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Farasis
Grade A
70Ah
3.7v
940g
394 × 104 × 14
≥ 2000 times
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Farasis P70 Semi-Solid State NCM Lithium-Ion Pouch Cell (3.7V 70Ah) is a large-format lithium battery cell designed for electric vehicle and energy storage applications requiring high energy density, stable electrical performance, and enhanced safety characteristics. Built on a semi-solid NCM chemistry system, this pouch cell combines the advantages of conventional lithium-ion technology with improved structural stability and electrochemical consistency.
With a nominal voltage of 3.7V and a typical capacity of approximately 69–70Ah, the P70 cell delivers up to 259Wh of energy per cell at 0.33C, achieving gravimetric energy density of up to 281Wh/kg. This high single-cell energy output allows battery designers to reduce parallel cell counts, simplify module architecture, and improve overall pack-level consistency.
The cell is designed to support continuous 1C charge and discharge operation, with low internal resistance (ACR ≤1.0mΩ, DCR ≤1.9mΩ @50% SOC), enabling stable current output and controlled thermal behavior. Peak discharge power exceeds 1700W under specified conditions, making the P70 suitable for traction and high-demand energy storage scenarios.
Compared with smaller-capacity pouch cells, the P70 format improves volumetric utilization and reduces the total number of cells required at the module level. This contributes to higher system reliability, simplified electrical interconnections, and more efficient use of available space within battery enclosures for EV and ESS systems.
This product page is intended for engineers, system integrators, and procurement teams evaluating Farasis semi-solid state NCM pouch cells for battery module and pack development. Detailed electrical specifications, mechanical dimensions, thermal limits, and cycle performance data are provided below to support technical evaluation and project planning.
Semi-solid state NCM chemistry system: Built on a semi-solid NCM lithium-ion chemistry platform, offering improved structural stability, enhanced safety margin, and consistent electrochemical performance compared with conventional liquid electrolyte pouch cells.
Large-format high-capacity pouch cell (≈70Ah): A typical capacity range of 69–70Ah enables higher energy per cell, reducing the number of parallel cells required in battery modules and simplifying electrical architecture at the pack level.
High energy density performance: Delivers up to 259Wh per cell at 0.33C, achieving gravimetric energy density of up to 281Wh/kg and volumetric energy density exceeding 600Wh/L, supporting compact and lightweight battery system design.
Stable 1C continuous charge and discharge capability: Designed to support continuous 1C operation with low internal resistance (ACR ≤1.0mΩ, DCR ≤1.9mΩ @50% SOC), ensuring stable voltage output, controlled heat generation, and predictable performance under sustained load conditions.
Wide operating temperature range: Supports charging from -20°C to 55°C and discharging from -30°C to 55°C, with storage temperature down to -40°C, making the P70 suitable for diverse EV and energy storage operating environments.
Long cycle life under defined conditions: Capable of ≥1500 cycles at 25°C (0.5C/1C, 3.0–4.3V) and ≥800 cycles at 45°C, supporting long-term reliability for traction and stationary energy storage applications.
The following specifications are provided for engineering evaluation and reference. For mass production projects, final values, tolerances, and operating limits shall be confirmed by the official Farasis datasheet and batch test records.
| Item | Specification |
|---|---|
| Brand | Farasis Energy |
| Model number | P70 |
| Product name | Semi-Solid State NCM Lithium-Ion Pouch Cell |
| Cell type | Semi-solid electrolyte lithium-ion pouch cell |
| Chemistry / cathode | NCM (semi-solid chemistry system) |
| Battery size (nominal) | 3.7V 70Ah |
| Typical capacity | 69–70Ah (typ.) |
| Nominal voltage | 3.7V |
| Typical energy | ≈259 Wh @0.33C |
| Gravimetric energy density | Up to 281 Wh/kg |
| Volumetric energy density | >600 Wh/L |
| Charge cut-off voltage | 4.3V (typ.) |
| Discharge cut-off voltage | 3.0V (defined operating window) |
| Continuous C-rate | 1C charge & 1C discharge |
| Internal resistance | ACR ≤1.0 mΩ, DCR ≤1.9 mΩ (@50% SOC) |
| Peak discharge power | >1700 W (reference) |
| Cycle life (25°C) | ≥1500 cycles (0.5C/1C, 3.0–4.3V) |
| Cycle life (45°C) | ≥800 cycles (0.5C/1C, 3.0–4.3V) |
| Operating temperature (charge) | -20°C to +55°C |
| Operating temperature (discharge) | -30°C to +55°C |
| Storage temperature | -40°C to +60°C |
| Dimensions (L × W × T) | 365 × 125 × 12 mm (typ.) |
| Weight | ≈0.92 kg |
| Recommended applications | EV traction battery modules, energy storage systems (ESS), high-energy lithium battery packs |
| Supply capability | Project-based supply (volume to be confirmed) |
| OEM / ODM | Supported (cell selection, grading, integration coordination) |
| Certifications / documents | UN38.3, MSDS (additional compliance per project) |
| Place of origin | China |
Notes: All values listed above are typical or reference values based on defined test conditions. For battery module or pack design, it is recommended to confirm the charge/discharge limits, thermal conditions, and integration requirements with the official Farasis technical documentation.
This cell adopts a laminated pouch cell structure based on a semi-solid NCM lithium-ion chemistry system, designed specifically for high energy density battery modules and pack-level integration. The pouch format supports flexible mechanical layout, high space utilization efficiency, and adaptable thermal interface design, making it suitable for EV traction batteries and energy storage systems.
In practical module design, large-format semi-solid pouch cells require stable mechanical support and controlled compression to maintain consistent electrochemical performance throughout their service life. Proper fixture design helps manage cell swelling behavior, ensures uniform pressure distribution, and contributes to long-term cycle stability under repeated charge and discharge conditions.
Below is a mechanical summary for quick integration review based on the current P70 product configuration. For projects requiring tighter tolerance control, customized tab geometry, or module-specific layouts, detailed mechanical drawings can be provided for engineering verification and optimization.
| Mechanical item | Specification |
|---|---|
| Cell form factor | Laminated semi-solid lithium-ion pouch cell |
| Overall dimensions (L × W × T) | 365 × 125 × 12 mm (typ.) |
| Weight | ≈0.92 kg |
| Tab structure | Dual tabs (as shown in product images); tab material, thickness, and exact position to be confirmed by mechanical drawing |
| Recommended module design notes | Apply uniform clamping or compression force, appropriate electrical insulation, and a consistent thermal interface (cold plate or cooling sheet) to enhance long-term stability and cycle consistency |
Integration checklist (recommended): Please confirm available module internal space, cooling strategy (air, cold plate, or liquid cooling), busbar or flexible connector approach, and target continuous and peak current levels. Based on this information, we can provide compression guidance, fixture recommendations, and an optimized layout proposal tailored to your application.
The Farasis P70 semi-solid state NCM lithium-ion pouch cell (3.7V 70Ah) is designed for applications that require high energy density, stable electrical performance, and enhanced safety characteristics. Its large single-cell capacity, semi-solid electrolyte structure, and controlled 1C operating profile make it suitable for battery systems where module-level consistency, reliability, and long-term performance are key design considerations.
| Application area | Why this pouch cell fits |
|---|---|
| EV traction battery modules | High single-cell energy (≈259Wh) and large capacity (≈70Ah) reduce the number of parallel cells required, simplifying module architecture while supporting compact, lightweight EV battery pack designs. |
| Energy storage systems (ESS) | Stable 1C charge and discharge capability, wide operating temperature range, and predictable cycle behavior make the P70 suitable for containerized, cabinet-based, and modular ESS applications requiring long-term reliability. |
| High-energy battery packs | The semi-solid pouch structure supports efficient space utilization and thermal interface design, enabling high-energy battery packs for industrial, mobility, and specialty energy applications. |
| Customized battery solutions (OEM / ODM) | Suitable for project-based battery development requiring cell grading, matching, and integration support. The pouch cell format enables flexible mechanical layouts and tailored thermal designs for custom EV and ESS systems. |
