Publication Type : Conference Paper
Publisher : IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC 2015)
Source : IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC 2015), Singapore, 2015
Keywords : computation time reduction, Conferences, digital protection scheme, digital relay algorithm, digital relays, Distributed power generation, dq0 decomposition technique, dq0 transform, Electron devices, fault detection algorithm, fault isolation, Fault location, high frequency transient disturbance detection, Microgrid, Microgrids, microprocessor based protection scheme, Microprocessor chips, microprocessor-based relays, power engineering computing, power generation protection, Power grids, Power system protection, power system protection strategy, power system transients, relay protection, Signal processing, signal processing technique, Solid state circuits, tripping action triggering, wavelet transform, Wavelet transforms
Campus : Amritapuri
School : School of Engineering
Department : Electrical and Electronics
Year : 2015
Abstract : The dynamic nature of microgrids compromises the efficiency and accuracy of the conventional power system protection strategies. This paper proposes a novel digital and microprocessor based protection scheme for microgrids using signal processing techniques. Digital relays are employed with fault detection algorithm. Fault detection is done based on a relatively new signal processing technique called Wavelet Transform (WT). The dq0 decomposition technique is used to reduce the computation time of the relay algorithm. The WT is used to decompose dq0 axis components of current and voltage signals to obtain high-frequency details of the same which is used to detect high frequency transient disturbances due to the fault. Fault location and isolation is done using power high-frequency details, which are calculated as the product of the high-frequency details of current and voltage. A threshold is defined for the cumulative sum of the power high-frequency details, deviation from which is observed only on the faulty bus, thus, triggering a tripping action. The system has been tested for various faults within the microgrid for different operating modes. Software simulation and hardware testing results were obtained for the proposed method and it has been inferred that the proposed protection scheme detects and isolates faults in a fast and accurate manner.
Cite this Research Publication : Dr. P. Kanakasabapathy and Mohan, M., “Digital protection scheme for microgrids using wavelet transform”, in IEEE International Conference on Electron Devices and Solid-State Circuits (EDSSC 2015), Singapore, 2015