essential to maintain converter transformer integrity and prevent cascading trips.
Making BESS safe
This is where neutral earthing resistors( NERs) do the quiet, but crucial work. By inserting a defined resistance between the transformer neutral and earth, an NER limits earth fault current to a level that protection relays can detect and clear selectively, without tripping the entire plant.
NERs prevent transformer insulation damage, reduce arc flash hazards, minimise voltage stress on equipment, enable controlled fault detection and isolation and maintain system stability during fault conditions. Cressall supplies NERs tailored for MV and HV duty in renewables and storage, with engineering guidance that
The UK is reshaping its energy system, but success depends on more than megawatt-hours.
highlights how DC and AC NERs protect converter transformers and maintain system integrity during abnormal events— requirements that map directly to MV connected BESS.
Every Cressall NER is designed to IEC and IEEE standards, factory tested under fault current conditions and built with stainless steel elements for outdoor durability. They are rated for continuous operation in harsh environments, ensuring reliability in demanding renewable installations.
In practice, this means fewer catastrophic stresses on transformer windings and converter components, better adherence to grid code protection settings and smoother interconnection approvals.
The UK is reshaping its energy system, but success depends on more than megawatt-hours. Behind every project is a layer of protection technology that keeps the grid stable. As the UK races toward Clean Power 2030, NERs are foundational, turning unpredictable faults into manageable events, making MVconnected BESS bankable and resilient.
To learn more about Cressall’ s NERs for BESS applications, please visit the website. www. cressall. com
Issue 79 PECM 33