Exam Details
| Subject | Network Theory | |
| Paper | ||
| Exam / Course | B.Tech. VIEP- Electrical Engineering III (BTCSVI/BTECVI/BTELVI) | |
| Department | School of Engineering & Technology (SOET) | |
| Organization | indira gandhi national open university | |
| Position | ||
| Exam Date | December, 2016 | |
| City, State | new delhi, |
Question Paper
No. of Printed Pages: 3 IBIEE-OI4I B.Tecb. -VIEP -ELECTRICAL ENGINEERING (BTELVI) Term-End Examination December, 2016 007t::;...:S
BIEE-014 NETWORK THEORY
Time hours Maximum Marks: 70
Note: Attempt any seven questions. Each question carries 10 marks.
(iii) Use of scientific calculator is allowed.
1. Determine all the trees and corresponding co-trees for the graph of the network shown in Figure. Using the tree formed by branches write the incidence matrix. <img src='./qimages/8764-1.jpg'>
2. State maximum power transfer theorem. Derive the condition for maximum power transfer in an AC circuit. Also derive the expression for power dissipated in the load. 10
3. Given the network of Figure, find Norton's equivalent circuit at terminals a-b. 10 <img src='./qimages/8764-3.jpg'>
4. Determine the z and y-parameters of the network in Figure. <img src='./qimages/8764-4.jpg'>
5. Explain, how a transmission line can be represented as T and IC networks. Also enumerate T to IC transformation.
6. Synthesize the first and second Cauer forms of the LC driving point impedance function 10
ZD(s) (s2 16)
7. Prove that positive real functions represent physically realizable passive driving point immittances. Also explain the properties of positive real functions. 10
8. Define characteristic impedance of filter networks. Derive the expression for characteristic impedance for T-network filter. 10
9. Write short notes on any two of the following: 2 x 5=10 Superposition Theorem for AC Networks Lattice Networks Active Filters
BIEE-014 NETWORK THEORY
Time hours Maximum Marks: 70
Note: Attempt any seven questions. Each question carries 10 marks.
(iii) Use of scientific calculator is allowed.
1. Determine all the trees and corresponding co-trees for the graph of the network shown in Figure. Using the tree formed by branches write the incidence matrix. <img src='./qimages/8764-1.jpg'>
2. State maximum power transfer theorem. Derive the condition for maximum power transfer in an AC circuit. Also derive the expression for power dissipated in the load. 10
3. Given the network of Figure, find Norton's equivalent circuit at terminals a-b. 10 <img src='./qimages/8764-3.jpg'>
4. Determine the z and y-parameters of the network in Figure. <img src='./qimages/8764-4.jpg'>
5. Explain, how a transmission line can be represented as T and IC networks. Also enumerate T to IC transformation.
6. Synthesize the first and second Cauer forms of the LC driving point impedance function 10
ZD(s) (s2 16)
7. Prove that positive real functions represent physically realizable passive driving point immittances. Also explain the properties of positive real functions. 10
8. Define characteristic impedance of filter networks. Derive the expression for characteristic impedance for T-network filter. 10
9. Write short notes on any two of the following: 2 x 5=10 Superposition Theorem for AC Networks Lattice Networks Active Filters
Other Question Papers
Departments
- Centre for Corporate Education, Training & Consultancy (CCETC)
- Centre for Corporate Education, Training & Consultancy (CCETC)
- National Centre for Disability Studies (NCDS)
- School of Agriculture (SOA)
- School of Computer and Information Sciences (SOCIS)
- School of Continuing Education (SOCE)
- School of Education (SOE)
- School of Engineering & Technology (SOET)
- School of Extension and Development Studies (SOEDS)
- School of Foreign Languages (SOFL)
- School of Gender Development Studies(SOGDS)
- School of Health Science (SOHS)
- School of Humanities (SOH)
- School of Interdisciplinary and Trans-Disciplinary Studies (SOITDS)
- School of Journalism and New Media Studies (SOJNMS)
- School of Law (SOL)
- School of Management Studies (SOMS)
- School of Performing Arts and Visual Arts (SOPVA)
- School of Performing Arts and Visual Arts(SOPVA)
- School of Sciences (SOS)
- School of Social Sciences (SOSS)
- School of Social Work (SOSW)
- School of Tourism & Hospitality Service Sectoral SOMS (SOTHSM)
- School of Tourism &Hospitality Service Sectoral SOMS (SOTHSSM)
- School of Translation Studies and Training (SOTST)
- School of Vocational Education and Training (SOVET)
- Staff Training & Research in Distance Education (STRIDE)
Subjects
- Active Filter Design
- Advanced Control System
- Advanced Power Electronics
- Applied Electromagnetics
- Basics Of Electrical Engineering
- Computer Process Control
- Control System
- Digital Electronics
- Electric Energy Utilization
- Electrical And Electronics Engineering Materials
- Electrical Instrumentation
- Electrical Machine - I
- Electrical Machines - Ii
- Electrical Machines And Electronics
- Electrical Measurements And Measuring Instruments
- Electro Mechanical Energy Conversion - I
- Electro-Mechanical Energy Conversion - Ii
- Electro-Mechanical Energy Conversion-Iii
- Electromagnetic Theory
- Energy Auditing And Analysis
- High Voltage Engineering
- Industrial Drives
- Micro Controllers
- Microprocessor And Applications
- Network Theory
- Power Quality Issues And Remedial Measures
- Power System
- Power System - I
- Stochastic Control Systems
- Switchgear And Protection