IEEE Paper Titles

7/31/2019 IEEE Paper Titles

1/24

IEEE Papers on FACTS Devices

General : FACTS and Custom Power General Introductory Papers

1 Series-type solid-state static VAR compensator - Power Electronics, IEEE Transactions on

2FACTS technology and opportunities - Flexible AC Transmission Systems (FACTS) - The Key to

Increased Utilisation of Power Systems, IEE

3Modelling plant for flexible AC transmission systems - Flexible AC Transmission Systems (FACTS) -

The Key to Increased Utilisation of Power Systems, IEE

4Power electronics for FACTS equipments - Flexible AC Transmission Systems (FACTS) - The Key to

Increased Utilisation of Power Systems, IEE

5 Introduction to 'FACTS' - Flexible AC Transmission Systems (FACTS) - The Key to IncreasedUtilisation of Power Systems, IEE

6Advanced series compensator enhances flexibility for AC transmission systems - Advances in PowerSystem Control, Operation and Management, 1993. APSCOM - 93., 2nd International

7Improved power system performance using inverter based resonant switched compensators - PowerElectronics Specialists Conference, PESC '94 Record., 25th Annual IEEE

8Flexible Ac Transmission Systems Simulation and Control - AFRICON '92 Proceedings., 3rd AFRICONConference

9Characteristics And Firing Control Of Thyristor Controlled Series Compensation Installations - PowerSystem Technology, 1998. Proceedings. POWERCON '98. 1998 International Conference on

10Compact Electrothermal Models for Power Electronics - Power Electronic Systems Simulation (Ref.No. 1998/486), IEE Colloquium on

11Combined power electronic circuit and control loop simulation: why? And how? - Power Electronic

Systems Simulation (Ref. No. 1998/486), IEE Colloquium on

12Choosing A Simulation Tool - Power Electronic Systems Simulation (Ref. No. 1998/486), IEE

Colloquium on

13Flexible AC Transmission Systems - the FACTS - Flexible AC Transmission Systems - The FACTS

(Ref. No. 1998/500), IEE Colloquium

14FACTS: A Transmission Utility Perspective - Flexible AC Transmission Systems - The FACTS (Ref.

No. 1998/500), IEE Colloquium

15Power Electronics applied to the Distribution System - Flexible AC Transmission Systems - TheFACTS (Ref. No. 1998/500), IEE Colloquium

16Hitting a moving target with relocatable SVCs - Flexible AC Transmission Systems - The FACTS (Ref.

No. 1998/500), IEE Colloquium

17 A Transmission SVC for National Grid Company PLC Incorporating A/spl plusmn/75MVAR Statcom -
http://e/IEEE%20Papers/FACTS/general/00223968.pdfhttp://e/IEEE%20Papers/FACTS/general/00280275.pdfhttp://e/IEEE%20Papers/FACTS/general/00280275.pdfhttp://e/IEEE%20Papers/FACTS/general/00280276.pdfhttp://e/IEEE%20Papers/FACTS/general/00280276.pdfhttp://e/IEEE%20Papers/FACTS/general/00280277.pdfhttp://e/IEEE%20Papers/FACTS/general/00280277.pdfhttp://e/IEEE%20Papers/FACTS/general/00280278.pdfhttp://e/IEEE%20Papers/FACTS/general/00280278.pdfhttp://e/IEEE%20Papers/FACTS/general/00292657.pdfhttp://e/IEEE%20Papers/FACTS/general/00292657.pdfhttp://e/IEEE%20Papers/FACTS/general/00349729.pdfhttp://e/IEEE%20Papers/FACTS/general/00349729.pdfhttp://e/IEEE%20Papers/FACTS/general/00624419.pdfhttp://e/IEEE%20Papers/FACTS/general/00624419.pdfhttp://e/IEEE%20Papers/FACTS/general/00729050.pdfhttp://e/IEEE%20Papers/FACTS/general/00729050.pdfhttp://e/IEEE%20Papers/FACTS/general/00756462.pdfhttp://e/IEEE%20Papers/FACTS/general/00756462.pdfhttp://e/IEEE%20Papers/FACTS/general/00756466.pdfhttp://e/IEEE%20Papers/FACTS/general/00756466.pdfhttp://e/IEEE%20Papers/FACTS/general/00756467.pdfhttp://e/IEEE%20Papers/FACTS/general/00756467.pdfhttp://e/IEEE%20Papers/FACTS/general/00756665.pdfhttp://e/IEEE%20Papers/FACTS/general/00756665.pdfhttp://e/IEEE%20Papers/FACTS/general/00756667.pdfhttp://e/IEEE%20Papers/FACTS/general/00756667.pdfhttp://e/IEEE%20Papers/FACTS/general/00756669.pdfhttp://e/IEEE%20Papers/FACTS/general/00756669.pdfhttp://e/IEEE%20Papers/FACTS/general/00756670.pdfhttp://e/IEEE%20Papers/FACTS/general/00756670.pdfhttp://e/IEEE%20Papers/FACTS/general/00756671.pdfhttp://e/IEEE%20Papers/FACTS/general/00223968.pdfhttp://e/IEEE%20Papers/FACTS/general/00280275.pdfhttp://e/IEEE%20Papers/FACTS/general/00280275.pdfhttp://e/IEEE%20Papers/FACTS/general/00280276.pdfhttp://e/IEEE%20Papers/FACTS/general/00280276.pdfhttp://e/IEEE%20Papers/FACTS/general/00280277.pdfhttp://e/IEEE%20Papers/FACTS/general/00280277.pdfhttp://e/IEEE%20Papers/FACTS/general/00280278.pdfhttp://e/IEEE%20Papers/FACTS/general/00280278.pdfhttp://e/IEEE%20Papers/FACTS/general/00292657.pdfhttp://e/IEEE%20Papers/FACTS/general/00292657.pdfhttp://e/IEEE%20Papers/FACTS/general/00349729.pdfhttp://e/IEEE%20Papers/FACTS/general/00349729.pdfhttp://e/IEEE%20Papers/FACTS/general/00624419.pdfhttp://e/IEEE%20Papers/FACTS/general/00624419.pdfhttp://e/IEEE%20Papers/FACTS/general/00729050.pdfhttp://e/IEEE%20Papers/FACTS/general/00729050.pdfhttp://e/IEEE%20Papers/FACTS/general/00756462.pdfhttp://e/IEEE%20Papers/FACTS/general/00756462.pdfhttp://e/IEEE%20Papers/FACTS/general/00756466.pdfhttp://e/IEEE%20Papers/FACTS/general/00756466.pdfhttp://e/IEEE%20Papers/FACTS/general/00756467.pdfhttp://e/IEEE%20Papers/FACTS/general/00756467.pdfhttp://e/IEEE%20Papers/FACTS/general/00756665.pdfhttp://e/IEEE%20Papers/FACTS/general/00756665.pdfhttp://e/IEEE%20Papers/FACTS/general/00756667.pdfhttp://e/IEEE%20Papers/FACTS/general/00756667.pdfhttp://e/IEEE%20Papers/FACTS/general/00756669.pdfhttp://e/IEEE%20Papers/FACTS/general/00756669.pdfhttp://e/IEEE%20Papers/FACTS/general/00756670.pdfhttp://e/IEEE%20Papers/FACTS/general/00756670.pdfhttp://e/IEEE%20Papers/FACTS/general/00756671.pdf


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Flexible AC Transmission Systems - The FACTS (Ref. No. 1998/500), IEE Colloquium

18Thyristor Controleed Series Capacitor - Flexible AC Transmission Systems - The FACTS (Ref. No.1998/500), IEE Colloquium

19

Voltage Sag Mitigation by Means of Thyristor Controlled Series Capacitors - 8th International

Conference On Harmonics And Quality of Power Proceedings

20Modeling and control design of a static synchronous series compensator - Power Delivery, IEEETransactions on

21Modeling and analysis of FACTS devices with dynamic phasors - Power Engineering Society WinterMeeting, 2000. IEEE

22Improvements for power systems performance: modeling, analysis and benefits of TCSCs - PowerEngineering Society Winter Meeting, 2000. IEEE

23 Facts: transmission solutions in a changing world - Power System Technology, 2000. Proceedings.PowerCon 2000. International Conference on

24Frequency response of the thyristor controlled series capacitor - Power Delivery, IEEE Transactions

on

25Even harmonic resonance- an unusual problem - Petroleum and Chemical Industry Conference,

2002. Industry Applications Society 49th Annual

26 Developing Stronger Electrical Interconnections Between Texas and Mexico

27 HARD DRIVE - A RADICAL IMPROVEMENT FOR THE SERIES CONNECTION OF GTO'S

28FACTS Controllers Performance and Influence on Voltage Control in the presence of SecondaryVoltage Regulation

29 SVC LIGHT: EVALUATION OF FIRST INSTALLATION AT HAGFORS, SWEDEN

30 HARMONIC ACTIVE POWER FLOW IN LOW AND MEDIUM VOLTAGE DISTRIBUTION SYSTEMS

31 The DC link energy control method in dynamic voltage restorer system

32 FACTS For Cost Effective and Reliable Transmission of Electrical Energy

33 Modelling multiple FACTS devices into multi-machine power systems and applications

34Combined power electronic circuit and control loop simulation: why? And how? - Power ElectronicSystems Simulation (Ref. No. 1998/486), IEE Colloquium on

35 Marcy FACTS Project

36A method for identification of effective locations of variable impedance apparatus on enhancement

of - Power Systems, IEEE Transactions on

37 HVDC Plus Power Link Universal Systems
http://e/IEEE%20Papers/FACTS/general/00756671.pdfhttp://e/IEEE%20Papers/FACTS/general/00756672.pdfhttp://e/IEEE%20Papers/FACTS/general/00756672.pdfhttp://e/IEEE%20Papers/FACTS/general/00759973.pdfhttp://e/IEEE%20Papers/FACTS/general/00759973.pdfhttp://e/IEEE%20Papers/FACTS/general/00796239.pdfhttp://e/IEEE%20Papers/FACTS/general/00796239.pdfhttp://e/IEEE%20Papers/FACTS/general/00850191.pdfhttp://e/IEEE%20Papers/FACTS/general/00850191.pdfhttp://e/IEEE%20Papers/FACTS/general/00850194.pdfhttp://e/IEEE%20Papers/FACTS/general/00850194.pdfhttp://e/IEEE%20Papers/FACTS/general/00900086.pdfhttp://e/IEEE%20Papers/FACTS/general/00900086.pdfhttp://e/IEEE%20Papers/FACTS/general/00905587.pdfhttp://e/IEEE%20Papers/FACTS/general/00905587.pdfhttp://e/IEEE%20Papers/FACTS/general/01044989.pdfhttp://e/IEEE%20Papers/FACTS/general/01044989.pdfhttp://e/IEEE%20Papers/FACTS/general/p1.pdfhttp://e/IEEE%20Papers/FACTS/general/p10.pdfhttp://e/IEEE%20Papers/FACTS/general/p102.pdfhttp://e/IEEE%20Papers/FACTS/general/p102.pdfhttp://e/IEEE%20Papers/FACTS/general/p103.pdfhttp://e/IEEE%20Papers/FACTS/general/p104.pdfhttp://e/IEEE%20Papers/FACTS/general/p117.pdfhttp://e/IEEE%20Papers/FACTS/general/p12.pdfhttp://e/IEEE%20Papers/FACTS/general/p124.pdfhttp://e/IEEE%20Papers/FACTS/general/p135.pdfhttp://e/IEEE%20Papers/FACTS/general/p135.pdfhttp://e/IEEE%20Papers/FACTS/general/p16.pdfhttp://e/IEEE%20Papers/FACTS/general/p169.pdfhttp://e/IEEE%20Papers/FACTS/general/p169.pdfhttp://e/IEEE%20Papers/FACTS/general/p17.pdfhttp://e/IEEE%20Papers/FACTS/general/00756671.pdfhttp://e/IEEE%20Papers/FACTS/general/00756672.pdfhttp://e/IEEE%20Papers/FACTS/general/00756672.pdfhttp://e/IEEE%20Papers/FACTS/general/00759973.pdfhttp://e/IEEE%20Papers/FACTS/general/00759973.pdfhttp://e/IEEE%20Papers/FACTS/general/00796239.pdfhttp://e/IEEE%20Papers/FACTS/general/00796239.pdfhttp://e/IEEE%20Papers/FACTS/general/00850191.pdfhttp://e/IEEE%20Papers/FACTS/general/00850191.pdfhttp://e/IEEE%20Papers/FACTS/general/00850194.pdfhttp://e/IEEE%20Papers/FACTS/general/00850194.pdfhttp://e/IEEE%20Papers/FACTS/general/00900086.pdfhttp://e/IEEE%20Papers/FACTS/general/00900086.pdfhttp://e/IEEE%20Papers/FACTS/general/00905587.pdfhttp://e/IEEE%20Papers/FACTS/general/00905587.pdfhttp://e/IEEE%20Papers/FACTS/general/01044989.pdfhttp://e/IEEE%20Papers/FACTS/general/01044989.pdfhttp://e/IEEE%20Papers/FACTS/general/p1.pdfhttp://e/IEEE%20Papers/FACTS/general/p10.pdfhttp://e/IEEE%20Papers/FACTS/general/p102.pdfhttp://e/IEEE%20Papers/FACTS/general/p102.pdfhttp://e/IEEE%20Papers/FACTS/general/p103.pdfhttp://e/IEEE%20Papers/FACTS/general/p104.pdfhttp://e/IEEE%20Papers/FACTS/general/p117.pdfhttp://e/IEEE%20Papers/FACTS/general/p12.pdfhttp://e/IEEE%20Papers/FACTS/general/p124.pdfhttp://e/IEEE%20Papers/FACTS/general/p135.pdfhttp://e/IEEE%20Papers/FACTS/general/p135.pdfhttp://e/IEEE%20Papers/FACTS/general/p16.pdfhttp://e/IEEE%20Papers/FACTS/general/p169.pdfhttp://e/IEEE%20Papers/FACTS/general/p169.pdfhttp://e/IEEE%20Papers/FACTS/general/p17.pdf


3/24

38 A solid-state PWM phase-shifter - Power Delivery, IEEE Transactions on

39ASSESSMENT AND CONTROL OF THE IMPACT OF FACTS DEVICES ON POWER SYSTEMPERFORMANCE - Power Systems, IEEE Transactions on

40

Benefits of GTO-based compensation systems for electric utility applications - Power Delivery, IEEE

Transactions on

41 Boost-type PWM HVDC transmission system - Power Delivery, IEEE Transactions on

42Characteristics and rating considerations of thyristor controlled series compensation - PowerDelivery, IEEE Transactions on

43Power Flow and Transient Stability Models of FACTS Controllers for Voltage and Angle StabilityStudies

44 Continuously regulated series capacitor - Power Delivery, IEEE Transactions on

45 Controlling the Flow of Real and Reactive Power - IEEE Computer Applications in Power

46Digital simulation of flexible topology power electronic apparatus in power systems - PowerDelivery, IEEE Transactions on

47 Modeling and Implementation of TCR and VSI Based FACTS Controllers

48Facts Devices In Uplift Control - AC and DC Power Transmission, Sixth International Conference on(Conf. Publ. No. 423)

49 FACTS options permit the utilization of the full thermal capacity of AC transmission - AC and DCPower Transmission, 1991., International Conference on

50FACTS-flexible AC transmission system - AC and DC Power Transmission, 1991., International

Conference on

51Force commutated HVDC and SVC based on phase-shifted multi-converter modules - Power

Delivery, IEEE Transactions on

52 Mid-point Siting Of Facts Devices In Transmission Lines - Power Delivery, IEEE Transactions on

53New digital control of forced commutation HVDC converter supplying into load system without ACsourc - Power Systems, IEEE Transactions on

54Performance of a Power Conversion System for Superconducting Magnetic Energy Storage (SMES) -Power Systems, IEEE Transactions on

55Power electronics in electric utilities: role of power electronics in future power systems -Proceedings of the IEEE

56Power system stabilization by superconducting magnetic energy storage with solid-state phaseshifter - Power Systems, IEEE Transactions on

57 Proposed Terms And Definitions For Flexible Ac Transmission System (facts) - Power Delivery, IEEETransactions on
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4/24

58Research in pulse width modulated HVDC transmission - AC and DC Power Transmission, 1991.,International Conference on

59Series Compensation Using Power Electronic Switches: The Sercom - AC and DC PowerTransmission, Sixth International Conference on (Conf. Publ. No. 423)

60 Sssc - Static Synchronous Series Compensator: Theory, Modeling, and Applications - PowerDelivery, IEEE Transactions on

61Vector modeling and control of unbalanced electrical systems - Industry Applications Conference,1999. Thirty-Fourth IAS Annual Meeting. Conference Record of the

62 Flexible AC Transmission Systems Benefits Study

63 Flicker Reduction in Electric Arc Furnaces

64 ORNL Report on Voltage Control

65 Power Compensation in Transmission Systems

66 Future directions for distribution networks

67 Voltage Control in Systems with IPPs

68 Incorporating SMES Coils into FACTS and Custom Power Devices

69 HVDC Transmission

70 GTO - Application Aspects

71 Fault Tolerance and Security for Power Transmission System Configuration with FACTS Devices

72 MODELLING FLEXIBLE AC TRANSMISSION SYSTEMS BY USING SIMULINK

73 FACTS

74 Innovative power flow management and voltage control technologies

75 Flexible AC Transmission System Benefits Study

76FACTS Technology for Transmission System Enhancement Marcy Convertible Static Compensator(CSC)

77POWER ELECTRONICS: AN UNAVOIDABLE INTERFACE BETWEEN ENERGY SOURCES AND ELECTRICLOADS

78 HVDC Transmission Systems using Voltage Sources Converters - Design and Applications

79A comparison of high-power converter topologies for the implementation of facts controllers -

Industrial Electronics, IEEE Transactions on

80 SVC Light: for flexibility in power systems
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5/24

81Introducing the family of "sen" transformers: a set of power flow controlling transformers - PowerDelivery, IEEE Transactions on

82 GRAPHICAL USER INTERFACE FOR POWER SYSTEMS SOFTWARE PACKAGE

83 FACTS Technologies for Transmission

84 Methods for Reduction of Voltage Unbalance in

85 Power Semiconductors in Transmission and Distribution Applications

86 minilec10.PDF
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6/24

AF : FACTS and Custom Power Shunt, Series and Hybrid ActiveFiltering and Reactive Compensation

1 Experience and problems with the protection of series compensated lines - Developments in PowerProtection, 1989., Fourth International Conference on

2A series capacitive reactance compensator based on voltage-source PWM converter - IndustryApplications Society Annual Meeting, 1991., Conference Record of the 1991 IEEE

3A novel phase-control topology to improve characteristics of thyristor controlled series compensatio- Power Engineering Society Summer Meeting, 1999. IEEE

4Modeling and simulation of three-phase active filters - Power Engineering Society Winter Meeting,2001 IEEE

5An over current protection scheme for series active compensators - Industrial Electronics Society,2001. IECON '01. The 27th Annual Conference of the IEEE

6DSP-controlled active filters for system harmonies compensation - Power System Technology, 2002.Proceedings. PowerCon 2002. International Conference on

7Solid-State Synchronous Voltage Sources for Dynamic Compensation and Real-Time Control of ACTransmission Lines

8Control System for Three-Phase Active Power Filter Which Simultaneously Compensates PowerFactor and - Industrial Electronics, IEEE Transactions on

9Solid-State Synchronous Voltage Sources for Dynamic Compensation and Real-Time Control of ACTransmission Lines

10A Simple Frequency-Independent Method for Calculating the Reactive and Harmonic Current in aNonline - Industrial Electronics, IEEE Transactions on

11A Series Active Power Filter Based on a Sinusoidal Current-Controlled Voltage-Source Inverter -Industrial Electronics, IEEE Transactions on

12A Simple and Low-Cost Control Strategy for Active Power Filters Connected in Cascade - Industrial

Electronics, IEEE Transactions on

13New hybrid parallel active filter configuration minimising active filter size - Electric PowerApplications, IEE Proceedings-

14Unified Constant-frequency Integration Control of Three-phase Active-Power-Filter with VectorOperation

15 Operational capability of inductively loaded current controlled solid-state lead lag var compensator

16 Optimal Allocations of SVCs for Improvement of Power System Performance

17Single phase active filter using a DSP with digital PWM - Power Electronics, Machines and Drives,2002. International Conference on (Conf. Publ. No. 487)
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18Implementation of a hybrid series active filter for harmonic current and voltage compensations -Power Electronics, Machines and Drives, 2002. International Conference on (Conf. Publ. No. 487)

19A series active power filter for harmonic voltage suppression - Telecommunications EnergyConference, 2001. INTELEC 2001. Twenty-Third International

20 A predicted control scheme of single phase active power filter in electric traction system - Advancesin Power System Control, Operation and Management, 2000. APSCOM-00. 2000 International Co

21 Trends of Real Time Controlled Active Power Filters

22 Predictive Control of Active Power Filters

23Current control of active power filters assisted by adaptive algorithm - Power Electronics andVariable Speed Drives, 2000. Eighth International Conference on (IEE Conf. P

24A survey of active filters and reactive power compensation techniques - Power Electronics and

Variable Speed Drives, 2000. Eighth International Conference on (IEE Conf. P

25An Active Filter Based On Voltage Feedback - Power Electronics and Variable Speed Drives, 1998.Seventh International Conference on (IEE Conf.

26Techniques Of Active Load's Current Oriand Power Computing For Dynamic Compensation Of Three-phase - Power Electronics and Variable Speed Drives, 1998. Seventh International Conference on

(IEE Conf.

27An Active Filter Based On Voltage Feedback - Power Electronics and Variable Speed Drives, 1998.

Seventh International Conference on (IEE Conf.

28Analysis Of A Novel Active Filter For Balancing And Reactive Power Compensation - PowerElectronics and Variable Speed Drives, 1998. Seventh International Conference on (IEE Conf.

29An Improved Variable Structure Control Of A Shunt Active Filter - Power Electronics and VariableSpeed Drives, 1998. Seventh International Conference on (IEE Conf.

30Four Wire Active Power Filter Control Circuit With Phase Locked Loop Phase Angle Determination -Power Electronics and Variable Speed Drives, 1998. Seventh International Conference on (IEE Conf.

31Simplified Digital-analogical Control For Shunt Active Power Filters Under Unbalanced Conditions -Power Electronics and Variable Speed Drives, 1998. Seventh International Conference on (IEE Conf.

32

Combined Compensation Structure of an SVC and an Active Filter for Unbalanced Three Phase

Distributi - Advances in Power System Control, Operation and Management, 1997. APSCOM-97.Fourth International

33A Control Method For Active Power Filters Under Unbalanced Non-sinusoidal Conditions - PowerElectronics and Variable Speed Drives, 1996. Sixth International Conference on (Conf. Publ.

34An Active Filter For Retrofit Applications - Power Electronics and Variable Speed Drives, 1996. SixthInternational Conference on (Conf. Publ.

35 Hybrid active filter for parallel harmonic compensation - Power Electronics and Applications, 1993.,Fifth European Conference on
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36Performance of an active filter using PWM current source inverter - Power Electronics andApplications, 1993., Fifth European Conference on

37Control method and characteristics of active power filters - Power Electronics and Applications,1993., Fifth European Conference on

38 Advanced Control of Active Filters in a Battery Charger Application

39Active power filter using solid state phase shifter - Power Electronics and Applications, 1993., FifthEuropean Conference on

40Power system harmonic signal retrieval for active power filter applications - Advances in PowerSystem Control, Operation and Management, 1993. APSCOM - 93., 2nd International

41Harmonic filters for industrial power systems - Advances in Power System Control, Operation andManagement, 1991. APSCOM-91., 1991 International C

42 An active filter for reactive and harmonic compensation using voltage source inverter - Advances inPower System Control, Operation and Management, 1991. APSCOM-91., 1991 International C

43Control techniques for active power filters - Advances in Power System Control, Operation and

Management, 1991. APSCOM-91., 1991 International C

44Pulse width modulated series compensator - Generation, Transmission and Distribution, IEE

Proceedings-

45 The Design and Control of an Inverter-Based Series Compensator for Dynamic Performance

46 A Novel Power Flow Controller For Controlled Series Compensation - AC and DC PowerTransmission, Sixth International Conference on (Conf. Publ. No. 423)

47Dynamic compensation of AC transmission lines by solid-state synchronous voltage sources - PowerDelivery, IEEE Transactions on

48 New Trends in Active Filters for Power Conditioning - Industry Applications, IEEE Transactions on

49Control and reduction of terminal voltage total harmonic distortion (THD) in a hybrid series active -

Power Electronics Specialists Conference, 1993. PESC '93 Record., 24th Annual IEEE

50

SYNCHRONOUS FRAME BASED CONTROLLER IMPLEMENTATION FOR A HYBRID SERIES ACTIVE

FILTER SYSTEM - Industry Applications Conference, 1995. Thirtieth IAS Annual Meeting, IAS '95.,Conference Record

51Design and implementation of a hybrid series active filter system - Power Electronics SpecialistsConference, 1995. PESC '95 Record., 26th Annual IEEE

52Flux Based Active Filter Controller - Industry Applications Conference, 1995. Thirtieth IAS AnnualMeeting, IAS '95., Conference Record

53Power Theory Evaluation for the Control of an Active Power Filter - AFRICON, 1996., IEEE AFRICON4th

54Parallel Active Filter System Implementation and Design Issues for Utility Interface of Adjustable S -Industry Applications Conference, 1996. Thirty-First IAS Annual Meeting, IAS '96., Conference Reco


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55Hybrid Solutions For Improving Passive Filter Performance In High Power Applications - AppliedPower Electronics Conference and Exposition, 1996. APEC '96.Conference Proceedings 1996.,

56A Comparison Of Active Power Filter Control Methods In Unbalanced And Non Sinusoidal Conditions- Industrial Electronics Society, 1998. IECON '98. Proceedings of the 24th Annual Conference of the

57 A New Control Strategy for Instantaneous Voltage Compensator Using 3-Phase PWM Inverter -Power Electronics Specialists Conference, 1998. PESC 98 Record. 29th Annual IEEE

58Control Of An Active Power Filter Based On Input-output Linearization - Industrial ElectronicsSociety, 1998. IECON '98. Proceedings of the 24th Annual Conference of the

59A new control method for obtaining reference currents of shunt active power filters in unbalanced an- Industrial Electronics, 1999. ISIE '99. Proceedings of the IEEE International Symposium on

60The control system of the active power filter considering power factor in unbalanced load - IndustryApplications Conference, 2000. Conference Record of the 2000 IEEE

61A current control scheme based on multiple synchronous reference frames for parallel hybrid activef - Power Electronics and Motion Control Conference, 2000. Proceedings. PIEMC 2000. The ThirdInternat

62Modeling and nonlinear control of shunt active power filter in the synchronous reference frame -

Harmonics and Quality of Power, 2000. Proceedings. Ninth International Conference on

63Nonlinear control strategy applied to a shunt active power filter - Power Electronics Specialists

Conference, 2001. PESC. 2001 IEEE 32nd Annual

64

Stationary reference frame-based simple active power filter with voltage regulation - Industrial

Electronics, 2001. Proceedings. ISIE 2001. IEEE International Symposium on

65A comparative study of active power filter reference compensation approaches - Power Engineering

Society Summer Meeting, 2002 IEEE

66Design and implementation of a series voltage sag compensator under practical utility conditions -Applied Power Electronics Conference and Exposition, 2002. APEC 2002. Seventeenth Annual IEEE

67Stationary frame harmonic reference generation for active filter systems - Applied Power ElectronicsConference and Exposition, 2002. APEC 2002. Seventeenth Annual IEEE

68Improving the dynamic response of active power filters based on the synchronous reference framemeth - Applied Power Electronics Conference and Exposition, 2002. APEC 2002. Seventeenth AnnualIEEE

69Control strategies of selective harmonic current shunt active filter - Generation, Transmission andDistribution, IEE Proceedings-

70Experimental verification of dominant harmonic active filter for high-power applications - IndustryApplications, IEEE Transactions on

71 Comparison of Time-Based Non-Active Power Definitions for Active Filtering

72 Survey of Harmonics Measurements in Electrical Distribution Systems


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73 Harmonics and Flicker Control in Wind Farms

74 Unified Constant-frequency Integration Control of Active Power Filters

75 An Instantaneous Phase Angle Detection Algorithm under Unbalanced Line Voltage Condition

76 A New Parallel Hybrid Filter Conguration Minimizing Active Filter Size

77Modelling of Conventional and Advanced Static Var Compensators in an Electromagnetic TransientsSimulation Program

78 Active Filters with Control Based on the p-q Theory

79 Parallel Active Harmonic Filters: Economical Viable Technology

80 ACTIVE POWER FILTERS BASED ON A SINGLE CURRENT MEASUREMENT SYSTEM

81 An Integrated Approach for the Protection of Series Injection Inverters

82Direct Current control: A novel control strategy for harmonic and reactive compensation with activefilters under unbalanced operation

83 10.5 Resonant Characteristics of Inverter-Based Transmission Line Series Compensators

84 16.4 Direct Power Control of Three Phase Active Filter with Minimum Energy Storage Components

85 A Comparative Study of Harmonic Filtering Strategies for a Shunt Active Filter

86 A REVISION OF THE STATE OF THE ART IN ACTIVE FILTERS
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INV : FACTS and Custom Power Converters for FACTS andModulation Strategies

1 A Four Level Inverter Based Drive With a Passive Front End.

2 Description of Operation of Multilevel Converters

3Extension of PWM Space Vector Technique for Multilevel Current-Controlled Voltage SourceInverters

4A comparison of high-power converter topologies for the implementation of facts controllers -Industrial Electronics, IEEE Transactions on

5 300kW Battery Energy Storage System Using an IGBT Converter

6A Multilevel Voltage Source Inverter with Separate DC Sources for Static Var Generation - Industry

Applications Conference, 1995. Thirtieth IAS Annual Meeting, IAS '95., Conference Record

7 PRECISION SIMULATION OF PWM CONTROLLERS

8 Reduced Switching Stress in High-Voltage IGBT Inverters via a Three-Level Structure

9Current controller in synchronous reference frame for high performance AC drives - ElectricalMachines and Drives, 1991., Fifth International Conference on

10 Control Strategies for a Hybrid Seven-level Inverter

11PWM Current Controllers In The Synchronous And Stationary Reference Frame With DifferentSampling An - Industrial Electronics Society, 1998. IECON '98. Proceedings of the 24th Annual

Conference of the

12

Direct Digital Current Control of a Three-Phase PWM converter Based on a New Control Model with a

De - Industrial Electronics Society, 1998. IECON '98. Proceedings of the 24th Annual Conference ofthe

13Vectorial current control techniques for three-phase ac/dc boost converters - Industrial Electronics,1999. ISIE '99. Proceedings of the IEEE International Symposium on

14A comparative analysis of control algorithms for three-phase line-interactive UPS systems with serie- Power Electronics Specialists Conference, 2000. PESC 00. 2000 IEEE 31st Annual

15 A New Space Vector Modulation Strategy for Common Mode Voltage Reduction

16A novel control method of a VSC without AC line voltage sensors - Industry Applications Conference,2001. Thirty-Sixth IAS Annual Meeting. Conference Record of the

17 An Inverter/Motor Drive With Common Mode Voltage Elimination

18 Long-Range Predictive Control of Current Regulated PWM for Induction Motor Drives Using theSynchron - Control Systems Technology, IEEE Transactions on
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19 Current control of unbalanced electrical systems - Industrial Electronics, IEEE Transactions on

20 Modelling Grid-Connected Voltage Source Inverter Operation

21 A hybrid multilevel inverter topology for drive applications

22 An Auxiliary Zero State Synthesizer to Reduce Common Mode Voltage in Three-Phase Inverters

23 Multilevel Inverters for Large Automotive Electric Drives

24 A Digital Current Controller for Three Phase Voltage Source Inverters

25 Novel Multilevel Inverter Carrier-Based PWM Methods

26Control of a Single Phase Three Level Voltage Source Inverter for Grid Connected PhotovoltaicSystems

27 PWM for Electronic Power Conversion

28 Hybrid Multilevel Power Conversion System: a competitive solution for high power applications

29 Multilevel PWM Methods at Low Modulation Indices

30 Novel Multilevel Inverter Carrier-Based PWM Method

31 Multilevel Inverters for Electric Vehicle Applications

32 Switching Angles and DC Link Voltages Optimization for Multilevel Cascade Inverters

33 Multilevel Converters for Large Electric Drives

34 Novel Multilevel Inverter Carrier-Based PWM Method

3534.5 Hybrid Multilevel Power Conversion System: A Competitive Solution for High PowerApplications

36 Optimum Harmonic Reduction with a Wide Range of Modulation Indexes for Multilevel Converters

37

Control Strategies for Multilevel Voltage Source Converters for Medium-Voltage DC Transmission

Systems

38 A 24 MVA Inverter Using IGCT Series Connection for Medium Voltage Applications

39 7.4 A Vector Control Technique for Medium Voltage Multilevel Inverters

40A vector control technique for medium voltage multilevel inverters - Applied Power ElectronicsConference and Exposition, 2001. APEC 2001. Sixteenth Annual IEEE

41Multilevel inverters: a survey of topologies, controls, and applications - Industrial Electronics, IEEETransactions on

42Direct-coupled Multilevel Cascaded Series Var Compensators - Industry Applications, IEEETransactions on , 1998 Oct
http://e/IEEE%20Papers/FACTS/inv/p244.pdfhttp://e/IEEE%20Papers/FACTS/inv/p248.pdfhttp://e/IEEE%20Papers/FACTS/inv/p25.pdfhttp://e/IEEE%20Papers/FACTS/inv/p26.pdfhttp://e/IEEE%20Papers/FACTS/inv/p265.pdfhttp://e/IEEE%20Papers/FACTS/inv/p266.pdfhttp://e/IEEE%20Papers/FACTS/inv/p267.pdfhttp://e/IEEE%20Papers/FACTS/inv/p268.pdfhttp://e/IEEE%20Papers/FACTS/inv/p268.pdfhttp://e/IEEE%20Papers/FACTS/inv/p269.pdfhttp://e/IEEE%20Papers/FACTS/inv/p27.pdfhttp://e/IEEE%20Papers/FACTS/inv/p270.pdfhttp://e/IEEE%20Papers/FACTS/inv/p271.pdfhttp://e/IEEE%20Papers/FACTS/inv/p272.pdfhttp://e/IEEE%20Papers/FACTS/inv/p28.pdfhttp://e/IEEE%20Papers/FACTS/inv/p29.pdfhttp://e/IEEE%20Papers/FACTS/inv/p30.pdfhttp://e/IEEE%20Papers/FACTS/inv/p46.pdfhttp://e/IEEE%20Papers/FACTS/inv/p46.pdfhttp://e/IEEE%20Papers/FACTS/inv/p52.pdfhttp://e/IEEE%20Papers/FACTS/inv/p57.pdfhttp://e/IEEE%20Papers/FACTS/inv/p57.pdfhttp://e/IEEE%20Papers/FACTS/inv/p58.pdfhttp://e/IEEE%20Papers/FACTS/inv/p67.pdfhttp://e/IEEE%20Papers/FACTS/inv/p68.pdfhttp://e/IEEE%20Papers/FACTS/inv/p68.pdfhttp://e/IEEE%20Papers/FACTS/inv/p89.pdfhttp://e/IEEE%20Papers/FACTS/inv/p89.pdfhttp://e/IEEE%20Papers/FACTS/inv/p395.pdfhttp://e/IEEE%20Papers/FACTS/inv/p395.pdfhttp://e/IEEE%20Papers/FACTS/inv/p244.pdfhttp://e/IEEE%20Papers/FACTS/inv/p248.pdfhttp://e/IEEE%20Papers/FACTS/inv/p25.pdfhttp://e/IEEE%20Papers/FACTS/inv/p26.pdfhttp://e/IEEE%20Papers/FACTS/inv/p265.pdfhttp://e/IEEE%20Papers/FACTS/inv/p266.pdfhttp://e/IEEE%20Papers/FACTS/inv/p267.pdfhttp://e/IEEE%20Papers/FACTS/inv/p268.pdfhttp://e/IEEE%20Papers/FACTS/inv/p268.pdfhttp://e/IEEE%20Papers/FACTS/inv/p269.pdfhttp://e/IEEE%20Papers/FACTS/inv/p27.pdfhttp://e/IEEE%20Papers/FACTS/inv/p270.pdfhttp://e/IEEE%20Papers/FACTS/inv/p271.pdfhttp://e/IEEE%20Papers/FACTS/inv/p272.pdfhttp://e/IEEE%20Papers/FACTS/inv/p28.pdfhttp://e/IEEE%20Papers/FACTS/inv/p29.pdfhttp://e/IEEE%20Papers/FACTS/inv/p30.pdfhttp://e/IEEE%20Papers/FACTS/inv/p46.pdfhttp://e/IEEE%20Papers/FACTS/inv/p46.pdfhttp://e/IEEE%20Papers/FACTS/inv/p52.pdfhttp://e/IEEE%20Papers/FACTS/inv/p57.pdfhttp://e/IEEE%20Papers/FACTS/inv/p57.pdfhttp://e/IEEE%20Papers/FACTS/inv/p58.pdfhttp://e/IEEE%20Papers/FACTS/inv/p67.pdfhttp://e/IEEE%20Papers/FACTS/inv/p68.pdfhttp://e/IEEE%20Papers/FACTS/inv/p68.pdfhttp://e/IEEE%20Papers/FACTS/inv/p89.pdfhttp://e/IEEE%20Papers/FACTS/inv/p89.pdfhttp://e/IEEE%20Papers/FACTS/inv/p395.pdfhttp://e/IEEE%20Papers/FACTS/inv/p395.pdf


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43Multilevel Converters - A New Breed of Power Converters - Industry Applications, IEEE Transactionson , 1996 May/June

SSR : FACTS and Custom Power FACTS and SubsynchronousResonance

1Damping of subsynchronous resonance using excitation controllers and static VAr compensations: acom - Energy Conversion, IEEE Transactions on

2Design of PID static VAr controllers for the damping of subsynchronous oscillations - EnergyConversion, IEEE Transactions on

3

Stabilizing SSR oscillations with a shunt reactor controller for uncertain levels of series compensa -

Power Systems, IEEE Transactions on

4Investigation of subsynchronous resonance risk in the 380 kV Turkish electric network - Circuits andSystems, 1988., IEEE International Symposium on

5Damping of power system oscillations by excitation control using a current feedback signal -Generation, Transmission and Distribution [see also IEE Proceedings-Generation, Transmission andD

6Modal control of an HV DC system for the damping of subsynchronous oscillations - Generation,

Transmission and Distribution [see also IEE Proceedings-Generation, Transmission and D

7 Turbine-generator shaft oscillation monitoring with PCs - IEEE Computer Applications in Power

8 Comparison of SSR calculations and test results - Power Systems, IEEE Transactions on

9Torsional oscillations of series capacitor compensated AC/DC systems - Power Systems, IEEETransactions on

10A new pole-placement method for excitation control design to damp SSR of a nonidentical two-machine - Power Systems, IEEE Transactions on

11 Damping subsynchronous resonance by phase shifters - Energy Conversion, IEEE Transactions on

12Series compensation schemes reducing the potential of subsynchronous resonance - PowerSystems, IEEE Transactions on

13Stabilizing torsional oscillations using a hunt reactor controller - Energy Conversion, IEEETransactions on

14Mechanical countermeasures to subsynchronous torsional instability (in turbogenerators) - PowerSystems, IEEE Transactions on

15 Reader's guide to subsynchronous resonance - Power Systems, IEEE Transactions on

16 Thyristor-based damping of turbine-generator shaft torsional oscillations resulting from power syste
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14/24

- Power Symposium, 1990., Proceedings of the Twenty-Second Annual North American

17Study of torsional interactions in multi-terminal DC systems through small signal stability analysis -AC and DC Power Transmission, 1991., International Conference on

18

SSR countermeasure impact on system induction-generator effect - Power Systems, IEEE

Transactions on

19Effective damping for SSR analysis of parallel turbine-generators - Power Systems, IEEETransactions on

20Suppression of common torsional mode interactions using shunt reactor controllers - EnergyConversion, IEEE Transactions on

21Subsynchronous resonance countermeasure using phase imbalance - Power Systems, IEEETransactions on

22Damping subsynchronous resonance using modal-control NGH SSR damping scheme. I. Single-machine study - Computer, Communication, Control and Power Engineering. Proceedings. TENCON'93., 1993 IEEE Region

23Damping subsynchronous resonance using modal-control NGH SSR damping scheme. II. Two-machine common- - Computer, Communication, Control and Power Engineering. Proceedings.

TENCON '93., 1993 IEEE Region

24Suppression of subsynchronous resonance using phase shifter controller - Computer,

Communication, Control and Power Engineering. Proceedings. TENCON '93., 1993 IEEE Region

25

Application of dynamic resistance braking on stabilizing torsional oscillations - Computer,

Communication, Control and Power Engineering. Proceedings. TENCON '93., 1993 IEEE Region

26Development of a damping analysis program for multi-generator power systems - Power Systems,

IEEE Transactions on

27Damping subsynchronous resonance using a SIMO shunt reactor controller - Power Systems, IEEETransactions on

28Damping subsynchronous resonance using superconducting magnetic energy storage unit - EnergyConversion, IEEE Transactions on

29 Third order turboalternator electrical stability models with applications to subsynchronous resonanc- Energy Conversion, IEEE Transactions on

30 Predicting shaft torque amplification - Power Systems, IEEE Transactions on

31A model for the synchronous machine using frequency response measurements - Power Systems,IEEE Transactions on

32SSR characteristics of alternative types of series compensation schemes - Power Systems, IEEETransactions on

33 An EMTP study of SSR mitigation using the thyristor controlled series capacitor - Power Delivery,IEEE Transactions on
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15/24

34Damping of subsynchronous oscillations using adaptive controllers tuned by artificial neural network- Generation, Transmission and Distribution, IEE Proceedings-

35Test Results and Initial Operating Experience for the BPA 500 kV Thyristor Controlled Series Capacit- Northcon 95. I EEE Technical Applications Conference and Workshops Northcon95

36 Test Results and Initial Operating Experience for the BPA 500 kV Thyristor Controlled Series Capacit- Northcon 95. I EEE Technical Applications Conference and Workshops Northcon95

37ANALYTICAL MODELING OF THYRISTOR-CONTROLLED SERIES CAPACITORS FOR SSR STUDIES -Power Systems, IEEE Transactions on

38CONTROL OF SUBSYNCHRONOUS RESONANT MODES IN A SERIES COMPENSATED SYSTEMTHROUGH SUPERCONDUCTING MAGN - Energy Conversion, IEEE Transactions on

39SUBSYNCHRONOUS RESONANCE PERFORMANCE TESTS OF THE SLATT THYRISTOR-CONTROLLEDSERIES CAPACITOR - Power Delivery, IEEE Transactions on

40COMPUTING THE DAMPING OF SUBSYNCHRONOUS OSCILLATIONS DUE TO A THYRISTORCONTROLLED SERIES CAPACITOR - Power Delivery, IEEE Transactions on

41Modulation and SSR Tests Performed on the BPA 500 kV Thyristor Controlled Series Capacitor Unitat S - Power Systems, IEEE Transactions on

42ANALYSIS OF SUPPLEMENTARY CONTROLS IN DAMPING SUBSYNCHRONOUS OSCILLATIONS -Energy Management and Power Delivery, 1995. Proceedings of EMPD '95., 1995 International

Conferenc

43

Damping estimates of subsynchronous and power swing oscillations in power systems with thyristor

swi - Power Systems, IEEE Transactions on

44Subsynchronous Resonance A Controller For Active Damping - Control Applications, 1995.,

Proceedings of the 4th IEEE Conference on

45Eigenvalue Analysis of the Stabilizing Effects of Feedback Linearizing Control on SubsynchronousRes - Control Applications, 1995., Proceedings of the 4th IEEE Conference on

46Investigations of a Thyristor-Controlled Series Capacitor - Industrial Electronics, Control, andInstrumentation, 1996., Proceedings of the 1996 IEEE IECON 22

47 Simulations Of Prefiring NGH Damping Scheme On Suppressing Torsional Oscillations Using EMTP -Power Systems, IEEE Transactions on

48Dynamic Modeling Of A Tcsc With Application To Ssr Analysis - Power Systems, IEEE Transactionson

49Series Compensation And Subsynchronous Resonance Details Analysis Of The Phenomenon And OfIts Dampi - AC and DC Power Transmission, Sixth International Conference on (Conf. Publ. No. 423)

50

Subsynchronous Oscillation Analysis Of Multimachine Power System With Hvdc Transmission And

Series C - Power System Technology, 1998. Proceedings. POWERCON '98. 1998 InternationalConference on

51 SSR Analysis With Dynamic Phasor Model Of Thyristor-controlled Series Capacitor - Power Systems,
http://e/IEEE%20Papers/FACTS/ssr/00404152.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00404152.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485082.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485082.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485083.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485083.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485993.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485993.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00486593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00486593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489375.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489375.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489376.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489376.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00496157.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00496157.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00500795.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00500795.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00500795.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00544665.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00544665.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555735.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555735.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555736.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555736.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00565960.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00565960.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00589744.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00589744.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00627867.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00627867.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00649186.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00649186.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00729067.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00729067.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00729067.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00744524.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00404152.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00404152.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485082.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485082.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485083.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485083.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485993.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00485993.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00486593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00486593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489375.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489375.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489376.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00489376.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00496157.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00496157.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00500795.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00500795.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00500795.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00544665.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00544665.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555735.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555735.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555736.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00555736.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00565960.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00565960.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00589744.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00589744.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00627867.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00627867.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00649186.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00649186.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00729067.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00729067.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00729067.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00744524.pdf


16/24

IEEE Transactions on

52A Unified Optimal Controller Design of TCSC to Improve the Power System Dynamic Stability -Power Engineering Society 1999 Winter Meeting, IEEE

53

Investigation of Power System Harmonics and SSR phenomena related to Thyristor Controlled

Series Cap - 8th International Conference On Harmonics And Quality of Power Proceedings

54Simulation of unified static VAR compensator and power system stabilizer for arrestingsubsynchronou - Power Systems, IEEE Transactions on

55Damping subsynchronous resonance using an improved NGH SSR damping scheme - PowerEngineering Society Summer Meeting, 1999. IEEE

56Resonant characteristics of inverter-based transmission line series compensators - Power ElectronicsSpecialists Conference, 1999. PESC 99. 30th Annual IEEE

57 Analysis of subsynchronous torsional interactions with FACTS devices - Power Engineering SocietySummer Meeting, 2000. IEEE

58Dynamic braking resistor for control of sub-synchronous resonant modes - Power Engineering

Society Summer Meeting, 2000. IEEE

59Computation of turbine-generator subsynchronous torsional modes from measured data using the

eigensy - Power Engineering Society Winter Meeting, 2001 IEEE

60Design of a robust SSSC supplementary controller to the SSR in the series-compensated system

suppres - Power Engineering Society Winter Meeting, 2001 IEEE

61Optimal control of SVC for subsynchronous resonance stability in typical power system - IndustrialElectronics, 2001. Proceedings. ISIE 2001. IEEE International Symposium on

62Analysis of sub-synchronous torsional interactions with static VAR compensators-effect of networkan - Power Tech Proceedings, 2001 IEEE Porto

63Damping of subsynchronous oscillations using statcom - a facts device - Transmission andDistribution Conference and Exposition, 2001 IEEE/PES

64Comparative studies of subsynchronous . resonance damping schemes - Power System Technology,2002. Proceedings. PowerCon 2002. International Conference on

65Torsional interaction between an SSSC and a PSS in a series compensated power system -

Generation, Transmission and Distribution, IEE Proceedings-

66Damping subsynchronous resonance in power systems - Generation, Transmission and Distribution,

IEE Proceedings-

Stability: FACTS and Custom Power FACTS and System Stability
http://e/IEEE%20Papers/FACTS/ssr/00744524.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00747549.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00747549.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00760153.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00760153.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00780921.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00780921.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00787416.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00787416.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00789038.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00789038.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00867514.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00867514.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00868829.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00868829.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917259.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917259.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917261.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917261.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00931593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00931593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00964825.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00964825.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00971200.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00971200.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01067775.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01067775.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176595.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176595.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176599.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176599.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00744524.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00747549.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00747549.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00760153.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00760153.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00780921.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00780921.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00787416.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00787416.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00789038.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00789038.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00867514.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00867514.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00868829.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00868829.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917259.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917259.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917261.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00917261.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00931593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00931593.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00964825.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00964825.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00971200.pdfhttp://e/IEEE%20Papers/FACTS/ssr/00971200.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01067775.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01067775.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176595.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176595.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176599.pdfhttp://e/IEEE%20Papers/FACTS/ssr/01176599.pdf


17/24

1A novel unified approach for analysis of small-signal stability of power systems - Power EngineeringSociety Winter Meeting, 2000. IEEE

2 Transient Stability Improvement by Using Advanced Static VAR Compensators

3

Integrated Linear and Nonlinear Control of Unified Power Flow Controllers for Enhancing Power

System Stability

4 Co-ordinated application of FACTS devices to enhance steady-state voltage stability

5 Tuning and performance evaluation of damping controller for a STATCOM

6 Damping of Subsynchronous Oscillations Using STATCOM - A FACTS Device

7 Design of Damping Controllers of Static Series Voltages Source Using Eigenvalue Sensitivities

8

Combined Transient And Dynamic Analysis Of HVDC And Facts Systems - Power Delivery, IEEE

Transactions on

9Damping estimates of subsynchronous and power swing oscillations in power systems with thyristorswi - Power Systems, IEEE Transactions on

10Discrete Control of TCSC for Stability Improvement in Power Systems - Control Applications, 1995.,Proceedings of the 4th IEEE Conference on

11Enhancement of first-swing stability using a high-speed phase shifter - Power Systems, IEEETransactions on

12 Enhancement of transient stability on AC transmission by means of controlled series and parallelcom - AC and DC Power Transmission, 1991., International Conference on

13 Stability Improvement Using TCSC in Radial Power Systems

14Robust redesign of power system damping controllers - Control Systems Technology, IEEETransactions on

15Variable-structure facts controllers for power system transient stability - Power Systems, IEEETransactions on

16 Analysis of SVC and TCSC Controllers in Voltage Collapse

17 EMTP Studies of UPFC Power Oscillation Damping

18 System stability improvement in the RSA - Zimbabwe AC interconnection by installation of an SVC

19 Transient Stability Enhancement via coordinated excitation and UPFC Control

20 Allocation of UPFC to enhance the damping of power oscillations

21 Active Damping for Electromagnetic Transients in Superconducting Systems

22Transient stability augmentation by programmed power angle relationship using unified power flowcon - AC-DC Power Transmission, 2001. Seventh International Conference on (Conf. Publ. No. 485)
http://e/IEEE%20Papers/FACTS/stability/00850063.pdfhttp://e/IEEE%20Papers/FACTS/stability/00850063.pdfhttp://e/IEEE%20Papers/FACTS/stability/p115.pdfhttp://e/IEEE%20Papers/FACTS/stability/p118.pdfhttp://e/IEEE%20Papers/FACTS/stability/p118.pdfhttp://e/IEEE%20Papers/FACTS/stability/p122.pdfhttp://e/IEEE%20Papers/FACTS/stability/p125.pdfhttp://e/IEEE%20Papers/FACTS/stability/p162.pdfhttp://e/IEEE%20Papers/FACTS/stability/p163.pdfhttp://e/IEEE%20Papers/FACTS/stability/p180.pdfhttp://e/IEEE%20Papers/FACTS/stability/p180.pdfhttp://e/IEEE%20Papers/FACTS/stability/p183.pdfhttp://e/IEEE%20Papers/FACTS/stability/p183.pdfhttp://e/IEEE%20Papers/FACTS/stability/p186.pdfhttp://e/IEEE%20Papers/FACTS/stability/p186.pdfhttp://e/IEEE%20Papers/FACTS/stability/p189.pdfhttp://e/IEEE%20Papers/FACTS/stability/p189.pdfhttp://e/IEEE%20Papers/FACTS/stability/p190.pdfhttp://e/IEEE%20Papers/FACTS/stability/p190.pdfhttp://e/IEEE%20Papers/FACTS/stability/p20.pdfhttp://e/IEEE%20Papers/FACTS/stability/p204.pdfhttp://e/IEEE%20Papers/FACTS/stability/p204.pdfhttp://e/IEEE%20Papers/FACTS/stability/p209.pdfhttp://e/IEEE%20Papers/FACTS/stability/p209.pdfhttp://e/IEEE%20Papers/FACTS/stability/p259.pdfhttp://e/IEEE%20Papers/FACTS/stability/p264.pdfhttp://e/IEEE%20Papers/FACTS/stability/p273.pdfhttp://e/IEEE%20Papers/FACTS/stability/p276.pdfhttp://e/IEEE%20Papers/FACTS/stability/p277.pdfhttp://e/IEEE%20Papers/FACTS/stability/p42.pdfhttp://e/IEEE%20Papers/FACTS/stability/p69.pdfhttp://e/IEEE%20Papers/FACTS/stability/p69.pdfhttp://e/IEEE%20Papers/FACTS/stability/00850063.pdfhttp://e/IEEE%20Papers/FACTS/stability/00850063.pdfhttp://e/IEEE%20Papers/FACTS/stability/p115.pdfhttp://e/IEEE%20Papers/FACTS/stability/p118.pdfhttp://e/IEEE%20Papers/FACTS/stability/p118.pdfhttp://e/IEEE%20Papers/FACTS/stability/p122.pdfhttp://e/IEEE%20Papers/FACTS/stability/p125.pdfhttp://e/IEEE%20Papers/FACTS/stability/p162.pdfhttp://e/IEEE%20Papers/FACTS/stability/p163.pdfhttp://e/IEEE%20Papers/FACTS/stability/p180.pdfhttp://e/IEEE%20Papers/FACTS/stability/p180.pdfhttp://e/IEEE%20Papers/FACTS/stability/p183.pdfhttp://e/IEEE%20Papers/FACTS/stability/p183.pdfhttp://e/IEEE%20Papers/FACTS/stability/p186.pdfhttp://e/IEEE%20Papers/FACTS/stability/p186.pdfhttp://e/IEEE%20Papers/FACTS/stability/p189.pdfhttp://e/IEEE%20Papers/FACTS/stability/p189.pdfhttp://e/IEEE%20Papers/FACTS/stability/p190.pdfhttp://e/IEEE%20Papers/FACTS/stability/p190.pdfhttp://e/IEEE%20Papers/FACTS/stability/p20.pdfhttp://e/IEEE%20Papers/FACTS/stability/p204.pdfhttp://e/IEEE%20Papers/FACTS/stability/p204.pdfhttp://e/IEEE%20Papers/FACTS/stability/p209.pdfhttp://e/IEEE%20Papers/FACTS/stability/p209.pdfhttp://e/IEEE%20Papers/FACTS/stability/p259.pdfhttp://e/IEEE%20Papers/FACTS/stability/p264.pdfhttp://e/IEEE%20Papers/FACTS/stability/p273.pdfhttp://e/IEEE%20Papers/FACTS/stability/p276.pdfhttp://e/IEEE%20Papers/FACTS/stability/p277.pdfhttp://e/IEEE%20Papers/FACTS/stability/p42.pdfhttp://e/IEEE%20Papers/FACTS/stability/p69.pdfhttp://e/IEEE%20Papers/FACTS/stability/p69.pdf


18/24

23Design of UPFC controllers and supplementary damping controller for power transmission controland s - Generation, Transmission and Distribution, IEE Proceedings-

STATCOM : STACOM and its Control

1 The nonlinear internal control of STATCOM: theory and application

2 Interactions and multivariable design of STATCOM AC and DC voltage control

3Convertible static compensator performance studies on the NY state transmission system - PowerSystems, IEEE Transactions on

4 Control System for a PWM-Based STATCOM

5Vector analysis and control of advanced static VAr compensators - AC and DC Power Transmission,1991., International Conference on

6 A three-level Advanced Static VAr Compensator - Power Delivery, IEEE Transactions on

7Advanced static compensation using a multilevel GTO thyristor inverter - Power Delivery, IEEETransactions on

8Development of a large static VAr generator using self-commutated inverters for improving powersyst - Power Systems, IEEE Transactions on

9 Power electronics in electric utilities: static VAR compensators - Proceedings of the IEEE

10Vector analysis and control of advanced static VAr compensators - Generation, Transmission andDistribution [see also IEE Proceedings-Generation, Transmission and D

11A Converter Transformer With Series-connected Line-side Windings For A Dc Link Using VoltageSource - Power Engineering Society 1999 Winter Meeting, IEEE

12 Reactive compensation tutorial - Power Engineering Society Winter Meeting, 2002

13 Fundamental Frequency Model of Static Synchronous Compensator

14 Tuning and performance evaluation of damping controller for a STATCOM

15Analysis of Steady State and Dynamic Performance of a Static Synchronous Compensator(STATCOM)

16 Detailed Dynamic Modelling of a 50 MVAr-STATCOM via Network Simulations in Time Domain

17 The ABB Power Transmission Test Case

18 StatCom Controls for Operation with Unbalanced Voltages

19 STATCOM Modeling for Voltage and Angle Stability Studies
http://e/IEEE%20Papers/FACTS/stability/p86.pdfhttp://e/IEEE%20Papers/FACTS/stability/p86.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p119.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p121.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p156.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p156.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p165.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p168.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p168.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p173.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p174.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p174.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p184.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p184.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p200.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p210.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p210.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p211.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p211.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p246.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p263.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p278.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p283.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p283.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p284.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p285.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p286.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p287.pdfhttp://e/IEEE%20Papers/FACTS/stability/p86.pdfhttp://e/IEEE%20Papers/FACTS/stability/p86.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p119.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p121.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p156.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p156.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p165.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p168.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p168.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p173.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p174.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p174.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p184.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p184.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p200.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p210.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p210.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p211.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p211.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p246.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p263.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p278.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p283.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p283.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p284.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p285.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p286.pdfhttp://e/IEEE%20Papers/FACTS/statcom/p287.pdf


19/24

20 Comparison of PSS, SVC and STATCOM Controllers for Damping Power System Oscillations

21 Modelling of a Zone Substation Statcom using Load Flow Algorithms

22 The Distribution STATCOM for Reducing the Effect of Voltage Sag and Swell

23 Modeling and Simulation of a Distribution STATCOM using Simulink's Power System Blockset

24 Reactive Power and Unbalance Compensation Using STATCOM with Dissipa

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