The Panasonic 18650b Datasheet is more than just a technical document; it’s the key to understanding and safely utilizing one of the most popular and reliable lithium-ion batteries on the market. This datasheet provides essential information about the battery’s specifications, performance characteristics, and safety guidelines, allowing engineers, hobbyists, and consumers to make informed decisions about its application.
Decoding the Panasonic 18650b Datasheet A User’s Guide
The Panasonic 18650b datasheet is a comprehensive document outlining the critical parameters of the battery. It isn’t just for engineers; anyone working with these batteries should understand its contents. You can think of it as the battery’s resume, detailing its capabilities and limitations. Properly interpreting the datasheet is vital for ensuring safe and optimal battery usage. Here are some key areas covered:
- Nominal Capacity: Typically around 3400mAh, this indicates the amount of charge the battery can store.
- Nominal Voltage: Usually 3.6V or 3.7V, this is the standard operating voltage.
- Charging and Discharging Currents: These values specify the recommended and maximum currents for safe charging and discharging.
- Operating Temperature Range: The acceptable temperature range for optimal performance and safety.
These datasheets are extensively used across various industries and applications. From powering electric vehicles and laptops to providing backup power in medical devices and energy storage systems, the 18650b’s versatility makes it a popular choice. The datasheet ensures that the battery is implemented correctly within these applications, preventing potential hazards like overheating, overcharging, or premature battery failure. By consulting the datasheet, manufacturers can design products that optimize battery life and performance while adhering to safety standards.
| Parameter | Value |
|---|---|
| Nominal Capacity | 3400 mAh |
| Nominal Voltage | 3.6 V |
| Max. Discharge Current | 4.87 A |
The Panasonic 18650b datasheet serves as a critical resource for comparing this battery against other models. For example, a different battery might offer a higher maximum discharge current, making it suitable for high-drain applications, but at the expense of capacity. Understanding these trade-offs, as detailed in the datasheets, is crucial for selecting the right battery for a specific purpose. Analyzing these parameters allows for informed decision-making, optimizing system performance, and ensuring compatibility. Without this information, designing reliable and safe products powered by the 18650b becomes significantly more challenging.
To truly understand the potential and limitations of the Panasonic 18650b, we encourage you to consult the actual datasheet provided by Panasonic. It contains comprehensive data and safety guidelines essential for any project utilizing this battery.