Laboratory Experiments
NOTE: The experiments are to be carried using discrete components only Revised Bloom’s Taxonomy (RBT)Level
1. To design and testing of the following rectifiers with and without filters: (a) Full Wave Rectifier (center tap) (b) Bridge Rectifier. L3, l4, L5, L6
2. To plot characteristics of UJT and to determine its intrinsic stand-off ratio. L1, L2, L3, L4
3. To design and test the common emitter amplifier (voltage divider bias) without feedback and determine input, output impedance, gain and bandwidth. L3, l4, L5, L6
4. To design and test the Emitter follower amplifier (BJT) using voltage divider bias and determine input, output impedance, gain and bandwidth. L3, l4, L5, L6
5. To plot the Drain and Transfer characteristic for the given FET and to find the Drain Resistance and Trans-conductance. L1, L2, L3, L4
6. To design, test and to plot the frequency response of Common Source JFET/MOSFET amplifier, and to determine its bandwidth. L3, l4, L5, L6
7. To plot the input and output characteristics of n-channel MOSFET and calculate its parameters, namely; drain resistance, mutual conductance and amplification factor. L1, L2, L3, L4
8. Wiring and testing of Complimentary symmetry class B push pull power amplifier and calculation of efficiency. L1, L2, L3, L4
9. To design and test the RC-Phase shift Oscillator using BJT for the given frequency. L3, l4, L5, L6
10. To design and test the following tuned oscillator circuits for the given frequency. (a) Hartley Oscillator using BJT (b) Colpitts Oscillator using FET. L3, l4, L5, L6
11. Testing of crystal oscillator and to determine its frequency of oscillation. L1, L2, L3, L4
12. Verification of Thevenin‟s theorem and Maximum Power Transform theorem for the given DC circuits. L1, L2, L3, L4