Lade Regler Berater
Schützen Sie Ihre Batterien vor Überladung. Passen Sie die Stromabgabe Ihres Panel-Arrays an die richtige Reglergröße an.
Array-Konfiguration
Laderegler-Dimensionierung
Die Berechnungen beinhalten einen Sicherheitsfaktor von 1,25 für Spannungsspitzen bei Kälte und Reflexionen bei klarem Himmel.
Technisches Urteil
Geben Sie die Array-Leistung ein, um die beste Ladestrategie für Ihr System zu sehen.
Die Dimensionierungsformel
Passen Sie die Stromabgabe Ihres Panel-Arrays an einen Regler an, der sie sicher bewältigen kann — plus einen Sicherheitspuffer.
Mindest-Reglerstrom
A = (Array Watts ÷ Battery Volts) × 1.25 Der Sicherheitsfaktor von 1,25 berücksichtigt Spannungsspitzen bei Kälte und helle reflektierende Bedingungen, bei denen Panele kurzzeitig ihre Nennleistung überschreiten.
PWM- vs. MPPT-Effizienz
MPPT ≈ PWM Harvest + 20–30% MPPT-Regler verfolgen den optimalen Leistungspunkt des Panels und gewinnen Energie zurück, die in PWM-Systemen durch die Spannungs-Strom-Umwandlung verloren geht.
How to Size a Solar Charge Controller
A charge controller sits between your solar panels and battery bank, regulating the voltage and current flowing into the batteries. Without it, panels would overcharge and destroy batteries. The controller's ampere rating must be high enough to handle the maximum current your array can produce — with a safety margin for real-world spikes.
Why the 1.25 Safety Factor Matters
On cold, clear days — or when bright clouds act as reflectors — solar panels can temporarily produce 20–25% more current than their rated short-circuit current (Isc). Sizing your controller without this buffer risks tripping protection circuits or causing premature failure.
PWM vs. MPPT: Which Should You Choose?
- PWM (Pulse Width Modulation): Simpler and cheaper. Works by rapidly connecting and disconnecting the array, which limits the panel to operating at battery voltage. Best for small systems (under 200W) where panel voltage closely matches battery voltage.
- MPPT (Maximum Power Point Tracking): Actively tracks the panel's optimal voltage-current operating point and converts surplus voltage into usable current. Recovers 20–30% more energy than PWM. Required for all arrays above 200W and any system where panel voltage significantly exceeds battery voltage (e.g., 36V panels on a 12V bank).
Step-by-Step Controller Sizing
- Find Your Array's Total Watts: Multiply panel wattage by the number of panels in your array.
- Note Your Battery Bank Voltage: Most systems run at 12V, 24V, or 48V. Higher voltage systems require fewer amps for the same power.
- Calculate Base Amps: Divide array watts by battery voltage. This is the approximate current the controller must handle.
- Apply the 1.25 Safety Factor: Multiply by 1.25 to guard against cold-weather and reflection spikes.
- Round Up to Standard Size: Controllers come in 10A, 20A, 30A, 40A, 60A, and 80A ratings. Always round up to the next available size.