Site Page: Energy - Balancing (Cloud Balancing Overview)

  • Updated

The Energy → Balancing page provides insight into how power is distributed across the site and allows you to activate Cloud Balancing.

Cloud Balancing protects the installation by automatically sending control commands from the cloud to each circuit’s master charger, ensuring the main fuse is never overloaded.
 


Where to Find Cloud Balancing

Open your site in Easee Control, then go to:

Energy → Balancing

This opens the Cloud balancing dashboard.

 


Cloud Balancing Control

At the top of the page you will see the Cloud balancing control panel.

 

Status Indicator

The banner shows the current state:

  • Enabled

  • Disabled

Use the On / Off toggle to activate or deactivate cloud balancing.

 

What Cloud Fuse Balancing Does

When enabled, the system:

  • Monitors total site consumption in real time

  • Predicts overload conditions on the main fuse

  • Sends adjustment commands to the master chargers

  • Dynamically redistributes available current across circuits

This ensures safe operation while maximizing total charging throughput.

⚠️ Important — Dynamic Load Balancing Requirement
Cloud Fuse Balancing alone does not provide true dynamic load balancing.
To perform dynamic load balancing based on actual building consumption, the site must have an Easee Equalizer or another compatible device capable of sending real-time data from the electricity meter.

 


Total Circuits Distribution

Below the status banner you will see Total circuits distribution.

This shows:

  • L1, L2, L3 load distribution

  • Relative usage across all circuits

  • Live view of how current is being shared on each phase

The scale runs from 0 A → Main fuse rating.

 


Circuit-Level Monitoring

 

Each circuit is displayed in its own panel and includes:

Circuit Header

  • Circuit name (e.g. Circuit 1 - 1)

  • Master charger ID

  • Connection & communication status icons

 

Circuit Data

  • Active consumers

  • Queued consumers

  • Maximum consumption limit for the circuit

 

Phase Consumption

For each phase (L1, L2, L3):

  • Current draw (A)

  • Maximum allowed current

 

circuitCB.png

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