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Product

Cylindrical

Core Competitive

Based on over 20 years of technological expertise accumulated in its 2170 and 1865 products, LG Energy Solution is expanding the application scope of cylindrical batteries across a wide range of industries. The 2170 battery adopts an innovative tabless design, delivering higher output than conventional models to meet consumer demands for fast charging and high discharge performance.

Cylindrical 2170 / 1865

  • Optimized for high energy density

  • Various
    Applications

  • Offers exceptional flexibility in module pack designs

  • High Safety

  • Optimized for high energy density

    Achieving high energy density by applying high-nickel and high-efficiency silicon.

    800+Wh/Lup

  • Designed to meet diverse application needs

    A one-battery solution adaptable to various applications, from LEVs and EVs requiring medium output to power tools demanding high output.

    Diverse Battery Line-ups

  • Offers exceptional flexibility in module pack designs

    Small form factors enable module and pack design optimization tailored to customer needs.

    Size (L x W x H)

    210x130x80mm
    0.9kWh
    7S7P

    510x320x90mm
    5.0kWh
    7S40P / 14S20P

    640x550x90mm
    10.0kWh
    14S40P / 28S20P

Core Technology

Technological Advancements

By utilizing cutting-edge material technology—such as high-performance NCMA cathodes and high-efficiency silicon anodes— LG Energy Solution delivers superior battery performance with high energy density, extended driving range, and long-lasting battery life. Next-level performance that drives EV competitiveness.

High Performance NCMA Cathodes

Reduced phase transition

Maintaining safety at high energy density

Micro-crack prevention

Achieving high performance by blending radially aligned poly crystal with single crystal

Highly Efficient Silicon Anodes

Longer lifespan and lower expansion compared to
SiO and mechanically milled Si/C

Applications

Passenger EV

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Commercial EV

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LEV

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Power Tools

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Heavy
Equipment EV

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Robot

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Future Mobility

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BBU

Materials

NCM(A)
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Production Sites

LG Energy Solution has established large-scale production bases in Korea, North America, China, Poland, and Indonesia, ensuring flexible and timely battery supply tailored to customer needs in each region.

Major Order History

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Pouch

Core Competitive

Small pouch cells feature high capacity, high power, and ultra-slim design advantages, making them ideal for applications such as smartphones and drones.

Pouch IT Devices

  • The Slimmest

  • High energy density

  • Various Sizes

Core Technology

Zigzag Stacking

Advanced cross-stacking technology alternates cathode and anode sheets with separators, enhancing both precision and safety.

High-voltage Mid-Ni NCM Chemistry Core Technology

Single Particle Cathode

Low effective surface area and high structural stability reduce gas generation and extend cycle life at high-voltage.

Electrolyte for High-voltage

Lowering electrolyte oxidation and metal dissolution extends high-voltage cycle life while reducing gas.

Hybrid Conducting Agent

0-Dimensional Conducting Agent: Higher electrolyte absorption for ionic path. 1-Dimensional Conducting Agent : High-conductivity electrical path.

Key Advantages of Mid-Ni NCM Chemistry

  • High Energy Density

  • Improved Safety

  • Cost Competitiveness

  • Excellent Durability

High-voltage LCO

Cathode Development Status

LG Energy Solution’s high-voltage LCO cathode technology offers higher unit capacity and operating voltage, increasing energy capacity.

Surface Coating and Doping Process

Minimizes side reactions like cathode lattice distortion and surface reactions from high-voltage, by applying surface coatings and an increased amount of doping materials.

Zero Transition Zone (ZTZ)

Zero Transition Zone (ZTZ) technology prevents top swelling, ensuring stable energy capacity and longer battery life.

What is the ZTZ?

ZTZ Process Diagram

Anode sliding reduces the interfacial capacity between the cathode and anode, affecting energy capacity and charging speed, and leading to top swelling. The ZTZ process enhances the bonding interface between the cathode and anode facing areas and suppresses side reactions in the upper part of the battery by minimizing the anode sliding area through laser removal.

Applications

Smartphone

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Smart Monitor/TV

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Laptop

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Materials

NCM(A)
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Production Sites

LG Energy Solution has established large-scale production bases in Korea, North America, China, Poland, and Indonesia, ensuring flexible and timely battery supply tailored to customer needs in each region.

주요 수주 이력

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Core Competitive

With world-class battery technology and global production capabilities, LG Energy Solution leads the global EV market by delivering differentiated products that enhance energy density and driving range.

Pouch Mobility

  • High energy density battery enables driving longer distances.

  • Lightweight battery significantly enhances driving efficiency which is more crucial for commercial vehicles.

  • Maximizing EV operational efficiency with fast charging

  • Enhancing space utilization with flexible battery design

Total Battery Solution

From cells to modules and packs, LG Energy Solution delivers optimized technology solutions built on advanced battery expertise.

Material → Cell → (Module + Pack) + (BMS* + Technical Support)

Core Technology

Cell

Flexible Sizing Pouch batteries can be freely designed in length and area, enabling increased capacity and highly optimized cell configurations.

  • Uni-direction Cell

  • Bi-direction Cell

  • Short Cell

  • Long Cell

Key Advantages of Mid-Ni NCM Chemistry High-voltage Mid-Ni NCM is a well-balanced battery solution with high thermal stability and cost competitiveness. Specifically,
pouch-type cells, applied with LG Energy Solution’s 'Lamination & Stacking' technology, achieve higher energy density than competitors.

  • High Energy Density

    Mid-Ni chemistry with high-voltage system enhances energy density.

  • Improved Safety

    single particle cathode system reduce heat flow in the event of thermal runaway, enhancing thermal stability.

  • Cost Competitiveness

    A competitive cost is attained by reducing nickel and cobalt components to decrease dependence on metal price fluctuations..

  • Excellent Durability

    Various core technologies reduce gas emissions in high voltage and ensures a longer battery life.

Module/Pack

Module to Pack (MPI) With module-to-pack assembly technology, LG Energy Solution delivers battery systems optimized for a wide range of vehicle types.

Module → Pack

Cell to Pack(CTP) Pouch-type cells, applied with LG Energy Solution’s 'Lamination & Stacking' technology, achieve higher energy density than competitors.

Module → Pack

Dry Electrode Process LG Energy Solution is revolutionizing battery production by commercializing the dry electrode process, lowering processing costs while enhancing performance.

  • Dry Mixing

  • Solid Power Formation

  • Solid Power Formation

  • Roll Pressing

Applications

Passenger EV

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Commercial EV

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Heavy Equipment EV

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Future Mobility

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Materials

NCM(A)
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Production Sites

With the industry’s largest global production network across Korea, China, the U.S./Canada, Poland, and Indonesia, along with extensive manufacturing experience, LG Energy Solution ensures swift and effective responses to customer and market needs.

주요 수주 이력

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Core Competitive

LG Energy Solution leads the market with a variety of ESS battery products for power grids, commercial & industrial, residential, and UPS use, leveraging superior technology and mass production capabilities

Pouch ESS

  • First in the Industry to Build Dedicated ESS Battery Production Facilities

    With a strong global production network and the industry’s only ESS-exclusive development line,
    LG Energy Solution ensures stable battery supply tailored to customer needs.

  • Optimized Battery Solutions from NCM to LFP

    Our portfolio spans from high-energy-density NCM (Nickel Cobalt Manganese) cells to highly safe and cost-effective LFP (Lithium Iron Phosphate) cells, providing optimized solutions for diverse customer business needs.

  • Reliable Pouch Cell Structure with L&S Process Technology

    LG Energy Solution’s proprietary Lamination & Stacking process creates a stable internal electrode structure, significantly improving battery lifespan and reliability.

Core Technology

LG Energy Solution provides the most optimal energy solution for the users using our state-of-the-art energy storage system with a long lifespan and a top-notch quality.

Features

Winding
Limitations in electrode thickness

→

Lamination & Stacking
Increase in electrode thickness

Winding

→
No Round Corners

Lamination & Stacking

Reliability (after 500 cycles)

↓ 500 Cycles

Winding
Distortion and delamination occurs

→
↓ 500 Cycles

Lamination & Stacking
Keeps initial state

Enhanced Energy Density at the Cell Level

Higher Energy Density High space efficiency

→

Limited space efficiency

ESS Business Areas

ESS for power grids is installed at thermal power plants, solar and wind power plants, and substations. It has various applications in reducing power load, coupling with renewable power generation, and adjusting power frequency. Commercial ESS is installed in commercial buildings such as offices, schools, and factories, and is used to reduce power load or to couple with renewable power generation.

  • Transportable rack system, easy to move and install
  • All-in-one LFP containerized solution
  • Smart, integrated ESS solution
ESS SI View more
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Cost-optimized Deployment

Reduce on-site installation time and cost with a
Plug & Play

Easy Installation

Saves time and money through rack assembly format

Diverse Product Options

Accommodates client needs through diverse product lines
of cells, packs, and racks

Small Footprint

Lithium-ion battery requiring minimum installation area

A Residential ESS connects to home solar panels, storing daytime energy produced by the solar panels for nighttime use, providing an efficient energy consumption environment.

Total Solution
Leveraging advanced cell technology built on battery material expertise,
LG Energy Solution provides customized ESS solutions—from tailored pack design to BMS-driven safety—that meet diverse customer needs and ensure successful operations.

Local Production

Stable local supply chains with minimized tariff impact

Optimized Solutions

Meeting diverse customer requirements, from inverter-integrated to standalone systems

Quality Assurance

Exceptional durability in any environment, backed by a 15-year warranty

Flexible Design

Customized battery supply from cells to modules and packs

An Uninterruptible Power Supply (UPS) ensures facilities such as data centers and IT/communication hubs maintain a continuous power supply.

TCO (Total Cost of Ownership) Reduction
  • Battery lifespan approximately twice as long as conventional batteries
  • Minimized installation footprint through lightweight and compact design
  • Higher rate capability and output compared to conventional batteries of the same capacity
  • Enhanced maintenance convenience with integrated BMS

Requires only 1m² to install 1MW, enabling fewer racks and greater space optimization for data centers.

The advanced spark and gas emission control system meets the stringent requirements of the latest UL9540A 4th edition, ensuring even greater reliability.

Pre-assembled packs reduce packaging materials, lower transportation costs, and simplify on-site installation.

With a self-powered SMPS* drawing electricity directly from inside the battery, no additional power cables are required.

SMPS : Switched Mode Power Supply

Production Sites

LG Energy Solution has established large-scale production bases in Korea, North America, China, Poland, and Indonesia, ensuring flexible and timely battery supply tailored to customer needs in each region.

주요 수주 이력

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