TESLA 4000 SV supports both IEC 61850-9-2 LE as well as IEC 61869-9 to subscribe to Sampled Value streams from Merging Unit. It also publishes and subscribes to GOOSE messages from protective relays and switchgear. The Model 4000-SV also supports direct streaming of MMS reports to remote clients, eliminating the need for RTUs. The Model 4000-SV supports the top-down or bottom-up engineering process defined in the IEC 61850-6 standard which enables standardization and interoperability of fault and disturbance recording solutions as the industry moves towards fully digital substations.

Applications

• Complete integrated insight of power system health
• Performance monitoring of substation IEDs and equipment
• Over 1000 user settable triggers capture vital information that could be missed by relays in the system
• Information provided for wide area monitoring (WAMS) and analysis
• As a PMU, streams up to 36 phasors, 24 analog quantities, and 320 digital statuses simultaneously

Features and Benefits

• Easy-to-use setting and analysis software
• GOOSE subscription and publishing on any port
• IEC 61850 Edition 2 and IEC 61869-9 support
• CDR meets NERC PRC-002 and 028 DME standards
• Support for PRP network redundancy protocol on multiple ports, up to 3 redundancy pairs
• Support for GOOSE subscription from different data types including Boolean, Dbpos, Health, Int32
• Time synchronization is supported via legacy IRIG-B or Precision Time Protocol (PTP); PTP is fully compliant with applicable power and utility industry profiles
• Circular sequent of events report buffer of 1000 events
• Sampling rate configurable at 80 or 256 s/c for IEC61850 9-2 stream and 4000, 4800, 14400 Hz for IEC 61869-9 SV stream
• Recording of logic channels in fault and swing recordings
• IEEE C37.118-2014 and IEEE/IEC 60255-118-1:2018 compliant
• Swing (Slow) records with a sampling rate of 1 or 2 s/c
• Standard storage memory 64GB with 1 TB option

Benefits of IEC 61850 / IEC 61869-9 SV-Based Fault and Disturbance Recording System

• Savings on costly wiring runs from instrument transformers (located in substation yards) to conventional DFRs located in substation control house
• Absence of open CT secondary improves operational safety
• Ease of commissioning, future modification, and expansion
• Interoperability of DFR systems and protective relaying systems using common measurements available from merging units

Data Sheet