1. To study various coupling techniques for transistor amplifiers.
2. To measure small signal parameters of the BJT.
3. To observe the transfer function of the output voltage v/s frequency around the critical frequency in
coupling and bypass circuits.
4. To observe the change in critical frequency of a CE amplifier because of feed back capacitances in a
BJT (Miller Effect).
5. To study the characteristics of a class A amplifier.
6. To study the characteristics of class B amplifier.
7. To study the characteristics of class C amplifier.
8. To study the characteristics of a class AB amplifier.
9. To study the characteristics of a class B push-pull amplifier.
10. To study the characteristics of a complementary symmetry amplifier.
11. Study of an emitter follower.
12. To design and study various types of oscillators.
13. Zener diode voltage regulator.
14. To design a transistor series voltage regulator with current limit and observe current feedback
characteristics.