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Rajasthan Technical University, Kota COURSE - FILE
Rajasthan Technical University, Kota
COURSE - FILE
Name
Branch
Session
Semester
Specialization
:
:
:
:
:
Dr. Dinesh Birla
Electrical Engineering
2013-14, Even Semester
M. Tech II Semester
Power System
Index: Course–File
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Rajasthan Technical University, Kota
Sr.
No.
Session: 2013-14, Even Semester
Content/ Item no.
Page
No.
1
Students Detail
2
4
5
Course Schedule
Course-File General Format
Time-Table
Syllabus
Course Plan
More on Course Schedule
Method of Evaluation
Guidelines to Study the Subject
Program Outcomes
Course Outcomes
Objectives – Outcome Relationship Matrix
Assignment-1
Assignment-2
6
7
Assignment-3
Assignment-4
14
15
8
Assignment-5
16
10
Tutorial-1
17
11
Tutorial-2
18
12
Tutorial-3
19
13
Tutorial-4
20
14
Tutorial-5
21
15
Lecture Plan
22-26
17
Mid–Term Question Paper (I & II)
27-28
18
Performance of Students in Mid Terms
3
3
3-5
6-11
12
13
29
Student Details
Subject: ADVANCED POWER SYSTEM
PROTECTION
Rajasthan Technical University, Kota
S. No.
Session: 2013-14, Even Semester
Roll No.
Student Name
1
13EUCPS600
AKHILESH KUMAR
2
13EUCPS601
AMIT SINGHAL
3
13EUCPS602
AMRITA JAIN
4
13EUCPS603
ASHU VERMA
5
13EUCPS604
BHASKAR SHARMA
6
13EUCPS605
BHEEMRAJ SUMAN
7
13EUCPS606
FAIZAL KHAN
8
13EUCPS607
HARSHITA BAJPAI
9
13EUCPS608
HEM MANOHAR
10
13EUCPS609
KRIPAL SINGH
11
13EUCPS610
NEHA KUMARI
12
13EUCPS611
POOJA NAGAR
13
13EUCPS612
POOJA SHARMA
14
13EUCPS613
RAJARAM CHANDRA MEENA
15
13EUCPS614
RANJEET KUMAR
16
13EUCPS615
KM SHIVANGI CHAUHAN
17
13EUCPS616
SHOBHIT JAIN
18
13EUCPS617
VIVEK NATH
Year : I
Sem : II
Course Schedule
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Rajasthan Technical University, Kota
Session: 2013-14, Even Semester
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Sem : II
Course Details
Name of the Programme
: M. Tech.
Batch
: Electrical
Branch
: Electrical
Semester
: II
Title of the Subject
: ADVANCED POWER SYSTEM PROTECTION
Subject Code : 2MPS2
No. of Students: 18
General: About Course File Format
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Time Table and Syllabus.
Course Schedule including Course Plan.
Experiments List and Lab manual also, if required.
List of Assignments / Tutorials/ Seminar Topics given to students.
Tutorial Sheet (If required, as per the syllabus).
Lecture Plan.
Model Question Paper of the subject distributed to students included (Question Bank of important
Questions).
Mid –Term Question Paper (I & II) and answer-books.
Question of previous years available by University.
Marks details of the Students in respect of MTE I (Mid Term Exam) and MTE II.
Course File
Subject: ADVANCED POWER SYSTEM
PROTECTION
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Year : I
Sem : II
SYLLABUS COPY
2MPS2 ADVANCED POWER SYSTEM PROTECTION
(i) Static Relays: Introduction, merits and demerits of static relays. Comparators: amplitude and phase
comparator, duality between amplitude and phase comparators. Circulating current type phase-splitting type and
sampling type amplitude comparators. Vector product type and coincidence type phase Comparators.
(ii) CTs & PTs: Current transformer (CT) Construction, measurement CT and protective CT. Type of potential
transformers. Steady state ratio and phase angle errors in CTs and PTs. Transient errors in CT and CVT.
(i) Static Over Current Relays: Instantaneous over current relay, definite time over current relay, inverse-time
over current relay, directional over current relay.
(ii) Static Differential Relays: Differential relay scheme, single-phase static comparator, polyphase differential
protection. Differential protection for generator and transformer.
(i) Static Distance Relays: Impedance relay, reactance relay and mho relay using amplitude and phase
comparators. Polarized and offset mho relays.
(ii) Carrier Current Protection: Phase Comparison scheme, carrier aided distance protection.
(i) Distance Protection: Effect of are resistance, power swings, line length and source impedance on the
performance of distance protection. Out of step tripping and blocking relays. Mho relay with blinders.
Quadrilateral and elliptical relays. Selection of distance relays.
(ii) Induction Motor Protection: Various faults and abnormal operating conditions. Protection against faults,
unbalance supply voltage, single phasing, over load and mechanical rotor faults, HRC fuses, over-current,
percentage differential and earth fault protection. Negative sequence voltage relays and resistance temperature
detector relay.
Digital Protection: Introduction to digital protection, block diagram of digital relay, sampling theorem, correlation
with a reference wave, Fourier analysis of analogue and discrete signals, least error squared technique, digital
filtering – low pass, high pass, finite impulse response and infinite impulse response fillers. Introduction to digital
over-current, transformer differential and transmission line distance protection.
2.
COURSE PLAN
Sr. Name of
No.
Unit
Static
1
2
3
Topics to be covered as divided in the unit
Introduction to static relays, merits and demerits and introduction to amplitude
comparater
Relay/
static over Introduction to Phase comparators and duality
current
Various type of Amplitude comparator’s
relay
Various type of Phase comparator’s and Introduction to Static over Current
Relays.
Introduction to Instantaneous Static over Current relays and Definite time Static
over Current Relays.
Introduction to Inverse time Static over Current Relays and Introduction to
Directional Static over Current Relays.
Brief description of static differential relay schemes and Introduction to single
Static
Differential phase static differential relay schemes
Relay and
Introduction to three phase static differential relay schemes and Introduction to
static
static differential protection of generator
distance
Introduction to static differential protection of transformer and Introduction to
relay
static impedance relay
Introduction to static impedance relay and Introduction to static reactance relay.
Carrier
Current
Protection
And
Distance
Protection
4
Induction
Motor
Protection
5
Digital
Protection
Introduction to static mho relays.
Basic apparatus and scheme of power line carrier system and Principle of
operation of directional comparison carrier protection.
Principle of operation of phase comparison carrier protection and carrier assisted
distance protection.
Effect of power swings on the performance of distance protection and Out of step
tripping and blocking relays.
Mho relay with blinders and Introduction to quadrilateral and elliptical relays.
Various fault and abnormal operating conditions
Protection agaist fault ,unbalance operating condition
Singal phasing and over load and mechanical rotor fault
HRC fuses,differential and earth fault protection
Negative sequence voltage relays
Resistance temperature detector relay
Introduction of digital relay,block diagram of digital relay
Sampling theorem correlation with reference wave c
Fourier transform of analogue and discrete signals
Least error square techniques, digital filtering
Low pass high pass
Finite impulse response
Finite impulse response filter
Introduction to digital overcurrent protection
Introduction to transformer differential protection.
Introduction to digital transmission line distance protection.
Lecture
No.
1
2
3
4.5
6
7
8
9
10
11,12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
Course File
Subject: ADVANCED POWER SYSTEM
PROTECTION
Rajasthan Technical University, Kota
3
Session: 2013-14, Even Semester
METHOD OF EVALUATION
3.1
Mid Term Examinations (MTE I & MTE II)
3.2
Assignment / Tutorials
3.3
Viva wherever applicable
3.4
Term End Examination
Foundation Topics:
 Introduction to per unit quantities
 Introduction to Symmetrical component and fault analysis methods
Advanced Topics:
 Admittance model and Admittance matrix
 Impedance model and Impedance matrix
Year : I
Sem : II
More on Course Schedule
Subject: ADVANCED POWER SYSTEM
PROTECTION
Rajasthan Technical University, Kota
Session: 2013-14, Even Semester
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Year : I
Sem : II
Guidelines to Study the Subject
1. Preparation: - Basic fundamental of knowledge of simple power flow and faults for their study and
analysis.
2. Core Competence: - To provide students the knowledge of power system design and analysis and to
determine the operational performance of existing systems.
3. Breadth: -To prepare for a better future in the field of designing new electrical systems.
Learning Environment: - To provide student a friendly and professional environment.
More on Course Schedule
Subject: ADVANCED POWER SYSTEM
PROTECTION
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr. Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Year : I
Sem : II
On completion of this Subject/ Course the students shall be able to understand the following:
Sr.
No.
Objectives
I
Provides the knowledge of Static Relays, merits and demerits, amplitude and phase
comparators, duality between amplitude and phase comparators.
Provides knowledge of instantaneous, definite time, inverse time and directional over current
relays, static differential protection of generator and transformer.
Provides practical knowledge of static impedance, reactance and mho relays, effect of power
swings on the performance of distance protection, Out of step tripping and blocking relays,
mho relay with blinders.
Provides knowledge of digital relay, digital filtering, Fourier analysis of analogue and discrete
signals.
Provides techniques for protection against faults, unbalance supply voltage, single phasing,
HRC fuses, over-current, percentage differential and earth fault protection.
II
III
IV
V
Outcomes
a,b,k
b,d,i
e,h,j,k
c,d,f,i
a,c,e,j
More on Course Schedule
Subject: ADVANCED POWER SYSTEM
PROTECTION
Rajasthan Technical University, Kota
Session: 2013-14, Even Semester
Year : I
Sem : II
The General Categories of Program Outcomes are:
Sr.
No.
General Categories of Outcomes
a
b
c
An ability to apply knowledge of mathematics, science, and engineering
An ability to design and conduct experiment, as well as to analyze and interpret data
An ability to design a system, component or process to meet desired need within realistic, Constraints such
as economic, environmental, social, political, ethical, health and safety, Manufacturability and sustain
ability.
An ability to function on multi-disciplinary teams.
An ability to identify, formulates, and solves engineering Problems.
An understanding of professional and ethical responsibility
An ablity to communicate effectIely.
The broad education necessary to understand the impact of engineering solutions in a global, economic,
environmental, and societal context.
A recognition of the need for, and an ability to engage in life-long learning
Knowledge of contemporary issues.
An ability to use the techniques, skills, and modern engineering tools necessary of engineering practice.
d
e
f
g
h
i
j
k
Assignment Sheet - I
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
Objectives – Outcome Relationship Matrix (Indicate the relationship by x mark).
Program Outcomes
Course Objectives
I
a
b
X
X
II
c
d
f
X
X
X
h
X
i
j
k
X
X
IV
g
X
III
V
e
X
X
X
X
X
X
X
X
X
Assignment Sheet - I
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Assignment- I
Q1 What do you understand by Static relay ? Explain
Q2 Discuss duality in comparator?
Q3 Explain phase splitting type and sampling type amplitude comparator?
Q4 Discuss Various type of phase comparator.
Assignment Sheet - II
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Assignment-II
Q1. What are the situations where DTOC relays are preferred over IDMT relays?
Q2. Static impedence relay and reliaze it with the help of amplitude and phase Comparator.
Q3. What is the meaning of the term 'directional' Vis a Vis directional relaying?
Assignment Sheet - III
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Assignment- III
.
Q1 Explain carrier assisted distance protection.
Q2 Write short note on
a) Effect of power swing on the performance of distance relay.
b) Mho relay with blinders.
c) Out Of Step tripping and blocking relay.
Q3 Explain different kind of principal employed in Power Line Protection.
Assignment Sheet - IV
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Assignment- IV
Q.1What are the various abnormal operating conditions from the load (mechanical)
side to which an induction motor is likely to be subjected?
Q.2 Why is protection of an induction motor against reversal of phase sequence
required?
Q.3 What are the effects of single phasing on the induction motor?
Assignment Sheet - V
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Assignment- V
Q1. Draw the block diagram of the numerical relay and Explain.
Q2. State and explain Shannon's sampling theorem.
Q3. What do you mean by Fourier analysis? Explain.
Tutorial Sheet – I
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
TUTORIAL-1
Q1. What do you understand by Static relay? Explain
Q2. Discuss duality in comparator?
Q3. It is required that a break in the pilot wire from a CT carrying a current of 25 A and more should be detected
by the supervisory relay. Calculate the setting of the supervisory relay?
Tutorial Sheet – II
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Tutorial-II
Q1. Discuss various type of static differential relay?
Q2. Static impedence relay and reliaze it with the help of amplitude and phase Comparator.
Q3. A 132 kV busbar consists of two incoming lines and four outgoing lines. The system is
soiidly earthed and the switchgear capacity is 3500 LMVA at 132 kV The parameters are: Maximum full-load current in
one line
= 500 A
R s = CT secondary resistance
= 0.7 R
R lead wired
= 2.0 R
Relay load (1 A relay is used)
= 1.0 R
CT magnetizing current up to 120 V = 0.28 mA/V (assumed linear)
CT saturation voltage V knee
> 120 V
1. If the over-current relay in the spill path is set at 1.0 A and the voltage setting V knee is 100 V, find
(a) the maximum 'through fault' current up to which the scheme will remain stable.
(b) Whether the answer in part (a) is commensurate with the switchgear capacity.
(c) the minimum internal fault current which will be detected by the scheme.
(d) the setting for detecting minimum internal fault current of 500 A?
(e) the value of the stabilizing resistance.
Tutorial Sheet – III
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineeing
Tutorial-III
Q1. Explain different kind of principal employed in Power Line Protection.
Q2. Explain carrier assisted distance protection.
Q3. Consider a single-phase 11 kV/11 kV 1.1 MVA transformer protected by percentage differential protection.
CTs with 5 A secondaries are used. It is known that the magnetizing currents of the two CTs, for maximum
external fault current, differ by 0.5 A. Assuming no other source of error and a minimum pick-up of 0.01 A, find
the minimum percentage bias setting so that the scheme remains stable on maximum external fault current.
Tutorial Sheet – IV
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Tutorial-IV
Q1. What kind of protection is provided to an induction motor against overload?
Q2. What are the consequences of running an induction motor on unbalanced supply voltage?
Q3. A generalized phase comparator can have a phase angle margin of +α,-β The cosine-type phase comparator is a
special case where α=β= 90ᵒ. How will the mho relay characteristic appear if the phase angle margin is changed to
±45ᵒ?
Tutorial Sheet – V
Year : I
Subject: ADVANCED POWER SYSTEM
PROTECTION
Sem : II
Rajasthan Technical University, Kota
Session: 2013-14, Even Semester
1.
Name of the Faculty
: Dr.Dinesh Birla
2.
Designation
: Professor
3.
Department
: Electrical Engineering
Tutorial-V
Q1. How does Fourier transform differ from conventional Fourier analysis?
Q2. What do you mean by a full cycle window?
Q3. A 12-bit ADC has conversion time of 10 microseconds. What is the maximum frequency that can be
acquired without using a sample and hold unit?
Lecture Plan
Subject: ADVANCED POWER SYSTEM
PROTECTION
Subject Code: 2MPS2
Duration of Lesson: 55 min
Year : I
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
Lesson No.1 Title: static relays, amplitude comparators
S.NO
1.
2.
Topic
Introduction to static relays, merits and demerits.
Introduction to amplitude comparators
Time Alloted(min)
35
20
Lesson No.2 Title: Introduction to Phase comparators, Duality
S.NO
1
2
Topic
Introduction to Phase comparators
Duality between amplitude and phase comparators
Time Alloted(min)
20
35
Lesson No.3 Title: Circulating Current, Phase Splitting, Sampling amplitude comparator
S.NO
1.
2.
3.
Topic
Circulating current type amplitude comparators
Phase splitting type amplitude comparators
Sampling type amplitude comparators
Time Alloted(min)
20
20
15
Lesson No.4 Title: Vector product, Coincidence type phase comparator
S.NO
1.
2.
Topic
Vector product type phase comparators
Coincidence type phase comparators
Time Alloted(min)
40
15
Lesson No.5 Title:Coincidence type phase comparator, static over Current Relays
S.NO
1.
2
Topic
Coincidence type phase comparators
Introduction to Static over Current Relays.
Time Alloted(min)
40
15
Lesson No.6 Title: Instantaneous, Definite time Static Over Current Relays
S.NO
1.
2.
Topic
Introduction to Instantaneous Static over Current Relays.
Introduction to Definite time Static over Current Relays.
Time Alloted(min)
25
25
Lesson No.7 Title:Inverse time, Directional Static Over Current Relays
S.NO
1.
2.
Topic
Introduction to Inverse time Static over Current Relays.
Introduction to Directional Static over Current Relays.
Time Alloted(min)
25
25
Lesson No.8 Title: Remedial class, Class test
S.NO
1.
2.
Topic
Remedial Class
Class Test
Time Alloted(min)
15
40
Lesson No.9 Title:Static Differential Relay
S.NO
1.
2.
Topic
Brief description of static differential relay schemes
Introduction to single phase static differential relay schemes
Time Alloted(min)
20
35
Lesson No.10 Title: Static Differential relay, Differential protection of Generator
S.NO
1.
2
Topic
Introduction to three phase static differential relay schemes
Introduction to static differential protection of generator
Time Alloted(min)
20
35
Lesson No.11 Title: Differential protection of Transformer, Static impedance relay
S.NO
1.
2.
Topic
Introduction to static differential protection of transformer.
Introduction to static impedance relay
Time Alloted(min)
30
25
Lesson No.12 Title: Static impedance, reactance relay
S.NO
1.
2.
Topic
Introduction to static impedance relay
Introduction to static reactance relay
Time Alloted(min)
15
40
Lesson No.13 Title: Static Mho relay
S.NO
1.
2.
Topic
Introduction to static mho relays.
Problem
Time Alloted(min)
40
15
Lesson No.14 Title: Remedial Class, Class Test
S.NO
1.
2.
Topic
Remedial Class
Class Test
Time Alloted(min)
15
40
Lesson No. 15 Title: Power line carrier system, carrier protection
S.NO
1.
2.
Topic
Basic apparatus and scheme of power line carrier system.
Principle of operation of directional comparison carrier protection
Time Alloted(min)
30
25
Lesson No. 16 Title: carrier protection, carrier assisted distance protection
S.NO
1.
2.
Topic
Principle of operation of phase comparison carrier protection
Time Alloted(min)
30
carrier assisted distance protection.
25
Lesson No. 17 Title: distance protection, Out of step tripping
S.NO
1.
2.
Topic
Effect of power swings on the performance of distance protection.
Out of step tripping and blocking relays.
Time Alloted(min)
35
20
Lesson No.18 Title: Mho relay with blinders, quadrilateral and elliptical relays
S.NO
1.
2
Topic
Mho relay with blinders
Introduction to quadrilateral and elliptical relays.
Time Alloted(min)
20
35
Lesson No.19 Title: Remedial Class, Class Test
S.NO
1.
2.
Topic
Remedial Class
Class Test
Time Alloted(min)
15
40
Lesson No. 20 Title: Various fault
S.NO
1.
2.
Topic
Various fault and abnormal operating conditions
Numerical
Time Alloted(min)
40
15
Lesson No.21 Title: Protection agaist fault
S.NO
1.
2.
Topic
Protection agaist fault ,
unbalance operating condition
Time Alloted(min)
30
25
Lesson No. 22 Title: Singal phasing and over load and mechanical rotor fault
S.NO
1.
Topic
Singal phasing and over load and mechanical rotor fault
Time Alloted(min)
50
Lesson No. 23 Title: HRC fuses,differential and earth fault protection
S.NO
1.
2.
Topic
HRC fuses,differential and earth fault protection
Numerical
Time Alloted(min)
40
10
Lesson No. 24 Title: Negative sequence voltage relay
S.NO
1.
2.
Topic
Negative sequence voltage relays
Numericals
Time Alloted(min)
30
25
Lesson No. 25 Title: Resistance temperature detector relay
S.NO
1.
2.
Topic
Resistance temperature detector relay
Problems
Time Alloted(min)
45
10
Lesson No. 26 Title: Remedial Class
S.NO
1.
Topic
Remedial Class
Time Alloted(min)
50
Lesson No. 27 Title: Digital relay
S.NO
1.
2.
Topic
Introduction of digital relay,block diagram of digital relay
Numerical
Time Alloted(min)
35
15
Lesson No. 28 Title: Sampling theorem correlation with reference wave.
S.NO
1.
2.
Topic
Sampling theorem correlation with reference wave.
Numerical
Time Alloted(min)
30
25
Lesson No. 29 Title: Fourier transform of analogue and discrete signals
S.NO
1.
2.
Topic
Fourier transform of analogue and discrete signals
Numericals
Time Alloted(min)
35
15
Lesson No. 30 Title: Least error square techniques, digital filtering
S.NO
1.
2.
Topic
Least error square techniques, digital filtering
Numerical
Time Alloted(min)
40
15
Lesson No. 31 Title: Low pass high pass
S.NO
1.
2.
Topic
Time Alloted(min)
35
20
Low pass high pass
Finite impulse response
Lesson No. 32 Title: Finite impulse response
S.NO
1.
2.
Topic
Time Alloted(min)
40
15
Finite impulse response
Numericals
Lesson No. 33 Title: Finite impulse response filters
S.NO
1.
2.
Topic
Time Alloted(min)
40
15
Finite impulse response filters
Numericals
\
I Mid Term Question Paper
Subject: ADVANCED POWER SYSTEM
PROTECTION
Subject Code: 2MPS2
Duration: 1Hr
Rajasthan Technical University, Kota
Year : I
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
M. Tech I Year, II Sem, Branch: Power System
I Mid Term Examination (2013-14)
Subject: ADVANCED POWER SYSTEM PROTECTION
Date: 11/04/2014
Duration: 1 Hr
Maximum Marks: 12.5
Instructions to Candidates: Attempt all questions.
Q.1 Give a classification of various type of amplitude and phase comparator.
Q.2 Describe a static differential block diagram and explain function of each block. Describe duality of amplitude
comparator and phase comparator.
Q.3 Describe any one type of comparator and explain the construction and working.
II Mid Term Question Paper
Subject: ADVANCED POWER SYSTEM
PROTECTION
Subject Code: 2MPS2
Duration: 1Hr
Rajasthan Technical University, Kota
Year : I
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
M. Tech I Year, II Sem, Branch: Power System
II Mid Term Examination (2013-14)
Subject: ADVANCED POWER SYSTEM PROTECTION
Date: 17/05/2014
Duration: 1Hr
Maximum Marks: 12.5
Instructions to Candidates: Attempt all questions.
Q.1 Explain basic architecture of digital relaying by a figure and working block diagram structure and describing
functions.
Q.2 Describe the ac saturation phenomena in current transformer explaining the flux distribution/ variation
necessary for the purpose.
Q.3 Describe the magnetization characteristics of CT core protective and measurement CT core.
Performance of Students in Mid Term Exams
Subject: ADVANCED POWER SYSTEM
PROTECTION
Subject Code: 2MPS2
Maximum Marks: 25
Year : I
Sem : II
Session: 2013-14, Even Semester
Rajasthan Technical University, Kota
S. No.
Roll No.
Student Name
Average Marks obtained
in MT I & MT II
1
13EUCPS600
AKHILESH KUMAR
16
2
13EUCPS601
AMIT SINGHAL
14
3
13EUCPS602
AMRITA JAIN
19
4
13EUCPS603
ASHU VERMA
20
5
13EUCPS604
BHASKAR SHARMA
17
6
13EUCPS605
BHEEMRAJ SUMAN
15*
7
13EUCPS606
FAIZAL KHAN
20
8
13EUCPS607
HARSHITA BAJPAI
22
9
13EUCPS608
HEM MANOHAR
14
10
13EUCPS609
KRIPAL SINGH
15*
11
13EUCPS610
NEHA KUMARI
23
12
13EUCPS611
POOJA NAGAR
23
13
13EUCPS612
POOJA SHARMA
19
14
13EUCPS613
RAJARAM CHANDRA MEENA
20
15
13EUCPS614
RANJEET KUMAR
20
16
13EUCPS615
KM SHIVANGI CHAUHAN
23
17
13EUCPS616
SHOBHIT JAIN
20
18
13EUCPS617
VIVEK NATH
15
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