The DURACELL MN908 datasheet is your definitive guide to understanding the technical specifications and performance characteristics of this popular alkaline battery. It contains crucial information for engineers, hobbyists, and anyone who relies on the MN908 for powering their devices. Understanding the information within the DURACELL MN908 datasheet can significantly improve your project’s power management and ensure optimal performance.
Deciphering the DURACELL MN908 Datasheet The Essentials
The DURACELL MN908 datasheet is more than just a list of numbers; it’s a comprehensive document outlining everything you need to know about the battery’s capabilities. It details electrical characteristics such as nominal voltage, typical capacity, and discharge curves under various load conditions. This information allows you to predict how the battery will perform in different applications and estimate its lifespan. Key parameters often included are:
- Nominal Voltage: Typically 1.5V for an alkaline cell.
- Capacity: Measured in mAh (milliampere-hours), indicating how long the battery can deliver a certain current.
- Operating Temperature Range: The temperature range within which the battery is designed to function optimally.
Beyond the basic electrical specifications, the DURACELL MN908 datasheet also provides physical characteristics like dimensions, weight, and terminal configuration. This information is crucial for ensuring the battery fits properly into your device and that the polarity is correct. The datasheet may also include safety information, such as warnings about improper use, disposal guidelines, and chemical composition. Understanding this information is crucial for ensuring safe and effective use of the battery.
Furthermore, the datasheet often presents discharge curves at different drain rates, showing how the battery voltage changes over time. This allows you to assess the battery’s suitability for different types of loads, such as high-drain devices like digital cameras or low-drain devices like remote controls. For example, a table showing voltage versus discharge time might look like this:
| Discharge Current (mA) | Discharge Time (Hours) | Voltage (V) |
|---|---|---|
| 50 | 20 | 1.3 |
| 100 | 9 | 1.2 |
Interested in digging deeper into the capabilities of the DURACELL MN908? Don’t spend hours searching online for potentially outdated or inaccurate information. The official DURACELL MN908 datasheet is your go-to resource for reliable specifications and performance data.