The DURACELL MN2400 Datasheet is your key to understanding the capabilities and limitations of this widely used AAA battery. It’s a technical document that provides a wealth of information, from its nominal voltage and capacity to its operating temperature range and typical discharge characteristics. By carefully examining the DURACELL MN2400 Datasheet, you can make informed decisions about whether this battery is the right choice for your specific application.
Decoding the DURACELL MN2400 Datasheet’s Key Metrics
A datasheet, in general, serves as a comprehensive resource offering detailed specifications about a product. The DURACELL MN2400 Datasheet does the same for its AAA battery. It outlines crucial parameters like voltage, capacity, dimensions, and weight. It also highlights the battery’s chemical composition (alkaline), its shelf life, and its recommended storage conditions. Understanding these specifications is paramount for engineers, designers, and even everyday consumers to ensure optimal performance and longevity of devices powered by the MN2400.
These datasheets are used in a variety of ways. Engineers consult them when designing new devices, ensuring the power source perfectly matches the device’s energy requirements. Manufacturers rely on the data to maintain consistent quality control during production. Consumers, armed with the datasheet, can make informed choices at the store, selecting the battery that best aligns with the demands of their flashlights, remote controls, toys, and other gadgets. Understanding the discharge curves and internal resistance values, for example, can predict performance under various loads. Below are the common uses of battery’s datasheet:
- Choosing the correct battery for a new electronic device.
- Troubleshooting power issues in existing devices.
- Comparing different battery brands and models.
Think of the datasheet as a map to navigate the battery’s performance. It tells you how the battery behaves under different conditions. For example, datasheets usually contain a graph showing the voltage of the battery as it discharges over time under various loads. Here’s a simplified version of what might be included for storage temperature recommendations:
| Storage Temperature | Expected Capacity Retention |
|---|---|
| 20°C (68°F) | 90% after 3 years |
| 30°C (86°F) | 85% after 3 years |
Ready to delve even deeper into the intricacies of the DURACELL MN2400? Consult the actual datasheet for a full understanding of its specifications and performance characteristics. It’s your ultimate guide to unlocking the power potential of this ubiquitous AAA battery.