GPS World

Tag: substations

  • Siemens offers breakthrough time synchronization to fortify digital substations

    Siemens offers breakthrough time synchronization to fortify digital substations

    Siemens has unveiled its latest innovation for energy infrastructure: the Siprotec 5 Precision Time Protocol (PTP) Grandmaster Clocks (GMC).

    Built to secure the backbone of modern power grids, the GMC ensures resilient, fail-safe time synchronization for digital substations, safeguarding critical protection functions from disruption, shielding against external disturbances, and strengthening cybersecurity to boost overall grid reliability.

    Avoiding GNSS disruptions. Conventional digital substation architectures often rely on redundant GNSS-based grandmaster clocks. However, even with redundancy, they remain vulnerable: disturbances to GNSS signals, whether from natural phenomena like solar storms or intentional interference such as jamming and spoofing, can cause disruptive “‘jumps” in the time base. Such disruptions force merging units to resynchronize, temporarily disabling critical protection functions and can lead to unnecessary removal of equipment from service or even cause false tripping events, impacting grid stability and increasing operational costs. Siemens’ new solution mitigates these risks, ensuring uninterrupted, secure operation. 

    Siemens’ solution separates sample synchronization from global time synchronization using specialized internal time sources. The Siprotec 5 devices, equipped with integrated PTP Grandmaster Clocks compliant with IEEE 1588v2/PTP standard, operate independently from external GNSS signals, using internal oscillators as time references for precise synchronization.

    Changeover technology. A key feature of this approach is Siemens’ patent-pending Seamless PTP grandmaster changeover technology, built into Siprotec 5 devices. This ensures that when primary clocks return, they first align with active backup clocks before resuming their role. In doing so, disruptive time base jumps during switchovers are prevented, keeping protection functions continuously available. 

    The specialized synchronization enables process bus networks in digital switchgears to operate autonomously without external access points, significantly strengthening cybersecurity by isolating the process bus from the station bus network. 

  • Microchip Technology offers GridTime 3000 for utilities

    Microchip Technology offers GridTime 3000 for utilities

    The GridTime 3000 GNSS time server meets rugged international environmental standards for power plants and substations

    The GridTime 3000 GNSS time server. (Photo: Microchip)
    The GridTime 3000 GNSS time server. (Photo: Microchip)

    Microchip Technology Inc. has announced its GridTime 3000 GNSS time server, a software-configurable solution providing power plants and substations with a new level of redundancy, security and resiliency to protect against surges, adverse weather and cyberattacks targeting critical infrastructure.

    Meeting the Need

    Power plants and substations rely on high-speed communications networks to transmit critical data including operability metrics, network health, fault monitoring, power measurement and usage trends. To synchronize communications and ensure continuity across these networks, substations require secure, precise timing and synchronization to avoid false tripping and to provide accurate time-stamping of substation data including system faults, power-measurement data and substation status information.

    The launch of the Microchip GridTime 3000 GNSS Time Server assists power-grid operators to meet these requirements.

    The GridTime 3000 system generates precise time and frequency signals to synchronize analog and digital communication systems. This resilient timing platform incorporates multiple timing inputs for protection in the event of a GNSS signal disruption caused by severe weather, environmental disturbances or signal jamming or spoofing.