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SEMICONDUCTORS EE 2303. Overview  Introduction  What are P-type and N-type semiconductors??  What are Diodes?  Forward Bias & Reverse Bias  Characteristics.

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Presentation on theme: "SEMICONDUCTORS EE 2303. Overview  Introduction  What are P-type and N-type semiconductors??  What are Diodes?  Forward Bias & Reverse Bias  Characteristics."— Presentation transcript:

1 SEMICONDUCTORS EE 2303

2 Overview  Introduction  What are P-type and N-type semiconductors??  What are Diodes?  Forward Bias & Reverse Bias  Characteristics Of Ideal Diode  Shockley Equation  I – V Characteristics of Diodes

3 Introduction Semiconductors are materials whose electrical properties lie between Conductors and Insulators. Ex : Silicon and Germanium

4 What are P-type and N-type ?  Semiconductors are classified in to P-type and N-type semiconductor  P-type: A P-type material is one in which holes are majority carriers i.e. they are positively charged materials (++++)  N-type: A N-type material is one in which electrons are majority charge carriers i.e. they are negatively charged materials (-----)

5 Diodes Electronic devices created by bringing together a p-type and n-type region within the same semiconductor lattice. Used for rectifiers, LED etc

6 Diodes It is represented by the following symbol, where the arrow indicates the direction of positive current flow.

7 Forward Bias and Reverse Bias  Forward Bias : Connect positive of the Diode to positive of supply…negative of Diode to negative of supply  Reverse Bias: Connect positive of the Diode to negative of supply…negative of diode to positive of supply.

8 Characteristics of Diode  Diode always conducts in one direction.  Diodes always conduct current when “Forward Biased” ( Zero resistance)  Diodes do not conduct when Reverse Biased (Infinite resistance)

9 I-V characteristics of Ideal diode

10 I-V Characteristics of Practical Diode

11 Rectification  Converting ac to dc is accomplished by the process of rectification.  Two processes are used: Half-wave rectification; Full-wave rectification.

12 Half-wave Rectification  Simplest process used to convert ac to dc.  A diode is used to clip the input signal excursions of one polarity to zero.

13 Shockley Equation I s is the saturation current ~10 -14 V d is the diode voltage n – emission coefficient (varies from 1 - 2 ) k = 1.38 × 10 –23 J/K is Boltzmann’s constant q = 1.60 × 10 –19 C is the electrical charge of an electron. At a temperature of 300 K, we have

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