SVOLT L400-90Ah: The 15mm Ultra-Slim Energy Specialist The SVOLT L400-90Ah is a state-of-the-art Blade Battery cell that redefines energy density through advanced Stacked Technology. Manufactured by SVOLT Energy, this 90Ah LiFePO4 cell is engineered for applications where vertical or horizontal clearance is extremely limited. Its unique 15mm “Short Blade” architecture provides unmatched structural rigidity and thermal performance.
📐 Industry-Leading 15mm Profile: The ultra-thin thickness allows system integrators to build extremely sleek battery packs, perfect for under-floor EV integration or slim wall-mounted home storage.
⚡ Superior Stacked Efficiency: Unlike traditional wound cells, SVOLT’s stacked process ensures uniform internal temperature and longer cycle life, maximizing the performance of the 90Ah capacity.
🛡️ Verified Grade A Quality: DLCPO ensures every cell is freshly produced with original factory QR codes, guaranteeing zero chemical aging and full traceable history for professional B2B projects.
✅ Authentic Factory-Direct Freshness: We supply 100% genuine SVOLT cells sourced directly from the production line, ensuring your project receives the highest chemical activity with zero aging issues.
🎯 Precision Technical Grouping: For large-scale projects, our engineering team performs rigorous cell matching by voltage and internal resistance to deliver perfectly balanced cell strings.
🌐 Expert Global B2B Logistics: DLCPO specializes in secure DDP shipping for lithium batteries to the USA, EU, and Brazil, managing all customs and safety compliance for your high-performance projects.
The core advantage is its ultra-slim 15mm thickness combined with a 409.1mm length. This specific ratio allows for “Cell-to-Pack” (CTP) designs that eliminate bulky modules, increasing the overall energy density of the system by up to 20% compared to standard prismatic cells.
SVOLT’s stacked technology provides a more uniform distribution of ions and heat compared to traditional winding methods. This reduces internal stress and significantly improves safety and capacity retention over thousands of cycles, even in high-demand motive applications.
The height of 121.4mm is carefully calibrated for standard rack-mount and chassis-mount orientations. Combined with the elongated blade shape, it provides a larger surface area for heat dissipation, allowing the 90Ah cell to maintain a stable temperature during rapid charge or discharge cycles.
The SVOLT L400-90Ah is a high-performance “Short Blade” LiFePO4 cell. Designed specifically for PHEV applications, it features a remarkable 2.2C discharge rate and a compact 409mm length. With 162Wh/kg energy density and -30°C cold weather capability, it is a top-tier choice for high-power traction systems.
| Parameter | Specification |
|---|---|
| Brand | SVOLT |
| Model Type | L400-90Ah (Short Blade) |
| Cathode Material | LiFePO4 (LFP) |
| Nominal Capacity | 90 Ah |
| Nominal Voltage | 3.2 V |
| Operating Voltage | 2.5V ~ 3.65V |
| Internal Impedance | ≤ 0.50 mΩ |
| Performance Rating | 2.2C High Power |
| Dimensions (T*L*H) | 15 * 409 * 121 mm |
| Weight | 1.655kg ± 30g |
| Energy Density | 162 Wh/kg |
| Cycle Life | ≥ 3,000 Cycles |
| Operating Temperature | Charge: 0~45°C | Discharge: -30~50°C |
| Sorting Service | Free (Included) |
Stop charging cells if charging isn’t completed within the specified time.
Stop using cells if the battery becomes abnormally hot, develops an odor, becomes discolored, deformed, or develops any other abnormal conditions during use, charge, discharge, or storage.
Keep away from fire or hot heat sources immediately when a leakage or foul odors are detected. If liquid leaks onto your skin or cloths, wash it out with plenty of fresh water immediately if liquid leaks from cells and gets into your eyes, don’t rub your eyes. Wash your eyes out with plenty of clean water and seek medical attention immediately.
Notice: Blade batteries require specific compression and careful handling due to their 15mm thin profile. Designed for 2.2C high rates; ensure BMS and cooling are adequate.
