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High Voltage DC Transmission

High Voltage DC Transmission. Instructor: Prof. S. N. Singh, Department of Electrical Engineering, IIT Kanpur. In early invention of electric energy, dc power was used but due to limitations of low voltage DC systems, AC systems become popular. With increase interconnection and loading of power system, the factors such as are reactive power, stability, power control, etc, impose limitations on the amount of power to be transmitted over AC lines. With advent of high voltage semiconductor devices, it has been possible to go for high voltage DC (HVDC) transmission for long distance power transfer. This course will provide in-depth knowledge of HVDC system, converter topology, control of HVDC system, filters, analysis of HVDC/HVAC systems, etc. (from nptel.ac.in)

Lecture 18 - HVDC Link Control Schemes


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Lecture 01 - Evolution of HVDC Transmission
Lecture 02 - Comparison of HVAC and HVDC Systems
Lecture 03 - Principle Parts of HVDC Transmission
Lecture 04 - Analysis of Simple Rectifier Circuits: Single-Phase Rectifier Circuits
Lecture 05 - Three-Phase Rectifier Circuits
Lecture 06 - Selection of Converter Configuration
Lecture 07 - Analysis of Converter Circuit
Lecture 08 - Analysis of Converter Circuit (cont.)
Lecture 09 - Analysis of Converter Circuit: 2-3 Valves Conduction Mode
Lecture 10 - Analysis of Converter Circuit: 2-3 Valves Conduction Mode (cont.)
Lecture 11 - Analysis of Converter Circuit: 3-4 Valves Conduction Mode
Lecture 12 - Analysis of Converter Circuit: 3-4 Valves Conduction Mode (cont.)
Lecture 13 - Numerical Problems and Converter Charts
Lecture 14 - Converter Charts
Lecture 15 - Converter Charts (cont.)
Lecture 16 - Control of HVDC Link
Lecture 17 - Control of HVDC Link (cont.)
Lecture 18 - HVDC Link Control Schemes
Lecture 19 - HVDC Link Control Schemes (cont.)
Lecture 20 - HVDC Link Control Characteristics
Lecture 21 - HVDC System Faults and Protections
Lecture 22 - HVDC System Faults and Protections (cont.)
Lecture 23 - HVDC System Faults and Protections (cont.)
Lecture 24 - Analysis of Converter Circuit: DC Reactors, Damper Circuits
Lecture 25 - HVDC Components Design: Minimum Cost Tuned Filter, Design of High Pass Filter
Lecture 26 - HVDC Components Design: Harmonic Analysis, 12-Pulse Converter
Lecture 27 - HVDC Components Design: Harmonic Filters, Double-tuned Filters
Lecture 28 - Reactive Power Control, Grounding and Ground Electrodes
Lecture 29 - AC-DC Power Flow
Lecture 30 - AC-DC Power Flow: Sequential Method, Extended Variable Method
Lecture 31 - AC-DC Power Flow: Extended Variable Method, Eliminated Variables Method
Lecture 32 - Transient Stability Analysis
Lecture 33 - Transient Stability Analysis: Various Component Modellings
Lecture 34 - Dynamic Stability Analysis
Lecture 35 - Multi-Terminal HVDC System
Lecture 36 - HVDC Light/Plus
Lecture 37 - HVDC Light (cont.)