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Draw V-I characteristics of a p-n Junction diode.
Concept: Semiconductor Diode
Differentiate between the threshold voltage and the breakdown voltage for a diode.
Concept: Semiconductor Diode
Two crystals C1 and C2, made of pure silicon, are doped with arsenic and aluminium respectively.
Identify the extrinsic semiconductors so formed.
Concept: Extrinsic Semiconductor
Two crystals C1 and C2, made of pure silicon, are doped with arsenic and aluminium respectively.
Why is doping of intrinsic semiconductors necessary?
Concept: Intrinsic Semiconductor
Give two differences between a half-wave rectifier and a full-wave rectifier.
Concept: Application of Junction Diode as a Rectifier
Briefly explain how emf is generated in a solar cell.
Concept: Special Purpose P-n Junction Diodes
Draw solar cells of I-V characteristics.
Concept: Special Purpose P-n Junction Diodes
Draw the circuit diagram of an illuminated photodiode and its I-V characteristics.
Concept: Special Purpose P-n Junction Diodes
How can a photodiode be used to measure light intensity?
Concept: Special Purpose P-n Junction Diodes
Draw the energy band diagrams for conductors, semiconductors and insulators. Which band determines the electrical conductivity of a solid? How is the electrical conductivity of a semiconductor affected with rise in its temperature? Explain.
Concept: Energy Bands in Conductors, Semiconductors and Insulators
Name the extrinsic semiconductors formed when pure germanium is doped with a trivalent impurity. Draw the energy band diagram of extrinsic semiconductors so formed.
Concept: Extrinsic Semiconductor
Name the extrinsic semiconductors formed when pure germanium is doped with a Pentavalent impurity. Draw the energy band diagram of extrinsic semiconductors so formed.
Concept: Extrinsic Semiconductor
A semiconductor device is connected in series with a battery, an ammeter and a resistor. A current flows in the circuit. If. the polarity of the battery is reversed, the current in the circuit almost becomes zero. The device is a/an ______.
Concept: Semiconductor Diode
With the help of a circuit diagram, explain how a full wave rectifier gives output rectified voltage corresponding to both halves of the input ac voltage.
Concept: Application of Junction Diode as a Rectifier
- Assertion (A): The resistance of an intrinsic semiconductor decreases with an increase in its temperature.
- Reason (R): The number of conduction electrons as well as hole increase in an intrinsic semiconductor with the rise in its temperature.
Concept: Intrinsic Semiconductor
- Assertion (A): In insulators, the forbidden gap is very large.
- Reason (R): The valence electrons in an atom of an insulator are very tightly bound to the nucleus.
Concept: Energy Bands in Conductors, Semiconductors and Insulators
The energy required by an electron to jump the forbidden band in silicon at room temperature is about ______.
Concept: Energy Bands in Conductors, Semiconductors and Insulators
Which one of the following elements will require the highest energy to take out an electron from them?
Pb, Ge, C and Si
Concept: Energy Bands in Conductors, Semiconductors and Insulators
- Assertion (A): Putting the p-type semiconductor slab directly in physical contact with the n-type semiconductor slab cannot form the pn junction.
- Reason (R): The roughness at contact will be much more than inter atomic crystal spacing and continuous flow of charge carriers is not possible.
Concept: Extrinsic Semiconductor
Name the device which utilizes the unilateral action of a pn diode to convert ac into dc.
Concept: Application of Junction Diode as a Rectifier
