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High-capacity 3.20V 206Ah LFP prismatic storage cells in square aluminum cases featuring rigid terminal pins for commercial and industrial energy storage systems.

3.20V 206Ah LFP Prismatic Cell Stationary ESS

$289.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Commercial Grade 3.20V 206Ah LFP prismatic cell for stationary ESS. Dimensions 53.8×174.2×207.1mm, weight ≤4.20kg, cycle life ≥3000. In stock.

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Description

3.20V 206Ah LFP Prismatic Cell | ATOMFAIR

COMMERCIAL GRADE · PRODUCTION

Product Overview
The ATOMFAIR® 3.20V 206Ah LFP Prismatic Cell is a high-capacity square aluminum case battery built on advanced lithium iron phosphate (LFP) chemistry. Specifically engineered for energy storage systems (ESS), it delivers a reliable energy density of 160Wh/kg with a lightweight design (≤4.20kg). Supporting stable 1.0C continuous charge and discharge rates, and an exceptional cycle life of ≥3000 cycles at 25°C, 1.0C/1.0C, 100% DOD with 70% retention, this cell ensures long-lasting, dependable power for grid storage, commercial ESS, and residential battery banks. Its compact dimensions (53.8×174.2×207.1 mm including terminal) allow efficient pack integration and thermal management. For bulk inquiries or official volume quotations, please contact us via email at inquiry@atomfair.com.

Technical Specifications
PARAMETER VALUE
Cell Chemistry Lithium Iron Phosphate (LFP)
Dimensions (mm) with Terminal 53.8 × 174.2 × 207.1
Weight (kg) ≤ 4.20
Nominal Capacity (Ah) 206
Nominal Voltage (V) 3.20
Weight Energy Density (Wh/kg) 160
Max Continuous Charge / Discharge Rate 1.0C / 1.0C
Cycle Life (@25°C, 1.0C/1.0C, 100% DOD, 70% Ret) ≥ 3000 cycles

Key Features & Advantages
  • High Energy Density: 160Wh/kg enables compact ESS design and reduces total system footprint.
  • Lightweight Construction: ≤4.20kg per cell – ideal for space-constrained and rack-mount storage solutions.
  • Extended Cycle Life: ≥3000 cycles at 1.0C/1.0C, 100% DOD, 70% retention – built for long-duration and high-throughput ESS applications.
  • Intrinsic LFP Safety: Exceptional thermal stability and resistance to thermal runaway, ensuring safe operation in stationary energy storage environments.
  • Stable 1C Rate Performance: Reliable continuous charge/discharge at 1.0C for consistent power delivery and fast response.
  • Robust Prismatic Format: Square aluminum case with terminal provides structural rigidity, efficient cooling, and simplified pack assembly for ESS.

APPLICATION SCOPE: Energy storage systems (ESS) including grid-scale storage, commercial and industrial (C&I) battery banks, residential solar storage, peak shaving, load shifting, and backup power applications requiring high capacity and long cycle life.
PACKAGING: Humidity‑controlled vacuum sealed packaging, individual cell isolation in anti‑static foam lined cartons. Custom palletized packaging for bulk orders available upon request.
IMPORTANT NOTICE: Always use a dedicated BMS with appropriate protection functions. Operate the cell within the recommended voltage and temperature ranges for optimal performance and safety. Avoid mechanical abuse, over‑discharge, or short circuits. For first use, condition the cell under standard ambient conditions. Dispose of used cells in accordance with local regulations.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: INQUIRY@ATOMFAIR.COM
MANUFACTURER: ATOMFAIR LLC
BRAND: ATOMFAIR®

Store the LFP prismatic cell at 20–30% state of charge and within a temperature range of -10°C to 45°C to minimize capacity fade. Avoid exposure to conductive environments and ensure terminals are insulated to prevent short circuits and thermal runaway.

  • Storage Environment: Maintain storage in a dry, cool environment free from conductive contaminants to prevent self-discharge and corrosion.
  • Charge Limitations: Charge the cell only between 2.5V and 3.65V to avoid over-discharge and over-charge damage.
  • Thermal Management: Ensure adequate spacing and airflow during operation to dissipate heat and prevent thermal runaway.
  • Transportation: Transport the cell in a non-conductive, padded container with terminals protected to comply with hazardous goods regulations.
  • Disposal: Dispose of the cell only through certified recycling facilities in accordance with local battery regulations.

This procedure covers the safe unpacking, inspection, and initial charging of the LFP prismatic cell prior to integration into an energy storage system. Strict adherence to these steps reduces the risk of electrical shock, short circuit, and thermal runaway during handling.

Required Equipment: Insulated Gloves, Safety Goggles, Digital Multimeter, Non-Conductive Work Mat

  1. Inspect
    Inspect the cell casing for physical damage or leakage, and verify terminal cleanliness before any handling.
  2. Measure
    Measure the open-circuit voltage with a digital multimeter to confirm it is within the safe storage voltage range (2.5V–3.65V).
  3. Prepare
    Place the cell on a non-conductive work mat and ensure the work area is free of metal tools and conductive debris.
  4. Connect
    Connect the cell to a compatible LFP charger using properly insulated cables and verify polarity before energizing.
  5. Charge
    Begin charging at a maximum rate of 1.0C until the cell reaches the upper voltage limit, monitoring temperature continuously.
  6. Verify
    After charging, record the final voltage and allow the cell to rest for at least one hour before integration.
  7. Install
    Install the cell into the ESS pack with appropriate compression and thermal management provisions as per system design.

How does the 1.0C continuous charge/discharge rate limit affect the usability of this 206Ah LFP cell for high-power ESS applications compared to cells with higher C-rate capability?

The cell is optimized for long-duration stationary ESS, not high-power. With a maximum continuous rate of 1.0C, it delivers 206A continuously, suitable for grid storage and peak shaving, but not for applications requiring rapid charge/discharge above 1.0C. Its cycle life of ≥3000 cycles at 100% DOD and 70% retention confirms durability under moderate rate cycling.

What BMS protection functions are essential when integrating this LFP prismatic cell into a multi-cell battery pack?

A dedicated BMS with over-voltage, under-voltage, over-current, short-circuit, and temperature protection is mandatory. The cell's LFP chemistry provides intrinsic thermal stability, but the BMS must enforce the manufacturer's recommended voltage and temperature operating ranges to prevent damage and ensure safe operation.

What are the required conditioning and storage procedures for a new 206Ah LFP prismatic cell before first use?

Upon receipt, condition the cell under standard ambient conditions (25°C recommended) before initial charging. The cell is shipped in humidity‑controlled vacuum sealed packaging with individual isolation; store in a dry, cool environment and avoid mechanical abuse. Ensure first charge is done with a compatible BMS to balance cells.

The 3.20V 206Ah LFP Prismatic Cell delivers 160 Wh/kg energy density and ≥3000 cycle life for ESS applications, but mandates a dedicated BMS and humidity-controlled storage for safe and reliable operation.

Positive

  • High gravimetric energy density: 160 Wh/kg enables compact ESS design and reduces total system footprint, ideal for space-constrained installations.
  • Extended cycle life at full DOD: ≥3000 cycles at 1.0C/1.0C, 100% DOD with 70% retention ensures long-duration, high-throughput energy storage operation.

Trade-offs

  • Requires external BMS: A dedicated battery management system with appropriate protection functions is mandatory to maintain safe voltage and temperature ranges.
  • Sensitive to environmental conditions: Cells are shipped in humidity‑controlled vacuum sealed packaging with anti‑static foam, and must be conditioned under standard ambient conditions before first use.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

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