Avalanche breakdown is due to
(1) Collision of minority charge carrier
(2) Increase in depletion layer thickness
(3) Decrease in depletion layer thickness
(4) None of these
Zener breakdown in a semi-conductor diode occurs when
(1) Forward current exceeds certain value
(2) Reverse bias exceeds certain value
(3) Forward bias exceeds certain value
(4) Potential barrier is reduced to zero
When forward bias is applied to a P-N junction, then what happens to the potential barrier , and the width of charge depleted region x
(1) increases, x decreases
(2) decreases, x increases
(3) increases, x increases
(4) decreases, x decreases
Function of rectifier is
(1) To convert ac into dc
(2) To convert dc into ac
(3) Both (a) and (b)
(4) None of these
When the P end of P-N junction is connected to the negative terminal of the battery and the N end to the positive terminal of the battery, then the P-N junction behaves like
(1) A conductor
(2) An insulator
(3) A super-conductor
(4) A semi-conductor
A potential barrier of 0.50 V exists across a P-N junction. If the depletion region is m wide, the intensity of the electric field in this region is
1.
2.
3.
4.
If no external voltage is applied across P-N junction, there would be
(1) No electric field across the junction
(2) An electric field pointing from N-type to P-type side across the junction
(3) An electric field pointing from P-type to N-type side across the junction
(4) A temporary electric field during formation of P-N junction that would subsequently disappear
Barrier potential of a P-N junction diode does not depend on
(1) Temperature
(2) Forward bias
(3) Doping density
(4) Diode design (shape and size)
Which is the correct diagram of a half-wave rectifier?
1.
2.
3.
4.
The diode shown in the circuit is a silicon diode. The potential difference between the points A and B will be
(1) 6 V
(2) 0.6 V
(3) 0.7 V
(4) 0 V