GRAPHIC ERA (DEEMED TO BE UNIVERSITY), DEHRADUN
SEMESTER I/II
Sr. No. | Department of Electronics and Communication Engineering | ||||||||
1. | Subject Code | TEC 101/201 | Course Title | Basic Electronics Engineering | |||||
2. | Contact Hours | L | 3 | T | 0 | P | 0 | ||
3. | Examination Duration | Theory | 3 | Practical | 0 | ||||
4. | Relative Weight | CIE | 25 | MSE | 25 | ESE | 50 | ||
6. | Credit | 03 | |||||||
6. | Semester | First/Second | |||||||
7. | Category of Course | DSC/ESC | |||||||
8. | Pre-requisite | Physics | |||||||
9. | Course Outcomes | After completion of the course the students will be able to: CO1: Remember operations on number systems and understand concepts of digital circuits. CO2: Understand the basics of semiconductor materials and devices like, PN junction diode as well as Bipolar Junction Transistor (BJT). CO3: Apply and Analyze the basics of PN junction diode in rectifier circuits and BJT in Amplifier. CO4: Design and develop various basic electronic circuits. |
10. Details of the Course
Sl. No. | Contents | Contact Hours |
1. | Unit 1: Number Systems & Boolean Algebra: Number systems and their conversion, Logic gates, Boolean algebra, Implementation of basic gates using universal gates, Implementation of logic functions using basic gates & universal gates, SOP & POS form of logic expression, Canonical form, Conversion from SOP & POS form to canonical form, Simplification of Boolean function: Algebraic method, Karnaugh map method (two, three & four variable K-map with don’t care condition). | 10 |
2. | Unit 2: Basics of Semiconductor Devices: P-N junction diode and BJT Energy band theory: Classification of solids based on energy band diagram, Semiconductors; Intrinsic semiconductors, Extrinsic semiconductors– P-type and N-type, Mobility and conductivity, Mass action law, Charge densities in semiconductors, P-N Junction; Formation of depletion region, V-I characteristics of P-N junction diode, and Zener diode. Construction of bipolar junction transistors (BJT), NPN and PNP type transistor, Characteristics; Common base and Common emitter configuration. |
10
|
3. | Unit 3: AC to DC Conversion and Introduction of Operational amplifier: Introduction to DC power supply, Rectifiers circuit: Half wave, Center tapped full wave and Bridge rectifier circuits. Rectifier performance parameter analysis (with and without capacitor filter). Introduction of Operational Amplifier: Inverting and non-Inverting Op-amp, Summing amplifier, Difference amplifier. | 10 |
| Total | 30 |
11. Suggested Books
Sr. No. | Name of Authors/Books/Publishers | Edition | Year of Publication / Reprint |
| Textbooks |
|
|
1. | Jacob Millmann & Halkias, "Integrated Electronics", TMH. | 2nd | 2009 |
2. | M. Morris Mano, Michael D. Ciletti, "Digital Design", Pearson Education. | 5th | 2012 |
| Reference Books |
|
|
1. | Boylestad and L. Robert and Nashelsky Louis, "Electronics Devices and Circuits Theory", Pearson Education, | 10th | 2009 |
2. | S. Salivahanan and S. Arivazhagan, "Digital Circuits and Design", Oxford University Press, | 5th | 2008 |
12. | Mode of Evaluation | Test / Quiz / Assignment / Mid Term Exam / End Term Exam |
- Teacher: CHANDNI TIWARI