GE Renewable Energy’s Grid Solutions business has energized a new 123 kV, 16.7 Hz HYpact switchgear for DB Energie GmbH’s 60-year-old Amstetten train station located in Lonsee between Stuttgart and Ulm in Germany. Developed as part of the EU-funded IN2STEMPO project, the digital hybrid compact switchgear is a first-of-its-kind. IN2STEMPO is developing a smart railway power grid with an interconnected system that integrates smart metering, innovative power electronic components, energy management, and energy storage systems.HYpact switchgear is now fitted with digital power sensors using very sensitive low power instrument transformers instead of conventional oil immersed instrument transformers. The new switchgear provides remote monitoring of the grid’s status from a control room and provides access to additional HYpact switchgear health monitoring capabilities.In a modern digital substation, copper cables are replaced by optical fiber cables, which will allow DB Energie to lower its total carbon footprint. These new sensors and monitoring capabilities provide DB Energie with more operational and non-operational data. Leveraging this data, downtime and operational costs can be reduced through predictive insights and proactive maintenance strategies.GE’s HYpact switchgear includes the field proven and reliable circuit-breaker, disconnector, and earthing switch. It has been equipped with hybrid digital current transformer sensors able to provide conventional, as well as digital, data of the current flow. Its low voltage cubicle is equipped with the CBWatch system to monitor circuit-breaker conditions such as gas temperature, pressure, and density; and cabin heating, which is important when the cabin is equipped with several electronic devices. Monitoring the electrical wear gives additional insights into the circuit-breaker’s condition. Additionally, a motor current measures switching times and signals alarms for pole discrepancies, out-of-time operations, and position errors to help ensure safe circuit breaker operation.
GE Renewable Energy’s Grid Solutions business has energized a new 123 kV, 16.7 Hz HYpact switchgear for DB Energie GmbH’s 60-year-old Amstetten train station located in Lonsee between Stuttgart and Ulm in Germany. Developed as part of the EU-funded IN2STEMPO project, the digital hybrid compact switchgear is a first-of-its-kind. IN2STEMPO is developing a smart railway power grid with an interconnected system that integrates smart metering, innovative power electronic components, energy management, and energy storage systems.HYpact switchgear is now fitted with digital power sensors using very sensitive low power instrument transformers instead of conventional oil immersed instrument transformers. The new switchgear provides remote monitoring of the grid’s status from a control room and provides access to additional HYpact switchgear health monitoring capabilities.In a modern digital substation, copper cables are replaced by optical fiber cables, which will allow DB Energie to lower its total carbon footprint. These new sensors and monitoring capabilities provide DB Energie with more operational and non-operational data. Leveraging this data, downtime and operational costs can be reduced through predictive insights and proactive maintenance strategies.GE’s HYpact switchgear includes the field proven and reliable circuit-breaker, disconnector, and earthing switch. It has been equipped with hybrid digital current transformer sensors able to provide conventional, as well as digital, data of the current flow. Its low voltage cubicle is equipped with the CBWatch system to monitor circuit-breaker conditions such as gas temperature, pressure, and density; and cabin heating, which is important when the cabin is equipped with several electronic devices. Monitoring the electrical wear gives additional insights into the circuit-breaker’s condition. Additionally, a motor current measures switching times and signals alarms for pole discrepancies, out-of-time operations, and position errors to help ensure safe circuit breaker operation.