Panasonic Ncr21700t Datasheet Hot |top| Now

: Rated for over 1,000 cycles under standard conditions before significant capacity loss. Safety Note

Retains approximately 80% capacity after 500 to 1,000 cycles depending on discharge severity. Thermal & "Hot" Operation Limits

The Panasonic NCR21700T is more than just a battery; it's a proven, high-performance power source that has earned its place in some of the most demanding electronics on the planet. Its combination of high capacity, robust current handling, and wide thermal operating range makes it an exceptional choice for builders, enthusiasts, and engineers alike.

Thermal / "hot" related limits and safety notes: panasonic ncr21700t datasheet hot

| Specification | Common Values Found | Source Reliability | | :--- | :--- | :--- | | | 4800mAh or 5000mAh | High | | Nominal Voltage | 3.6V or 3.7V | High (Minor variance) | | Max Continuous Discharge | 10A, 15A, 20A, 30A | Low to High |

It is critical to ensure the cell surface does not exceed 70∘C70 raised to the composed with power C 80∘C80 raised to the composed with power C

cells due to its 21700 form factor and 5000mAh capacity, finding an official "public" datasheet directly from Panasonic can be difficult as these cells are primarily produced for high-volume industrial and automotive clients. Core Specifications : Rated for over 1,000 cycles under standard

Under sustained 10A–15A discharge, the cell temperature can climb into the pretty fast, especially if there’s no active cooling. The datasheet’s own discharge curves show significant voltage sag at 15A, and temp rise is noted as a limiting factor – not just capacity loss.

The Panasonic NCR21700T remains a top-tier choice, a true workhorse that continues to power the future of portable energy. Always build safe packs, and harness this "hot" power responsibly.

Due to its high energy density and current output, this cell is a "hot" choice for: Its combination of high capacity, robust current handling,

Running the NCR21700T at elevated temperatures accelerates the growth of the Solid Electrolyte Interphase (SEI) layer, which permanently increases internal resistance and reduces overall capacity. 4. Cycle Life and Storage Guidelines

The is a high-performance lithium-ion cell widely regarded as a premium choice for high-drain applications such as electric vehicles, power tools, and robotics. Utilizing a Nickel-Cobalt-Aluminum Oxide (NCA) cathode chemistry, this cell is engineered for high energy density and thermal stability. Core Technical Specifications