The ER14250 Datasheet is the key to understanding the capabilities and limitations of this compact, yet powerful, lithium thionyl chloride (Li-SOCl2) battery. It’s a vital resource for engineers, hobbyists, and anyone using ER14250 batteries in their electronic devices. This article will delve into the essential details of the ER14250 datasheet, exploring its significance and practical applications.
Deciphering the ER14250 Datasheet What You Need to Know
An ER14250 Datasheet is a comprehensive document that provides detailed specifications and performance characteristics of the ER14250 lithium battery. It’s not just a list of numbers; it’s a critical tool for designing circuits, selecting the right battery for an application, and ensuring safe and reliable operation. Understanding the datasheet is crucial for maximizing battery life and preventing potential hazards.
Datasheets typically include information on:
- Nominal Voltage: Typically 3.6V, but can vary slightly between manufacturers.
- Nominal Capacity: This indicates how much energy the battery can store, usually around 1200mAh.
- Discharge Characteristics: How the voltage drops over time as the battery is used.
- Operating Temperature Range: The temperature limits within which the battery can operate safely and effectively. This is often a very wide range for lithium thionyl chloride batteries.
- Storage Conditions: How to store the battery to maximize its shelf life.
The ER14250 datasheets are incredibly important because they ensure proper application of the battery. The key parameters to look for in a datasheet include maximum continuous discharge current, pulse discharge capability, and operating temperature range. Exceeding the maximum discharge current can lead to overheating and premature battery failure. It’s also vital to consider the operating temperature range, as extreme temperatures can significantly impact battery performance and lifespan. The physical characteristics of the battery, like dimensions and weight, are also typically listed. Understanding these specifications allows engineers to design circuits that operate within the battery’s capabilities. A summarized table is shown below:
| Parameter | Importance |
|---|---|
| Nominal Voltage | Determines compatibility with circuits. |
| Nominal Capacity | Influences battery lifespan. |
| Max. Discharge Current | Safety and battery health. |
Now that you understand the importance of ER14250 datasheets, consider consulting the original manufacturer’s document for the most accurate and detailed information about your specific battery model. Doing so will provide you with deeper insights and help you make informed decisions.