2P3S 117Ah NMC battery module is an standard VDA355 lithium ion battery module with FPC solution which can maximises battery module stability and saves space. It has already certificated with MSDS, UN38.3 and Sea transportation Certification.
Shipping Terms
Packaging Details cartons , pallets or plywood cases
Shipping terms: EXW, FOB, CIF, DDU, DDP
Shipping way: By air, by sea, by land
The 2P3S 117Ah NMC battery module is designed for EV battery pack integration where module standardization, stable electrical output, and scalable pack architecture are important. Based on a VDA355-standard module concept, this module is suitable for passenger EV platforms, light commercial vehicle battery systems, and custom vehicle electrification projects that require a compact and structured module foundation. Compared with direct cell integration, a module-based approach helps simplify pack design, electrical grouping, and system expansion.
Cell Foundation
This module is built from SVOLT CE1L4L36B-117Ah prismatic lithium-ion cells. According to the supplied product standard, the cell is a 117Ah 3.75V rechargeable NMC power battery designed for traction applications and controlled operating conditions.
Item
Value
Cell Manufacturer
SVOLT
Cell Model
CE1L4L36B-117Ah
Cell Type
Prismatic Li-ion Cell
Chemistry
NMC
Nominal Capacity
>=117Ah at 1/3C
Nominal Energy
>=438.7Wh at 1/3C
Nominal Voltage
3.75V
Standard Voltage Range
2.8V-4.4V
Low-Temperature Voltage Range
2.5V-4.4V when -20C < T <= 0C
Extreme Low-Temperature Voltage Range
2.1V-4.4V when -30C <= T <= -20C
ACR (1kHz)
<=0.4 mOhm
DCR
<=0.8 mOhm
Outgoing Voltage
3.970 +/- 0.010V
Max Continuous Charge Current
228A
Standard Charge Current
39A
Max Continuous Discharge Current
228A
Peak Discharge Current (30s)
669A
Peak Discharge Current (10s)
917A
Charge Temperature
-20C to 55C
Discharge Temperature
-30C to 55C
Cycle Life
>=1400 cycles
Recommended SOC Range
10% to 95%
Cell Weight
1805 +/- 30g
Energy Density
>=240Wh/kg at 1/3C
Discharge Power @ 25C
>=2700W
Derived Module Parameters
Based on a 2P3S configuration, the module uses six 117Ah NMC prismatic cells, with two cells connected in parallel and three groups connected in series. The following module values are derived directly from the supplied cell specification and the 2P3S electrical configuration.
Item
Value
Module Configuration
2P3S
Cell Quantity
6
Module Standard Positioning
VDA355-oriented
Nominal Capacity
234Ah
Nominal Voltage
11.25V
Estimated Nominal Energy
Approx. 2.63kWh
Standard Operating Voltage Range
8.4V-13.2V
Low-Temperature Voltage Range
7.5V-13.2V when -20C < T <= 0C
Extreme Low-Temperature Voltage Range
6.3V-13.2V when -30C <= T <= -20C
Max Continuous Charge Current
456A
Standard Charge Current
78A
Max Continuous Discharge Current
456A
Peak Discharge Current (30s)
1338A
Peak Discharge Current (10s)
1834A
Charge Temperature
-20C to 55C
Discharge Temperature
-30C to 55C
Recommended SOC Range
10% to 95%
Estimated Cell-Only Weight
Approx. 10.83kg
Estimated Minimum Energy
Approx. 2.53kWh at 114Ah basis
Applications
Application Area
Description
Passenger EV Battery Packs
Suitable for EV battery systems that require compact NMC module architecture and strong discharge capability
Light Commercial Vehicles
Supports electrification projects that need standardized module planning and scalable pack integration
Medium Commercial Vehicles
Can be used in modular battery development for higher-demand vehicle platforms
Custom Battery Enclosures
Suitable for projects that benefit from VDA355-style module packaging logic
Traction Battery Platforms
Practical for prototype, development-stage, and modular vehicle battery systems
LYTH focuses on turning battery cells into practical module and PACK solutions for real vehicle and energy projects. Beyond supplying battery products, we support customers with module configuration planning, structure matching, application-oriented development, and follow-up PACK integration based on project requirements. If you are looking for a VDA355-standard NMC battery module for EV battery systems, LYTH can support your project from cell selection to module design and scalable system cooperation.
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