Modules / Lectures
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noc20_ee09_assigment_1noc20_ee09_assigment_1
noc20_ee09_assigment_10noc20_ee09_assigment_10
noc20_ee09_assigment_11noc20_ee09_assigment_11
noc20_ee09_assigment_12noc20_ee09_assigment_12
noc20_ee09_assigment_2noc20_ee09_assigment_2
noc20_ee09_assigment_3noc20_ee09_assigment_3
noc20_ee09_assigment_4noc20_ee09_assigment_4
noc20_ee09_assigment_5noc20_ee09_assigment_5
noc20_ee09_assigment_6noc20_ee09_assigment_6
noc20_ee09_assigment_7noc20_ee09_assigment_7
noc20_ee09_assigment_8noc20_ee09_assigment_8
noc20_ee09_assigment_9noc20_ee09_assigment_9


Sl.No Chapter Name MP4 Download
1Course contentsDownload
2IntroductionDownload
3Historical developmentsDownload
4Power semiconductor devicesDownload
5General converter configurationDownload
6Choice of converter configuration: Valve utilization factorDownload
7Choice of converter configuration: Transformer utilization factorDownload
8Converter configuration for pulse number equal to 6Download
9Analysis of 6 pulse LCC neglecting inductanceDownload
10Analysis of 6 pulse LCC neglecting inductance: Jumps in voltage across a valveDownload
11Analysis of 6 pulse LCC neglecting inductance: Average DC side voltageDownload
12Fourier series: Part 1Download
13Fourier series: Part 2Download
14Analysis of 6 pulse LCC neglecting inductance: DC side voltage harmonicsDownload
15Analysis of 6 pulse LCC neglecting inductance: Fundamental and harmonic components of AC side currentDownload
16Definitions: Delay angle, angle of advance, commutation margin angleDownload
17Commutation margin angle in a 6 pulse LCC neglecting inductance: Part 1Download
18Commutation margin angle in a 6 pulse LCC neglecting inductance: Part 2Download
19Instantaneous power on AC and DC sides in a 6 pulse LCC neglecting inductanceDownload
20Average power on AC and DC sides in a 6 pulse LCC neglecting inductanceDownload
216 pulse LCC with inductanceDownload
222 and 3 valve conduction mode of 6 pulse LCCDownload
232 and 3 valve conduction mode of 6 pulse LCC: DC side voltage harmonicsDownload
242 and 3 valve conduction mode of 6 pulse LCC: DC side voltage and voltage across a valveDownload
252 and 3 valve conduction mode of 6 pulse LCC: Fundamental and harmonic components of AC side currentDownload
26Extinction angleDownload
27Extinction angle: Commutation margin angle for normal inverter operation of 6 pulse LCCDownload
283 and 4 valve conduction mode of 6 pulse LCCDownload
29Analysis of 3 and 4 valve conduction mode of 6 pulse LCC: Part 1Download
30Analysis of 3 and 4 valve conduction mode of 6 pulse LCC: Part 2Download
31Analysis of 3 and 4 valve conduction mode of 6 pulse LCC: Part 3Download
323 valve conduction mode of 6 pulse LCC Download
33Commutation margin angle Download
34NormalizationDownload
35Characteristics of 6 pulse LCC: Part 1Download
36Characteristics of 6 pulse LCC: Part 2Download
37Steady state analysis of a general LCC: Part 1Download
38Steady state analysis of a general LCC: Part 2Download
39Steady state analysis of a general LCC: Application to 6 pulse LCCDownload
406 pulse LCC with resistance included on the AC sideDownload
416 pulse LCC with resistance, inductance and voltage source on the DC side: Part 1Download
426 pulse LCC with resistance, inductance and voltage source on the DC side: Part 2Download
43Power factorDownload
44Capacitor commutated converter: Part 1Download
45Capacitor commutated converter: Part 2Download
4612 pulse LCC: Part 1Download
4712 pulse LCC: Part 2Download
48Modes of operation of 12 pulse LCCDownload
49Purposes of transformerDownload
50Applications of DC transmissionDownload
51Types of DC link: MonopolarDownload
52Types of DC link: Bipolar and homopolarDownload
53DC link controlDownload
54DC link control: Control variablesDownload
55Considerations that influence selection of controlDownload
56Converter control characteristicsDownload
57MTDC systens: ApplicationsDownload
58Types of MTDC systemsDownload
59Non-characteristic harmonicsDownload
60Effect of firing angle errorsDownload
61Problems with harmonicsDownload
62Single tuned filterDownload
63Design of single tuned filter: Part 1Download
64Design of single tuned filter: Part 2Download
65Double tuned and damped filtersDownload
66Reactive power requirementDownload
67Comparison of AC and DC transmissionDownload

Sl.No Chapter Name English
1Course contentsDownload
To be verified
2IntroductionDownload
To be verified
3Historical developmentsDownload
To be verified
4Power semiconductor devicesDownload
To be verified
5General converter configurationDownload
To be verified
6Choice of converter configuration: Valve utilization factorDownload
To be verified
7Choice of converter configuration: Transformer utilization factorDownload
To be verified
8Converter configuration for pulse number equal to 6Download
To be verified
9Analysis of 6 pulse LCC neglecting inductanceDownload
To be verified
10Analysis of 6 pulse LCC neglecting inductance: Jumps in voltage across a valveDownload
To be verified
11Analysis of 6 pulse LCC neglecting inductance: Average DC side voltageDownload
To be verified
12Fourier series: Part 1Download
To be verified
13Fourier series: Part 2Download
To be verified
14Analysis of 6 pulse LCC neglecting inductance: DC side voltage harmonicsDownload
To be verified
15Analysis of 6 pulse LCC neglecting inductance: Fundamental and harmonic components of AC side currentDownload
To be verified
16Definitions: Delay angle, angle of advance, commutation margin angleDownload
To be verified
17Commutation margin angle in a 6 pulse LCC neglecting inductance: Part 1Download
To be verified
18Commutation margin angle in a 6 pulse LCC neglecting inductance: Part 2Download
To be verified
19Instantaneous power on AC and DC sides in a 6 pulse LCC neglecting inductanceDownload
To be verified
20Average power on AC and DC sides in a 6 pulse LCC neglecting inductanceDownload
To be verified
216 pulse LCC with inductanceDownload
To be verified
222 and 3 valve conduction mode of 6 pulse LCCDownload
To be verified
232 and 3 valve conduction mode of 6 pulse LCC: DC side voltage harmonicsDownload
To be verified
242 and 3 valve conduction mode of 6 pulse LCC: DC side voltage and voltage across a valveDownload
To be verified
252 and 3 valve conduction mode of 6 pulse LCC: Fundamental and harmonic components of AC side currentDownload
To be verified
26Extinction angleDownload
To be verified
27Extinction angle: Commutation margin angle for normal inverter operation of 6 pulse LCCDownload
To be verified
283 and 4 valve conduction mode of 6 pulse LCCDownload
To be verified
29Analysis of 3 and 4 valve conduction mode of 6 pulse LCC: Part 1Download
To be verified
30Analysis of 3 and 4 valve conduction mode of 6 pulse LCC: Part 2Download
To be verified
31Analysis of 3 and 4 valve conduction mode of 6 pulse LCC: Part 3Download
To be verified
323 valve conduction mode of 6 pulse LCC Download
To be verified
33Commutation margin angle Download
To be verified
34NormalizationDownload
To be verified
35Characteristics of 6 pulse LCC: Part 1Download
To be verified
36Characteristics of 6 pulse LCC: Part 2Download
To be verified
37Steady state analysis of a general LCC: Part 1Download
To be verified
38Steady state analysis of a general LCC: Part 2Download
To be verified
39Steady state analysis of a general LCC: Application to 6 pulse LCCDownload
To be verified
406 pulse LCC with resistance included on the AC sideDownload
To be verified
416 pulse LCC with resistance, inductance and voltage source on the DC side: Part 1Download
To be verified
426 pulse LCC with resistance, inductance and voltage source on the DC side: Part 2Download
To be verified
43Power factorDownload
To be verified
44Capacitor commutated converter: Part 1Download
To be verified
45Capacitor commutated converter: Part 2Download
To be verified
4612 pulse LCC: Part 1Download
To be verified
4712 pulse LCC: Part 2Download
To be verified
48Modes of operation of 12 pulse LCCDownload
To be verified
49Purposes of transformerDownload
To be verified
50Applications of DC transmissionDownload
To be verified
51Types of DC link: MonopolarDownload
To be verified
52Types of DC link: Bipolar and homopolarDownload
To be verified
53DC link controlDownload
To be verified
54DC link control: Control variablesDownload
To be verified
55Considerations that influence selection of controlDownload
To be verified
56Converter control characteristicsDownload
To be verified
57MTDC systens: ApplicationsDownload
To be verified
58Types of MTDC systemsDownload
To be verified
59Non-characteristic harmonicsDownload
To be verified
60Effect of firing angle errorsDownload
To be verified
61Problems with harmonicsDownload
To be verified
62Single tuned filterDownload
To be verified
63Design of single tuned filter: Part 1Download
To be verified
64Design of single tuned filter: Part 2Download
To be verified
65Double tuned and damped filtersDownload
To be verified
66Reactive power requirementDownload
To be verified
67Comparison of AC and DC transmissionDownload
To be verified


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