The LS14500 datasheet is more than just a technical document; it’s the key to understanding, utilizing, and maximizing the potential of this popular lithium thionyl chloride battery. It contains crucial specifications, performance characteristics, and safety guidelines. A deep dive into the LS14500 Datasheet unveils the secrets to powering a wide range of applications, from IoT devices to industrial sensors.
Deciphering the LS14500 Datasheet a Comprehensive Guide
The LS14500 datasheet serves as the definitive resource for engineers, designers, and anyone working with this cylindrical lithium battery. It provides a standardized and detailed overview of the battery’s capabilities, limitations, and proper usage. At its core, the datasheet includes information such as:
- Nominal Voltage: Usually 3.6V, indicating the typical operating voltage.
- Nominal Capacity: Measured in mAh (milliampere-hours), representing the amount of energy the battery can store.
- Operating Temperature Range: Defining the permissible temperature limits for safe and optimal performance.
- Maximum Continuous Discharge Current: The highest current the battery can safely deliver continuously.
Beyond the basic specifications, the LS14500 datasheet delves into more complex aspects of the battery’s behavior. It outlines discharge characteristics under various loads, temperature dependencies, and shelf life expectations. It also provides critical safety information, including handling precautions, storage guidelines, and warnings against potential hazards such as short-circuiting or improper disposal. Understanding these details is paramount for ensuring safe and reliable operation of devices powered by the LS14500.
The LS14500 datasheet is used by a range of professionals, each leveraging its information for specific purposes. Design engineers rely on the electrical characteristics to accurately calculate battery life and optimize power consumption in their circuits. Quality control personnel use the datasheet specifications to verify the battery’s performance against established standards. Safety engineers consult the handling and disposal guidelines to mitigate potential risks and ensure compliance with regulations. Consider this example:
| Application | Datasheet Section of Interest |
|---|---|
| IoT Sensor Node | Discharge Characteristics, Operating Temperature Range |
| Remote Monitoring System | Nominal Capacity, Shelf Life |
| Emergency Locator Beacon | Maximum Pulse Discharge Current, Safety Information |
Ready to explore the full potential of the LS14500 battery? Delve into the LS14500 Datasheet itself, which provides all of the information mentioned above, and much more. Refer to the original datasheet for in-depth specifications, application notes, and safety guidelines.