The patent-pending BTM-250 — a fully integrated 250 kW energy storage system — has been optimized for behind-the-meter energy storage applications where reliability and footprint matter. This energy storage system is designed especially for behind-the-meter energy storage applications such as Demand Response/Demand Charge Reduction and Backup Power.
The energy storage system is based on Dynapower’s patent-pending MPS-250 Smart Energy Storage Inverter (UL 1741 SA listed) integrated with Samsung E2 batteries.
The Integrated Dynapower Samsung Energy Storage System includes:
MPS-250 kW Smart Energy Storage Inverter
Outdoor Rated, Climate Controlled Enclosure for Batteries
Batteries – Configurable for 2, 4, or 6-hour duration
All AC and DC Switchgear
Local Energy Storage Controller
KEY TECHNOLOGY
Dynamic Transfer™ — Dynapower’s proprietary patented Dynamic Transfer™ algorithm monitors grid stability and, upon detecting a grid disturbance, disconnects from the grid and transitions to stand-alone mode on the load connection. The transition is seamless to the critical loads and supports 100% phase imbalance in UF mode.
The patent-pending BTM-250 — a fully integrated 250 kW energy storage system — has been optimized for behind-the-meter energy storage applications where reliability and footprint matter. This energy storage system is designed especially for behind-the-meter energy storage applications such as Demand Response/Demand Charge Reduction and Backup Power.
The energy storage system is based on Dynapower’s patent-pending MPS-250 Smart Energy Storage Inverter (UL 1741 SA listed) integrated with Samsung E2 batteries.
The Integrated Dynapower Samsung Energy Storage System includes:
- MPS-250 kW Smart Energy Storage Inverter
- Outdoor Rated, Climate Controlled Enclosure for Batteries
- Batteries – Configurable for 2, 4, or 6-hour duration
- All AC and DC Switchgear
- Local Energy Storage Controller
KEY TECHNOLOGY
Dynamic Transfer™ — Dynapower’s proprietary patented Dynamic Transfer™ algorithm monitors grid stability and, upon detecting a grid disturbance, disconnects from the grid and transitions to stand-alone mode on the load connection. The transition is seamless to the critical loads and supports 100% phase imbalance in UF mode.
