Every country’s national electrical grid is becoming more vulnerable to hacking attacks as grid operators expand the use of phase synchronization and other smart grid techniques that rely on GPS/GNSS signals for timing. For example, synchrophasor systems utilize phasor measurement units (PMUs) for providing electrical power system reliability and grid efficiency, synchronizing services among power networks, and finding malfunctions within transmission networks.
PMUs rely on GPS to timestamp their measurements, which are sent back to a central monitoring station for processing. GPS manipulation could alter a PMU’s timestamps, thereby causing a PMU to deliver erroneous measurements regarding power frequency reading and power flow calculations. Such a scenario would likely cause some elements to overheat as well as lead to overloaded lines or transformers, potentially causing blackouts or damage to power grid equipment.
Serving as a GPS timing and synchronization backup for electrical grid applications, STL provides trusted timing and synchronization for continued reliable synchrophasor operation when GPS signals are disrupted or manipulated.