Home » News

News and Events

  • How Does the Self-Discharge Rate of a Button Cell Battery Affect Its Service Life?
    Self-discharge is a natural process that gradually reduces a button cell battery's stored energy even when it is not in use. While all batteries experience some degree of self-discharge, the rate varies greatly depending on battery chemistry, manufacturing quality, storage conditions, and environmental factors. Low self-discharge batteries, particularly lithium button cells, can retain most of their capacity for many years, making them ideal for applications requiring long-term reliability. By understanding how self-discharge affects battery performance and following proper storage practices, users can maximize battery life, reduce replacement frequency, and ensure dependable operation of their electronic devices.   Read More>
  • Why do we have to fit rechargeable lithium batteries with a protective board (PCB/PCM)?
  • What Factors Affect The Cycle Life of NiMH Batteries?
    The cycle life of a NiMH battery is influenced by multiple factors, including depth of discharge, charging practices, operating temperature, current levels, manufacturing quality, and storage conditions. By understanding and managing these factors, users can significantly extend battery lifespan, improve reliability, and reduce overall operating costs. With proper care and maintenance, NiMH batteries remain a dependable and economical energy solution for a wide range of applications.   Read More>
  • What Is a CR1216 Battery? A Complete Summary of Specifications, Replacement Models, and Usage Notes
    If you have ever replaced batteries for a car key fob, ultra-thin watch, or miniature electronic device, you have likely encountered the CR1216 battery. It is one of the most common ultra-thin 3V coin batteries widely used in low-power compact electronics.   Read More>
  • Understanding The Application Characteristics of Lithium Batteries in Drones
    Lithium batteries have become the dominant power source for drones due to their high energy density, lightweight construction, high discharge capability, fast charging performance, and design flexibility. These advantages enable drones to achieve longer flight times, greater efficiency, and improved reliability across a wide range of applications. As drone technology continues to evolve, advancements in lithium battery technology will play a crucial role in supporting longer endurance, higher payload capacities, and safer operations in the future.   Read More>
  • Understand CR1216 in One Article: Applications & Selection Guide for Compact Ultra-Thin Coin Power Sources
    Coin lithium batteries are essential miniature power supplies supporting countless slim electronic devices we use every day. Among the widely used 3V lithium manganese dioxide coin cell lineup, the CR1216 stands out for its ultra-thin profile, stable voltage output and long storage life.   Read More>
  • Dissecting the CR1216 Battery: Dimensions, Capacity, Compatible Devices and Key Buying Tips
    Coin lithium batteries are ubiquitous power sources for small low-power electronics, yet many users only notice them when their car key or slim watch stops working.   Read More>
  • How Is Lithium Battery Cycle Life Defined?
    Lithium battery cycle life refers to the number of charge-discharge cycles a battery can complete before its capacity declines to a specified level, typically 80% of its original capacity. Cycle life depends on multiple factors, including battery chemistry, depth of discharge, charging voltage, operating temperature, charge rate, and storage conditions. While all lithium batteries gradually age over time, proper usage and maintenance can greatly extend their service life. Understanding how cycle life is defined helps users make better decisions when selecting batteries for consumer electronics, industrial equipment, medical devices, energy storage systems, and electric vehicles. By managing batteries correctly, users can maximize performance, improve safety, and achieve the best long-term value from their energy storage investment.   Read More>
  • What Applications Are Lithium Manganese Batteries Suitable For?
    Lithium manganese batteries have become one of the most important primary battery technologies due to their high energy density, stable voltage, low self-discharge, and long shelf life. They are widely used in: Car key fobs Watches and wearables Medical devices Security systems Consumer electronics Cameras Industrial monitoring equipment IoT devices Backup power applications As electronic devices continue to become smaller, smarter, and more energy-efficient, lithium manganese batteries will remain a reliable and cost-effective power solution for countless applications around the world.   Read More>
  • How Dangerous Are Battery Overcharging And Overdischarging?
    Battery overcharging and overdischarging are more than just technical terms—they are major factors affecting battery safety, performance, and lifespan. Overcharging can lead to overheating, swelling, and even fire, making it one of the most serious battery hazards. Overdischarging, while generally less dramatic, can permanently damage a battery and significantly reduce its usable life. By understanding these risks and following proper charging practices, users can improve battery reliability, enhance safety, and maximize the value of their energy storage systems. Whether in consumer electronics, industrial equipment, or medical devices, proper battery management remains essential for achieving optimal performance and long-term safety.   Read More>
  • Total 153 pages  Go to Page
  • Go

Telephone

+86-189-2842-7389
+86-138-2359-2587
​Copyright © 2024 Naccon Power Technology Co., Ltd.  All Rights Reserved.

Products

Solution

Support

About

Subscribe to our newsletter

Promotions, new products and sales. Directly to your inbox.