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This manual is your guide to the second electronics laboratory in the electrical engineering program. It is assumed that by completing the first electronics laboratory course you are familiar with basic electronic measurements and instrumentation, as well as with elements of data analysis, presentation of results, and reporting. These elements will be still emphasized and further developed in this laboratory. Professional engineering practice requires using proper experimental methods and procedures. They include not only good measurement techniques, but also proper recording of all relevant information, preparing tables and graphs, etc. Almost as important as obtaining good data is their proper presentation which often determines success in this laboratory course as it does in engineering practice. Upon completion of the second laboratory course you should be very familiar with effective laboratory practices and professional style data presentation. They will be a great asset in your future.

List of the Major Equipment:-
Analog-digital kit
Multi meter
Frequency meter

List of the Components:-
Inductor box

List Of Experiment For Circuit Theory and Network LAB Manual(EC-391)

Characteristics of Series & Parallel Resonant circuits.

Verification of Network Theorems.

Transient Response in R-L & R-C Networks; simulation / hardware.

Transient Response in RLC Series & Parallel Circuits & Networks; simulation / hardware.

Determination of Impedance (Z), and Admittance (Y) parameters of Two-port networks.

Generation of periodic, exponential, sinusoidal, damped sinusoidal, step, impulse, and ramp signals using MATLAB.

Representation of Poles and Zeros in s-plane, determination of partial fraction expansion in s-domain and cascade connection of second-order systems using MATLAB.

Determination of Laplace Transform, different time domain functions, and Inverse Laplace transformation using MATLAB

List Of Experiment For Solid State Device LAB Manual(EC-392):-

1. study the input characteristics of transistor (BJT) in CE configuration.
2.study the output characteristics of transistor (BJT) in CE configuration for different base current and hence determine h-parameters.
3.Study of drain characteristics and transfer characteristics of a JFET and hence determine the FET parameters (drain resistance, transconductance& amplification factor).
4. Study the variation of small-signal voltage gain with frequency of a JFET.
5. Study of C-V characteristics of a Varactor diode by appropriate software.
6. Study of drain characteristics and transfer characteristics of a MOSFET and hence determine the FET parameters (drain resistance, transconductance & amplification factor).


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