· student’s handbook | b.tech (eee vi sem) 2018 foreword dear student, we, at dbgi, are...
TRANSCRIPT
2018
Department of Electrical & Electronics Engineering
Student’s Handbook |
B.Tech (EEE VI Sem)
Subject
Power System Analysis
Control System
Power Electronics
VLSI Circuit Design
Data Structure Using C++
Principle of Management
18
Student’s Handbook | B.Tech (EEE VI Sem) 2018
FOREWORD
Dear Student,
We, at DBGI, are committed to facilitate all aspiring students in their selection of different streams of B.Tech. by putting our efforts in terms of commitment, providing the services of quality and skill oriented education.
The exponential expansion in the field of technology has offered a plethora of job opportunities in emerging sectors. It has also resulted in innumerable demand for qualified “skilled” manpower in these sectors.
At this crossroads of your life where a wrong turn can take you miles away from your goal. Choosing your
career path is an important step because your future is at stake. It is generally observed that a large section of students are unaware of what they want to achieve in their life. This amounts to a situation like
boarding a train without knowing one’s destination. Undoubtedly it may result in waste of precious time and money.
Student Handbook is purposely designed for the students. We have been planning for some time to
provide collective information about academics as well as Institute to our new comers. It comprises complete information of syllabi of all subjects, Lecture Plans, assignments, question bank, tutorials,
marking scheme etc. However in addition to this, if students have any problem or query they can contact Student Information Cell.
We are living in a competitive world; the key to edging out of competition is information and preparation.
We hope that this booklet gives you enough leverage to understand about the institute and academics.
Success to a large extent depends on your attitude which includes your sincerity and strong will to
vigorously pursue your goal. It’s your determination to fulfill the requirements that are needed to enable you achieve your goal. It means you have to acquire the required academic qualification and skills
followed by professional qualification and training in your particular field. Once you have these, you will
be able to compete.
With Best Wishes
Mr. Rohit Dobriyal
(C.O.D)
Department of Electrical & Electronics Engg.
Dev Bhoomi Group of Institutions
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
CONTENTS
1 Evaluation Scheme
2 Syllabus 2.1 Power System Analysis
2.2 Control System
2.3 Power Electronics
2.4 VLSI Circuit Design 2.5 Data Structure Using C++
2.6 Principle of Management
2.7 Control System Lab 2.8 Power Electronics Lab
2.9 Data Structure Using C++ Lab 2.10 Discipline
3 Lesson Plan 3.1 Power System Analysis
3.2 Control System
3.3 Power Electronics
3.4 VLSI Circuit Design 3.5 Data Structure Using C++
3.6 Principle of Management
4 Assignment 4.1 Power System Analysis 4.2 Control System
4.3 Power Electronics 4.4 VLSI Circuit Design
4.5 Data Structure Using C++
4.6 Principle of Management
5 Tutorial 5.1 Power System Analysis
5.2 Control System
5.3 Power Electronics
5.4 VLSI Circuit Design
5.5 Data Structure Using C++
5.6 Principle of Management
6 Question Bank 6.1 Power System Analysis
6.2 Control System
6.3 Power Electronics
6.4 VLSI Circuit Design
6.5 Data Structure Using C++
6.6 Principle of Management
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
1 Evaluation Scheme
Department of Electrical & Electronics Engineering
Prerequisite: Knowledge of Elements of power system
Unit I: (10L) Representation of power system components: Synchronous machines, Transformers, Transmission lines, One line diagram, Impedance and reactance diagram, per unit system.
Symmetrical Components: Symmetrical components of unbalanced phasors, power in terms of symmetrical components, sequence impedances and sequence networks.
Symmetrical fault analysis: Transient in R-L series circuit, calculation of 3-phase short circuit current and reactance of synchronous
machines, internal voltage of loaded machines under transient conditions. Unit II: (8L) Analysis of single line to ground fault, line to line fault and double line to ground fault on an unloaded generator and power system network with and without fault impedance. Formation of Zbus using singular transformation and algorithm, computer method for short circuit calculations. Unit III: (8L) Load flows: Introduction, bus classifications, nodal admittance matrix (YBUS), development of load flow equations, load
flow solution using Gauss Siedel and Newton-Raphson method, approximation to N-R method, line flow
equation and fast decoupled method.
Unit IV: (8L) Power system Stability: Stability and stability limit, steady state stability study, derivation of Swing equation, transient stability studies
by equal area criterion and step by step method. Factors affecting steady sate and transient stability and
methods of improvement. Unit V: (6L) Wave equation for uniform transmission lines, velocity propagation, surge impedance, reflection and
transmission of traveling waves under different line loadings, Bewlay’s Lattice diagram, protection of
equipments and line against traveling waves.
Reference Books: 1. L.P. Singh, “Advanced Power System Analysis & Dynamics”, New Age International 2. Hadi Sadat, “Power System Analysis”, Tata Mc Graw Hill.
A.R. Bergen and V. Vittal, “Power System Analysis”, Pearson Publication.
Course Outcome Description
CO1 Principles in the modelling and analysis of power systems subject to symmetrical
and unsymmetrical faults
CO2 To study implementation of symmetrical components for the analysis of unbalanced
system
CO3 To understand the various computer methods for load flow solution.
CO4 Understanding the effect of faults on the stability of the system and methods to
improve it
CO5 To study the concept of travelling waves in the transmission lines.
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level: Beginner Course Type:
Core
Credit: 4
Total Contact Hours: 40 LTP -3-1-0 External Marks/Internal Marks:
100/50
Course Title: POWER SYSTEM
ANALYSIS
Course Code: TEE-601 Duration of External Exam: 3
Hours
Prerequisite: Knowledge of system engineering
Unit I: (7L) The Control System: Open loop & closed control; servomechanism, Physical examples. Transfer functions, Block diagram algebra, Signal flow graph, Mason’s gain formula Reduction of
parameter variation and effects of disturbance by using negative feedback Unit II: (8L) Time Response analysis: Standard test signals, time response of first and second order systems, time
response specifications, steady state errors and error constants Design specifications of second order
systems: Derivative error, derivative output, integral error and PID compensations, design considerations
for higher order systems, performance indices Unit III: (8L) Control System Components: Constructional and working concept of ac servomotor, synchros and stepper
motor Stability and Algebraic Criteria concept of stability and necessary conditions, Routh-Hurwitz
criteria and limitations Root Locus Technique: The root locus concepts, construction of root loci Unit IV: (9L) Frequency response Analysis: Frequency response, correlation between time and frequency responses, polar
and inverse polar plots, Bode plots Stability in Frequency Domain: Nyquist stability criterion, assessment of
relative stability: gain margin and phase margin, constant M&N circles Unit V: (8L) Introduction to Design: The design problem and preliminary considerations lead, lag and lead-lag
networks, design of closed loop systems using compensation techniques in time domain and frequency
domain.
Reference Books: 1. Norman S. Mise, Control System Engineering 4th edition, Wiley Publishing Co. 2. M.Gopal, “Control System; Principle and design”, Tata McGraw Hill. 3. M.Gopal,” Modern Control system”, Tata McGraw Hill.
4. D.Roy Choudhary, “Modern Control Engineering”, Prentice Hall of India.
Course Outcome Description
CO1 Acquire a working knowledge of system science-related mathematics
CO2 Determine the response of different order systems for various inputs signal
CO3 Analysis of stability & criteria for which the system is stable for different
system
CO4 Analysis and correlation between the time domain and frequency domain
analysis
CO5 To study the concept of designing using various techniques
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level:
Intermediate
Course Type:
Core
Credit: 4
Total Contact Hours: 40 LTP -3-1-0 External Marks/Internal Marks:
100/50
Course Title: CONTROL
SYSTEM
Course Code: TEE602 Duration of External Exam: 3
Hours
Prerequisite: Knowledge of Network Analysis & Synthesis
Unit I: (7L) Power semiconductor devices: Power semiconductor devices their symbols and static characteristic,
characteristics and specifications of switches, type of power electronic circuits, Thyristor operation, V-I
characteristic, two transistor model, methods of turn-on operation of GTO, MCT and TRIAC. Unit II: (8L) Power semiconductor devices (contd): protection of devices, series and parallel operation of thyristors, commutation techniques of thyristor. DC-DC convertors: Principles of step -down chopper, step down chopper with R-L load, principle of
step up chopper, and operation with R-L load, classification of choppers. Unit III: (9L) Phase controlled converters: Single phase half wave controlled rectifier with resistive and inductive
loads, effect of freewheeling diode, single phase fully controlled and half controlled bridge converters.
Performance parameters, three phase half wave converters, three phase fully controlled and half controlled
bridge converters, Effect of source inductance, single phase and three phase dual converters. Unit IV: (9L) AC Voltage controllers: Principle of on-off and phase controls, single phase ac voltage controller with resistive and inductive loads, three phase ac voltage controllers (various configuration and comparison). Cyclo converters: Basic principle of operation, single phase to single phase, three phase to single phase
and three phase to three phase cyclo converters, output voltage equation. Unit V: (7L) Inverters: Single phase series resonant inverter, single phase bridge inverters , three phase bridge
inverters, introduction to 1200 & 180
0 mode of operation, voltage control of inverters, harmonics
reduction techniques, single phase and three phase current source inverters.
Reference Books: 1. M.S. Jamil Asghar, “Power Electronics” Prentice Hall of India Ltd., 2004 2. A. Chakrabarti, Rai & Co. “ Fundamental of Power Electronics & Drives” Ghanpat Rai & Co. 3. K. Hari Babu, “Power Electroncis” Switch Publications.
Course Outcome Description
CO1 To understand the importance of power electronics in field of industries and
introduction of various power electronic devices
CO2 Familiarization of commutation techniques and the principle of buck & boost
converter
CO3 understand the working of various types of converter
CO4 To describe various ac voltage controllers and get an insight of the working
principle of cycloconverters
CO5 To get and overview of inverter application.
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level:
Intermediate
Course Type:
Core
Credit: 4
Total Contact Hours: 40 LTP -3-1-0 External Marks/Internal Marks:
100/50
Course Title: POWER
ELECTRONICS
Course Code: TEE-603 Duration of External Exam: 3
Hours
Prerequisite: Knowledge of VLSI Technology
UNIT 1 (7L) REVIEW: Current conduction in MOSFET, Electrical Properties of MOS and BiCMOS, The Pass
Transistor, CMOS. UNIT 2 (10L) CMOS Inverter: Static CMOS inverter, layout, switching threshold and noise margin concepts and their evaluation,dynamic behavior, power consumption. NMOS MOS pass transistor inverter. COMBINATIONAL LOGIC: Static CMOS design, rationed logic, pass transistor logic, dynamic logic,
cascading dynamic gates, CMOS transmission gate logic. UNIT 3 (9L) SEQUENTIAL LOGIC: Static latches and registers, bi-stability principle, MUX based latches, static SR flip-flops, master-slave edge-triggered register, dynamic latches and registers, concept of pipelining,
Timing issues. UNIT 4 (7L) MEMORY AND ARRAY STRUCTURE: ROM, RAM, peripheral circuitry, memory reliability and
yield, SRAM and DRAM design, flash memory, PLA,PAL, FPGA. UNIT 5 (7L) DESIGN FOR TESTABILITY: Logic Testing, sequential Logic Testing, Guidelines to be adopted in
Design for Test, Scan Designing Techniques, Built-In self Test(BIST)Techniques.
REFERENCE BOOKS: 1. Basic VLSI Design by D.A. Pucknell & Eshraghian (PHI) 2. Modern VLSI Design Systems on Silicon by Wayne Wolf (Pearson Pub.)
3. R. K. Singh « VLSI DESIGN (With VHDL), Kataria &Sons », 2nd
Edition, 2010.
Course Outcome Description
CO1 Analyze various IC Designing Phase involved in IC Designing through designing
Flow chart
CO2 Designing of various Digital System using CMOS Mosfet with different scaling.
CO3 Design a combinational circuit for any complex problems and implement it using
MOS/Transmission gate/CPL
CO4 Apply the knowledge of CMOS technology to design a sequential circuit for any
problems which can be simplified using Boolean algebra and draw the lay out using
any modern tool.
CO5 Evaluate how GaAs technology enhances the performance of the digital device
design.
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level:
Intermediate
Course Type:
Cross Deptt.
Credit: 4
Total Contact Hours: 40 LTP -3-1-0 External Marks/Internal Marks:
100/50
Course Title: VLSI CIRCUIT
DESIGN
Course Code: TEC602 Duration of External Exam: 3
Hours
Prerequisite: knowledge of fundamentals of computer programming
UNIT 1 (7L) COMPLEXITY ANALYSIS: Time and Space complexity of algorithms, asymptotic analysis, big O and other notations, importance of efficient algorithms, program performance measurement, data structures and algorithms. LINEAR LISTS: Abstract data type, sequential and linked representations, comparison of insertion, deletion
and search operations for sequential and linked lists, list and chain classes, exception and iterator classes for
lists, doubly linked lists, circular lists, linked lists through simulated pointers, lists in STL, skip lists,
applications of lists in bin sort, radix sort, sparse tables. UNIT 2 (7L) STACKS AND QUEUES: Abstract data types, sequential and linked implementations, exception handling in
classes, representative applications such as parenthesis matching, towers of Hanoi, wire routing in a circuit,
finding path in a maze, simulation of queuing systems, equivalence problem. UNIT 3 (7L) HASHING: Search efficiency in lists and skip lists, hashing as a search structure, hash table, collision
avoidance, linear open addressing, chains, uses of hash tables in text compression, LZW algorithm. UNIT 4 (7L) TREES: Binary trees and their properties, terminology, sequential and linked implementations, tree traversal methods and algorithms, heaps as priority queues, heap implementation, insertion and deletion operations, heapsort, heaps in Huffman coding, leftist trees, tournament trees, use of winner trees in mergesort as an external sorting algorithm, bin packing. UNIT 5 (7L) GRAPHS: Definition, terminology, directed and undirected graphs, properties, connectivity in graphs,
applications, implementation – adjacency matrix and linked adjacency chains, graph traversal – breadth first
and depth first, spanning trees.
REFERENCE BOOKS: 1. T. H. Cormen, C. E. Leiserson, R. L. Rivest and C. Stein, Introduction to Algorithms, MIT Press, 2001. 2. Aho, J. E. Hopcroft and J. D. Ullman, The Design and Analysis of Computer Algorithms, Addison-
Wesley, 1974 3. M. T. Goodrich and R. Tamassia, Algorithm Design: Foundations, Analysis and Internet Examples,
John Wiley & Sons, 2001.
Course Outcome Description
CO1 Ability to develop programs to implement linear data structures such as
stacks, queues, linked lists
CO2 To understand the concept of queuing system and its simulation
CO3 To introduce the concept of hashing and its application
CO4 Application of trees and graphs in real world scenarios
CO5 Implementation of sorting and searching algorithms.
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level:
Intermediate
Course Type:
Cross Deptt.
Credit: 4
Total Contact Hours: 40 LTP -3-1-0 External Marks/Internal Marks:
100/50
Course Title: DATA
STRUCTURES USING C++
Course Code: TCS607 Duration of External Exam: 3
Hours
UNIT 1 (6L) INTRODUCTION TO MANAGEMENT: Theories of management: Traditional behavioral, contingency
and systems approach. Organization as a system. UNIT 2 (8L) MANAGEMENT INFORMATION: Interaction with external environment. Managerial decision making
and MIS. UNIT 3 (8L) PLANNING APPROACH TO ORGANIZATIONAL ANALYSIS: design of organization structure;
job design and enrichment; job evaluation and merit rating. UNIT 4 (8L) MOTIVATION AND PRODUCTIVITY: Theories of motivation, leadership styles and managerial grid.
Co-ordination, monitoring and control in organizations. Techniques of control. Japanese management
techniques. Case studies. REFERENCE BOOK:
1. Hirschey: Managerial Economics, Cengage Learning. 2. T. R. Banga and S.C. Sharma: Industrial Organisation and Engineering Economics, Khanna
Publishers. 3. O.P. Khanna: Industrial Engineering and Management, Dhanpat Rai.
4. Joel Dean: Managerial Economics, PHI learning.
Course Outcome Description
CO1 Knowledge of Management principles
CO2 To develop decision making skills of the students
CO3 Planning approach to organizational behavior
CO4 Developing leadership skills among students
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level: Beginner Course Type:
Cross Deptt.
Credit: 2
Total Contact Hours: 30 LTP -2-1-0 External Marks/Internal Marks:
50/25
Course Title: PRINCIPLES
OF MANAGEMENT
Course Code: THU608 Duration of External Exam: 2
Hours
: Note: The minimum of 10 experiments are to be performed from the following, out of which at
least three should be software based.
1. To determine response of first order and second order systems for step input for various values of
constant ’K’ using linear simulator unit and compare theoretical and practical results.
2. To study P, PI and PID temperature controller for an oven and compare their performance.
3. To study and calibrate temperature using resistance temperature detector (RTD)
4. To design Lag, Lead and Lag-Lead compensators using Bode plot.
5. To study DC position control system
6. To study synchro-transmitter and receiver and obtain output V/S input characteristics
7. To determine speed-torque characteristics of an ac servomotor.
8. To study performance of servo voltage stabilizer at various loads using load bank.
9. To study behaviour of separately excited dc motor in open loop and closed loop conditions at various
loads.
10. To study PID Controller for simulation proves like transportation lag.
Software based experiments (Use MATLAB, LABVIEW software etc.)
11. To determine time domain response of a second order system for step input and obtain performance
parameters.
12. To convert transfer function of a system into state space form and vice-versa.
13. To plot root locus diagram of an open loop transfer function and determine range of gain ‘k’ for
stability.
14. To plot a Bode diagram of an open loop transfer function.
15. To draw a Nyquist plot of an open loop transfer functions and examine the stability of the closed loop
system.
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level: Beginner Course Type:
Core
Credit: 2
Total Contact Hours: 20 LTP -0-0-2 External Marks/Internal Marks:
25/25
Course Title: CONTROL
SYSTEM LAB
Course Code: PEE652 Duration of External Exam: 1
Hr
Note: The minimum of 10 experiments is to be performed out of which at least three should be
software based.
1. To study V-I characteristics of SCR and measure latching and holding currents.
2. To study UJT trigger circuit for half wave and full wave control.
3. To study single-phase half wave controlled rectified with (i) resistive load (ii) inductive load with and
without freewheeling diode.
4. To study single phase (i) fully controlled (ii) half controlled bridge rectifiers with resistive and
inductive loads.
5. To study three-phase fully/half controlled bridge rectifier with resistive and inductive loads.
6. To study single-phase ac voltage regulator with resistive and inductive loads.
7. To study single phase cyclo-converter
8. To study triggering of (i) IGBT (ii) MOSFET (iii) power transistor
9. To study operation of IGBT/MOSFET chopper circuit
10. To study MOSFET/IGBT based single-phase series-resonant inverter.
11. To study MOSFET/IGBT based single-phase bridge inverter.
Software based experiments(PSPICE/MATLAB)
12. To obtain simulation of SCR and GTO thyristor.
13. To obtain simulation of Power Transistor and IGBT.
14. To obtain simulation of single phase fully controlled bridge rectifier and draw load voltage and load
current waveform for inductive load.
15. To obtain simulation of single phase full wave ac voltage controller and draw load voltage and load
current waveforms for inductive load.
16. To obtain simulation of step down dc chopper with L-C output filter for inductive load and determine
steady-state values of output voltage ripples in out put voltage and load current.
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level: Beginner Course Type:
Core
Credit: 2
Total Contact Hours: 20 LTP -0-0-2 External Marks/Internal Marks:
25/25
Course Title: POWER
ELECTRONICS LAB
Course Code: PEE653 Duration of External Exam: 1
Hr
Problems in "C++" using Data Structures involving arrays, stacks, queues, strings, linked lists, trees,
graphs.
1) Using STACK to check matching left and right characters such as parantheses, curly braces and
square brackets in a given string.
2) Single server queuing system and gathering statistics.
3) Operations on Stacks.
4) Sparse Matrices
5) Linear linked list implementation
6) Operations on Doubly Linked List and Circular List with a test application
7) Operations on Ordered Binary Trees.
8) GraphTraversal Techniques
9) Implementation of Quicksort, Mergesort and Heapsort
10) Operations on Binary Trees
11) Shortest Path Problem
Dev Bhoomi Institute Of Technology
SEMESTER: VI
Department of Electrical & Electronics Engineering
Course Level: Beginner Course Type:
Cross Deptt.
Credit: 2
Total Contact Hours: 20 LTP -0-0-2 External Marks/Internal Marks:
15/10
Course Title: DATA
STRUCTURE LAB
Course Code: PCS657 Duration of External Exam: 1
Hr
Student’s Handbook | B.Tech (EEE VI Sem) 2018
3 Lesson Plan
3.1 Power System Analysis
DBIT DEHRADUN
LESSON PLAN
SEMESTER/YEAR: 5th
/3rd
DEPARTMENT: EEE COURSE: Power System Analysis CODE: TEE-601
Referenc No. Of Delivery Remar
S. Topic Name e/ Text Lectur Method ks
No. Book/ es
Web
(R/T/W)
1. Representation of power system components: T1,R1 2 Chalk & Talk
Synchronous machines
2. Transformers, Transmission lines, One line diagram, T1,R1 2 Chalk & Talk
Impedance and reactance diagram
3. Per unit system T1,R2 2 Chalk & Talk
4. Symmetrical components of unbalanced phasors T1,R1 2 Chalk & Talk
5. Power in terms of symmetrical components T1,R1 2 Chalk & Talk
6. Sequence impedances and sequence networks T1 2 Chalk & Talk
7. Transient in R-L series circuit T1,R1 2 Chalk & Talk
8. Calculation of 3-phase short circuit current T1,R1 2 Chalk & Talk
9. Reactance of synchronous machines T1,R1 2 Chalk & Talk
10. Internal voltage of loaded machines under transient T1,R1 2 Chalk & Talk
conditions
11. Analysis of single line to ground fault T1,R1 2 Chalk & Talk
12 Line to line fault and double line to ground fault on an T1,R1 3 Chalk & Talk
unloaded generator
13. Power system network with and without fault impedance T1,R1 2 Chalk & Talk
14. Formation of Zbus using singular transformation and T1 2 Chalk & Talk
algorithm
15. Computer method for short circuit calculations T1,R1 2 Chalk & Talk
16. Load flows: Introduction, bus classifications T1,R1 1 Chalk & Talk
17. Nodal admittance matrix (YBUS) T1,R1 2 Chalk & Talk
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
18. Development of load flow equations T1,R1 2 Chalk & Talk
19. Load flow solution using Gauss Siedel T1,R1 2 Chalk & Talk
20. Approximation to N-R method T1 2 Chalk & Talk
21. Line flow equation and fast decoupled method T1,R1 2 Chalk & Talk
22. Power system Stability: Stability and stability limit T1 1 Chalk & Talk
23. Steady state stability study T1,R1 2 Chalk & Talk
24. Derivation of Swing equation T1 2 Chalk & Talk
25. Transient stability studies by equal area criterion and step T1,R1 2 Chalk & Talk
by step method
26. Factors affecting steady sate and transient stability and T1 2 Chalk & Talk
methods of improvement
27. Wave equation for uniform transmission lines T1 2 Chalk & Talk
28. Velocity propagation T1 1 Chalk & Talk
29. Surge impedance T1 1 Chalk & Talk
30. Reflection and transmission of traveling waves under T1 2 Chalk & Talk
different line loadings
31. Bewlay’s Lattice diagram T1 2 Chalk & Talk
32. Protection of equipments and line against traveling waves T1,R1 2 Chalk & Talk
Total Lectures: 52
TEXT BOOKS:
[T1] B.R. Gupta, “ Power System Analysis” , S.Chand
REFERENCE BOOKS: [R1] L.P. Singh, “Advanced Power System Analysis & Dynamics”, New Age International [R2] C.L.Wadhwa, “Power System Analysis”,New Age International Publication.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
3.2 Control System
DBIT DEHRADUN
LESSON PLAN
SEMESTER/YEAR: 6th
/3rd
DEPARTMENT: EEE COURSE: CONTROL SYSTEM CODE:TEE-602
Reference/ No. Of Delivery Remarks
S. Topic Name Text Book/ Lectures Method
No. Web
(R/T/W)
1. Control System R1&T1 2 Chalk & Talk
2. Open loop & closed control R2&T1 1 Chalk & Talk
3. servomechanism R2&T2 1 Chalk & Talk
4. Physical examples R1&T3 2 Chalk & Talk
5. Transfer functions R1&T2 1 Chalk & Talk
6. Block diagram algebra, R2&T3 2 Chalk & Talk
7. Signal flow graph, R2&T3 2 Chalk & Talk
8. Mason’s gain formula R1&T1 1 Chalk & Talk
9. Reduction of parameter variation and effects of R1&T2 1 Chalk & Talk
disturbance by using negative feedback
UNIT 2- Time Response analysis
10. Standard test signals, R2&T2 1 Chalk & Talk
11. time response of first and second order systems, R1&T1 2 Chalk & Talk
12 time response specifications, R2&T1 2 Chalk & Talk
13. steady state errors and error constants R2&T2 1 Chalk & Talk
14. Design specifications of second order systems: R1&T3 2 Chalk & Talk
15. Derivative error, derivative output R1&T1 2 Chalk & Talk
16. Integral error and PID compensations, R2&T1 2 Chalk & Talk
17. design considerations for higher order systems, R1&T3 1 Chalk & Talk
performance indices
UNIT 3 - Control System Components:
18. Constructional and working concept of ac servomotor, R1&T3 1 Chalk & Talk
synchros and stepper motor
19. Stability and Algebraic Criteria R1&T1 2 Chalk & Talk
20. concept of stability and necessary conditions R2&T2 2 Chalk & Talk
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
21. Routh- Hurwitz criteria and limitations R1&T2 2 Chalk & Talk
22 Root Locus Technique: The root locus concepts, R2&T2 2 Chalk & Talk
23 construction of root loci R1&T1 2 Chalk & Talk
UNIT 4- Frequency response Analysis
24 Frequency response, R2&T1 2 Chalk & Talk
25 correlation between time and frequency responses, R2&T2 2 Chalk & Talk
26 polar and inverse polar plots, R1&T3 2 Chalk & Talk
27 Bode plots Stability in Frequency Domain: R1&T1 3 Chalk & Talk
28 Nyquist stability criterion, R2&T1 2 Chalk & Talk
29 assessment of relative stability: gain margin and phase R1&T3 2 Chalk & Talk
margin,
30 constant M&N circles R1&T3 1 Chalk & Talk
UNIT 5 - Introduction to Design:
31 The design problem and preliminary considerations lead, R1&T1 2 Chalk & Talk
lag and lead-lag networks,
32 design of closed loop systems using compensation R2&T2 3 Chalk & Talk
techniques in time domain
33 design of closed loop systems using compensation R1&T2 3 Chalk & Talk
techniques in frequency domain.
Total Lectures: 59
TEXT BOOKS:
[T1] Control system-Hasan saeed.
[T2] Automatic control system-k.k singh.
[T3] Control system engineering-R.ananda natrajana.
REFERENCE BOOKS: [R1] Norman S. Mise, Control System Engineering 4th edition, Wiley Publishing Co. [R2] M.Gopal, “Control System; Principle and design”, Tata McGraw Hill.
[R3] M.Gopal,” Modern Control system”, Tata McGraw Hill.
[R4] D.Roy Choudhary, “Modern Control Engineering”, Prentice Hall of India.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
3.3 Power Electronics
DBIT DEHRADUN
LESSON PLAN
SEMESTER/YEAR: 6th
/3rd
DEPARTMENT: EEE
COURSE: POWER ELECTRONICS CODE: TEE-603
Referenc No. Of Delivery Remar
S. Topic Name e/ Text Lectur Method ks
No. Book/ es
Web
(R/T/W)
1. Introduction to Power semiconductor devices T1,R1 2 Chalk & Talk
2. Power semiconductor devices, their symbols and T2,R1 2 Chalk & Talk
static characteristic
3. Characteristics and specifications of switches T1,T2 2 Chalk & Talk
4. Type of power electronic circuits T1,R3 2 Chalk & Talk
5. Thyristor operation, V-I characteristic T1,R2 1 Chalk & Talk
6. Two transistor model T1,R3 1 Chalk & Talk
7. Protection of devices, series and parallel operation T1,T4 2 Chalk & Talk
of thyristors
8. Commutation techniques of thyristor T1,R1 3 Chalk & Talk
9. DC-DC convertors:Principles of step-down chopper, T1,R2 2 Chalk & Talk
step down chopper with R-L load
10. Principle of step up chopper, and operation with R-L T1,R3 2 Chalk & Talk
load
11. Classification of choppers T1,R4 2 Chalk & Talk
12 Single phase half wave controlled rectifier with T1,R2 2 Chalk & Talk
resistive and inductive loads, effect of freewheeling
diode
13. Single phase fully controlled and half controlled T1,T3 2 Chalk & Talk
bridge converters
14. Performance parameters three phase half wave T1,T3 2 Chalk & Talk
converters
15. Three phase fully controlled and half controlled T1,R4 3 Chalk & Talk
bridge converters
16. Effect of source inductance, single phase and three T1,R1 2 Chalk & Talk
phase dual converters
17. AC Voltage controllers:Principle of on-off and T1,R3 1 Chalk & Talk
phase controls
18. Single phase ac voltage controller with resistive and T1,T2 1 Chalk & Talk
Student’s Handbook | B.Tech (EEE) 2018
inductive loads
19. Three phase ac voltage controllers (various T2,T3 2 Chalk & Talk
configuration and comparison)
20. Cyclo converters:Basic principle of operation single T3,R4 1 Chalk & Talk
phase to single phase
21. Three phase to single phase and three phase to three T2,R1 3 Chalk & Talk
phase cyclo converters
22. Output voltage equation T1,T3 2 Chalk & Talk
23. Single phase series resonant inverter T2,R3 2 Chalk & Talk
24. Single phase bridge inverters T1,T2 1 Chalk & Talk
25. Three phase bridge inverters T1,R1 2 Chalk & Talk
26. Introduction to 120 & 180 degree mode of T1,T2 3 Chalk & Talk
operation,voltage control of inverters
27. Harmonics reduction techniques T1,T2 2 Chalk & Talk
28. Single phase and three phase current source T1,T3 2 Chalk & Talk
inverters
Total Lectures: 54
TEXT BOOKS:
[T1] P.S.Bhimbra, “Power Electronics”;Khanna Publications. [T2] Muhammad H. Rashid “Power electronics-Circuits,Devicers and Applications” Pearson Publication .
[T3] G.K.Dubey “Thyristor Power Controllers” New Age International Publication.
REFERENCE BOOKS: [R1]. Philip T. Krein “Elements of Power Electronics” Oxford Publication.
[R 2]. Robert W. Erickson “Fundamentals of Power Electronics” Springer International Publication. [R3]. V.R.Moorthi “Power Electronics- Devices, Circuits and Industrial Applications” Oxford Publication.
[R4]. Jacob “ Power Electronics- Principles and Applications” Cengage Learning.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
3.4 VLSI Circuit Design
DBIT DEHRADUN
LESSON PLAN
SEMESTER/YEAR: 6TH
/3RD
DEPARTMENT: ECE
COURSE: VLSI Design CODE: TEC-602
Referenc No. Of Delivery Remar
S. Topic Name e/ Text Lectur Method ks
No. Book/ es
Web
(R/T/W)
1. Current conduction in MOSFET, T1,R1 3 Chalk & Talk
2. Electrical Properties of MOS T1,R1 3 Chalk & Talk
3. Electrical Properties of BiCMOS T1,T2 2 Chalk & Talk
4. The Pass Transistor T1,R1 2 Chalk & Talk
5. CMOS T1,R1 3 Chalk & Talk
6. CMOS Inverter: Static CMOS inverter T1,T2 3 Chalk & Talk
7. layout, switching threshold and noise margin concepts and T1,R1 2 Chalk & Talk
their evaluation
8. Dynamic behavior, power consumption T1,R1 2 Chalk & Talk
9 NMOS MOS pass transistor inverter. T1,R1 2 Chalk & Talk
10. COMBINATIONAL LOGIC: Static CMOS design, T1,R1 1 Chalk & Talk
rationed logic, ,
11. Pass transistor logic, dynamic logic T1,R1 2 Chalk & Talk
12 Cascading dynamic gates, CMOS transmission gate logic. T1,R1 2 Chalk & Talk
13. Sequential Logic: Static latches and registers T1,R1 3 Chalk & Talk
14. Bi- stability principle, MUX based latches T1,T2 2 Chalk & Talk
15. Static SR flip-flops, master-slave edge-triggered register T1,R1 2 Chalk & Talk
16 Dynamic latches and registers T1 2
17 Concept of pipelining,Timing issues. T1 1
18 Memory And Array Structure: ROM, RAM, peripheral T1 3 circuitry
19. Memory reliability and yield T1,R1 2 Chalk & Talk
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
20. SRAM and DRAM design T1,R1 3 Chalk & Talk
21. Flash memory, PLA,PAL, FPGA T1,R1 2 Chalk & Talk
22. Design For Testability: Logic Testing T2,R1 2 Chalk &
Talk
23. Sequential Logic Testing, Guidelines to be adopted in T2 2 Chalk & Talk
Design for Test
24. Scan Designing Techniques, Built-In self Test (BIST) T2,R1 2 Chalk & Talk
Techniques
Total Lectures: 53
TEXT BOOKS:
[T1] Digital integrated circuit design using CMOS by Yusuf & Kang [T2] Digital circuit design by NEAL WASTE.
REFERENCE BOOKS:
[R1] . Basic VLSI Design by D.A. Pucknell & Eshraghian (PHI)
[R2]. Modern VLSI Design Systems on Silicon by Wayne Wolf (Pearson Pub.)
[R3]. R. K. Singh « VLSI DESIGN (With VHDL), Kataria & Sons » , 2nd Edition, 2010.
[R4]. S. Gandhi / VLSI Fabrication Principles / 2nd ED. John Willey 1994.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
3.5 Data Structure using C++
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
LESSON PLAN
SEMESTER/YEAR: 6th
/3rd
DEPARTMENT: CSE COURSE: Data Structure using C++ CODE: TCS-607
Referenc No. Of Delivery Remar
S. Topic Name e/ Text Lectur Method ks
No. Book/ es
Web
(R/T/W)
UNIT-1
1. Time and Space complexity of algorithms T1,R1 1 Chalk & Talk
2. Asymptotic analysis, Big O and T1,R1 1 Chalk & Talk
other notations,
3. Importance of efficient algorithms, T1,T2 1 Chalk & Talk
4. Program performance measurement T1,R1 1 Chalk & Talk
5. Data structures and algorithms T1,R1 1 Chalk & Talk
6. Abstract data type, sequential and linked T1,T2 1 Chalk & Talk
representations,
7. Comparison of insertion, T1,R1 2 Chalk & Talk
deletion and search operations for sequential lists
8. Comparison of insertion, T1,R1 1 Chalk & Talk
deletion and search operations for linked lists
9. List and chain classes T1,R1 1 Chalk & Talk
10. Exception T1,R1 2 Chalk & Talk
and Iterator classes for lists
11. Doubly linked lists, circular lists, T1,R1 2 Chalk & Talk
12 Linked lists through simulated T1,R1 1 Chalk & Talk
pointers,
13. Lists in STL, skip lists, T1,R1 1 Chalk & Talk
14. Applications of lists in bin sort, radix sort, T1,T2 1 Chalk & Talk
15. Sparese tables T1,R1 1 Chalk & Talk
UNIT-2
16. Abstract data types, sequential implementations T1,R1 2 Chalk & Talk
17. Linked implementations, T1,R1 1 Chalk & Talk
18. Exception T1,R1 2 Chalk & Talk
handling in classes
Student’s Handbook | B.Tech (EEE) 2018
19. Representative applications such as parenthesis T2,R1 1 Chalk & Talk
matching, towers of Hanoi,
20. Wire routing in a circuit, finding path in a maze T2 1 Chalk & Talk
21. Simulation of queuing systems, equivalence problem T2,R1 1 Chalk & Talk
UNIT-3
22. Search efficiency in lists and skip lists T2 1 Chalk & Talk
23. Hashing as a search structure, hash table T2,R1 1 Chalk & Talk
24. Collision avoidance T2 1 Chalk & Talk
25. Linear open addressing T2,R1 1 Chalk & Talk
26. Uses of hash tables in text compression T2 2 Chalk & Talk
27. LZW algorithm T1 2 Chalk & Talk
Unit-4
28. Binary trees and their properties, terminology 1 Chalk & Talk
29. Sequential and linked implementations T1,T2 1 Chalk & Talk
30. Tree traversal methods and algorithms T2 1 Chalk & Talk
31. Heaps as priority queues, T1 1 Chalk & Talk
32. Heap implementation, insertion T1,R1 2 Chalk & Talk
and deletion operations
33. Heapsort T1,R1 1 Chalk & Talk
34. Heaps in Huffman coding T1 1 Chalk & Talk
35. Leftist trees, T2 1 Chalk & Talk
36. Tournament trees T2 1 Chalk & Talk
37. Use of winner trees in mergesort as an external T1,R1 1 Chalk & Talk
sorting algorithm
38 Bin packing T1,R1 1 Chalk & Talk
UNIT-5
39 Definition, terminology, directed and undirected T1,R1 1 Chalk & Talk
graphs
40 Properties, connectivity in T1 1 Chalk & Talk
graphs
41 Applications, implementation – adjacency matrix T2 1 Chalk & Talk
42 Linked adjacency chains T2 1 Chalk & Talk
43 Graph traversal – breadth first T1,R1 1 Chalk & Talk
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
44 Depth first T1,R1 1 Chalk & Talk
45 Spanning trees. T1 1 Chalk & Talk
Total Lectures: 53 TEXT BOOKS: [T1]T. H. Cormen, C. E. Leiserson, R. L. Rivest and C. Stein, Introduction to Algorithms, MIT Press,
2001. [T2]A. Aho, J. E. Hopcroft and J. D. Ullman, The Design and Analysis of Computer Algorithms, Addison-Wesley, 1974 REFERENCE BOOKS: [R1] M. T. Goodrich and R. Tamassia, Algorithm Design: Foundations, Analysis and Internet Examples, John Wiley & Sons, 2001.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
3.6 Principle of Management
DBIT DEHRADUN
LESSON PLAN
SEMESTER/YEAR: 6th
/3rd
DEPARTMENT: EEE
COURSE: Principle of Management CODE: THU-601
Referenc No. Of Delivery Remar
S. Topic Name e/ Text Lectur Method ks
No. Book/ es
Web
(R/T/W) INTRODUCTION TO MANAGEMENT: T1,R1 2 Chalk & Talk
1 Theories of management: Traditional behavioral T1,R1 2 Chalk & Talk
2 contingency and systems approach T1,R1 2 Chalk & Talk
3 Organization as a system. T1,R1 2 Chalk & Talk
MANAGEMENT INFORMATION: T1,R1 2 Chalk & Talk
4 Interaction with external environment T1,R1 2 Chalk & Talk
5 Managerial decision,making T1,R1 2 Chalk & Talk
6 MIS T1,R1 2 Chalk & Talk
PLANNING APPROACH TO ORGANIZATIONAL T1,R1 2 Chalk & Talk
ANALYSIS:
7 design of organization structure; T1,R1 2 Chalk & Talk
8 job design and enrichment T1,R1 2 Chalk & Talk
9 job evaluation T1,R1 1 Chalk & Talk
10 merit rating. T1,R1 2 Chalk & Talk
MOTIVATION AND PRODUCTIVITY: T1,R1 2 Chalk & Talk
11 Theories of motivation T1,R1 2 Chalk & Talk
12 leadership styles T1,R1 1 Chalk & Talk
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
13 managerial grid T1,R1 2 Chalk & Talk
14 Co-ordination T1,R1 1 Chalk & Talk
15 Monitoring T1,R1 1 Chalk & Talk
16 control in organizations T1 1 Chalk & Talk
17 Techniques of control T1,R1 2 Chalk & Talk
18 Japanese management techniques. T1 1 Chalk & Talk
Total Lectures: 40
TEXT BOOKS:
[T1] Himanshu Aggarwal
REFERENCE BOOKS: [R1] L M Parsad
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
4.1 Power System Analysis
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 1
Course Code: TEE-601 Branch: EEE Semester: V
Faculty :Mrs. Nandita Rana
Unit/Title: 1/ Symmetrical Components, Fault Calculations Date of Issue: Date of Submission:
1. State Fortescue’s Theorem .
2. Significance of positive, negative and zero sequence components.
3. Calculate average 3-phase power in terms of symmetrical components.
4. Explain the concept of Sequence Impedance.
5. Explain Types of Faults.
6. Show the calculation of 3-phase short circuit current.
7. What is a reactor. Explain type of Reactors.
8. Explain the concept of short circuit capacity of a bus.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 2
Course Code: TEE-601 Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: II/ Load Flow Analysis Date of Issue: Date of Submission:
1. How do you classify buses?
2.What is nodal Admittance matrix?
3.How do we develop load flow equations?
4.What are iterative methods for solving load flow analysis?
5.Explain Newton-Raphson method of solving load flow equations.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 3
Course Code: TEE-601 Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: III/ Power System Stability Date of Issue: Date of Submission:
1. Explain the concept of Reactive Power Flow.
2. What are difficulties associated with reactive power transmission.
3. Explain the concept short circuit capacity.
4. Explain the concept of voltage stability.
5. What is line drop compensation.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 4
Course Code: TEE-601 Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: IV/ Wave Equation Date of Issue: Date of Submission:
1. Calculate the wave equation for uniform transmission line.
2. Explain the concept of wave propagation.
3. What is surge impedance.
4. Explain the Bewley’s Lattice Diagram.
5. How do we protect transmission lines against travelling lines.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
4.2 Control System
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name:Control system Assignment No. 1
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 1/ Introduction Date of Issue: Date of Submission:
UNIT 1
1 Compare the Open loop System with Closed loop System.
2 Define Transfer Function of the System.
3 What are the advantages of Closed loop System?
4 Write F-V Analogy for the elements of mechanical rotational system?
5 Name the two types of electrical analogous for mechanical system.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name:Control system Assignment No. 2
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 2/ Time Response analysis Date of Issue: Date of Submission:
UNIT 2
1 How a Control system is classified depending on the value of damping ratio?
2 Why derivative controller is not used in Control systems?
3 Give steady state errors to a various standard inputs for type 2 systems.
4 What is meant by peak overshoot?
5 The damping ratio and natural frequency of a second order system are o.5 and 8 rad/sec respectively.
Calculate resonant peak and resonant frequency.
6 What are the units of kp, kv, ka?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name:Control system Assignment No. 3
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 3/ Stability Analysis Date of Issue: Date of Submission:
UNIT 3
1 State any two limitations of Routh-stability criterion.
2 Define Routh Hurwitz stability criterion.
3 What is Root locus?
4 How will you find the root locus on real axis?
5 How the roots of characteristic are related to stability?
6 What do you mean by dominant pole?
7 Sketch the Root Locus of the System whose open loop transfer function is G(S) = K / S (S+1) (S+3).
Determine the Value of K for Damping Ratio equal to 0.5.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name:Control system Assignment No. 4
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 4/ Frequency response Analysis I Date of Issue: Date of Submission:
UNIT 4
1 What are the advantages of Frequency Response Analysis?
2 Sketch shape of polar plot for the open loop transfer function G(s)H(s) = 1/ (1+ ).
3 What are the specifications used in frequency domain analysis?
4 Determine the Phase angle of the given transfer function G(S) = 10 / S (1+0.4S) (1+0.1S)
5 Given G(s) = 0.2
/( + 2)( + 8) Draw the Bode plot and find K for the following two cases: (i) Gain
margin equal to 6db (ii) Phase margin equal to 45°.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name:Control system Assignment No. 5
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 5/ Frequency response Analysis II Date of Issue: Date of Submission:
UNIT 5
1 State any two limitations of Routh-stability criterion.
2 State the advantages of Nyquist stability criterion over that of Routh’s criterion.
3 State Nyquist stability criterion.
4 Draw the Nyquist plot for the System whose open loop transfer function is G(s) H(s) = K / S (S+2)
(S+10). Determine the range of K for which the closed loop System is Stable.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
4.3 Power Electronics
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power Electronics Assignment No. 1
Course Code: TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: I/Power Semiconductor Devices Date of Issue: Date of Submission:
Q1. Discuss the various types of power electronic converters.
Q2. Describe switching performance in a GTO with relevant voltage and current waveforms.
Q3. List the different power semiconductor devices along with their circuit symbols and maximum ratings.
Q4. Describe the basic structure of MCT. Give its equivalent circuit and explain turn-on and turn-off processes.
Q5. Describe the different modes of operation of thyristor with the help of its static I-V characteristics.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power Electronics Assignment No. 2
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: II/ Power Semiconductor Devices(Contd.) & Date of Issue: Date of Submission:
DC-DC Converters
Q1. Describe string efficiency for series/parallel connected SCRs. Show that the string efficiency of two
series connected SCRs is usually less than one.
Q2. Explain the methods adopted for the protection of SCRs against overcurrents.
Q3. Distinguish clearly between voltage commutation and current commutation in thyristor circuits.
Q4. Discuss the class B and Class E types of commutation employed for thyristor circuits.
Q5. Describe the principle of operation of Step-up chopper. Derive an expression for the average output
voltage in terms of input voltage and duty cycle. State assumptions made.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power Electronics Assignment No. 3
Course Code: TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: III/ Phase Controlled Converters Date of Issue: Date of Submission:
Q1. An RL load is fed from single-phase supply through a thyristor. Derive an expression for load current
in terms of supply voltage, frequency, R, L etc. Indicate the time limits during which this solution is
applicable.
Q2. Describe how a freewheeling diode improves power factor in a converter system.
Q3. Show that the performance of a single phase full-converter as effected by source inductance is given
by the relation:
Q4. Explain how two 3-phase full converters can be connected back to back to form a circulating current
type of dual converter. Discuss its operation with the help of voltage waveforms across (a) each converter
(b) load and (c) reactor, take α1=00.
Q5. “If the operation of inversion is not required from a line commutated ac to dc converter, a
semiconverter possess better performance characteristics than the full converter.” Justify this statement.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power Electronics Assignment No. 4
Course Code: TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: IV/ AC Voltage Controllers & Cycloconverters Date of Issue: Date of Submission:
Q1. What are the control strategies for the regulation of output voltage in ac voltage controllers?
Q2. Discuss the principle of phase control in single-phase full-wave ac voltage controller. Derive
expression for the rms value of its output voltage.
Q3. What are the advantages and disadvantages of unidirectional as well as bidirectional controllers? Which one of these is preferred and why?
Q4. Describe the basic principle of working of single-phase to single-phase step down cycloconverter for
both continous and discontinuous conductions for a bridge type cycloconverter. Mark the conduction of
various thyristors also.
Q5. A single-phase bridge type cycloconverter feeds a load R. For an output frequency equal to one-third
of the input frequency, sketch output voltage waveform for a firing angle of about 300. Also derive an
expression for the rms output voltage.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power Electronics Assignment No. 5
Course Code: TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: V/ Inverters Date of Issue: Date of Submission:
Q1. What are line-commutated inverters? Explain the difference between line-commuated and forced-commutated inverters.
Q2.What is the purpose of connecting diodes in antiparallel with thyristors in inverter circuit?
Q3. For a three phase 1800 mode bridge inverter feeding a star connected resistive load, sketch line to
neutral voltage waveform for ‘a’ phase only. From this sketch, calculate the rms value of phase voltage.
Q4. What is pulse width modulation? List the PWM techniques. How do these differ from each other?
Q5. What is the need for controlling the voltage at the output terminals of an inverter?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
4.4 VLSI CIRCUIT DESIGN
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: VLSI CIRCUIT DESIGN ASSIGNMENT No. 1
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. What is body affect? Discuss different parameters on which threshold voltage depends? 2. Determine Zpu to Zpd ratio for nMOS inverter driven through one or more pass
transistor? 3. Discuss the gate source and gate drain capacitance of an N-Channel FET. 4. Clearly explain the y effect of a MOS FET. 5. Clearly explain channel lengbodth modulation of a MOS FET. 6. With neat sketches, explain the transfer characteristic of a CMOS inverter. 7. Derive an equation for Ids of an n-channel enhancement MOSFET operating in
saturation region. 8. Explain the operation of BiCMOS inverter? Clearly specify its characteristics. 9. Explain how the BiCMOS inverter performance can be improved. 10. Derive an equation for Ids of an n channel enhancement MOSFET operating in
saturation region.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: VLSI CIRCUIT DESIGN ASSIGNMENT No. 2
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. Design a stick diagram for two input n-MOS NAND and NOR gates. 2. What is a stick diagram and explain about different symbols used for components in stick
diagram. 3. Draw the stick diagram and layout for
a) NMOS inverter. b). P-Well CMOS inverter.
4. Draw the stick diagram and layout for (a) NMOS inverter. (b) P-Well CMOS inverter.
5. Draw the following transistors using lambda based design rules (a) . NMOS enhancement (b) . NMOS depletion (c) PMOS enhancement.
6. Discuss the design rules for wires (both NMOS and CMOS) using lambda based design rule 7. What are design rules? Why is metal- metal spacing larger than poly –poly spacing. 9
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: VLSI CIRCUIT DESIGN ASSIGNMENT No. 3
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. what are the differences between a gate array chip and standard-cell chip? What benefits does each implementation style have?
2. Draw and explain the pseudo-nMOS PLA schematic for full adder and what are the advantages and disadvantages of it.
3. What are the characteristics of 22V10 PAL CMOS device and draw its I/O structure. 4. Explain any one chip architecture that used the antifuse and give its advantages 5. Draw a self timed dynamic PLA and what are the advantages of it compared to footed
dynamic PLA. 6. Explain the tradeoffs between using a transmission gate or a tristate buffer to implement
an FPGA routing block. 7. Draw the structure, explain the function and write the applications characteristics of the
following programmable CMOS devices: (a) PLA (b) PAL (c) FPGA (d) CPLD
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: VLSI CIRCUIT DESIGN ASSIGNMENT No. 4
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. Draw the typical standard-cell structure showing low-power cell and explain it 2. Sketch a diagram for two input XOR using PLA and explain its operation with the help of
truth table. 3. Explain different fault models in detail. 4. Explain how function of system can be tested. 5. Explain any one of the method of testing bridge faults. 6. What type of faults can be reduced by improving layout design? 7. Why the chip testing is needed? At what levels testing a chip can occur? 8. What is the drawback of serial scan ? How to overcome this? 9. . What is the percentage fault coverage? How it is calculated. 10. Explain the following with respect to CMOS testing:
(a) ATPG (b) Fault simulation (c) Statistical Fault Analysis (d) Fault Sampling.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: VLSI CIRCUIT DESIGN ASSIGNMENT No. 5
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. Explain the gate level and function level of testing. 2. A sequential circuit with in? inputs and ‘m’ storage devices. To test this circuit how many
test vectors are required. 3. What is sequential fault grading? Explain how it is analyzed. 4. Explain how the cost of chip can effect with the testing levels, 5. . Explain how observability is used to test the output of a gate within a larger circuit. 6. How the Iterative Logic Array Testing can be reduced number of tests 7. What type of defects is tested in manufacturing testing methods? 8. What is the Design for Autonomous Test and what is the basic device used in this? 9. What type of tests is used to check the noise margin for CMOS gates? 10. Explain the manufacturing test of a chip with suitable examples. 11. Explain the gate level and function level of testing. 12. A sequential circuit with n inputs and ‘m’ storage devices. To test this circuit how many
test vectors are required? 13. What is sequential fault grading? Explain how it is analyzed
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
4.5 Data Structure using C++
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Data Structure using C++ Assignment No.1
Course Code:TCS-607 Branch:CSE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title: UNIT-I Date of Issue: Date of Submission:
1. What do you understand by worst case, average case and best case time complexity of an algorithm?
2. Write an algorithm to concatenate two circularly linked lists pointed by list 1 and list 2 in such a way that circular list pointed by list 2 is appended to the circular list pointed by list 1?
3. How can a polynomial in two variables be represented by a singly linked list? Write an algorithm to add two such polynomials?.
4. Define algorithm and data structure. Give the difference between linear and non-linear data structures with example?
5. Define time complexity. Explain Big oh (O) notation? 6. Write a C++ program to construct and delete elements in a circular queue using linked list?
Department of Electrical & Electronics Engineeering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Data Structure using C++ Assignment No.2
Course Code:TCS-607 Branch:CSE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title: UNIT-II Date of Issue: Date of Submission:
1. What is an ADT? Show the insert and remove operations in/from the Queue ADT during the
traversal in a tabular fashion? 2. Write a C++ program to implement stack and its operations, PUSH and POP? 3. Write a complete program in C to implement stack using liked list? 4. What is priority queue? How it is implemented? Take an example to show your implementation? 5. Devise function in C which check for Full and Empty for a circular queue. Also find out the
number of elements in circular queue?
Department of Electrical & Electronics Engineeering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Data Structure using C++ Assignment No.3
Course Code:TCS-607 Branch:CSE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title: UNIT-III Date of Issue: Date of Submission:
1. Write an algorithm for searching an algorithm using linear search method?. 2. Discuss various methods used for resolving hash collisions? 3. Explain linear probing and quadratic probing using a suitable example? 4. What is a hash table, explain its applications? 5. Show the working of Huffman algorithm. with an example. Also write the applications of huffman’s
algorithm? 6. What is the difference between indexing and hashing?
Department of Electrical & Electronics Engineeering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Data Structure using C++ Assignment No.4
Course Code:TCS-607 Branch:CSE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title: UNIT-IV Date of Issue: Date of Submission:
1. What is a heap? Explain how an array of integers can be sorted using heap sort method. Given
20, 55, 46, 34, 13, 90, 87, 32 are elements of an array, show the different stages of sorting? 2. Write an algorithm to construct a binaty tree for the input 14, 15, 4, 9, 7, 18, 3, 5, 16, 4, 20, 17, 9
indicating a message for duplicate members? Draw the tree constructed by the above program? 3. Write a short note on external sorting method? How can we use winner trees in mergesort? 4. What do you mean by heap sort? Explain and write analysis of heap sort? 5. Write a recursive procedure which finds the number of nodes in a tree?
Department of Electrical & Electronics Engineeering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Data Structure using C++ Assignment No.5
Course Code:TCS-607 Branch:CSE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title: UNIT-V Date of Issue: Date of Submission:
1. Write an algorithm to check whether a graph is connected or not? 2. Write an algorithm which counts the number of connected components in a graph? 3. Define adjacency matrix corresponding to a diagraph? 4. Explain spanning tree and draw a spanning tree for the following graph
5. Explain the various graph representation techniques?
Department of Electrical & Electronics Engineeering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
4.6 Principle of Management
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Principle of Management Assignment No. 1
Course Code:THU-601 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit/Title: 1/ Introduction of Management Date of Issue: Date of Submission:
Q.1 What is Management and why is it important to learn about management?
Q.2List the principles of scientific management.
Q.3 How does the job of a top manger differ from those of the several levels of middle management?
Q.4 What are the 14 principles given by Hennry Fayol related to modern management.
Q.5 What are the essential skills of a manager?
Q.6 What are the functions of managers? Explain the roles of managers as suggest by Henry Mintzberg.
Q.7 What do you understand by bureaucracy? Discuss the characteristics of Max weber bureaucratic model.
Q.8 The Neo Classical Theory is human Oriented. Discuss. State the characteristics of Neo Classical Theory.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Principle of Management Assignment No. 2
Course Code:THU-601 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit/Title: 2/ Management information system Date of Issue: Date of Submission:
Q.1 Define and describe business process and their relationship to information systems.
Q.2 What are business processes? What role do they play in organizations? How are they enhanced by
information systems?
Q.3 Explain the major constraints in operating the MIS.
Q.4 Explain the role of organizations environment on the MIS and business processes?
Q.5 What is Decision Support System? Briefly explain the characteristics of Decision Support System.
Q.6 What do you understand by environmental analysis? Discuss the procedure of
environmental analysis.
Q.7 Explain the planning for implementation step in MIS.
Q.8 Define an information system from both a technical and a business perspective.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Principle of Management Assignment No. 3
Course Code:THU-601 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit/Title: 3/ Planning Approach to organization Analysis Date of Issue: Date of Submission:
Q.1 Explain the nature and significance of planning?
Q.2 Explain the roles of planning function?
Q.3 What is Job Evaluation Process Chart.
Q.4 Define Performance Appraisal. What are its salient features? What are its merits & demerits.
Q.5 What are the various methods of job Appraisal?
Q.6 What is organizational analysis? Explain the models of organizational analysis?
Q.7 Discuss the planning approach to organizational analysis?
Q.8 What is merit rating and discuss its limitations.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Principle of Management Assignment No. 4
Course Code:THU-601 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit/Title: 4/ Motivation and Productivity Date of Issue: Date of Submission:
1. Name the steps involved in motivation process. 2. What is Motivation and how is Moslow’s hierarchy of needs theory a theory of motivation? 3. What are McGregor’s Theory X and Theory Y assumptions? 4. What are three needs Mc Clelland proposed which are present in work situation? 5. What is the relationship between planning and controlling in Organization control process? 6. “ Leadership is a driving force which gets things done by others.” Examine and comment. 7. “Good Leadership is an integral part of effectiveness direction.” Discuss, bringing out clearly
the qualities of an effective leader. 8. Define Leadership. Explain the various Styles and theories of leadership.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
5.1 Power System Analysis
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power system Analysis Tutorial No. 1
Course Code: TEE 601 Branch: EEE Semester: V
Faculty :Mrs. Nandita Rana
Unit/Title: 1/ Symmetrical Components, Fault Calculations Date of Issue: Date of Submission:
1. A 100 MVA 33KV 3-phase generator has a sub transient reactance of 15%. The generator is
connected to the motors through a transmission line and transformers as shown in fig 1.1 . The motor
have a rated input of 30MVA, 20MVA and 50MVA at 30KV with 20% sub transient reactance. The
3-phase transformer are rated at 111MVA, 32KV∆/110KV with leakage reactance
8%. The line has a reactance of 50 ohms. Selecting the generator rating as the base quantities in
other parts of the system and evaluate the corresponding p.u. values.
2. The line –to- ground voltage on the high voltage side of a step up transformer are 100 KV, 33KV and
38 KV on phases a,b,c respectively. The voltage of phase a leads that of phases b by 1000 and lags
that of phase c by 176.50. Determine the analytically the symmetrical components of voltage.
3. The line current in ampere is phases a,b,c respectively are 500+j150, 100-j600 and -300+j600 are
referred to the same reference vector. Find the symmetrical components of currents.
4. Determine the fault current and line to line voltage at the fault when a line to line fault occurs at
the terminals of the alternator described in the fig 13.4 .
5. Determine the fault current and the line to line voltages at the fault when a double-line to ground
fault occur at the terminal of the alternator described in the above diagram.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power system Analysis Tutorial No. 2
Course Code: TEE 601 Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: II/ Load Flow Analysis Date of Issue: Date of Submission:
1.The following is the system data for a load flow solution :
The line admittance:
Bus code Admittance
1-2 2-j0.8
1-3 1-j4
2-3 0.666-j2.664
2-4 1-j4
3-4 2-j8
The schedule of active and reactive powers:
Bus code P Q V Remarks
1 - - 1.06 Slack
2 0.5 0.2 1+J0 PQ
3 0.4 0.3 1+J0 PQ
4 0.3 0.1 1+J0 PQ
Determine the voltages at the end of first iteration using Gauss-Siedel. Take α=1.6.
2. The load flow data for the sample power system are given below. The voltage
magnitude at bus 2 is to be maintained at 1.04pu. The maximum and minimum
reactive power limits of the generator at bus2 are 0.35 and 0 pu. Respectively.
Determine the set of load flow equations at the end of first iteration by using
Newton-Raphson method.
Bus code Impedance Line charging Impedance
1-2 0.08+j0.24 0.0
1-3 0.02+j0.06 0.0
2-3 0.06+j0.18 0.0
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
Schedule of generation and loads:
Bus code Assumed Generation Load
Voltages MW MVAR MW MVAR
1 1.06+j0 0 0 0 0
2 1+ j0 0.2 0 0 0
3 1+j0 0 0 0.6 0.25
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power system Analysis Tutorial No. 3
Course Code: TEE- 601 Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: III/ Power System Stability Date of Issue: Date of Submission:
1. Assume angular difference between the voltages at sending end and receiving end being
300. Also assume sending end voltages 1.0 p.u. and receiving end as 0.9 p.u. Therefore
we have significant voltage difference between the sending end receiving, a difference
of 10% and hence we should except large reactive power flow over line.
2. A 230/34.5 KV transformer has 10% leakage reactance. Assume initial n=1. Determine the effect
of tapping to raise the secondary voltage by 10%.
3. A generator is rated for 0.95 lag p.u. The turbine rating is specified to match the real power
at rated p.f. Assuming the rating of turbine fixed, determine the generator rating if 0.8 lag p.f.
is specified. Also, calculate the additional reactive power capability at full load.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power system Analysis Tutorial No. IV
Course Code: TEE- 601 Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: IV/ Wave Equation Date of Issue: Date of Submission:
1. A surge of 15KV magnitude travels along a cable towards its junction with an overhead line . The
inductance and capacitance of the cable and overhead line are respectively 0.3mH, 0.4µF and
1.5mH, 0.012µF per km. Find the voltage rise at the junction due to the surge.
2. A 500KV 2µ sec rectangular surge on a line having a surge impedance of 350 ohms approaches a
station at which the concentrated earth capacitance is 300pF. Determine the maximum value of
the transmitted wave.
3. An overhead line with surge impedance 400 ohms bifurcates into two lines of surge impedance 400
ohms and 40 ohms respectively. If a surge of 20KV is incident on the overhead line , determine the
magnitude of voltages and current which enter the bifurcated lines.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
5.2 Control System
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Control system Tutorial No. 1
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 1/ Introduction Date of Issue: Date of Submission:
UNIT 1
1 Draw the Electrical analogous network for the mechanical system shown in the fig. using Force-
Voltage Analogy.
2 Determine the Transfer function of the electrical network shown in the fig.
3 Consider the Mechanical system show below and write the Differential equation.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Control system Tutorial No. 2
Course Code:TEE-602 Branch: EEE Semester: IV
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 2/ Time Response analysis Date of Issue: Date of Submission:
UNIT 2
1 With the Suitable block diagrams and Equations, Explain the following type of controllers employed in
Control Systems. i. Proportional controller, ii. Proportional – plus – integral controller, iii. PID
Controller ,iv. Integral controller.
2 The Unity feedback system is characterized by the open loop transfer function G( ) = / ( +10) .
Determine the gain K, so that the system will have the damping ratio of 0.5. For this value of K,
Determine the settling times, peak overshoot, and time to peak overshoot for a unit step input.
3 Derive Expression for Rise time, fall time, settling time, peak overshoot.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Control system Tutorial No. 3
Course Code:TEE-602 Branch: EEE Semester: IV
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 3/ Stability Analysis Date of Issue: Date of Submission:
UNIT3
1 Check the stability of a stability of a system with characteristics equation S 4+S
3+20S
2+9S+100 =
0 using Routh Hurwitz criterion.
2 Sketch the root locus of the system whose open loop transfer function is G(S)=K/S(S+2) (S+4)
Find the value of K so that the damping ratio of the Closed loop system is 0.5.
3 Construct Routh array and determine the stability of the system whose characteristic equation is left
S6+2S
5+8S
4+12S
3+20S
2+16S+16=0. Also determine the number of roots lying on right half of S-plane,
half of S-plane and on imaginary axis.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Control system Tutorial No. 4
Course Code:TEE-602 Branch: EEE Semester: IV
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 4/ Frequency response Analysis I Date of Issue: Date of Submission:
UNIT 4
1 Determine the Phase angle of the given transfer function G(S) = 10 / S (1+0.4S) (1+0.1S).
2 Sketch shape of polar plot for the open loop transfer function G(s)H(s) = 1/ (1+ ).
3 A unity feedback control system has G(s) = 1/ 2( +1)(1+2 ) Sketch the polar plot and Find the gain
and phase margin.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Control system Tutorial No. 5
Course Code:TEE-602 Branch: EEE Semester: IV
Faculty :Mr. Saurabh Rajvanshi
Unit/Title: 5/ Frequency response Analysis II Date of Issue: Date of Submission:
UNIT 5
1 Draw the Nyquist plot for the System whose open loop transfer function is G(s) H(s) = K / S (S+6)
(S+11). Determine the range of K for which the closed loop System is Stable.
2 Construct the Nyquist plot for a system, whose open loop transfer function is given by G(S) H(S) =
K(1+S) 2 / S
3 . Find the range of K for stability.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
5.3 Power Electronics
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power Electronics. Tutorial Sheet No. 1
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: 1/ Power Semiconductor Devices Date of Discussion:
Q1. A bipolar transistor with current gain = 50, has load resistance Rc = 10ohm, dc supply voltage Vcc =
120V and input voltage to base circuit, VB = 10V. For VCES = 1.2 V and VBES = 1.6V, calculate
(a) The value of RB for operation in the saturated state. (b) The value of RB for an or drive factor (c) Forced current gain and (d) Power loss in the transistor for both parts (a) and (b).
Q2. For the circuit shown in figure, the capacitor is initially charged to a voltage V0 with upper plate
positive. Switch S is closed at t=0. Derive expressions for the current in the circuit and voltage across
capacitor C. What is the peak value of diode current? Find also the energy dissipated in the circuit.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
Q3. In the diode and LC network shown in figure, the capacitor is initially charged to voltage V with
upper plate positive. Switch is closed at t = 0. Derive expressions for current through and voltage across
C.
Q4. Find the conduction time of diode, peak value of current through the diode and final steady state
voltage across C in case Vs= 400V, Vo=100V, L=100μH and C= 30μF. Determine also the voltage across
the diode after it stops conduction.
Q5. For an SCR the gate-cathode characteristic has a straight line slope of 130. For trigger source voltage
of 15 V and allowable gate power dissipation of 0.5W, compute gate source resistance.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power Electronics Tutorial Sheet No. 2
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: II/Power semiconductor Devices & DC-DC converters Date of Discussion:
Q1. For type-A chopper, dc source voltage=230V, load resistance=10ohm. Take a voltage drop
of 2V across chopper when it is on. For a duty cycle of 0.4, calculate average and rms values
of output voltage and chopper efficiency.
Q2. A step up chopper has input voltage of 220V and output voltage of 660V. If the conducting
time of thyristor-chopper is 100μs, compute the pulse width of output voltage. In case output
voltage pulse width is halved for constant frequency operation, find average value of new
output voltage.
Q3. An RLE load is operating in a chopper circuit from a 500Volt dc source. For the load,
L=0.06H, R=0 and constant E. For a duty cycle of 0.2, find the chopper frequency to limit
the amplitude load current excursion to 10A.
Q4. It is required to operate 250A SCR in parallel with 350A SCR with their respective on-state
voltage drops of 1.6V and 1.2V. Calculate the value of resistance to be inserted in series with
each SCR so that they share the total load of 600A in proportion to their current ratings.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power Electronics Tutorial Sheet No. 3
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: III/ Phase controlled Converters Date of Discussion:
Q1. A dc battery is charged through a resistor with the assumption that SCR is fired continuously.
(a) For an ac source voltage of 230V, 50Hz, find the value of average charging current for R=8ohm
and E=150V. (b) Find the power supplied to battery and that dissipated in the resistor. (c) Calculate the supply pf.
Q2. A 230V, 50Hz, one-pulse SCR controlled converter is triggered at a firing angle of 400 and the load
current extinguishes at an angle of 2100. Find the circuit turn off time, average output voltage and average
load current for
(a) R= 5ohm and L= 2mH (b) R=5 ohm, L=2mH and E=110V
Q3. A single phase transformer, with secondary voltage of 230V, 50Hz, delivers power to load R =
10ohm through a half wave controlled rectifier circuit. For a firing angle delay of 600, determine (a) the
rectification efficiency (b) form factor (c) voltage ripple factor (d) transformer utilization factor (e) PIV of
thyristor.
Q4. A single phase full converter, connected to 230V, 50Hz source, is feeding a load R = 10ohm in series
with a large inductance that makes the load current ripple free. For a firing angle of 450, calculate the
input and output performance parameter of this converter.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power Electronics Tutorial Sheet No. 4
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: IV/ AC Volatge Controllers & Cycloconverters Date of Discussion:
Q1. A single phase half wave ac voltage controller feeds a load of R= 20ohm with an input voltage of
230V, 50Hz. Firing angle of thyristor is 450. Determine (a) rms value of output voltage (b) power
delivered to load input pf and (c) average input current.
Q2. A single phase full wave ac voltage controller feeds a load of R = 20ohm with an input voltage of
230V, 50Hz. Firing angle for both the thyristors is 450. Calculate (a) rms value of output voltage (b) load
power and input pf (c) average and rms current of thyristors.
Q3. A single phase voltage controller has input volate of 230V, 50Hz and a load of R = 15 ohm. For 6
Cycles on and 4 cycles off, determine (a) rms output voltage, (b) input pf and (c) average and rms
thyristors currents.
Q4. A single phase bridge type cycloconverter has input voltage of 230V, 50Hz and load of R= 10ohm.
Output frequency is one-third of the input frequency. For a firing angle delay of 300, calculate (a) rms
value of output voltage (b) rms current of each converter (c) rms current of each thyristor and (d) input
power factor.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Power Electronics Tutorial Sheet No. 5
Course Code: TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: V/ Inverters Date of Discussion:
Q1. A single phase bridge inverter delivers power to a series RLC load with R= 2ohm and ωL = 10ohm.
The periodic time T= 0.1 msec. What value of C should the load have in order to obtain load
commutation for the SCRs. The thyristor turn off time is 10μsec. Take circuit turn off time as 1.5 tq .
Assume that load current contains only fundamental component.
Q2. A single phase full bridge inverter is fed from a dc source such that the fundamental component of
output voltage is 230V. Find the rms value of thyristor and diode currents for the following loads:
(a) R = 2ohm
(b) R = 2ohm, XL= 8ohm, Xc=6ohm
Q3. A three-phase bridge inverter delivers power to a resistive load from a 450V dc source. For a star-
connected load of 10Ω per phase, determine for both (a) 1800 mode and (b) 120
0 mode,
(i) Rms value of load current (ii) Rms value of thyristor current (iii) Load power.
Q4. A single-phase bridge inverter is fed from 230Vdc. In the output voltage wave, only fundamental
component of voltage is considered. Determine the rms current ratings of an SCR and a diode of the
bridge for the following types of loads:
(i) R= 20ohm (ii) ωL = 2ohm
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
5.4 VLSI CIRCUIT DESIGN
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: VLSI CIRCUIT DESIGN TUTORIAL No. 1
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. A CMOS inverter is built in a process where k’n = 100μA/V2, Vtn= +0.7V, k'p = 42 μA/V2, Vtp=-0.8V, and a power supply of VDD = 3.33V is used .Find midpoint voltage VM if (W/L)n =10 and (W/L)p= 14.
2. Discuss the CMOS invertors transfer characteristics.
3. Find gm for an n-channel transistor with Vgs=1.2V: Vtn =0.8V; (W/L) = 10μn Cox = 92μA/V2.
4. Define the term threshold voltage of MOSFET and explain its significance. 5. Derive an equation for Transconductance of an n channel enhancement MOS-FET
operating in active region. 6. A PMOS transistor is operated in triode region with the following parameters. VGS= -
4.5V, Vtp= -1V; VDS= -2.2 V, (W/L) = 95, μnCox = 95μA/V2. Find its drain current and drain source resistance.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: VLSI CIRCUIT DESIGN TUTORIAL No. 2
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. Calculate the gate capacitance of an nFET with following parameter. W = 8μm, L= 0.5μm,
Cox = 3.45 × 10−7
F/cm2.
2. Design a stick diagram and layout diagram for the CMOS logic shown below Y = (A + B) (C + D).
3. What is a stick diagram? Draw the stick diagram and layout for a CMOS inverter.
4. What are the effects of scaling on VT?
5. What are design rules? Why is metal- metal spacing larger than poly -poly spacing.
6. What is a stick diagram? Draw the stick diagram and layout for a CMOS inverter.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: VLSI CIRCUIT DESIGN TUTORIAL No. 3
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. Write the equations for a full adder in SOP form. Sketch a 3-input, 2- output PLA implementing this logic.
2. Draw the typical architecture of PAL and explain the operation of it. 3. What is CPLD? Draw its basic structure and give its applications. 4. Draw and explain the Antifuse Structure for programming the PAL device. 5. Explain how the I/O pad is programmed in FPGA. 6. What are different classes of Programmable CMOS devices? Explain them briefly. 7. What is the basis for standard-cell? What are basic classes of circuits for Library cells? 8. Draw the typical standard-cell structure showing regular-power cell and explain it.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: VLSI CIRCUIT DESIGN TUTORIAL No. 4
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: I Date of Issue: Date of Submission:
1. Explain the gate level and function level of testing. 2. A sequential circuit with n inputs and ‘m’ storage devices. To test this circuit how
many test vectors are required? 3. What is sequential fault grading? Explain how it is analyzed. 4. Explain how the cost of chip can effect with the testing levels, 5. Explain how observability is used to test the output of a gate within a larger
circuit. 6. How the Iterative Logic Array Testing can be reduced number of tests. 7. Explain how the cost of chip can effect with the testing levels,
a. Fault Analysis b. Fault Sampling.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: VLSI CIRCUIT DESIGN TUTORIAL No. 5
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Unit/Title: V Date of Issue: Date of Submission:
1. Explain how an Ad-hoc test technique used to test long counters. November 2008 set4 2. Explain the gate level and function level of testing. 3. A sequential circuit with n inputs and ‘m’ storage devices. To test this circuit how many
test vectors are required? 4. What is sequential fault grading? Explain how it is analyzed. 5. Why stuck-at faults occur in CMOS circuits? Explain with suitable logical diagram and
layout. 6. Draw a schematic for a CMOS edge-sensitive scan-register and also draw some circuit
level diagrams of its implementation. 7. Explain how function of system can be tested. 8. Explain any one of the method of testing bridge faults. 9. What type of faults can be reduced by improving layout design? 10. Explain the functionality test of a chip with suitable examples. 11. What are the categories of Design for testability? Explain them briefly
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
5.5 Data Structure using C++
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Data Structure using C++ Tutorial Sheet No. 1
Course Code:TCS-607 Branch:EEE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title:UNIT-1 Date of Discussion:
Q1. What is a data structure? Explain the characteristics of Data Structure.
Q2. What do you mean by Asymptotic Notation? Explain its type.
Q.3 Explain about the types of linked lists. Write the programs for Linked List
(Insertion and Deletion) operations
Q4. If you are using C language to implement the heterogeneous linked list, what
pointer type will you use?
Q5. A two dimensional array TABLE [6] [8] is stored in row major order with base
address 351. What is the address of TABLE [3] [4]?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Data Structure using C++ Tutorial Sheet No. 2
Course Code:TCS-607 Branch: EEE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title:UNIT-2 Date of Discussion:
Q1. Evaluate the following prefix expression " ++ 26 + - 1324" (Similar types can
be asked) . Q2. How is it possible to insert different type of elements in stack?
Q.3. Which data structure is needed to convert infix notations to post fix notations?
Q4. Write an algorithm to evaluate a postfix expression. Execute your algorithm
using the following postfix expression as your input : a b + c d +*f . Q5. What are
circular queues? Write down routines for inserting and deleting
elements from a circular queue implemented using arrays.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Data Structure using C++ Tutorial Sheet No. 3
Course Code:TCS-607 Branch: EEE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title:UNIT-3 Date of Discussion:
Q.1 Given a set of input representing the nodes of a binary tree, write a non
recursive algorithm that must be able to output the three traversal orders.
Write an algorithm for checking validity of the input, i.e., the program must
know if the input is disjoint, duplicated and has a loop.
Q.2 What is a Binary Search Tree (BST)? Make a BST for the following sequence
of numbers 45, 36, 76, 23, 89, 115, 98, 39, 41, 56, 69, 48
Traverse the tree in Preorder, Inorder and postorder.
Q.3 Two Binary Trees are similar if they are both empty or if they are both
nonempty and left and right sub trees are similar. Write an algorithm to determine
if two Binary Trees are similar. Q.4 The degree of a node is the number of children
it has. Show that in any binary tree, the number of leaves are one more than the
number of nodes of degree 2 . Q.5 Taking a suitable example explains how a
general tree can be represented as a Binary Tree.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Data Structure using C++ Tutorial Sheet No. 4
Course Code:TCS-607 Branch: EEE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title:UNIT-4 Date of Discussion:
Q.1 Draw the complete undirected graphs on one, two, three, four and five
vertices. Prove that the number of edges in an n vertex complete graph is n(n-1)/2.
Q.2 Draw the complete undirected graphs on one, two, three, four and five vertices. Prove that the number of edges in an n vertex complete graph is n(n-1)/2.
Q.3 What are the different ways of representing a graph? Represent the following graph using those ways.
Q.4 What are the different ways of representing a graph? Represent the following graph using those ways.
Q.5 Write an algorithm which does depth first search through an un-weighted connected graph. In an un-weighted graph, would breadth first search or depth
first search or neither find a shortest path tree from some node? Why?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Data Structure using C++ Tutorial Sheet No. 5
Course Code:TCS-607 Branch: EEE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title:UNIT-5 Date of Discussion:
Q.1Bubble sort algorithm is inefficient because it continues execution even
after an array is sorted by performing unnecessary comparisons. Therefore, the number of comparisons in the best and worst cases are the same. Modify the
algorithm in such a fashion that it will not make the next pass when the array is already sorted.
Q.2 What are B-trees? Construct a B-Tree of order 3 for the following set of Input data: 69, 19, 43, 16, 25, 40, 132, 100, 145, 7, 15, 18.
Q.3 Draw the 11 item hash table resulting from hashing the keys: 12, 44, 13, 88,
23, 94, 11, 39, 20, 16 and 5 using the hash function h(i) = (2i+5) mod 11.
Q.4 What is the average number of comparisons in a sequential search?
Q.5 1 Sort the following list using Heap Sort technique, displaying each step.
20, 12, 25 6, 10, 15, 13
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
5.6 Principle of Management
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name: Principles of Management Tutorial Sheet No. 1
Course Code:THU-608 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit/Title: Date of Discussion:
CASE -1
“Managing by objective is nothing new here” , said commissioner Gaurav of the metropolis Police
Department. “ We have always had important objectives toward which every one in my department
strives. Our job is to maintain law and order, firmly but fairly; to protect human lives and property; and to
be the conscience and spirit of the general welfare of the millions of people who call our city home.
Everyone in this department knows these objectives. Every man and woman knows that he or she must
work toward them and that, if they do not, they will be replaced. I recognize that in a manufacturing
concern you can measure objectives by profits, sales, costs and product output. We can’t, of course, do
that, for we are service operation. But this does not mean that we are not managing by objectives. Ask
anyone in my department?
Questions
1. (a) Is commissioner Gaurav engaging in managing by objectives? What, if anything, is missing?
(b) What would you suggest the commissioner do?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
TUTORIAL SHEET
Course Name:Principles of Management Tutorial Sheet No. 2
Course Code:THU-608 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit/Title: Date of Discussion:
CASE - 2
The personnel Manager of Bushan steels, an engineering unit based at Kolkata has been banging the
executive conference table of the company for some months asserting that the true function of
Management is to take care of the needs of the staff and let the staff take care of the goals of the
organization. The marketing Manager has, on the other hand, been expressing the view that the real
function of management is to take care of the market and staff must fall in line with the objectives, plans
and priorities of the company.
Question
Which of these views is correct and why?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
6.1 Power System Analysis
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 1
Course Code: Branch: EEE Semester: V
Faculty :Mrs. Nandita Rana
Unit/Title: 1/ Symmetrical Components, Fault Calculations Date of Issue: Date of Submission:
1. A 100 MVA 33KV 3-phase generator has a sub transient reactance of 15%. The generator is
connected to the motors through a transmission line and transformers as shown in fig 1.1 . The motor
have a rated input of 30MVA, 20MVA and 50MVA at 30KV with 20% sub transient reactance. The
3-phase transformer are rated at 111MVA, 32KV∆/110KV with leakage reactance
8%. The line has a reactance of 50 ohms. Selecting the generator rating as the base quantities in
other parts of the system and evaluate the corresponding p.u. values.
2. The line –to- ground voltage on the high voltage side of a step up transformer are 100 KV, 33KV and
38 KV on phases a,b,c respectively. The voltage of phase a leads that of phases b by 1000 and lags
that of phase c by 176.50. Determine the analytically the symmetrical components of voltage.
3. The line current in ampere is phases a,b,c respectively are 500+j150, 100-j600 and -300+j600 are
referred to the same reference vector. Find the symmetrical components of currents.
4. Determine the fault current and line to line voltage at the fault when a line to line fault occurs at
the terminals of the alternator described in the fig 13.4 .
5. Determine the fault current and the line to line voltages at the fault when a double-line to ground
fault occur at the terminal of the alternator described in the above diagram.
6. State Fortescue’s Theorem . 7. Significance of positive, negative and zero sequence components. 8. Calculate average 3-phase power in terms of symmetrical components. 9. Explain the concept of Sequence Impedance. 10. Explain Types of Faults. 11. Show the calculation of 3-phase short circuit current. 12. What is a reactor. Explain type of Reactors. 13. Explain the concept of short circuit capacity of a bus.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 2
Course Code: Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: II/ Load Flow Analysis Date of Issue: Date of Submission:
1.The following is the system data for a load flow solution :
The line admittance:
Bus code Admittance
1-2 2-j0.8
1-3 1-j4
2-3 0.666-j2.664
2-4 1-j4
3-4 2-j8
The schedule of active and reactive powers:
Bus code P Q V Remarks
1 - - 1.06 Slack
2 0.5 0.2 1+J0 PQ
3 0.4 0.3 1+J0 PQ
4 0.3 0.1 1+J0 PQ
Determine the voltages at the end of first iteration using Gauss-Siedel. Take α=1.6.
2. The load flow data for the sample power system are given below. The voltage
magnitude at bus 2 is to be maintained at 1.04pu. The maximum and minimum
reactive power limits of the generator at bus2 are 0.35 and 0 pu. Respectively.
Determine the set of load flow equations at the end of first iteration by using
Newton-Raphson method.
Bus code Impedance Line charging Impedance
1-2 0.08+j0.24 0.0
1-3 0.02+j0.06 0.0
2-3 0.06+j0.18 0.0
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
Schedule of generation and loads:
Bus code Assumed Generation Load
Voltages MW MVAR MW MVAR
1 1.06+j0 0 0 0 0
2 1+ j0 0.2 0 0 0
3 1+j0 0 0 0.6 0.25
3.How do you classify buses?
4.What is nodal Admittance matrix?
5.How do we develop load flow equations?
6.What are iterative methods for solving load flow analysis?
7.Explain Newton-Raphson method of solving load flow equations.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. 3
Course Code: Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: III/ Power System Stability Date of Issue: Date of Submission:
1. Assume angular difference between the voltages at sending end and receiving end being
300. Also assume sending end voltages 1.0 p.u. and receiving end as 0.9 p.u. Therefore
we have significant voltage difference between the sending end receiving, a difference
of 10% and hence we should except large reactive power flow over line.
2. A 230/34.5 KV transformer has 10% leakage reactance. Assume initial n=1. Determine the effect
of tapping to raise the secondary voltage by 10%.
3. A generator is rated for 0.95 lag p.u. The turbine rating is specified to match the real power
at rated p.f. Assuming the rating of turbine fixed, determine the generator rating if 0.8 lag p.f.
is specified. Also, calculate the additional reactive power capability at full load. 4. Explain the concept of Reactive Power Flow.
5. What are difficulties associated with reactive power transmission.
6. Explain the concept short circuit capacity.
7. Explain the concept of voltage stability.
8. What is line drop compensation.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
ASSIGNMENT SHEET
Course Name: Power system Analysis Assignment No. IV
Course Code: Branch: EEE Semester: VI
Faculty : Mrs. Nandita Rana
Unit/Title: IV/ Wave Equation Date of Issue: Date of Submission:
1. A surge of 15KV magnitude travels along a cable towards its junction with an overhead line . The
inductance and capacitance of the cable and overhead line are respectively 0.3mH, 0.4µF and
1.5mH, 0.012µF per km. Find the voltage rise at the junction due to the surge.
2. A 500KV 2µ sec rectangular surge on a line having a surge impedance of 350 ohms approaches a
station at which the concentrated earth capacitance is 300pF. Determine the maximum value of
the transmitted wave.
3. An overhead line with surge impedance 400 ohms bifurcates into two lines of surge impedance 400
ohms and 40 ohms respectively. If a surge of 20KV is incident on the overhead line , determine the
magnitude of voltages and current which enter the bifurcated lines.
4. Calculate the wave equation for uniform transmission line.
5. Explain the concept of wave propagation.
6. What is surge impedance.
7. Explain the Bewley’s Lattice Diagram.
8. How do we protect transmission lines against travelling lines.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
6.2 Control System
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
Question Bank
Course Name: Control System Question Bank
Course Code:TEE-602 Branch: EEE Semester: VI
Faculty : Mr. Saurabh Rajvanshi
Question bank Unit-I The control system
1. “The sensitivity of a closed-loop system with respect to variation of a closed loop system
with respect to variation in G is reduced by a factor (1+GH) as compared to that of an open-
loop system”. Prove the statement.
2. 1.Write the differential equations governing the Mechanical system shown in fig
3. Determine the transfer function Y2(S)/F(S) of the system shown in fig.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
4. Determine the overall transfer function C(S)/R(S) for the system shown in fig.
5. Obtain the closed loop transfer function C(S)/R(S) of the system whose block diagram is
6. Find the overall gain C(s) / R(s) for the signal flow graph shown below.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
7. .Find the overall gain of the system whose signal flow graph is shown in fig.
8. Draw a signal flow graph and evaluate the closed loop transfer function of a system whose block is shown in fig.
9. Write the differential equations governing the mechanical systems shown below. Draw the force-voltage and force-current electrical analogous circuits and verify by writing mesh and node equations.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
10 Derive the transfer function for Armature controlled DC motor.
11 What is mathematical model of a system and What are the two major type of control systems?
Unit-II Time Response Analysis
12 What do you mean by an ‘order’ and ‘type’ of a system. Explain :
(i) Type-0 system
(ii) Type-1 system
(iii) Type-2 system
13 Obtain the unit-step response of a unity feedback control system whose open-loop transfer
function is
G(s) = 4/s(s+5)
14 Discuss the time response of a general second order system. what are the various time
response specification for a general second order system?
give their expressions for a unit step input
15 Derive the expressions and draw the response of first order system for unit step input.
16 Draw the response of second order system for critically damped case and when input is unit step.
17 Derive the expressions for Rise time, Peak time, Peak overshoot, delay time.
18 Define damping ratio The closed loop transfer function of second order system is C(S)/R(S)
=10/ S2 +6S +10.what is type of damping
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Unit-III Control System Components
19 Sketch the inverse polar plot of G(s) = (1+sT)/sT
20 Define the minimum, non minimum and all-pass system.
21 “When a pole at origin is added, the head and tail of the polar plot shift by 900 in
clockwise direction”. Prove it by taking an example.
22 The open loop transfer function of a unity feedback control system is given by:
G(s) = k/s(s+1)(s=2)
Determine the static error constants. Find the minimum value of k for which the steady state
error is less than 0.1 for a unit ramp input.
23 Discuss the stability of a linear control system. How relative stability of a control system
is determined? Discuss with suitable examples.
24 The characteristics equation of a system is given by :
5s6 + 8s
5 + 12s
4 +20s
3 +100s
2 +150s + 200 = 0
Determine the stability of the system using Routh-Hurwitz criterion.
25 What are the following? Explain with examples :
(a) PID controller
(b) Stepper motor
(c) Servo motor
26 Derive the steady state error for a same system using derivative and integral control
action separately, compare their performance.
27 The closed loop transfer of a control system is:
G(s) = 16/ (s2+ 1.6s+ 16)
Determine the derivative feedback constant Kt and compare the rise time, peak time, maximum
overshoot and steady state error for unit ramp input with and without derivative feedback
control. If it is desired to have the damping ratio to be 0.8
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Unit-IV Frequency response Analysis 1. Consider a unity feedback system with open loop transfer function :
G(s) = 20(s+1)/s(s+5)(s2+2s+10)
Draw the Bode plot and determine the gain margin and phase margin.
2. Sketch the Root locus plot of a unity feedback system with open loop transfer function :
G(s) = k/s(s+2)(s+4)
Find the range of values of k for which the system has damped oscillatory response. What is
the greatest value of k which can be used before continuous oscillations occur? also determine
the frequency of continues oscillations.
3. Discuss the Nyquist stability criterion with suitable example.
4. Discuss the effect of adding (i)a pole and (ii) a zero , to the system transfer function.
5. Explain briefly constant Magnitude loci (M-circles) and constant phase angle loci (N-circles)
6. Sketch the Root-locus for the system :
G(s)H(s) = k/(s+1)(s+3)(s3+4s+8)
7. Consider a unity feed back control system for the following open loop transfer function.
G(s) = k/s(s2+4s+8)Plot the Root locus for the system
8. Sketch the Bode plot for the transfer function
G(s) = 1000/(1+0.1s)(1+0.001s)
Determine the phase margin, gain margin, stability of the system.
9. Sketch the Bode plot for the transfer
function G(s) = 1000/s(1+0.1s)(1+0.001s)
Determine the phase margin, gain margin, stability of the system.
10. Draw the Bode plot for the transfer function
G(s) = 50/(1+0.25s)(1+0.1s)
Determine the Gain crossover frequency, Phase cross over frequency, Phase margin,
Gain margin, stability of the system
11. With suitable diagram define Phase crossover frequency, Phase cross over frequency,
Phase margin, Gain margin.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Unit-V Introduction to Design
1. Discuss the advantage of space state representation of system. Point out the significance of state transition matrix is solving question.
2) A system is characterised by the transfer function T(s)= 2/(s3+ 6s
2+11s+6) obtain state
space model and determine whether or not the system is controllable and observable.
3) explain what do you understand by cascade-lead compensation of linear control system?
4) give the transfer function of a typical lead compensator and explain it’s basic characteristics
in reference to bode plot.
5) Design a lead compensator for a plant G(s) = 1/s(s+1) assume that the specification for the
transient response and such that ζ = 0.707 & ώn =2 rad/sec for the desired closed loop poles
will give a satisfactory response.
6) What are the various type of compensation schemes used in control systems? explain the
concept of cascade-lead compensation of control system with help of an example.
7) design a lag compensator (root locus) for kv ≥ 5, ζ =0.707 & ώn = 0.81
for G(s)H(s)=2.74/s(s+1)(s+4)
8) Find the stability of the system whose system matrix is given by
5-6 -12 -1 1 2 5 -6-11
9) What is the properties of state transition matrix and find the state transition matrix for
dx1/dt = x2
d x2/dt = -5 x1 -6 x2 10) the transfer function of the system is G(s) = 2/(s+1)(s+2) obtain a state variable
representation
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
6.3 Power Electronics
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name: Power Electronics Question Bank No. 1
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: 1/ Power Semiconductor Devices Date of Discussion:
Q1. Discuss the various types of power electronic converters with their circuit symbols and maximum ratings.
Q2. Discuss the following terms for diodes: Softness factor, PIV, reverse recovery time, reverse recovery current.
Q3. Give a comparison between an IGBT and a PMOSFET.
Q4. Give I-V characteristics of an MCT. Compare it with the characteristics of other power semiconductor devices.
Q5. Describe reverse recovery characteristics of diodes. Show that the reverse recovery time and peak inverse current are dependent upon storage charge and rate of change of current.
Q6. Define input power factor, displacement factor DF and current distortion factor CDF for a rectifier system and show that input power factor = CDF *DF.
Q7. Describe the two-transistor model of a thyristor.
Q8. Write comparison between GTO and thyristor.
Q9. Describe the methods employed for improving di/dt rating in a thyristor.
Q10. Define latching and holding currents as applicable to an SCR. Show these currents on its static I-V characteristics.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name: Power Electronics Question Bank No. 2
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: II/ Power Semiconductor Devices(contd.) & DC-DC Date of Discussion:
converters
Q1. Enumerate the abnormal conditions against which thyristors must be protected.
Q2. Draw a circuit diagram illustrating the protection of anode and gate circuits of an SCR.
Describe briefly the function of various components used.
Q3. Explain the merits and demerits of self-commutation of SCR and its other methods of commutation.
Q4. Describe Class C type of commutation used for thyristors with appropriate current and voltage
waveforms.
Q5. Enumerate the various commutation techniques used for thyristors.
Q6. What is current limit control? How does it differ from time ratio control? Which of these
control strategies is preferred over the other and why?
Q7. For type-A chopper connected to RLE load, write the basic voltage equations and derive expressions for
the maximum and minimum values Of load currents in terms of source voltage, R, E,Vs etc.
Q8. What is a dc chopper? Describe the working of type-B chopper. Does it operate as a step down
or step-up chopper? Explain.
Q9. A step-up chopper has a pulse width of 100μs is operating from 230V dc supply. Compute
the average value of load voltage for a chopping frequency of 2000 Hz.
Q10. A type-A chopper has input dc voltage of 200V and a load of R=10Ω in series with L=80mH. If the
load current varies linearly between 12A and 16A, find the time ratio Ton/Toff for this chopper.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name: Power Electronics Question Bank No. 3
Course Code: TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: III/ Phase Controlled Converters Date of Discussion:
Q1. Power flow from 1-phase source to load R can be controlled through the use of a thyristor. Discuss
why this method of power flow control is called phase-controlled converters.
Q2. A single-phase half-wave SCR circuit feeds power to a resistive load. Draw waveforms for source
voltage, load voltage, load current and voltage across the SCR for a given firing angle α. Hence obtain
expressions for average and rms load voltage in terms of source voltage and firing angle.
Q3. Describe the working of a single-phase one-pulse SCR controlled converter with RLE load through
the waveforms of supply voltage, load voltage, load current and voltage across the SCR. Hence derive
expression for the load current.
Q4. Describe the working of a single-phase full-converter in the rectifier mode with RLE load.
Q5. Describe how a freewheeling diode improves power factor in a converter system.
Q6. Describe the effect of source inductance on the performance of a 3-phase full-converter with the help
of phase voltage waveforms.
Q7. Explain how two 3-phase full-converters can be connected back to back to form a circulating type of
dual converter.
Q8. A single phase full converter, connected to 230V, 50 Hz source, is feeding a load R=10Ω in series
with a large inductance that makes the load current ripple free. For a firing angle of 450, calculate the
input and output performance parameters of this converter.
Q9. A three phase full-converter charges a battery from a three phase supply of 230V, 50Hz. The battery
emf is 200V and its internal resistance is 0.5Ω. On account of inductance connected in series with the
battery, charging current is constant at 20A. Compute the firing angle delay and the supply power factor.
Q10. A single phase 230V, 1kW heater is connected across 1–phase, 230V, 50Hz supply through an SCR.
For firing angle delays of 450 and 90
0, calculate the power absorbed in the heater element.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name: Power Electronics Question Bank No. 4
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: IV/ AC Voltage Controllers/ Cycloconverters Date of Discussion:
Q1. What is an ac voltage controller? List some of its industrial applications. Enumerate its merits and
demerits.
Q2. Describe the principle of phase control in single-phase half-wave ac voltage controller.
Q3. What are the control strategies for the regulation of output voltage in ac voltage controllers?
Q4. Discuss the principle of phase control in single-phase full-wave ac voltage controller. Derive
expression for the rms value of output voltage.
Q5. Compare the merits of controlling the heater power by a triac using integral cycle over the phase-
angle control.
Q6. Define the term power factor. Derive its expression for a single-phase voltage controller feeding a
resistive load circuit.
Q7. Discuss why 3-phase to 1-phase cycloconverter requires positive and negative group phase controlled
converters.
Q8. What are the advantages of 3-phase bridge circuit cycloconverter over 18-thyristor device.
Q9. Describe the operating principle of single-phase to single-phase step up cycloconverter with the help
of mid-point and bridge-type configurations.
Q10. A single-phase full-wave ac voltage controller feeds a load of R=20Ω with an input voltage of
230V, 50Hz. Firing angle for both the thyristors is 450 Determine (a) rms value of output voltage (b) load
power and input pf (c) average and rms current of thyristors.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name: Power Electronics Question Bank No. 5
Course Code:TEE-603 Branch: EEE Semester: VI
Faculty : Ms. Sonam Rawat
Unit/Title: V/ Inverters Date of Discussion:
Q1. What are the two main types of inverters? Distinguish between them.
Q2. What is the purpose of connecting diodes in antiparallel with thyristors in inverter circuits? Explain
how these diodes come into play.
Q3. Write Fourier series expression for output voltages and currents obtained from single-phase half-
bridge and full-bridge inverters.
Q4. For a 3-phase 1200 mode bridge inverter feeding a delta-connected resistive load, sketch any
line voltage waveform. From this waveform, calculate rms value of line voltage.
Q5. Describe briefly and compare the various methods employed for the control of output voltage
of inverters.
Q6. What is pulse width modulation? List the PWM techniques.
Q7. State some requirements of a good inverter.
Q8. Write down the steady-state analysis of single-phase inverter.
Q9. Describe the terms in relation to inverters:
Harmonic factor, Total Harmonic Distortion, Distortion Factor
Q10. Describe the working of three-phase bridge inverter in 1800 mode.
Q11. Discuss the merits and demerits of 120-degree mode inverter over 180-degree mode inverter.
Q12. A three-phase bridge inverter delivers power to a resistive load from a 450V dc source. For a star-
connected load of 10Ω per phase, determine for both (a) 1800 mode and (b) 120
0 mode,
(i) Rms value of load current (ii) Rms value of thyristor current (iii) Load power.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
6.4 VLSI CIRCUIT DESIGN
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name: VLSI CIRCUIT DESIGN QUESTION BANK
Course Code:TEC-602 Branch: ECE Semester: 6TH
Faculty : K.C. Tyagi
Question bank of VLSI Design:
Unit-1 What is body affect? Discuss different parameters on which threshold voltage depends? Determine Zpu to Zpd ratio for nMOS inverter driven through one or more pass transistor? Discuss the gate source and gate drain capacitance of an N-Channel FET. Calculate the gate capacitance of an nFET with following parameter. W = 8μm, L= 0.5μm,
Cox = 3.45 × 10−7
F/cm2. Clearly explain the body effect of a MOS FET. Clearly explain channel length modulation of a MOS FET. With neat sketches, explain the transfer characteristic of a CMOS inverter. Derive an equation for Ids of an n-channel enhancement MOSFET operating in saturation
region. Explain Accumulation, Depletion layers in MOs with Energy band diagram. Q.2. Derive an expression for Depletion depth and Max Depletion depth in MOS structure. Q.3. what do you mean by Scaling and small geometry effects in VLSI design for MOS? Find all
the basic parameters of a MOS after constant Electric field scaling and constant voltage scaling.
Q.4. Derive an expression for drain current in linear region, saturation region through gradual
channel approximation and Channel length modulation. Q.5. what are physical limitations and parasitic effects in miniaturizing the circuits? Explain each
in detail. Q.6. Describe the structure and operation of MOSFET with its characteristics. Q.7. Explain how computer aided design technology helps us to design VLSI circuits. Q.8. Write a Short note on spice for circuit simulation. Explain the VLSI Design flow diagram?
Q.9. Explain and Draw the V-I characteristics of N - Depletion type-MOSFET (D-MOS). Explain
and Draw the V-I characteristics of P - Enhancement type-MOSFET (E-MOS). Q.10 Explain and Draw the V-I characteristics of P - Depletion type-MOSFET (D-MOS). Explain
and Draw the V-I characteristics of N - Enhancement type-MOSFET (E-MOS).
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Q.11. what are the basic components of Threshold voltage (VTO or VTH)? Derive an expression
for the same with and without body or substrate effect.
Q.12. Explain non-ideal I - V effects in MOS. Q.13. Discuss Gate capacitance model and diffusion capacitance model of MOS.
Q.14. Consider the MOS transistor with following parameters: tOX = 200Ao, ФGC = - 0.85V, NA =
2 x 1015
cm - 3
, QOX = q x 2 x 1011
C / cm2.Determine (a) the threshold voltage VTH under zero
body bias at room temperature (T = 300Ko ) given that εOX = 3.97 ε0 and εSi = 11.7 ε0 (b)
Determine the type of MOS transistor (N – Type or P – Type ) and amount channel Implant in N / cm required to change the threshold voltage to 0.8 V. Q.15. Derive Drain current equations of MOS transistors (Enhancement N-Type or P- Type)
using Gradual Channel approximation theory or model operating in the following regions (i)
Linear (ii) Saturation (iii) Cutoff Q.16. Derive Drain current equations of MOS transistors (Enhancement N-Type or P- Type)
using Channel length modulation theory or model operating in the following regions (i) Linear (ii)
Saturation (iii) Cutoff Q.17. Explain how and when an N channel MOSFET (Enhancement N- MOSFET) conduct
current? Q.18. Explain how and when an P channel MOSFET (Enhancement P- MOSFET) conduct
current?
Q.19. Explain how a channel in MOSFET work for small values of VDS? Q.20. How much we will expect the static power dissipation of gate to be, if we set the inputs of
a particular CMOS gate to voltages that correspond to valid logic levels? Q.21. Explain why the threshold voltage of Enhancement N-channel MOSFET is Positive
quantity whereas the threshold voltage of Enhancement P-channel MOSFET is Negative
quantity?
Q.22. Consider the following N- channel MOS process, substrate doped NA = 1016
cm - 3
,
poly-silicon gate density; NA = 2x1020
cm - 3
, gate oxide thickness tOX = 500Ao, and oxide-
interface fixed charge density NOX = 4 x 1010
cm-2.Determine (a) the threshold voltage VTH
under zero body bias at room temperature (T = 300Ko ) given that εOX = 3.97 ε0 and εSi = 11.7
ε0 (b) Determine the type of MOS transistor (N – Type or P – Type ) and amount channel
Implant in N / cm required to change the threshold to 1V. Assume ФF (gate ) = 0.55V. Q.23. Explain why we required BiCMOS circuits to derive large capacitive load (ON-chip loads
and OFF chip loads)? Q.24. Explain the static behavior of basic BiCMOS inverter with resistive base pull-down. Also
explain the Conventional BiCMOS inverter circuit with active base pull-down. Q.25. Compare the BiCMOS and CMOS with respect to basic designing parameters. What are
the applications in complex logic circuits? Q.26 Design and implement the two input NAND and NOR gates Q.26. Explain the circuit operation of CMOS transmission gate (Pass gate). Q.27. Design and implement two input X-OR gate by using (i) Six transistor CMOS transmission
gate (ii) Eight transistor CMOS transmission gate. Q.28. Explain why and how the effects that arise when the channel is taken SHORT in MOS
structure (Devices)?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Q.29. Explain why and how the effects that arise when the channel is taken NARROW in MOS
structure (Devices)? Q.30. Compare voltage levels and noise margin for bipolar and CMOS logic family. Q.31. what is body affect? Discuss different parameters on which threshold voltage depends
Q.32. Discuss the gate source and gate drain capacitance of a MOSFET.. Q.33.Calculate the gate capacitance of a MOSFET with following parameter. W = 8 μm, L = 0.5
μm, Cox = 3.45 × 10 −7
F/cm 2.
Q.34. A CMOS inverter is built in a process where k’n = 100 μA / V 2, Vtn = +0.7V, k'p = 42 μA/
V2 , V tp =-0.8V, and a power supply of VDD =3.33V is used .Find mid point voltage VM if (W/L)n
=10 and (W/L)p = 14.
Q.35. Find g m for an n-channel transistor with Vgs=1.2V: Vtn =0.8V; (W/L) = 10; μn Cox = 92
μA/V 2.
Q.36. A PMOS transistor is operated in triode region with the following parameters. VGS= -
4.5V, Vtp= -1V; VDS=-2.2 V, (W/L) =95, μnCox =95μA/V2. Find its drain current and drain
source resistance. Q.37. Explain Accumulation, Depletion layers in MOs with Energy band diagram. Q.38. Derive an expression for Depletion depth and Max Depletion depth in MOS structure. Q.39. Describe the structure and operation of MOSFET with its characteristics. Q.40. Explain the static behavior of basic BiCMOS inverter with resistive base pull-down. Also
Q.41. explain the Conventional BiCMOS inverter circuit with active base pull-down.
Q.42. A PMOS transistor is operated in triode region with the following parameters. VGS = -
4.5V, Vtp = -1V; VDS=-2.2 V, (W/L) =95, μn.Cox =95μA/V2. Find its drain current and drain
source resistance. Q.43. Explain and Draw the V-I characteristics of P - Depletion type-MOSFET (D-MOS). Explain
and Draw the V-I characteristics of N - Enhancement type-MOSFET (E-MOS).
Explain how inversion or channel is created in MOs with Energy band diagram. Derive an expression for offset Depletion depth and Max Depletion depth in MOS structure. Describe the structure and operation of Enhancement N- MOSFET with its characteristics.
A NMOS transistor is operated in triode region with the following parameters. VGS = 4.5V,
Vtp = 1V; VDS=2.2 V, (W/L) =95, μn.Cox =95μA/V2. Find its drain current and drain source
resistance. Explain and Draw the V-I characteristics of N - Depletion type-MOSFET (D-MOS). Explain
and Draw the V-I characteristics of N - Enhancement type-MOSFET (E-MOS). Explain why we required BiCMOS circuits to derive large capacitive load (ON-chip loads and
OFF chip loads)? Explain and Draw the V-I characteristics of P - Depletion type-MOSFET (D-MOS). Explain
and Draw the V-I characteristics of P - Enhancement type-MOSFET (E-MOS). Calculate the gate capacitance of a MOSFET with following parameter. W = 10 μm, L = 1
μm, Cox = 3 × 10 −8
F/cm 2.
Findg m for an p-channel transistor with Vgs= -1.2V: Vtn = - 0.8V; (W/L) = 10; μn Cox = 90
μA/V 2.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
What are the basic components of Threshold voltage (VTO or VTH)? Derive an expression
for the same with and without body or substrate effect.
Explain how much short & narrow channel threshold voltage changes? Calculate and explain Design and implement two inputs dynamic CMOS transmission X-OR gate Explain the charging and discharging time and voltage across the parasitic capacitance Implement the followings using N-MOS dynamic logic function (i) Z = ( AB + CD + E )’
o (ii) Z = {(D +E + A)(B + C)}’
Implement the followings using C-MOS dynamic logic function and (i) Z = ( AB + CD + E )’o (ii) Z= {(D +E + A)(B + C)}’
Draw the mask-layout diagram of two input NAND and NOR using CMOS. Draw the stick diagram of two input NAND and NOR using CMOS. Calculate junction capacitance with and without side walls between drain and substrate. What do you mean by Scaling and small geometry effects in VLSI design for MOS? What
are advantages and disadvantages of constant Electric field scaling over constant voltage
scaling. Derive an expression for drain current in linear region, saturation region through gradual
channel approximation and Channel length modulation for NMOS.
Unit – 2 Q.1. Explain the VTC (Voltage transfer characteristics) of NMOS Inverter with (i) resistive load
(ii) Active loads. Also calculate VIL , VIH , VOL , VOH , VTH ,also analyze Power consumption,
Chip area, Noise margins. Q.2. Design and implement 1-bit full adder logic circuit using C - MOS. Q.3. Short note on spice for circuit simulation. Explain the VLSI Design flow diagram? Q.4. Draw layout and stick diagram of the logic functions: (i) Z = ( AB + CD + E )’ (ii) {(D +E + A)(B + C)}’ using CMOS. Q.5. Implement and explain two inputs NOR & NAND gate using N-MOS with resistive and active load.
Q.6. Explain the static and dynamic behavior of CMOS Inverter. Also calculate VIL , VIH , VOL ,
VOH , VTH ,also analyze Power consumption, Chip area, Noise margins. What is the criteria for
threshold voltage for high level and low level in inverter characteristicss? Q.7. Implement the circuit diagram and the corresponding layout and stick diagram of a two
inputs NOR & NAND gate using C-MOS technology. Q.8. Design and Implement the following with C-MOS transmission gate (i) Two input
multiplexer circuit i.e. F = AS’ + BS (ii) Two input XOR gate i.e. F = AB’ +A’B (iii) F = AB + A’C’ +
AB’C Q.9. Explain the logical operation to transfer logic 0 or 1 though dynamic MOS logic. And
Explain the concept of charge leakage and storage through the dynamic MOS logic. Also
explain why we do require the voltage bootstrapping in dynamic MOS logic? Q.10. Differentiate between ratioed and ratioless dynamic logic explain with example.
Q.11. Write a note on spice for VLSI circuits simulation.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Q.12. Design and implement half adder logic circuit using C - MOS. Q.13. Explain CMOS inverter layout plan along with its cross-sectional diagram. What is a stick
diagram? What do you mean by Lemda based design rule? Q.14. Explain the operation of
CMOS inverter when Vin = Vth . Q.15. Explain What is the propagation delay limitations in the CMOS digital integrated circuits?
Q.16. Implement and draw the circuit schematic of a (2 x 1)- multiplexer using CMOS
transmission gates. Q.17. With the help of a neat circuit diagram show the implementation of the logic function: . Y =
A + (B + C) . (D +E) using Ratioed CMOS logic. Q.18. Design a circuit described by the function Y = A . (B + C) . (D + E) using CMOS logic. Also
find the equivalent CMOS inverter circuit for simultaneous switching of all inputs assuming that
(W /L)P = 5 for all P - MOS transistors and (W /L)N = 2 for all N - MOS transistors and
Q.19. Derive and calculate the switching threshold voltage Vth of two-input CMOS NOR gate
with the following parameters: (W /L)P = 4 for all P-MOS transistors and(W /L)N = 1 for all N -
MOS transistors, (VTO) for N = 0.7V, (VTO) for P =- 0.7V, µn COX = 40 µA/ V2 , µp COX = 20 µA/
V2 , VDD = 5V.
Q.20. Discuss how the charge sharing problem can be overcome in dynamic CMOS logic?
Q.21. Calculate the values of VOH, VOL , VIH , VIL and noise margin NML for a saturated
Enhancement load N-MOS inverter circuit. Given VDD = 5V, VT = VTO = 0.8V and kdriver / kload =10.
Q.22. Determine Z pu to Z pd ratio for N-MOS inverter driven through one or more pass transistor.
Q.23. Consider the MOS transistor with following parameters: tOX = 250Ao, ФGC = -0.95V, ND
= 3 x 1015
cm - 3
, QOX = 4 x 1011
C / cm2.Determine (a) the threshold voltage VTH under zero
body bias at room temperature (T = 300Ko ) given that εOX = 3.97 ε0 and εSi = 11.7 ε0 (b)
Determine the type of MOS transistor (N – Type or P – Type ) and amount channel Implant in N / cm required to change the threshold voltage to -1.5 V.
Q.24. Explain the VTC (Voltage transfer characteristics) of CMOS Inverter. Also calculate VIL ,
VIH , VOL , VOH , VTH , for N-MOS with depletion load. Also analyze Power consumption, Chip
area, Noise margins. Q.25. Design and implement the following using NMOS, CMOS (i)Z = ( AB + CD + E )’
(ii) Z = {(D +E + A)(B + C)}’ (iii)Z = ( AB + CD + E ) (iv) Z = {(D +E + A)(B + C)}’
Unit-3 Q.1. Design and implement clocked (positive edge trigger) J-K, S-R, T, D flip-flops sequential
logic circuit using C – MOS with timing diagrams. Q.2.Explain the design of standard cells for VLSI circuits. What are the design considerations
for digital ICs? Q.3. Design and implement clocked (negative edge trigger) J-K, S-R, T, D flip-flops sequential
logic circuit using C – MOS with timing diagrams. Q.4. what do you understand by the term excitation table? Show the excitation tables for SR,
JK, T, D flip-flops. Q.5. explain the time and phase behavior of a CMOS bistable element with circuit diagram. Q.6
Explain the operation of two input NOR and NAND based SR, JK, D, T latch using CMOS. Q.7.
Explain the operation of two input NOR and NAND based SR, JK, D, T latch using NMOS with
depletion load.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Q.8.Design and implement JK latch using CMOS. Q.9.Design and implement Master-slave FF consisting NAND based JK latches with output
timing waveforms. Q.10 Explain the CMOS D latch that showing the setup time and hold time. Q.11 Design and implement the schematic of CMOS negative (falling) edge triggered master
slave based on D FF. Q.12. Design and implement three input NAND based positive (rising) edge triggered D FF with
timing diagram of input and outputs. Q.13 Design and implement Enhancement-load dynamic shift register (ratioed logic). Q.14 Design and implement Enhancement-load dynamic shift register (ratioless logic). Q.15. Explain the operation of basic building block of a CMOS transmission gate dynamic shift
register Q.16. Design and implement the following function using dynamic CMOS logic gate: F = (A.B.C + D.E)’. Unit-4 Q.1. Classify the memories on the basis of technology. Explain the read and write operation of
Static RAM ( SRAM ) with schematic circuit diagram. How 1 bit cell is used for bigger memory
systems Q.2. Discuss the architecture of CPLD in detail. State the advantages of FPGA and CPLD
design methods. Q.3. Explain the ASIC design flow and different types of ASIC. Also explain the programmable
structures for PLA. Q.4. Design and implement a BCD to Gray code convertor circuit using PAL. Q.5. Explain SRAM, DRAM, FLASH memories on the basis of technology. Explain the read and
write operation of Dynamic RAM ( DRAM ). Q.6. Discuss the architecture of FPGA in Detail. Also differentiate between FPGA and CPLD. Q.7. Explain the function of CPLD with each block in detail. Q.8. Design and implement a circuit using PAL for the following functions:
F1 = X.Y.Z + X’.Y’
F2 = W’.F’ + W.X.Y’.Z Also explain the programmable structures for PAL.
Q.9. Using an FPGA discuss the programming required for the implementation of following
cases: (i) 2 input NOR gate (ii) 2 input NAND gate (iii) 2 input AND gate (iv) 2 input OR gate
Q.10. With help of suitable diagram explain a typical CLB available in the FPGAs. Q.11. Explain the Read/write operation and equivalent circuits of following memory cells
(i)DRAM (ii)SRAM (iii) Mask (fuse) ROM (iv) EPROM (v) EEPROM (vi) flash RAM Q.12. Explain
RAM array memory organization with complete block diagram. Q.13 Explain the concept of leakage currents in DRAM. How DRAM are refreshed? Q.14 Explain the concept of leakage currents in SRAM. How SRAM are refreshed? Q.15. What are data programming and erasing technologies in flash memory? Q.16.Design and implement NAND and NOR based flash memory cell. Q.17. what is the basis for standard-cell? What are basic classes of circuits for Library cells?
Q.18. Explain the methods of programming of PAL CMOS device. Draw and explain the
architecture of an FPGA.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Q.19. What are different classes of Programmable CMOS devices? Explain them briefly. Q.20. What are the advantages and disadvantages of the reconfiguration. Q.21. Mention different advantages of Anti fuse Technology. Q.22. Using PLA Implement Full-adder circuit. Q.23. Compare the Antifuse and Vialink programmable interconnections for PAL devices. Q.24. What are different typically available SSI Standard-cell types and compare them. Q.25. Draw the diagram of programmed I/O pad and explain how the antifuses are used in this. Q.26.Draw and explain the AND/OR representation of PLA. Q.27. what are the differences between a gate array chip and standard-cell chip? What benefits
does each implementation style have? Q.28. Write the equations for a full adder in SOP form. Sketch a 3-input, 2- output PLA
implementing this logic. Q.29. Draw the typical architecture of PAL and explain the operation of it. Q.30. what is CPLD? Draw its basic structure and give its applications. Q.31. Draw and explain the Antifuse Structure for programming the PAL device. Q.32. Explain how the I/O pad is programmed in FPGA. Q.33. what are different classes of Programmable CMOS devices? Explain them briefly. Q.34. Draw the typical standard-cell structure showing regular-power cell and explain it. Q.35. What are the characteristics of 22V10 PAL CMOS device and draw its I/O structure. Q.36.Explain any one chip architecture that used the antifuse and give its advantage. Q.37. Draw the structure, explain the function and write the applications characteristics of the
following programmable CMOS devices: (a) PLA (b) PAL (c) FPGA (d) CPLD Q.38. Draw the typical standard-cell structure showing low-power cell and explain it. Q.39. Sketch a diagram for two inputs XOR using PLA and explain its operation with the help of
truth table.
Unit-5 Q.1. What is need of VLSI testing at various levels? Explain the design strategies for VLSI
testing with block diagram for various logic. Q. 2. Discuss in details testing and verification of VLSI circuits. Q.3. what do you mean by silicon debug principles? Explain briefly test benches and hardness.
Q.5. Boundary scan test techniques are grouped by the IEEE standards organisation into
standard access port and boundary scan architecture. Write down atleast four advantages of
boundary scan test. Q.6. Explain in detail Built-in self test (BIST) for circuit testing in VLSI. Q.7 Explain the various Fault types and Fault models in VLSI circuits. Q.8 what do you mean by electric logical stuck-at-0 and stuck-at-1 faults, explain with suitable
example. Q.9. Define the terms Controllability and Observability for VLSI circuits testing with example. Q.10. Explain Ad-Hoc testing techniques for VLSI circuits testing with example.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Q.11. Explain Scan-Based techniques for VLSI circuits testing with example.
Q.12. Explain Current monitoring IDDQ techniques for VLSI circuits testing with example. Q.13. Which testing techniques are used for sequential logic circuits. Explain with example Q.14. Explain how function of system can be tested. Q.15.Why the chip testing is needed? At what levels testing a chip can occur? Q.16. What is the drawback of serial scan ? How to overcome this? Q.17. A sequential circuit with in? inputs and ‘m’ storage devices. To test this circuit how many
test vectors are require? Q.18. Explain the ATPG with respect to CMOS based chip testing: Q.19. Explain how the cost of chip can effect with the testing levels, Q.20. How the Iterative Logic Array Testing can be reduced number of tests. Q.21. What type of defects are tested in manufacturing testing methods? Q.22. Explain the manufacturing test of a chip with suitable examples. Q.23. Explain how an Ad-hoc test technique used to test long counters? Q.24.Why stuck-at faults occur in CMOS circuits? Explain with suitable logical diagram and
layout.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
1. Explain how an Ad-hoc test technique used to test long counters. November 2008 set4 2. Explain the gate level and function level of testing. 3. A sequential circuit with n inputs and ‘m’ storage devices. To test this circuit how many
test vectors are required? 4. What is sequential fault grading? Explain how it is analyzed. 5. Why stuck-at faults occur in CMOS circuits? Explain with suitable logical diagram and
layout. 6. Draw a schematic for a CMOS edge-sensitive scan-register and also draw some circuit
level diagrams of its implementation. 7. Explain how function of system can be tested. 8. Explain any one of the method of testing bridge faults. 9. What type of faults can be reduced by improving layout design? 10. Explain the functionality test of a chip with suitable examples. 11. What are the categories of Design for testability? Explain them briefly
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
6.5 Data Structure using C++
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
Question Bank
Course Name: Data Structure using C++
Course Code:TCS-607 Branch: EEE Semester: VI
Faculty :Mr. Himanshu Dewedi
Unit/Title: UNIT- Date of Issue: Date of Submission:
UNIT 1
1. Describe time and space complexity. Discuss best, average and worst case for finding a given number from an array of integers?
2. Explain the difference types of data structure. What data structure will you use to store the information of students of your class? Why?
3. Devise insertion and deletion function for doubly linked list? 4. How is a class declared in C++? 5. What do you understand by worst case, average case and best case time complexity of an
algorithm? 6. Write an algorithm to concatenate two circularly linked lists pointed by list 1 and list 2 in such a
way that circular list pointed by list 2 is appended to the circular list pointed by list 1? [JNTU 2007]
7. How can a polynomial in two variables be represented by a singly linked list? Write an algorithm to add two such polynomials?.
8. Define algorithm and data structure. Give the difference between linear and non-linear data structures with example? Define time complexity. Explain Big oh (O) notation?
9. Write a C++ program to construct and delete elements in a circular queue using linked list? 10. Write a program to delete a node in a doubly linked list? 11. Compare the dynamic implementation of a linear linked list? 12. Write an algorithm to merge two singly linked list whose elements are sorted in ascending
order to produce a single singly linked list sorted in ascending order? 13. Discuss performance analysis and measurement of programs?
[RTU 2008] 14. Discuss radix sort algorithm with an example? 15. Compare dynamic and array implementation of a linked list? 16. Write an algorithm to delete a node on the left of a given node of a doubly linked list? 17. What is the structure to represent a node in skip list? 18. How is a skip list different from linear list. Illustrate with suitable example the insertion
and deletion operations on skip lists? 19. Write the constructor for skip list?
20. Illustrate using a suitable example to delete a given node in doubly linked list?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
UNIT-2: STACKS AND QUEUES
1. State the Towers of Hanoi problem. Write recursive algorithm to solve the problem? 2. Write an algorithm for matching different parantheses such as {, [, ( in an algebraic expression? 3. Explain the concept of Exception handling mechanism with example code? 4. Define abstract data type. Explain it briefly?
[Differentiate between dequeue and priority queue? 5. What is an ADT? Show the insert and remove operations in/from the Queue ADT during
the traversal in a tabular fashion? 6. Write a C++ program to implement stack and its operations, PUSH and POP? 7. Write a complete program in C to implement stack using liked list? 8. What is priority queue? How it is implemented? Take an example to show your implementation? 9. Devise function in C which check for Full and Empty for a circular queue. Also find out the
number of elements in circular queue? 10. Write short notes on:
a. Queue b. Circular queue c. Dequeue
11. Write down advantages of dynamic representation over static representation of queue?
OR
How queue can be represented in memory? 12. What is a stack, explain with its applications? 13. Write an algorithm which reverses the order of elements on stack using one additional stack
and some additional variables? 14. Design a method for keeping two stacks within a single array so that neither stack overflows until
all of the memory is used.Write a procedure to perform PUSH(x,s) that pushes element x onto
stack s, where s is one of the two stcks. Include all necessary error checks?
UNIT-3: HASHING
1. What is hashing? Classify hashing functions based on the various method? 2. Define hash function. What do you mean by perfect hash function? 3. Write an algorithm for searching an algorithm using linear search method?. 4. Discuss various methods used for resolving hash collisions? 5. Explain linear probing and quadratic probing using a suitable example? 6. What is a hash table, explain its applications? 7. Show the working of Huffman algorithm. with an example. Also write the applications of huffman’s
algorithm? 8. What is the difference between indexing and hashing? 9. How many passes are required for k-way merging? 10. How can hash tables be used in text compression? 11. Explain LZW algorithm, for what purpose it is used? 12. Insert the following values into a hash table of size 10 using the hash equation (x2 +1) % 10
using the linear probing technique. Insert these values in sequential order: 1,2,5,6, 8? 13. Use linear probing to insert pairs whose keys in order are 7, 42, 25, 70, 14, 38, 8, 21, 34, 11 into
a hash table with b = 13 buckets using the hash function f(k) = k mod b. start with an empty
hash table and draw the hash table following each insert?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
UNIT-4: TREES
1. Show that the maximum number of nodes in a binary tree of height h is 2h+1
-1?
Formulate an algorithm to find the number of leaf nodes in a binary tree. What is the
time complexity of your algorithm? 1. What is a binary tree? Discuss various types of binary trees with suitable diagrams?. 2. Explain how an element is inserted in to a min-max heap with suitable example?.
a. Define the following with respect to a tree b. Degree of a node c. Terminal node d. Siblings e. Degree of a tree f. Depth of a tree
3. What is a priority queue? . Explain how it can be implemented? 4. What is a heap? Explain how an array of integers can be sorted using heap sort method. Given 20,
55, 46, 34, 13, 90, 87, 32 are elements of an array, show the different stages of sorting?
5. Write an algorithm to construct a binaty tree for the input 14, 15, 4, 9, 7, 18, 3, 5, 16, 4, 20, 17, 9
indicating a message for duplicate members? Draw the tree constructed by the above program? 6. Write a short note on external sorting method? How can we use winner trees in mergesort? 7. What do you mean by heap sort? Explain and write analysis of heap sort? 8. Write a recursive procedure which finds the number of nodes in a tree? 9. A binary tree has 9 nodes. The inorder and preorder traversals yields follwing
sequence Inorder: E A C K F H D B G Preorder: A E K C D H G B
Draw the tree?
10. Traverse the following tree in inorder, preorder, postorder
10. Write applications of tree data structures? 11. What is a binary tree? Explain how it can be represented in memory? 12. The following keys are to be inserted in the order shown below into an B-tree (of order 5): a, g,
f, b, k, d, h, m, j, e, s, i, r, x. Show how the tree appears after each insertion? 13. Define the heap? How a priority heap can be implemented using a heap? 14. The following keys are to be inserted in the order into a heap: 25, 57, 48, 37, 9, 97, 86,
33.Show how the tree appears after each insertion. 15. Draw all non similar trees with exactly 6 nodes?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
UNIT-5: GRAPHS
1. Write a short note on Tournament trees? 2. Write an algorithm to check whether a graph is connected or not? 3. Write an algorithm which counts the number of connected components in a graph? 4. Define adjacency matrix corresponding to a diagraph? 5. Explain spanning tree and draw a spanning tree for the following graph
6. For the following graph find (i) BFS traversal (ii) DFS traversal
7. Draw the graph corresponding to the following bit matrix:
0 0 0 1
1 1 0 1
A= 1 0 0 1
0 0 1 0 8. Explain the various graph representation techniques? 9. Define leftiest trees? 10. The following is the adjacency matrix A of an undirected graph G:
0 1 0 1 0 1 0 0 1 1
A=0 0 0 1 1
1 1 1 0 1
0 1 1 1 0
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
Draw G and find its incidence matrix?
11. Consider the graph G in the figure given below. Suppose the nodes are stored in memory in an array. Data is as follows:
X,Y,Z,S,T a)Find the adjacency matrix Aof G? b)Find the path matrix P of G? c)Is G strongly connected?
12) Discuss the algorithm to perform breadth first traversal of a graph, consider the following graph and
list of sequence of node visited in breadth first search?
13) Explain traversing in graph and compare BFS and DFS?
14) For the following graph,
(i) Adjacency matrix representation
(ii) Adjacency list representation
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE) 2018
15) Explain the following terms:
a) Weighted graph b) Isolated vertex c) Connected graph d) Loops e) Multigraph
16) For an undirected graph G with ‘n’ vertices and ‘e’ edges show that ∑ni=1 di = 2e where di =
degree of vertex ‘i’.
17) How can a graph be represented in memory?
18)Write a procedure which determines whether or not G is a graph. The graph is maintained
by linked list implementation?
19) Write short notes on:
(i) Path Matrix
(ii)Incidence matrix
20) The following is the adjacency matrix A for an undirected graph G [UPTU
2006]
1 0 0 1 1
0 0 0 1 1
A= 0 1 1 0 1
0 1 1 1 0
Draw G and find its incidence matrix M?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
6.6 Principle of Management
DEV BHOOMI INSTITUTE OF TECHNOLOGY, DEHRADUN
QUESTION BANK
Course Name:Principles of Management Question Bank
Course Code:THU-608 Branch: EEE Semester: VI
Faculty :Ms. Manvi Chopra
Unit - 1
1) Define Management.
2) Is management – an art or science?
3) Give some features of management.
4) What are the essential skills of a manager?
5) Define scientific management.
6) List the principles of scientific management.
8) State the contributions of Fayol towards management.
9) What do you mean by ‘Scalar chain’?
10) What do you mean by ‘Esprit de corps’?
11) What are the various levels of management?
12) What are the roles played by a manager?
13) What are the functions of management?
14) What are the classifications of business organization?.
15) Trace the evolution of management with reference to the contributions made by management thinkers.
16) What is the role of scientific management in the modern era?
17) Explain the contributions of F.W.Taylor to Management.
18) Explain the contributions of Henri Fayol.
19) Explain the contributions of Abraham Maslow and McGregor.
20) Discuss the nature, purpose, merits and demerits of management.
21) Differentiate between Management and Administration with suitable examples.
22 )Discuss the merits and demerits of various types of organization.
23) Explain the recent developments in modern management theory.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
Unit-2 &3 1) Trace the steps involved in the decision-making process. 2) Explain in detail the classification of decisions. a) Discuss the various quantitative techniques for decision-making 1) Define ‘Planning’. 2) What are the types of planning? . 3) Define the ‘mission’ and ‘vision’ of an organization? 4) What do you mean by MBO? 5) What are policies? 6) What are the various types of plans? 7) Define the term ‘Strategy’. 8) State the features of Policies. . 9) What do you understand by the term ‘Planning premises’? 10) What are the main factors to considered for implementation of a strategy? 11) Differentiate objectives and goals. 12) Distinguish between strategy and tactics. 13) State the hierarchy of objectives. 14) Differentiate policies and procedures. 15) What are the different types of policies? 16) What do you mean by SWOT analysis 17) State the levels of strategy. 18) What are the main objectives of a project? 19) Mention the features of MBO. 20) What is Forecasting? . 21) Define planning. Discuss the steps involved in planning. 22) “Planning is all pervasive.”- Discuss with reference to its nature, merits and demerits. 23) Explain the various characteristics identified in planning. 24) Discuss in detail the planning of premises. 25) What are objectives? State the characteristic features and requirements of a sound objective. 26) Discuss in detail the features and process of MBO. (or) Discuss the contributions of Peter.F.Drucker to management. 27) Differentiate between Objectives & Goals with examples. 28) Differentiate between Strategy & Policy. 29) Discuss about the effective implementation of a strategy. 30) Explain in detail the strategic planning process. 31)Discuss the steps involved in formulation of a Policy.
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
32)Classify and explain policies. Give the requisites of a sound. 13) Discuss the merits and demerits of different types of plans 35) Discuss the different types of planning. 36) What is job design? 37) What are the benefits of specialization? 38) What are the limitations of specialization? 39) What is job rotation? 40) What is job enlargement? 41) What is job enrichment?
Unit-4
1) Define Motivation. 2) Name the steps involved in motivation process. 3) What are the types of motivation? 4) What are the different Motivational theories? 5) List out the basic needs in hierarchy. 6) Who is a leader? 7) Define Leadership. 8) List the few leadership theories. 9) State house path goal approach. 10) Name the various leadership styles. 11) Explain the importance of leadership. 12) Explain the motivation process. 13) Explain the Maslow’s need hierarchy theory. 14) Explain the special motivational techniques. 15) Explain the different styles of leadership. 16) What are the four basic ingredients of leadership skill? 17) Explain the McClelland’s needs theory. 18) Explain the special motivational techniques. 19)Explain the trait approaches to leadership theories. 20) What is Control? 21) Define control. 22) What are the characteristics of control? 23) Why need of control in the organization? 24) What are the importances of controlling?
Department of Electrical & Electronics Engineering
Student’s Handbook | B.Tech (EEE VI Sem) 2018
25) What are the disadvantages of control? 26) What are the interrelationship between planning and control? 27) Give some critical point standards of control 28) What are the types of control? 29) What is feedback control? 30) What is concurrent control? 31) What is feed forward control? 32) List the differences between feedback control and feed forward 33) What are the requirements for effective control? 34) Explain briefly the control techniques. 35) Discuss the control process and types of control. 36) What are the characteristics of control? Explain its need for management. 37) Explain the characteristic of an ideal control system. 38) Define control. Describe the features of a good control system. 39) What are the various good qualities of efficient controlling system?
Department of Electrical & Electronics Engineering