ELECTRONICS LAB

Paper Code: 
GBDA 402B
Credits: 
2
Periods/week: 
4
Max. Marks: 
100.00
Objective: 

The course will enable the students to

1.Understand the methods of experimental Electronics.

2.Understand the laboratory techniques such as accuracy of measurements and data analysis.

 

Course Outcomes (COs).

Course Outcomes (at course level)

Learning and teaching strategies

Assessment Strategies 

On completion of this course, the students will:

CO216. Understanding The coding of resistors

CO217. Implementation of diode characteristics (lab skills).

CO218. Demonstration of transistor characteristics.

CO219. Understanding Basic and Universal gates and their verification

CO220. Be able to handle useful equipment’s related to electronics like transistor, diodes and logic gates.

Approach in teaching. Interactive Lectures, Discussion and Demonstration.

 

Learning activities for the students.

Practice modules and Assignments.

Practical File Preparation, Assignments, Semester end examinations.

 

NOTE     - Students are expected to perform all five experiments from the given list. One experiments out of the five will be set in the examination paper. The duration of the Practical Examination shall be 5 hours.

 

List of Experiments

1. Resistor Colour coding

2. Characteristics of P-N diode.

3. Characteristics of Zener diode

4. To study Input Characteristics of NPN transistor.

5. To study Output Characteristics of NPN Transistor

6. Verify truth tables of basic gates (NOT, AND, OR)

7. Verify Truth tables of NAND, NOR, ExOR gates

8. Draw and verify the Logic circuit using logic equation.

 

 

ESSENTIAL READINGS: 
  • R. P. Jain, “Modern Digital Electronics”, Mc Graw Hill Publishing Company limited.
  • S. Salivahanan & S. Arivyhgan, “Digital circuits and design”,Vikas Publishing house Pvt.Ltd.
  • VK Mehta, ”Fundamentals of electronics”, 11th Edition, S Chand Publication House.

 

REFERENCES: 

SUGGESTED READINGS: 

  • Malvino, Brown, “Digital Computer Electronics. An Introduction to Microcomputers”, 5rd edition, McGraw Hill
  • Moris Mano, “Digital Logic and Computer Design”, PHI Publications, 2002.

 

E RESOURCES:

 

JOURNALS:

 

Academic Year: