Advance Power Systems

Features

• This ultimate Free application is for all engineering students across the world. It covers 145 topics of Advanced Topics in Power Systems in detail. These 145 topics are divided in 4 units.
• Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.
• This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.
• Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.
• Some of topics Covered in this application are:
• 1. Power semiconductor Devices in power system
• 2. Diodes in Power system
• 3. Thyristor in Power system
• 4. Light-triggered thyristor (LTT) in Power system
• 5. Desired characteristics of fully-controlled power semiconductors in power system
• 6. Gate-turn-off thyristor in power system
• 7. Metal-oxide-semiconductor field effect transistor in power system
• 8. Insulated-gate bipolar transistor in power system
• 9. MOS-controlled thyristor in power system
• 10. Semiconductor switching-power performance in Power system
• 11. characteristics of semiconductors used in power system
• 12. Cooling systems of semiconductor in power system
• 13. Protection of semiconductors - snubber circuits
• 14. Current trends in power semiconductor technology
• 15. Thyristor-controlled reactor (TCR)
• 16. Fundamental voltage/current characteristic of TCR
• 17. Harmonics of TCR
• 18. The thyristor-controlled transformer (TCT)
• 19. The TCR with shunt capacitors
• 20. Introduction to thyristor-switched capacitor (TSC)
• 21. Ideal transient-free switching
• 22. General Switching transients
• 23. Switching a discharged capacitor
• 24. Voltage-source converters (VSCs) and derived controllers
• 25. Single-phase half-bridge VSC
• 26. Single-phase full-bridge VSC
• 27. Conventional three-phase six-step VSC
• 28. Single-phase half-bridge neutral-point-clamped (NPC) VSC
• 29. Single-phase full-bridge NPC VSC
• 30. Other multilevel converter topologies
• 31. Pulse-width modulated (PWM) VSCs
• 32. Uninterruptible Power Supplies (UPSs)
• 33. Introduction to HVDC transmission
• 34. HVDC schemes and control
• 35. Advanced concepts in conventional HVDC applications
• 36. A Look on High Voltage Direct Current
• 37. HVDC System Configurations
• 38. Components of HVDC Transmission System
• 39. Valve Characteristics of HVDC systems
• 40. Converter Circuits of HVDC system
• 41. Analysis of three-phase, full-wave bridge circuit of HVDC system
• 42. Analysis of three-phase, full-wave bridge circuit assuming negligible source inductance(NO IGNITION DELAY)
• 43. Average direct voltage with negligible source inductance under no ignition delay
• 44. Analysis of three-phase, full-wave bridge circuit assuming negligible source inductance (With IGNITION DELAY)
• 45. Current and phase relations with ignition delay
• 46. Analysis Of 3-Phase, Full-Wave Bridge Circuit Including Commutation Overlap
• 47. Voltage Reduction Due to Commutation Overlap
• 48. Rectifier operation of the three phase full wave bridge circuit
• 49. Inverter operation of the three phase full wave bridge circuit
• 50. Relationship between ac and dc quantities of three phase full wave bridge circuit
• 51. Converter Transformer Rating
• 52. Basic Principles of Control OF HVDC SYSTEMS
• 53. Basis for selection of controls of HVDC system
• 54. Control characteristics of HVDC system - Ideal characteristics
• 55. Control characteristics of HVDC system - Actual characteristics
• 56. Transmission interconnections
• 57. Opportunities for FACTS
• 58. Power Flow in AC System
• 59. Power Flow In Parallel Paths
• 60. Power Flow In a Meshed System
• 61. Loading Capability Limitations
• 62. POWER FLOW AND DYNAMIC STABILITY CONSIDERATIONS OF A TRANSMISSION INTERCONNECTION
• 63. RELATIVE IMPORTANCE OF CONTROLLABLE PARAMETERS
• 64. BASIC TYPES OF FACTS CONTROLLERS

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