
Insulators : 10-11 - 10-19}

Question 6

Examples of semiconductors

Answer 6

Elemental : Si, Ge
Inorganic : CdS, GaAs
Organic : anthracene
Organic polymers : polyaniline

Question 7

Define energy band

Answer 7

Energy bands are large numbers of closely spaced energy levels. Different energy levels with continous energy variation form energy bands.

Question 8

Define valence band and conduction band.

Answer 8

The energy band which includes the energy levels of the valence electrons is called the valence band.
The energy band above the valence band is called conduction band.

Question 9

Define holes.

Answer 9

Holes are vacancies created by electrons. A hole behaves as an apparent free particle with effective positive charge.

Question 10

What is doping?

Answer 10

The deliberate addition of a desirable impurity to a pure semiconductor is called doping and the impurity atoms are called dopants.

Question 11

Name the necessary condition for doping or the characteristic of a suitable dopant.

Answer 11

The sizes of the dopant and the semiconductor atoms should be nearly the same.

Question 12

Current in a pn junction at equilibrium is

Answer 12

Zero since diffusion current and drift current cancel out each other.

Question 13

Why does more current flow in forward bias?

Answer 13

In forward bias there is diffusion current while in reverse bias there is drift current only.

Question 14

Define depletion region.

Answer 14

The space-charge region on either side of a pn junction together is known as depletion region as the electrons and holes taking part in the initial movement across the junction depleted the region if its free charges.

Question 15

Forward bias involves

Answer 15

• majority carrier diffusion
• minority carrier injection
• reduction in barrier potential

Question 16

Reverse bias involves

Answer 16

• no diffusion
• minority carrier drift
• increase in barrier potential

Question 17

Barrier potential or barrier height

Answer 17

It is the potential difference developed across the depletion region of a pn junction due to diffusion of majority charge carriers.