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LG
E101
Grade A
101Ah
3.7v
1300g
580 × 110 × 10
≥ 3000 times
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LG E101 NCM Lithium-Ion Pouch Cell (3.7V 101Ah) is a high-capacity lithium-ion battery cell designed for applications requiring high energy density, stable electrical performance, and reliable pack integration. Built on LG’s NCM chemistry platform, the E101 pouch cell is suitable for electric vehicle (EV) and energy storage system (ESS) applications where performance consistency and long-term reliability are critical.
With a nominal voltage of 3.7V and a large single-cell capacity of 101Ah, the LG E101 pouch cell delivers high energy per cell, allowing battery designers to reduce parallel cell counts at the module level. This helps simplify electrical architecture, improve pack consistency, and optimize space utilization in medium to large battery systems.
The E101 pouch cell is engineered to provide stable charge and discharge performance with controlled internal resistance and predictable thermal behavior under typical operating conditions. This makes it well suited for high-energy applications where efficiency, heat management, and operational stability are key design considerations.
Compared with smaller-capacity pouch cells, the 101Ah format improves energy density at both cell and system levels while reducing the total number of cells required per pack. This contributes to lower interconnection complexity, improved system reliability, and more efficient assembly for large-scale battery modules and packs.
This product page is intended for engineers, system integrators, and procurement teams evaluating LG E101 NCM lithium-ion pouch cells for EV and ESS battery pack development. Detailed electrical specifications, mechanical dimensions, and technical parameters are provided below to support engineering assessment and project planning.
LG NCM chemistry platform: Built on LG’s mature NCM lithium-ion chemistry system, offering a balanced combination of high energy density, electrochemical stability, and consistent manufacturing quality for EV and ESS battery applications.
Large-capacity pouch cell format (101Ah): The high single-cell capacity enables higher energy per cell, reducing the number of parallel cells required at the module level. This helps simplify electrical architecture, lower interconnection complexity, and improve overall pack consistency.
Stable charge and discharge performance: Designed to deliver predictable electrical behavior with controlled internal resistance and thermal characteristics under typical operating conditions, supporting reliable performance in high-energy battery systems.
Laminated aluminum pouch structure: The laminated pouch design supports efficient heat dissipation and mechanical flexibility, contributing to improved space utilization and structural adaptability in battery module and pack integration.
Cell grading and matching options: Capacity, open-circuit voltage (OCV), and internal resistance screening can be applied to enhance cell-to-cell consistency, which is critical for module balancing, pack reliability, and long-term system stability.
OEM/ODM-friendly supply and customization: Suitable for custom battery module and pack development, with support for labeling, insulation options, packaging formats, and technical coordination from sample evaluation to mass production.
The following specifications are provided for engineering evaluation. For mass production projects, final values and tolerances should be confirmed by the official datasheet and batch test records.
| Item | Specification |
|---|---|
| Brand | LG (cell) / MISEN (supply) |
| Model number | E101 |
| Product name | LG E101 NCM Lithium-Ion Pouch Cell |
| Cell type | Liquid electrolyte lithium-ion pouch cell |
| Chemistry / cathode | NCM |
| Battery size (nominal) | 3.7V 101Ah |
| Nominal capacity | 101Ah |
| Nominal voltage | 3.7V |
| Typical nominal energy | ≈ 374Wh (reference) |
| Charge cut-off voltage | 4.2V (typ., confirm by datasheet) |
| Discharge cut-off voltage | To be confirmed by datasheet (per operating window) |
| Internal resistance (DCIR) | ≈ 0.9 mΩ (reference, confirm by datasheet & batch test) |
| Energy density (gravimetric) | ≈ 284 Wh/kg (reference, confirm by datasheet) |
| C-rate | To be confirmed by datasheet (continuous / peak limits) |
| Cycle life | To be confirmed by datasheet (test conditions required) |
| Operating temperature (charge) | To be confirmed by datasheet |
| Operating temperature (discharge) | To be confirmed by datasheet |
| Dimensions (L × W × T) | 580 × 110 × 10 mm (reference) |
| Weight | 1.3 kg (reference) |
| Recommended applications | EV battery modules & packs; premium stationary ESS; fast-charging commercial and industrial battery systems |
| Supply ability | To be confirmed (based on project demand & delivery schedule) |
| OEM / ODM | Supported (cell grading/matching, insulation options, packaging format, documentation support) |
| Certifications / documents | UN38.3, MSDS, CE, RoHS (UL available per project) |
| Place of origin | To be confirmed by batch documentation |
Notes: Values above are for reference. For module/pack design, we recommend confirming the discharge cut-off voltage, continuous/peak current limits, internal resistance range (DCIR), and the standard charge method (CC/CV) from the official datasheet and batch test records. If you share your target system requirements, we can recommend a suitable operating window and integration guidance.
Missing-but-recommended parameters (you can provide them, and I will update the table immediately): standard charge rate (A or C), max charge rate (A or C), max continuous discharge current (A), peak discharge current (A, seconds), internal resistance test method/condition, nominal energy definition (Wh @ which voltage), and detailed cycle life conditions (DoD, temperature, end-of-life criteria).
The LG E101 adopts a laminated lithium-ion pouch cell structure optimized for high-energy battery module and pack integration. The pouch format is widely used in EV and ESS designs due to its high space utilization, flexible mechanical layout, and compatibility with various thermal management strategies. Key mechanical considerations for engineering evaluation include overall dimensions, thickness tolerance, tab configuration, and the recommended compression method within the module.
For large-format, high-capacity pouch cells such as the E101 (101Ah), stable mechanical support and controlled compression are essential to maintain consistent electrochemical performance throughout the cell’s service life. During module design, we recommend early definition of compression plates, insulation layers, busbar or flexible connector routing, and thermal interface materials to ensure reliable long-term operation and repeatable assembly quality.
The mechanical summary below is provided for quick integration review based on the current LG E101 configuration. For projects requiring tighter tolerance control, customized tab geometry, or fixture optimization, detailed mechanical drawings and dimensional references can be provided upon request.
| Mechanical item | Specification |
|---|---|
| Cell form factor | Laminated lithium-ion pouch cell |
| Overall dimensions (L × W × T) | 580 × 110 × 10 mm (reference) |
| Weight | 1.3 kg (reference) |
| Tab structure | Dual tabs (as shown in product images); tab material, thickness, position, and dimensions to be confirmed by mechanical drawing |
| Recommended module design notes | Apply uniform compression, appropriate insulation, and a consistent thermal interface (air, cold plate, or liquid cooling) to enhance long-term stability and cycle consistency |
Integration checklist (recommended): Please confirm available module space, cooling approach (air, cold plate, or liquid), busbar or flexible connector design, and target continuous and peak current. Based on this information, we can provide fixture recommendations, compression guidance, and an optimized mechanical layout proposal for your LG E101 battery module or pack application.
The LG E101 NCM lithium-ion pouch cell (3.7V 101Ah) is suitable for applications that require high energy per cell, consistent electrical behavior, and reliable module-level integration. Its large-format 101Ah design helps reduce parallel cell counts in a module, supporting simplified pack architecture, improved consistency, and efficient space utilization in high-energy battery systems.
| Application area | Why this pouch cell fits |
|---|---|
| EV battery modules & pack integration | Large single-cell capacity (101Ah) increases energy per cell and reduces the number of parallel cells required, helping simplify module architecture, improve consistency, and reduce interconnection complexity for high-energy EV battery packs. |
| Stationary ESS / containerized energy storage | High energy density and stable electrochemical performance support efficient system-level design. The pouch format also enables flexible thermal interface and module packaging approaches commonly used in premium stationary ESS solutions. |
| High-energy industrial battery systems | Predictable voltage behavior and controlled internal resistance help maintain stable output and manageable heat generation under defined load profiles, supporting industrial power systems that require reliable, repeatable performance. |
| Customized energy solutions (OEM / ODM) | The pouch cell structure supports flexible mechanical layout and thermal management design. Cell grading/matching options and project-based documentation support make it suitable for OEM battery module and pack development across multiple application scenarios. |
