Energy Timeline

Simulate your energy balance over 24 hours. See how your battery state of charge develops based on location, season, solar panels and consumption.

Location and season

Latitude

52°Amsterdam

Month

Peak sun hours: 5.4h

Battery

Capacity (Ah)

Count

Type

System voltage

Solar panels

Number of panels

Power per panel (Wp)

One-time consumers

Compare with another month

24-hour energy balance

You end the day with 100% battery charge. Your setup is sufficient for this location and month.

Solar energy

1836 Wh

Consumption

0 Wh

Lowest SoC

100%

Peak sun hours

5.4h

Solar energy (W) Consumption (W) Battery SoC (%)

How does this calculation work?

We simulate a full day (24 hours) based on your location, month, battery and solar panels:

Solar energy (W)

Solar production follows a bell curve (Gaussian distribution) peaking around 13:00, scaled to the peak sun hours for your latitude and month.

Consumption (W)

Consumers that run 24 hours are evenly distributed. Other consumers are spread over waking hours (7:00-23:00).

Battery SoC (%)

The battery starts fully charged. Each hour we calculate: yield minus consumption, and adjust the SoC (State of Charge).

Peak sun hours

We use 85% system efficiency and usable capacity per battery type: LiFePO4 90%, lead-acid 50%.

This simulation is an approximation. Actual yield depends on weather, shade, panel orientation and temperature. Use the result as a planning indication, not a guarantee.

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