SNO |
SUBJECT Name / CODE |
Semester |
TOPIC NAME LINK |
1 |
BEEE ( BT-104 ) |
1 |
BEEE UNIT 5, Lecture 4 De Morgans Theorem & Adders |
2 |
BEEE ( BT-104 ) |
1 |
Lecture 1 Number systems and it is conversions |
3 |
BEEE ( BT-104 ) |
1 |
Lab Experiment on Thevenins Theorem |
4 |
BEEE ( BT-104 ) |
1 |
Lecture 3, Logic Gates and Boolean Relations |
5 |
BEEE ( BT-104 ) |
1 |
Lecture 2, Number System Conversion |
6 |
BEEE ( BT-104 ) |
1 |
POWER SYSTEM-II RGPV SOLVED QUESTION PART 2 |
7 |
BEEE ( BT-104 ) |
1 |
Magnetic Circuit- Phasor Diagram of Practical Transformer on NO LOAD Condition |
8 |
BEEE ( BT-104 ) |
1 |
Magnetic Circuit- Working & Phasor Diagram of Practical Transformer |
9 |
BEEE ( BT-104 ) |
1 |
Unit 03 Magnetic Circuit- Magnet & Its Properties |
10 |
BEEE ( BT-104 ) |
1 |
BEEE Unit 03 Construction of Transformer |
11 |
BEEE ( BT-104 ) |
1 |
Effiency of A Single Phase Transformer |
12 |
BEEE ( BT-104 ) |
1 |
BEEE Losses in The Single Phase Transformer |
13 |
BEEE ( BT-104 ) |
1 |
BEEE Equivalent Circuit Diagram of A Single Phase Transformer |
14 |
BEEE ( BT-104 ) |
1 |
Lab Experiment on Nortons Theorem |
15 |
EMI ( EX-303 ) |
3 |
DYNAMIC BEHAVIOR OF GALVANOMETER |
16 |
EMI ( EX-303 ) |
3 |
WHEATSTONE BRIDGE(experiment) |
17 |
AE ( EX-303 ) |
3 |
CLIPPER & CLAMPER |
18 |
EMI ( EX-303 ) |
3 |
TORQUE EQUATION OF GALVANOMETER |
19 |
SS ( EX-302 ) |
3 |
Numericals on Discrete Time signals |
20 |
EMI ( EX-303 ) |
3 |
GALVANOMETER |
21 |
EMI ( EX-303 ) |
3 |
Numericals on CT signals |
22 |
EMI ( EX-303 ) |
3 |
CLASSIFICATION OF MEASURING INSTRUMENTS |
23 |
SS ( EX-302 ) |
3 |
Numericals Signal & System |
24 |
AE ( EX-303 ) |
3 |
PN JUNCTION DIODE |
25 |
EES ( EX-301 ) |
3 |
LECTURE ON SOLAR ENERGY |
26 |
SS ( EX-302 ) |
3 |
Representation of DT signals |
27 |
EMI ( EX-303 ) |
3 |
ELECTRICAL MEASUREMENTS AND INSTRUMENTATION |
28 |
SS ( EX-302 ) |
3 |
Basics of Signals & systems |
29 |
AE ( EX-303 ) |
3 |
semiconductor and its type lecture 2 |
30 |
SS ( EX-302 ) |
3 |
Basics of Signals & Systems |
31 |
AE ( EX-303 ) |
3 |
introduction to semiconductor and its type lecture 1 |
32 |
EMT ( EX-504 ) |
5 |
Gauss law applications |
33 |
OE Lab ( EX-506 ) |
5 |
To generate step response of LTI system using SCILAB. |
34 |
EMT ( EX-504 ) |
5 |
Electric Flux & Gauss Law |
35 |
PE ( EX-502 ) |
5 |
SCR VI CHARACERISTICS |
36 |
PE ( EX-502 ) |
5 |
Introduction SCR |
37 |
EPGE ( EX-503 ) |
5 |
Climate Change & Energy |
38 |
EPGE ( EX-503 ) |
5 |
World & Indian Energy Scenario |
39 |
EPGE ( EX-503 ) |
5 |
Introduction and Course Outcomes of Electrical Power Generation & Economy |
40 |
PE ( EX-502 ) |
5 |
Gate Turn off thyristor |
41 |
PE ( EX-502 ) |
5 |
IGBT |
42 |
PE ( EX-502 ) |
5 |
WHAT IS TRANSISTOR |
43 |
EMT ( EX-504 ) |
5 |
Numericals on Electric Field Intensity. |
44 |
EMT ( EX-504 ) |
5 |
Electric Field Intensity for different charge distributions |
45 |
OE Lab ( EX-506 ) |
5 |
To sketch Pole-Zero plot using SCILAB. |
46 |
EMT ( EX-504 ) |
5 |
Electric Field Intensity |
47 |
OE Lab ( EX-506 ) |
5 |
To create Transfer function using Scilab. |
48 |
EMT ( EX-504 ) |
5 |
Coulombs law & its vector form. |
49 |
EMT ( EX-504 ) |
5 |
Laplacian Operator and numericals |
50 |
EMT ( EX-504 ) |
5 |
WORKING OF TUBE LIGHT |
51 |
EMT ( EX-504 ) |
5 |
Curl & Stokes Theorem |
52 |
EMT ( EX-504 ) |
5 |
Divergence Theorem |
53 |
EMT ( EX-504 ) |
5 |
Divergence and Gradient |
54 |
EMT ( EX-504 ) |
5 |
Numericals on Spherical Coordinate System |
55 |
EMT ( EX-504 ) |
5 |
Spherical Coordinate system |
56 |
PE ( EX-502 ) |
5 |
STATIC CHARACTERISTICS (CLASSIFICATION OF ERRORS) |
57 |
EMT ( EX-504 ) |
5 |
Cartesian Coordinate system |
58 |
Electrical machine - II ( EX501 ) |
5 |
DC Machine Construction - Part 2 |
59 |
Electrical machine - II ( EX501 ) |
5 |
DC machine Construction- Part 1 |
60 |
EMT ( EX-504 ) |
5 |
Numericals on Cylindrical coordinate system |
61 |
EMT ( EX-504 ) |
5 |
Cylindrical Coordinate System-2 |
62 |
EMT ( EX-504 ) |
5 |
Cylindrical Coordinate System-1 |
63 |
EPGE ( EX-503 ) |
5 |
World & Indian Energy Scenario: EPGE Lecture-2 |
64 |
EPGE ( EX-503 ) |
5 |
Electrical Power Generation & Economy- Introduction |
65 |
PE ( EX-502 ) |
5 |
Power diode LECTURE 2 |
66 |
PE ( EX-502 ) |
5 |
power electronics Lecture 1 |
67 |
MP&MC ( EX-601 ) |
6 |
The block diagram of 8253 /8254 IC |
68 |
MP&MC ( EX-601 ) |
6 |
The block diagram of USART (8251) |
69 |
EI ( EX-604 ) |
6 |
Beat frequency oscillator |
70 |
EI ( EX-604 ) |
6 |
Diffence between dual trace a dual beam cro |
71 |
EI ( EX-604 ) |
6 |
Maxwell bridge |
72 |
HVE ( EX-702 ) |
7 |
Breakdown in solid dielectrics |
73 |
HVE ( EX-702 ) |
7 |
Breakdown in vacuum Part 2 |
74 |
HVE ( EX-702 ) |
7 |
Breakdown in Vacuum part-1 |
75 |
HVE ( EX-702 ) |
7 |
Electro Mechanical Breakdown |
76 |
HVE ( EX-702 ) |
7 |
Breakdown in solid dielectrics |
77 |
HVE ( EX-702 ) |
7 |
Townsends theory |
78 |
HVE ( EX-702 ) |
7 |
Townsends Theory |
79 |
PSP ( EX-701 ) |
7 |
Power System Protection- Relay |
80 |
PSP ( EX-701 ) |
7 |
Power System Protection Relay |
81 |
HVE ( EX-702 ) |
7 |
Townsends Ionization coefficient |
82 |
PSP ( EX-701 ) |
7 |
Single Line Diagram of Power System |
83 |
PSP ( EX-701 ) |
7 |
Types of Electrical Faults and Their Phasor Diagram |
84 |
PSP ( EX-701 ) |
7 |
Electrical Faults,their causes and effects |
85 |
PSP ( EX-701 ) |
7 |
Introduction to Power System Protection |
86 |
HVE ( EX-702 ) |
7 |
Industrial Appplication of HVE technology |
87 |
HVE ( EX-702 ) |
7 |
HVE LECTURE 4-Isulating Materials |
88 |
PSP ( EX-701 ) |
7 |
What is FAULT & Its Types. |
89 |
PS-II ( EX-801 ) |
7 |
POWER SYSTEM-II RGPV SOLVED QUESTION PART 1 |
90 |
CADEM ( EX-801 ) |
8 |
Computer Aided Electrical Machine Design: Introduction-I |
91 |
CADEM ( EX-801 ) |
8 |
Output Equation part II |
92 |
CADEM ( EX-801 ) |
8 |
Output Equation part I |
93 |
CADEM ( EX-801 ) |
8 |
Stack and its operation |
94 |
STTP- EV ( NA ) |
|
Electric Vehicles:Challenges & Opportunities |