Energy
Management Systems
Featuring EQUBE EMS
Our intelligent energy management software for easily integrating and managing renewable and distributed energy resources for end-use, behind the meter and smart grid applications.
We provides the software platform, a dynamically scalable architecture for integrating and managing high levels of renewable and distributed energy resources at the edge of the grid and optimally dispatching them to capture multiple value streams.
EMS SOLUTIONS YOU CAN TRUST
Command and Control
EQUBE EMS provides full command, control, monitoring and management functionality for a single energy storage asset or a fleet of assets located anywhere in the world.
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EQUBE EMS Multilayers
Control Software
Onsite Software to Run Grid-Connected, Islandable, and Off-Grid Energy Systems.
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Configuration Tools
Configure, test, and deploy microgrids with intuitive software tool and no custom development or PLC programming required.
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Emulator
Self-configuring Wave emulator for simulating the operation of customer systems.
KEY FEATURES
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Monitoring and Control
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Scheduling and Dispatch
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Active Power Import and Export Control
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Reactive Power Import and Export
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Islanding and Resynchronization
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Frequency Control
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Voltage Control
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Spinning Reserves Management
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Load Forecasting
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Renewables and Variability Forecasting
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Reporting
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Optional capabilities
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Market Interface (VPP)
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Custom Apps
Management capabilities
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SOC Management
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Desired operating range
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Pre-positioning for Market Participation, Resilience
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Prescribed cycling
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Managing % RE contribution over configurable period
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Load sharing, Charge/Discharge Cycles Balancing
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Context Sensitive Charging and Discharging
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Demand Limiting at the PCC
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Minimum Genset Loading
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Solar-only Charging
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External Scheduling and Market Participation
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Fast Mode Switching and Dispatch Signal Following
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Islanding and Resynchronizing from/to Grid
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Market Participation (e.g., Frequency Regulation)
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Point of Control Transfer (e.g., switching grid-forming resource to/from BESS and Gen)
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Fuel Offset and Carbon Reduction
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Operation Mode: Grid-independent
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Objective: Island resort desires reliable energy infrastructure that operates independent of weak local grid to offset diesel, maximize renewable energy, increase power quality, and control energy costs.
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Solution: Analytics are used to select system assets that minimize capital expenditures and operating costs. Out of the box capability to run the resort 24x7 in island mode with established power quality parameters; redundancy to support emergency operations.
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Benefits: Energy independence and control over critical infrastructure for resort operations. Predictable costs, minimum exposure to fuel cost volatility, high power quality, and low carbon footprint.
Resiliency
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Operation Mode: Normally grid-connected but capable of grid-independent operation during emergencies or grid failure.
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Objective: University campus in hurricane prone area wants to ensure that it can continue critical operations and serve as safe zone during grid failures during emergencies. University wants the capability to operate major functions for a minimum of seven days and critical functions indefinitely off grid using existing and new assets and to prioritize loads. University prefers 3rd party owner/ operator to manage infrastructure.
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Solution: Ability to network all campus gensets. renewables and storage systems, implement automatic demand response, ability to align campus load with wholesale power purchase schedule, remote system operations and optimization in normal conditions, local control in emergency conditions.
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Benefits: Remotely manage energy infrastructure, achieve predictable costs, hedge against market price volatility with PV and local resources, ensure high power quality, and low carbon footprint.
Microgrid for Energy Cost
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Operation Mode: Grid-connected
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Objective: Commercial facility desires to minimize energy costs, carbon footprint and energy price volatility without incurring significant up front capital costs.
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Solution: Monitoring & Control of DER and loads, Import/Export Control of Real and Reactive Power, Renewable Power Production, Storage Management are all used to enable optimal dispatch of DER to minimize facility energy costs and carbon footprint.
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Benefits: Energy cost reduction through tariff optimization and fuel price certainty through onsite solar and dynamic energy management.