When is the p-n junction called reverse bias and explain the change in p-n junction from this type of connection.

When is the p-n junction called reverse bias and explain the change in

1.	When is the p-n junction called reverse bias and explain the change in p-n junction from this type of connection.
Answer» SOLUTION :When and external voltage (V) is applied across the diode such that n-side is positive and p-side is negative it is said to be reverse biased. This is shown in figure. Diagram (b) for the circuit is as follows : The applied voltage mostly drops across the depletion region according to figure (a). The direction of applied voltage `V_(0)` is same as the direction of barrier potential V. As a result, the barrier height increases and the depletion region widens DUE to the change in the electric field. The effective barrier height under reverse bias is `V+V_(0)`. In figure (c ), the battery is not connected to p-n junction, potential barrier `V_(0)` is shown as 1 and when voltage of the external battery is applied, its effective potential barrier `V_(0)+V` is shown as 2. This suppresses the flow of electrons from `n to p` and holes from `p to n` due to effectivedepletion barrier potential means current are disputed due to majority CHARGE carriers hence DIFFUSION current is not obtained. Although some MINORITY charge carriers pass through the junction due to the high voltage applied by external battery hole in n-region and electron in p-region and current flow in reverse direction is called reverse current. However, for largereverse voltage, the increase in reverse current shows less. Reverse current does nto depend only on the applied voltage. The current is not limited by the magnitude of the applied voltage but is limited due to the concentration of the minority carrier on either side of junction. Some voltage is also sufficient to across the junction for minority carriers. The reverse bias voltagevaries from about 10 V to 15 V. Here current obtained in the order of microampere `(muA)`.

Discussion

No Comment Found

Related InterviewSolutions

A wire is bent to form a semicircle of the radius a. The wire rotates about its one end with angular velocity omega . Axis of rotation is perpendicular to the plane of the semicircle . In the space , a uniform magnetic field of induction B exists along the aixs of rotation as shown in the figure . Then -
A massless non conducting rod AB of length 2l is placed in uniform time varying magnetic field confined in a cylindrical region of radius (R gt l) as shown in the figure. The center of the rod coincides with the centre of the cylin- drical region. The rod can freely rotate in the plane of the Figure about an axis coinciding with the axis of the cylinder. Two particles, each of mass m and charge q are attached to the ends A and B of the rod. The time varying magnetic field in this cylindrical region is given by B = B_(0) [1-(t)/(2)] where B_(0) is a constant. The field is switched on at time t = 0. Consider B_(0) = 100T, l = 4 cm(q)/(m) = (4pi)/(100) C//kg. Calculate the time in which the rod will reach position CD shown in the figure for th first time. Will end A be at C or D at this instant ?
A concave lens with equal radius of curvature both sides has a focal length of 12 cm. The refractive index of the lens is 1.5. How will the focal length of the lens change if it is immersed in the liquid of refractive index 1.8 ?
If the tempearture of black body is raised by 5%, the heat energy radiated would increases by :
What are the co-ordinates of the image of S formed by a plane mirror as shown in figure?
The direction of ray of light incident on a concave mirror is shown by PQ in Fig. The direction in which the ray would travel after reflection is shown by four rays marked 1, 2, 3 and 4. Which of the four rays correctly shows the direction of reflected ray?
What is meant by polarisation ?
Two concentric coils each of radius equal to 2πcm are placed right angles to each other. If 3 A and 4 A are the currents flowing through the two coils respectively. The magnetic induction( in Wb m^(-2) )at the center of the coils will be
Assertion: Out of ""_(1)He^(3) and ""_(7)He^(3), the binding energy of ""_(1)He^(3)is greater than ""_(2)He^(8). Reason: Inside the nucleus of""_(1)H^(3), there is more repulsion than inside the nucleus of ""_(2)He^(4).
In which accelerated motion, K.E of the particle is constant

When is the p-n junction called reverse bias and explain the change in p-n junction from this type of connection.

Discussion

No Comment Found

Related InterviewSolutions

Reply to Comment