Sizing Wizard

Configure application requirements and select components

Active Pack ---
Estimated Mass 0.0 kg

Application Conditions

Component & Sizing Strategy

Real-time Sizing Dashboard

Recommended Component --- Standard Series
Architecture --- 0 components
Total Capacitance 0.0 F
Internal Resistance (ESR) 0.0 mΩ
Volume / Weight 0.0 L / 0.0 kg
Individual Component Voltage 0.00 V
Maximum Stored Energy 0.0 Wh
Usable Stored Energy 0.0 Wh
Energy Density 0.0 Wh/kg
Max Power Density 0.0 kW/kg
Dynamic Electrical Efficiency 0.0%

Cycle Loss Temperature Rises

0.0 K
Cell Core Rise (ΔTcore)
0.0 K
Surface Temperature Rise (ΔTsurface)

Mission Profiles Segmentation (12 Segments)

Input segment conditions (V, T, Share) to model calendar & cycling aging combined.

Core Thermal Modeling: The core temperature of the cell is added to the ambient temperature for lifetime calculations. Active Cell Core Gradient: 0.0 K.
Total Segment share: 100% Balanced
# Voltage [V] Ambient [°C] Share [%]

Expected Life Duration

Expected Lifetime > 30 Years Survivor fraction: 99.9%
Expected Hours > 262,800 hrs Arrhenius-Eyring decay
Disclaimer: The results of this simulation are calculated based on input data and assumptions. They are reference data and do not guarantee product characteristics.

FIT Component Failure Curve

What is FIT (Failures In Time)?

FIT is a standard way to measure reliability. 1 FIT means we expect exactly 1 failure if 1 billion components operate for 1 hour. A lower FIT means higher safety and reliability.

Analyzing active pack components to build reliability example...

Time-Domain Waveforms

Display End-of-Life (EOL)
Standard Conditions EOL Conditions (80% Cap, 2x ESR)

Export Sizing Database

Load Existing Project File

Drag and drop sizing backup file (`.txt`) exported from this tool.

Drag & Drop file here or click to browse files