Intelligent Distance Relay based on IEC 61850 for DC Zonal Shipboard Microgrid Protection

“…The system's dynamic is not investigated [215] Presents fault detection and isolation based on nonintrusive load monitoring (NILM) Fault reconfiguration is not investigated [216] Presents a fault diagnosis method based on the wavelet-based filtering approach Minimizes the probability of misdetection Fault reconfiguration is not investigated [217] Presents a scalable solid-state bus-tie Switch that can be easily scaled for current and voltage Investigates fault-detection methods Reduces the electrical and thermal stresses by using multiple units rather than a single unit Fault localization and reconfiguration are not investigated [218] Presents a new solid-state bus-tie switch (SSBTS) Parallel connecting multiple units of the topology to increase power and voltage ratings Fault localization and reconfiguration are not investigated [219] Presents a solid-state DC circuit breaker Detects and isolates the fault in significantly less time Fault reconfiguration is not investigated [220] Explores three different protection schemes for DC faults in SBMGs, namely, a six-pulse thyristor rectifier, a six-pulse diode rectifier, and a two-level active rectifier Fault reconfiguration is not investigated [221] Presents a fault-detection algorithm based on overcurrent Recloses the Z-source breaker after the fault if necessary by control Integrates Z-source DC circuit breakers into a zonal MVDC SBMG Provides solutions for two Z-source breakers to work in parallel and supply current for Fault localization is not detected Table 8. Comparison of the contributions and issues of the most recent research related to faultmanagement techniques [213][214][215][216][217][218][219][220][221][222][223].…”

“…[219] Presents a solid-state DC circuit breaker Detects and isolates the fault in significantly less time Fault reconfiguration is not investigated [220] Explores three different protection schemes for DC faults in SBMGs, namely, a six-pulse thyristor rectifier, a six-pulse diode rectifier, and a two-level active rectifier Fault reconfiguration is not investigated [221] Presents a fault-detection algorithm based on overcurrent Recloses the Z-source breaker after the fault if necessary by control Integrates Z-source DC circuit breakers into a zonal MVDC SBMG Provides solutions for two Z-source breakers to work in parallel and supply current for the same load center Explores the SCR's gate control Fault localization is not detected [222,223] Presents a fault-detection and -localization method based on a distance scheme Locates different types of faults in both forward and reverse directions Fault reconfiguration is not investigated Figure 16 represents the co-occurrence analysis for these studies. The analysis divides the author's keywords into four clusters, with the main keywords in each cluster.…”

“…Comparison of the contributions and issues of the most recent research related to faultmanagement techniques[213][214][215][216][217][218][219][220][221][222][223].…”

State-of-the-Art Review on Shipboard Microgrids: Architecture, Control, Management, Protection, and Future Perspectives

“…The system's dynamic is not investigated [215] Presents fault detection and isolation based on nonintrusive load monitoring (NILM) Fault reconfiguration is not investigated [216] Presents a fault diagnosis method based on the wavelet-based filtering approach Minimizes the probability of misdetection Fault reconfiguration is not investigated [217] Presents a scalable solid-state bus-tie Switch that can be easily scaled for current and voltage Investigates fault-detection methods Reduces the electrical and thermal stresses by using multiple units rather than a single unit Fault localization and reconfiguration are not investigated [218] Presents a new solid-state bus-tie switch (SSBTS) Parallel connecting multiple units of the topology to increase power and voltage ratings Fault localization and reconfiguration are not investigated [219] Presents a solid-state DC circuit breaker Detects and isolates the fault in significantly less time Fault reconfiguration is not investigated [220] Explores three different protection schemes for DC faults in SBMGs, namely, a six-pulse thyristor rectifier, a six-pulse diode rectifier, and a two-level active rectifier Fault reconfiguration is not investigated [221] Presents a fault-detection algorithm based on overcurrent Recloses the Z-source breaker after the fault if necessary by control Integrates Z-source DC circuit breakers into a zonal MVDC SBMG Provides solutions for two Z-source breakers to work in parallel and supply current for Fault localization is not detected Table 8. Comparison of the contributions and issues of the most recent research related to faultmanagement techniques [213][214][215][216][217][218][219][220][221][222][223].…”

“…[219] Presents a solid-state DC circuit breaker Detects and isolates the fault in significantly less time Fault reconfiguration is not investigated [220] Explores three different protection schemes for DC faults in SBMGs, namely, a six-pulse thyristor rectifier, a six-pulse diode rectifier, and a two-level active rectifier Fault reconfiguration is not investigated [221] Presents a fault-detection algorithm based on overcurrent Recloses the Z-source breaker after the fault if necessary by control Integrates Z-source DC circuit breakers into a zonal MVDC SBMG Provides solutions for two Z-source breakers to work in parallel and supply current for the same load center Explores the SCR's gate control Fault localization is not detected [222,223] Presents a fault-detection and -localization method based on a distance scheme Locates different types of faults in both forward and reverse directions Fault reconfiguration is not investigated Figure 16 represents the co-occurrence analysis for these studies. The analysis divides the author's keywords into four clusters, with the main keywords in each cluster.…”

“…Comparison of the contributions and issues of the most recent research related to faultmanagement techniques[213][214][215][216][217][218][219][220][221][222][223].…”

State-of-the-Art Review on Shipboard Microgrids: Architecture, Control, Management, Protection, and Future Perspectives

“…Not affected by electrical parameter variations. [35], [36] Distance method IEC 61850 27 -30 ms High Malfunction occurring during the system complexity and uncertainty.…”

A Novel Fault Detection and Location Approach for DC Zonal Shipboard Microgrid Based on High-Frequency Impedance Estimation With IEC 61850 Communication Protocol

Efficient fault detection, localization, and isolation in MT-HVDC systems based on distance protection and LoRaWAN communication