Panasonic — Ncr21700t Datasheet __link__

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With a high capacity of , the Panasonic NCR21700T significantly outperforms older cells like the NCR18650B (3350mAh) , offering up to 49% more energy per cell . It has an internal resistance of just 11-15mΩ , enabling highly efficient power delivery with minimal energy loss as heat. The NCR21700T also has a low self-discharge rate , retaining most of its charge even after long periods of storage.

The NCR21700T is an , not a Power Cell. While its capacity is massive, its recommended continuous discharge current is typically rated around 10A . panasonic ncr21700t datasheet

This comprehensive guide breaks down the official specifications, performance curves, safety protocols, and ideal use cases found in the Panasonic NCR21700T datasheet. 1. Technical Specifications Overview

The shift toward high-capacity, high-drain electronics has made the 21700 lithium-ion battery format an industry standard. Among the top-tier cells in this category is the Panasonic NCR21700T. Known for its exceptional balance of energy density and reliable discharge capabilities, this cell is a staple in electric vehicles, power tools, and custom battery packs. (Note: Related search terms prepared

The outlines the definitive engineering specifications of a high-performance, high-drain cylindrical lithium-ion cell. This powerhouse cell combines a massive 5000mAh nominal capacity with an exceptional continuous discharge capability, making it a cornerstone for electric vehicles (EVs), robotics, premium e-bikes, and advanced power tools.

At 21mm in diameter and 70mm in height, it is slightly larger than an 18650 but offers a significantly better ratio of weight to power. The Essay: The Silicon-Anode Frontier The NCR21700T is an , not a Power Cell

The high capacity makes it ideal as a power source for mobile chargers.

Offers the necessary steady current and rugged reliability required by professional-grade cordless tools.

The NCR21700T utilizes the standard Constant Current / Constant Voltage (CC/CV) charging method.

Used in some pre‑built electric skateboards (e.g., Ownboard Zeus and Meepo Hurricane) as a balance between capacity and moderate power delivery.