20.85 GB | 00:25:07 | mp4 | 1280X720  | 16:9
Genre:eLearning |Language:English

Files Included :
1 -Introduction ot DC machines  (37.44 MB)
10 -Slip rings vs  Commutators  (52.05 MB)
11 -DC motor working principle  (122.12 MB)
12 -Role of commutators in DC motors  (27.57 MB)
13 -Equivalent circuit of DC machine  (50.98 MB)
14 -Types of armature winding  (62.51 MB)
15 -Lap winding  (96.21 MB)
16 -Wave winding  (47.96 MB)
17 -Armature voltage equation  (87.54 MB)
18 -Developed torque equation  (59.74 MB)
19 -Solve example 1  (105.01 MB)
2 -Applications of DC machines  (57.83 MB)
20 -Solved example 2  (31.21 MB)
21 -Magnetization curve of DC machines  (98.57 MB)
22 -DC machine classifications  (46.76 MB)
3 -DC machine construction  (97.61 MB)
4 -Yoke, poles, and field winding  (95.43 MB)
5 -Rotor core and armature winding  (73.51 MB)
6 -Commutators and brushes  (69.21 MB)
7 -DC generator working principle  (56.61 MB)
8 -Is the generated voltage AC or DC  (138.89 MB)
9 -Role of commutators in DC generators  (85.85 MB)
1 -Construction  (85.77 MB)
10 -Example 1 - Generator model  (64.07 MB)
11 -Example 2 - Performance parameters of alternators  (92.54 MB)
2 -Salient pole vs  cylindrical rotor generators  (70.13 MB)
3 -Alternator working principle  (91.62 MB)
4 -Induced EMF Equation  (56.08 MB)
5 -Magnetization curve of synchronous generators  (32.96 MB)
6 -Generator equivalent circuit  (79.64 MB)
7 -Phasor diagram of synchronous generators  (51.18 MB)
8 -Performance parameters  (74.28 MB)
9 -Power angle curve  (74.21 MB)
1 -Terms related to armature winding  (53.82 MB)
2 -Features of armature winding  (118.33 MB)
3 -Pole pitch, Coil span, and Slot angle  (64.58 MB)
4 -Armature winding terminology  (81.68 MB)
5 -Turns, Conductors, and Parallel paths in armature winding  (45.31 MB)
6 -Types of armature winding  (40.69 MB)
7 -Application 1 Single layer winding diagram  (123.31 MB)
8 -Application 2 Double layer winding diagram  (67.14 MB)
1 -Armature voltage formula  (69.82 MB)
10 -Third harmonic elimination in DELTA Connection  (69.48 MB)
11 -Solved example 3  (67.2 MB)
2 -Assumptions made for EMF equation  (49.45 MB)
3 -Effect of chording (Kc)  (50.66 MB)
4 -Effect of distributed winding (Kd)  (99.48 MB)
5 -Solved example 1  (79.45 MB)
6 -Effect of flux distribution under the rotor poles  (59.26 MB)
7 -Harmonics in armature voltage  (71.56 MB)
8 -Solved example 2  (50.61 MB)
9 -Third harmonic elimination in STAR Connection  (69.07 MB)
1 -Introduction  (24.48 MB)
2 -Automatic Voltage Regulator (AVR)  (100.61 MB)
3 -Automatic Load Frequency Control (ALFC)  (119.3 MB)
4 -DC Exciter  (46.95 MB)
5 -Brushless Exciter  (80.43 MB)
6 -Static Exciter  (42.22 MB)
1 -Generator model parameters  (24.09 MB)
2 -DC test  (118.78 MB)
3 -Open circuit test  (114.34 MB)
4 -Short circuit test  (68.23 MB)
5 -Synchronous reactance calculation  (78.54 MB)
6 -Short Circuit Ratio (SCR)  (89.88 MB)
7 -Solved example 1  (81.19 MB)
8 -Solved example 2  (53.94 MB)
9 -Solved example 3  (96.38 MB)
1 -Operating conditions of alternator  (41.4 MB)
10 -Voltage-Reactive power characteristics  (54.17 MB)
11 -Solved example 2  (58.9 MB)
2 -Steps of operation of stand-alone generator  (41.24 MB)
3 -Analysis and rules  (71.29 MB)
4 -Voltage and Power angle calculation  (34.93 MB)
5 -Active and Reactive power Vs  Power angle  (86.08 MB)
6 -Solved example 1  (125.7 MB)
7 -Case study Effect of frequency change on alternator  (93.6 MB)
8 -Effect of load changes on islanded generator  (128.1 MB)
9 -Frequency-Power characteristics  (80.96 MB)
1 -Introduction  (32.34 MB)
10 -House diagram  (53.02 MB)
11 -Excitation and Governer effects on SG connected to grid  (69.03 MB)
12 -SG operating alone vs  SG in parallel with grid  (30.02 MB)
2 -What is infinite bus (IB)  (47.57 MB)
3 -Synchronization conditions  (57.34 MB)
4 -Synchronization process  (109.92 MB)
5 -Practical synchronization of alternator in lab  (103.31 MB)
6 -What is after perfect synchronization  (30.53 MB)
7 -Role of excitation control system  (61.16 MB)
8 -Role of governor control system  (143.77 MB)
9 -Comprehensive solved example  (153.18 MB)
1 -Advantages of Parallel Operation  (79.16 MB)
2 -Conditions Required for Paralleling  (73.7 MB)
3 -Analysis of parallel synchronous generators  (62.81 MB)
4 -Governer set point effects on parallel alternators  (30.95 MB)
5 -Field current control effects on parallel alternators  (37.14 MB)
6 -Comprehensive solved example  (107.85 MB)
1 -Synchronous generator nameplate  (94.06 MB)
2 -Frequency and speed ratings  (29.65 MB)
3 -Voltage ratings  (67.6 MB)
4 -Power ratings  (44.27 MB)
5 -Power factor ratings  (90.54 MB)
6 -P-Q chart  (60.73 MB)
7 -Capability diagram of synchronous generators  (73.6 MB)
8 -Short time operation of alternator  (56.75 MB)
9 -Service factor SF of alternators  (43.7 MB)
1 -Introduction  (25.73 MB)
2 -Difference between salient and non-salient machines  (64.85 MB)
3 -Two reaction theory  (49.09 MB)
4 -Phasor diagram of salient pole generator  (76.78 MB)
5 -EMF calculation  (85.83 MB)
6 -Power angle equation  (61.89 MB)
7 -Effect of saliency  (50.7 MB)
8 -Complete numerical example  (106.95 MB)
1 -Types of DC generators  (82.12 MB)
10 -Voltage build up process of shunt generators  (87.85 MB)
11 -Reasons for voltage build up failure in shunt generators  (67.13 MB)
12 -Solved example 4  (90.18 MB)
13 -Series excited DC generator  (86.19 MB)
14 -Compound DC generators  (79.26 MB)
15 -Characteristics of compound generators  (98.95 MB)
16 -Design of series winding in compound generators  (70.18 MB)
17 -Solved example 5  (67.51 MB)
18 -Applications of DC generators  (154.37 MB)
19 -Solved example 6  (31.32 MB)
2 -Separately excited DC generator  (47.39 MB)
3 -Solved example 1  (30.72 MB)
4 -Armature reaction concept  (82.67 MB)
5 -Effect of armature reaction on DC generators  (82.07 MB)
6 -Load characteristics of separately excited DC generator  (79.48 MB)
7 -Solved example 2  (90.14 MB)
8 -Shunt excited DC generator  (85.61 MB)
9 -Solved example 3  (26.11 MB)
1 -Construction  (64.26 MB)
10 -Effect of changing the excitation on the motor  (86.28 MB)
11 -V Curves of synchronous motor  (50.8 MB)
12 -Numerical example 3  (99.53 MB)
13 -Why are synchronous motors not self starting !  (71.89 MB)
14 -Starting methods of synchronous motors  (84.55 MB)
2 -Working principle  (84.04 MB)
3 -Motor model and phasor diagram  (68.52 MB)
4 -Synchronous condenser (P F correction)  (57.9 MB)
5 -Torque - Speed curve &  motor developed power  (57.93 MB)
6 -Reluctance motor  (98 MB)
7 -Numerical example 1  (88.03 MB)
8 -Effect of mecahnical load changes on the motor  (118.55 MB)
9 -Numerical example 2  (120.12 MB)
1 -Introduction to machine design  (88.11 MB)
10 -Stator winding design  (46.8 MB)
11 -Stator conductor design  (98.44 MB)
12 -Yoke design  (41.85 MB)
13 -Estimation of Stator resistance, Cu loss, and Weight of Copper  (55.61 MB)
14 -Design problem 1  (121.43 MB)
15 -Design problem 2  (172.04 MB)
2 -Difference in design between salient and non-salient pole machines  (96.95 MB)
3 -Specific magnetic loading  (113.99 MB)
4 -Specific electric loading  (67.02 MB)
5 -Output equation  (130.28 MB)
6 -Design of machine main dimensions  (81.51 MB)
7 -Stator core design  (86 MB)
8 -Design of stator slots  (94.34 MB)
9 -Slot and tooth dimensions  (51.66 MB)
1 -Rotor design details  (55.42 MB)
2 -Design of rotor pole sectional area  (79.11 MB)
3 -Design of rotor pole height  (78.5 MB)
4 -Estimation of field coil height  (176.15 MB)
5 -Factors affecting the choice of air gap length  (56.44 MB)
6 -Air gap design  (94.73 MB)
7 -Design problem 3  (151.92 MB)
8 -Design of field coil system  (134.1 MB)
9 -Design problem 4  (137.27 MB)
1 -Project 1 Stand alone synchronous generator simulation  (86.3 MB)
2 -Project 2  Voltage and frequency control of alternator  (128.42 MB)
3 -Project 3  Grid connected synchronous generator simulation  (94.67 MB)
4 -Project 4  Synchronous motor simulation  (124.49 MB)
1 -Why Exactly Induction Motors  (39.5 MB)
10 -Solved Example 3  (32.48 MB)
2 -Construction Of Three Phase Induction Motors  (35.57 MB)
3 -Slip Ring Induction Motor vs  Squirrel Cage Induction Motor  (47.58 MB)
4 -Theory of Operation of Induction Motors  (57.23 MB)
5 -Equivalent circuit and motor model  (55.95 MB)
6 -Power Flow Diagram In Induction Motors  (37.4 MB)
7 -Torque-Speed Characterstics of 3-phase Induction Motors  (60.39 MB)
8 -Solved Example 1  (30.07 MB)
9 -Solved Example 2  (25.21 MB)
1 -Necessity For Starters  (49.58 MB)
2 -Direct on Line ( DOL ) Starter  (45.65 MB)
3 -StartDelta Starter  (45.44 MB)
4 -Implementation of StarDelta Starter  (81.7 MB)
5 -Auto-Transformer Starter  (75.37 MB)
6 -Soft Starter Of Induction Motors  (55.6 MB)
7 -Rotor Resistance Starter  (79.82 MB)
8 -Conclusion and Comparison Beween Different Starting Methods  (32.69 MB)
9 -Practical Example on Different Starting Methods  (87.44 MB)
1 -Introduction  (27.65 MB)
2 -Stator Voltage Speed Control  (45.7 MB)
3 -Supply Frequency Speed Control  (64.09 MB)
4 -VF Speed Control  (44.86 MB)
5 -What Is Variable Frequency Drive ( VFD )  (15.08 MB)
6 -How Does VFD Work  (63.72 MB)
7 -Rotor Resistance Control  (57.97 MB)
8 -Slip Energy Recovery Control  (29.27 MB)
1 -Why Single-Phase Induction Motors  (26.32 MB)
10 -Capacitor Run Induction Motors  (13.24 MB)
11 -Capacitor Start - Capacitor Run Induction Motors  (19.08 MB)
12 -Conclusion and Comparison  (11.84 MB)
13 -Solved Example 1  (26.9 MB)
14 -Solved Example 2  (32.51 MB)
2 -Construction  (9.19 MB)
3 -Operation (Pulsating Field vs  Rotating Field)  (19.61 MB)
4 -Double Revolving Theory  (23.68 MB)
5 -Torque-Speed Characterstics  (18.25 MB)
6 -Why 1-Phase I M is not Self-Staring  (23.67 MB)
7 -Starting of Single Phase Induction Motors  (37.09 MB)
8 -Split Phase Induction Motors  (34.44 MB)
9 -Capacitor Start Induction Motors  (32.08 MB)
1 -DC test  (35.8 MB)
2 -No load test  (46.35 MB)
3 -Blocked rotor test  (39.3 MB)
1 -Copper losses in DC machines  (53.41 MB)
10 -Solved example 2  (124.81 MB)
11 -Solved example 3  (98.89 MB)
2 -Hysteresis losses in DC machines  (88.79 MB)
3 -Eddy current losses in DC machines  (50.18 MB)
4 -Mechanical losses  (28.03 MB)
5 -Constant and variable losses  (35.21 MB)
6 -Power flow diagram in DC generators  (50.54 MB)
7 -Generator efficiency and regulation  (44.34 MB)
8 -What is the condition for maximum generator efficiency  (84.31 MB)
9 -Solved example 1  (67.99 MB)
1 -Introduction to induction generators  (49.55 MB)
2 -Types of induction generators  (24.28 MB)
3 -Grid connected induction generator  (38.79 MB)
4 -Application Wind turbine generators  (27.81 MB)
5 -Self excited induction generator (SEIG)  (58.35 MB)
6 -Build-up voltage of SEIG  (35.74 MB)
7 -Reasons for build-up voltage failure in SEIG  (38.17 MB)
8 -Solved example on induction generator  (71.44 MB)
9 -Doubly fed induction generator (DFIG)  (132.14 MB)
1 -Project 1 Three phase induction motor simulation  (173.44 MB)
10 -Project  10  No load test simulation  (119.19 MB)
11 -Project  11  Blocked rotor test simulation  (74.99 MB)
12 -Project 12  Self excited induction generator simulation  (181.61 MB)
13 -Project 13 Grid connected induction generator simulation  (111.35 MB)
2 -Project 2  Voltage control of induction motor  (115.46 MB)
3 -Project 3  VF control  (121.93 MB)
4 -Project 4 VF control using variable frequency drives (VFD)  (115.42 MB)
5 -Project 5  Closed loop speed control using VFD  (132.57 MB)
6 -Project  6  Soft starter of induction motors  (82.06 MB)
7 -Project 7  Rotor resistance speed control  (147.45 MB)
8 -Project 8  Stator resistance speed control  (50.42 MB)
9 -Project 9  DC test simulation  (43.2 MB)
1 -DC motors Classification  (41.59 MB)
10 -The need for motor starters  (38.1 MB)
11 -Starting methods of DC motors  (60.21 MB)
12 -What is DC motor starter  (35.68 MB)
13 -DC motor starter working principle  (71.82 MB)
14 -DC motor starter design  (40.02 MB)
15 -Numerical example on Practical DC starter design  (92.36 MB)
2 -Separately excited DC motor  (46.8 MB)
3 -Torque-Speed Characteristics of DC motors  (163.15 MB)
4 -Back EMF and its significance in DC motors  (89.93 MB)
5 -Shunt DC motors  (26.46 MB)
6 -Series DC motors  (102.83 MB)
7 -Compound DC motors ( Cumulative & Differential )  (105.91 MB)
8 -DC motor performance parameters  (64.63 MB)
9 -DC motor applications  (53.77 MB)
1 -Methods of motor speed control  (37.14 MB)
2 -Terminal voltage control  (69.06 MB)
3 -Field flux control  (81.06 MB)
4 -Armature resistance control  (32.65 MB)
5 -Speed control of series motors  (72.06 MB)
6 -Numerical example 1  (98.79 MB)
7 -Numerical example 2  (120.86 MB)
8 -Numerical example 3  (81.59 MB)
1 -Introduction to DC machine testing  (35.76 MB)
10 -Retardation test procedure  (68.38 MB)
11 -Numerical example on retardation test  (48.94 MB)
2 -Apparatus and meters used in lab  (61.19 MB)
3 -Armature and field winding measurement  (59.75 MB)
4 -No load test of DC generator  (125.71 MB)
5 -Load test of separately excited generator  (103.77 MB)
6 -Load test of shunt generator  (87.39 MB)
7 -Load test of compound generator  (90.18 MB)
8 -What is retardation test  (86.97 MB)
9 -Theory and calculation steps of retardation test  (91.89 MB)
1 -Project 1  Separately excited motor simulation  (66.01 MB)
2 -Project 2  Plotting Torque-Speed curve of DC motor in MATLAB  (48.88 MB)
3 -Project 3  Speed control of DC motors in MATLAB  (55.13 MB)
4 -Project 4  Shunt and Series motors simulation  (42.21 MB)
5 -Project 5  DC motor Starting in MATLABSimulink  (150.33 MB)
6 -Project 6  Modelling of DC motor in MATLABSimulink  (157.33 MB)
7 -Project 7  DC generator simulation  (39.02 MB)
1 -Assignment on DC machines  (13.23 MB)
2 -Assignment solution  (8.4 MB)
1 -Introduction, Types, and Features of synchronous machines  (109.36 MB)
2 -Windings of synchronous machines  (50.09 MB)
3 -Difference in design between DC & Synchronous machines  (48.72 MB)
4 -Applications of synchronous generators  (50.84 MB)
5 -Applications of synchronous motors  (56.24 MB)
6 -Number of poles and pole pairs  (38.1 MB)
7 -Frequency - Speed relation  (62.33 MB)
8 -What is relation between Electrical and Mechanical angle  (23.33 MB)
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