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

3. Wide Area Measurement System(WAMS)
 WAMS has two components
 Phasor Measurement Unit(PMU)
 Phasor Data Concentrator(PDC)

4. WAMS

5. PMU Standards
 IEEE1344
 IEEEC37.118(2005)

6. IEEE C37.118
Message types
Command
Data
Configuration
Header

7. Configuration Frame

8. Data Frame

9. Command Frame

11. PDC comparison Chart

12. Features of iPDC
It is a generalized PDC.
Is a multithreaded application.

13. Cont....
It is built on Open Source platform and released under GPL v3.
Compliant to IEEEC37.118 Standards.
Support for both TCP and UDP communication Protocols.
Each received packet is authenticated.
Integrity of the packet is verified.
Provides local storage of data.
A GUI to setup PMU­PDC and PDC­PDC connection.

14. iPDC Design

15. Handling configuration frames

16. Handling change in PMU/iPDC Configuration
frame

17. Recreate configuration objects from file
cfg.bin

18. Handling Data Frames

19. Check Stat Word of data frames

21. Time Aligning of Data Frames

22. Sorting of Data Frames inside TSB

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.

24. Data Storage

25. iPDC Database

26. Requirements
 Software Requirements :
 Programming Languages
C, GTK+
 Database
MySQL
 Packages
libmysqldev
 System Requirements
 Memory
512 MB
 OS
Linux

27. Experimental Setup

28.  Case1 :

29. Case 1 contd...

30.  Case2 :

31. Case 2 contd...

32.  Case3 :

33. Case 3 contd...

34.  Case4 :

35. Case 4 contd...

36. Results

37. iPDC Interface

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".

40. Source Code & Documentation
http://sourceforge.net/projects/iitbpdc/
http://freshmeat.net/projects/ipdc
http://ipdc.codeplex.com/

41. Thank You