See following link for your experiment:
https://drive.google.com/file/d/1Vy8RoUon3oJlP65JRfwdfC7F0t6x3IYe/view?usp=sharing
Give your attendance in this file :
https://docs.google.com/spreadsheets/d/1Z0JdnBoGsO93H1Dn-UEaBv7WiEB-tdBi0VVkUi0B8aM/edit?usp=sharing
Things you need do for lab examination
1. You need to do two things (Experiment + Lab questions) in one doc file
2. Make a doc file report for the experiment (given in google sheet) include following fields Objective, Equipment, Circuit diagram, Data collection, conclusion might have scope figure, graph or other figures.
3. Answer those lab questions answer after that.
4. Give the falstad circuit text file at the end of document. (Save your circuit as txt file and copy that text into your document)
5. Data should not be same as your submitted assignment
6. Give the file format name CSE213-191-15-299-final-UC-A (course Code-id-final-section)
Course Rationale
This subject is classified under the core engineering group and intended to teach the students practical application of Basic Electronics i.e. design, build and test electronic circuits using the knowledge, skills and electronic test and measurement instruments in experimental research. These hands-on experiences will help the students in Data Communications, Embedded Systems, Robotics etc.
Course Objective
The objective of the course is to equip the students with in-depth basic concepts and understanding of the principles of operation, construction and characteristics of semiconductor devices, and their utilization in basic electronics building blocks (or modules) and their performances practically. The techniques of analysis and design of basic building blocks of modern technology using devices would be emphasized.
Course Outcomes (CO’s)
After completion the course students would be able
CO1
To develop hand-son skills and knowledge about the electronic equipment such as oscilloscopes, function generators, multimeter, timers etc. and electronics devices such as diode, Zener diode, Transistor etc.
CO2
To implement different types of electronic circuits using the techniques, skills, and modern engineering tools vital for engineering practice.
CO3
To analyse complex networks of resistors, inductors, capacitors, diodes, transistors and op-amp subject to both direct (non-time-varying) and alternating voltages and currents.
CO4
To design, build and test electronic circuit project application utilizing knowledge and skills learned and using electronic test and measurement instrumentsin experimental research.
TLA1
Demonstrationsonce a week according to the university policy using laboratory devices and equipment.
TLA2
Discussionabout report writing and question-answer session during the corresponding lab session (daily performance test).
TLA3
Group discussion, problem identification and finding solutions regarding diverse circuits demonstrated during the whole semester.
TLA4
Final Evaluation of class performances to reach each student in a class for all experiment topics.
Textbook
Principles of Electronics: V. K. Mehta
Grading System
Numerical Grade
Letter Grade
Grade Point
80-100
A+
4.00
75-79
A
3.75
70-74
A-
3.50
65-69
B+
3.25
60-64
B
3.00
55-59
B-
2.75
50-54
C+
2.50
45-49
C
2.25
40-44
D
2.00
Less than 40
F
0.00
Tool to do circuit virtually
Objective Of The Experiment:
The main objective of this experiment was to measure the I-V
characteristics and also to find the large and small signal
models of forward conduction of p-n junction diode.
Click here for Recorded Lecture on V-I characteristics of PN junction:
See the sample file for your creating assignment Click here
Submit your assignment here
models of forward conduction of zener diode.
Objective:
The objective of this experiment is to study the DC characteristic of a silicon junction rectifier diode. Also, the performance of a half-wave rectifier will be studied and measured.
Objectives:
Objective of this experiment is to study the performance and characteristic of full-wave rectifiers and DC power supplies utilizing Zener diode as a voltage stabilizing device. The performance of the full-wave rectifier will be studied and measured as well as that of the Zener diode.
Study of Zener diode as a voltage regulator, when input voltage VIN is fixed while
Load resistance RL is variable and when input voltage VIN is variable while Load resistance RL is fixed
The objective of this experiment is to explore the basic applications of the bipolar junction
transistor (BJT). A common base and a common collector amplifier will be designed and tested.
The frequency response will be measured and the DC voltages will be compared to calculated
values. In this experiment, transistor type 2N3904 is used.
Objectives
To study different BJT DC biasing circuits
To design voltage divider bias circuit using NPN BJT