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Phasor data concentrator or i pdc
1. Design & Implementation of Phasor Data Concentrator
compliant to IEEE C37.118 Synchrophasor Standard in
Wide Area Measurement System
by
Kedar Khandeparkar
Nitesh Pandit
Under the guidance of
Prof. V.Z. Attar
Prof. A. M. Kulkarni
Prof. S.A. Soman
Department of Computer Engineering and IT
College of Engineering, Pune
2. Index
Introduction
IPDC Features
iPDC Design
Communication and Processing of frames
Data Storage & iPDC Database
Experiment & Results
23. Configuration Frame Generation for iPDC
Number of PMU is sum of all PMU.
Data rate is the highest among all PMU/iPDC data rate.
Combined configuration frame compliant with IEEEC37.118 std.
38. Future Enhancements
Need to study and implement iPDC on RTOS and check its
performance & scalability in Real Time.
Different aspects of security in WAMS need to studied and
implemented.
On field testing of iPDC application need to be done to know its
performance & limitations.
iPDC can be updated to support more PMU standards.
39. References
Ken Martin, "IEEE Standard for Synchrophasors for Power Systems", IEEE Std C37.118 2005.
Moustafa Chenine,"Analysisof Data Quality Issues in Wide Area Monitoring and Control Systems",
IREP Symposium on Bulk Power System Dynamics and Control, Aug 16, 2010.
Yingchen Zhang, "WideArea Frequency Monitoring Network (FNET) Architecture and
Applications", IEEE Transactions on Smart Grid, Vol. 1, No.2, Sep 2010.
Andrew Armenia, Student Member, IEEE, and Joe H. Chow, Fellow, IEEE, "A Flexible Phasor Data
Concentrator Design Leveraging Existing Software Technologies”, IEEE Transactions ON SMART
GRID, VOL. 1, NO. 1, JUNE 2010.
Moustafa Chenine, Student Member, IEEE, " Investigation of Communication Delays and Data
Incompleteness in MultiPMU Wide Area Monitoring and Control Systems".