The Impacts of Overcharging on Battery Life and Performance: What You Need to Know

Among the various charging-related concerns, overcharging stands out as a significant factor that can detrimentally affect battery health.

Lithium Thionyl Chloride Batteries Passivation

Passivation is a surface protecting reaction which occurs spontaneously in all lithium batteries which are based on a liquid cathode.

Charging Batteries in Series vs. Parallel

How you connect batteries will determine how they perform in different applications.

Understanding Degradation in Stored SLA and LFP Batteries: A Comparative Analysis

This article explores the degradation phenomena in SLA and LFP batteries that sit on the shelf for 6, 9, and 12+ months.

Battery Storage

It is in the best interest of anyone ordering batteries to know how to properly store them ahead of time to get the most out of their investment. In all cases, batteries should be stored with no connection to a load.

Summary of Battery Do's and Don'ts

Table 1 summarizes how to prolong battery life through proper attention. Because of similarities within systems, the chemistries are limited to lead, nickel and lithium.

Protecting Rechargeable Lithium Batteries

Battery packs containing Li-ion cells require a mandatory protection circuit or CID (circuit interrupt device) to assure safety.

Lithium Ion Battery Life

In this article useful cycle life is assumed before the initial battery capacity drops to below 70%.

Obtenga una duración más prolongada de la batería con la composición química de litio adecuada

Los requisitos de las tasas de descarga continua y por pulso, la densidad de energía y el rango de temperatura de funcionamiento son algunas de las claves para conseguir una duración más prolongada de la batería.

ZEUS Battery Products | Video Blog #1 LFP vs. SLA Batteries

In this video, Aaron Cunningham, Applications Engineer for Zeus Battery Products, explains the differences and similarities between SLA and LFP batteries.

SLA Series 3-Stage Automatic Chargers

The chargers automatically switch from fast bulk charging to float charging to maintain batteries in top health while connected to the charger.

Sealed Lead Acid (SLA) Batteries Compared to Lithium Iron Phosphate (LFP) Batteries

Beside mobility devices and material movers, energy storage in residential, commercial, and industrial applications is one the key drivers behind ever growing demand for batteries.

Image of Zeus Standard LiFePO4 Batteries Standard LiFePO4 Batteries Fecha de publicación: 2019-10-09

This presentation will introduce the standard Lithium Iron Phosphate batteries.

Duration: 10 minutes
Battery Size Template

ZEUS Battery's Battery Size Template

Image of ZEUS LiFePO4 Battery Cell Benefits of LiFePO4 Battery Cells Fecha de publicación: 2019-08-21

ZEUS' LiFePO4 battery cells are a safer alternative to Li-ion batteries and have less chance of thermal runaway.

Duration: 5 minutes
Image of ZEUS Battery Products' Lithium Iron Phosphate (LiFePO4) Battery Chargers Cargadores de baterías de fosfato de hierro y litio (LiFePO4) Fecha de publicación: 2019-08-01

Los cargadores LiFePO4 de ZEUS Battery Products utilizan métodos de carga de CC/CV para cargar eficientemente baterías LiFePo4 de 12.8 V.

Uses and Applications

ZEUS Battery's Uses and Applications

Image of Zeus Battery Products' Sealed Lead Acid (SLA) Chargers Cargadores de plomo sellado (SLA) Fecha de publicación: 2019-04-25

Los cargadores SLA de ZEUS Battery Products están diseñados para funcionar al unísono con sus baterías SLA para garantizar los mejores resultados.

Lithium Ion and Lithium Polymer Cell/Battery Shelf Life

To extend shelf life, cell / battery storage voltage and storage temperature need to be controlled.

Battery Terms Glossary

ZEUS Battery's Terms Glossary