This simulator is specifically designed for the **BYD Blade (LFP)** battery, using an advanced mathematical model to predict its long-term health.
The Power Model (3 Parameters)
We use the formula $SOH = a \cdot km^n + b$. Unlike a straight line, this model captures the reality of LFP batteries: a slightly faster initial degradation followed by a very durable stabilization (plateau).
Why LFP?
Lithium Iron Phosphate (LFP) batteries are extremely robust. They support thousands of charge cycles and prefer to be charged to 100% weekly to calibrate their BMS. However, their main enemies are extreme heat and prolonged storage (weeks) at 100% in hot climates.
Adjustment Factors
- **DC Charging:** Moderately increases thermal stress on the electrodes.
- **Climate:** The most critical factor. Heat accelerates 'calendar aging'.
- **Storage:** Keeping the car parked for many days at 100% with heat is the only thing that really fatigues a Blade cell.
Note: These calculations are estimates based on community statistical data and standard chemical models. They do not replace the official BYD warranty.
