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Aging of Lithium Batteries

Aug , 26 2021

Aging is an unavoidable process caused by side reactions present in all electrochemical devices including battery cells. It may result in significant changes of capacity and resistance of a device over time and must, therefore, be considered in the system layout phase (e.g., necessity of over-sizing initial capacity) as well as in the system operation phase (e.g., adapting maximum allowed cell dis...

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Are all the lithium ion batteries the same?

Aug , 26 2021

NO. In fact there are a group of related family chemistries. The battery industry highlights six common variants along with the chemistry characteristic details of those most applicable for your application. Below the 6 common types of lithium ion battery are shown in the table: Chemistry Lithium Cobalt Oxide Lithium Manganese Oxide Lithium Nickel Manganese Lithium Iron Phosphate Lithium Nickel Co...

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Critical factors for LFP batteries in LEV application

Aug , 26 2021

Lithium batteries are lightweight and provide higher energy density than lead-acid or nickel–metal hydride (NiMH) batteries, creating a demand for them in electric vehicles (EV), energy storage, and consumer electronics. Compared to NiMH batteries, lithium batteries have a 50 percent greater capacity in watt-hours per kilogram (w-h/kg). The EV industry is demanding higher-efficiency batterie...

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The UL 2054 Advantage for Lithium Battery Packs

Aug , 26 2021

Today’s applications requires you to have a global presence and you are looking for a excellent performance battery with IEC 62133 evaluations but did you know that UL 2054 certified batteries which are standard of safety for household and commercial applications, can assist you by providing a more competitive performance? Confidence in Reliability By using a battery tested and certif...

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Best Storage & Use practices for LFP Batteries

Aug , 27 2021

Lithium battery fires and accidents are a present risk and a great concern for the users now days, but that can be mitigated if the technology is well understood. This article provides information to help prevent fire, injury and loss of intellectual and other property. Procurement • Purchase batteries from a reputable and experienced manufacturer like EverExceed. • Av...

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Lithium battery failure model-explain the phenomenon of lithium evolution in graphite anode: part-4

Nov , 03 2021

During the long-cycle cycle, the reversible capacity of the lithium-ion battery will continue to decrease due to the reduction of active materials, the precipitation of metal lithium, the continuous consumption of electrolyte, the increase of internal resistance and thermal runaway. Among them, the lithium evolution phenomenon of the graphite negative electrode is the most important cause of batte...

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How LFP battery aging is different from SLA battery?

Feb , 12 2022

Aging is an unavoidable process caused by side reactions present in all electrochemical devices including battery cells. It may result in significant changes of capacity and resistance of a device over time and must, therefore, be considered in the system layout phase (e.g., necessity of over-sizing initial capacity) as well as in the system operation phase (e.g., adapting maximum allowed cell dis...

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What are the differences among lithium batteries?

Apr , 06 2022

Are all the lithium batteries same? No! In fact there are a group of related family chemistries. The battery industry highlights six common variants along with the chemistry characteristic details of those most applicable for your application. Below the 6 common types of lithium ion battery are shown in the table: Chemistry Lithium Cobalt Oxide Lithium Manganese Oxide Lithium Nickel Manganese Lith...

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Damage of lithium battery caused by overcharge and discharge

Apr , 24 2023

The cathode materials of lithium-ion batteries are usually composed of active compounds of lithium, while the negative electrodes are carbon with special molecular structure. The main components of the common cathode materials are licoo2/LiFePO4, etc. When charging, the potential added to the battery poles forces the positive compounds to release lithium ions and embed the anode molecules into the...

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Important performance of the battery

Sep , 04 2023

1, electrical performance: (1) Rated capacity: 0.5C discharge, single battery discharge time is not less than 2h, battery pack discharge time is not less than 108min (95%); (2) 1C discharge capacity: 1C discharge, single battery discharge time is not less than 57min (95%), battery pack discharge time is not less than 54min (90%); (3) Low temperature discharge capacity: 0.5C discharge at -20℃, the ...

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Understanding Battery SOH and EverExceed’s Reliable Solutions

Sep , 13 2025

1. What is SOH and How is it Estimated? The State of Health (SOH) of a battery represents its overall condition compared to the initial performance when it was new. EverExceed lithium iron phosphate (LiFePO₄) batteries are designed with advanced Battery Management System (BMS) technology, making SOH monitoring accurate and reliable. The calculation is mainly based on two methods: Capacity Comparis...

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How Are the Charge and Discharge Cutoff Voltages of Lithium-ion Batteries Determined?

Sep , 20 2025

1. Material System and Electrochemical Characteristics The positive and negative electrode materials determine the voltage window, as different materials have different electrochemical stability ranges. - Lithium Iron Phosphate (LFP) system: Typical charge cutoff voltage is 3.65V, discharge cutoff voltage is 2.5V (room temperature) or 2.0V (low temperature). - Nickel Cobalt Manganese/Nickel Cobalt...

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