The jump start manufacturers stated that there are many options when choosing a portable jumper starter. One of the most important factors to consider before purchasing is which battery is installed inside. In the compact jumper starter category, the two most common types are batteries. Both are high power and lithium based (lithium iron phosphate (LiFePO4) and lithium ion (lithium ion)), but one type has significant advantages in terms of safety, performance, reliability and cost effectiveness. Let's talk about the difference between lithium iron phosphate and lithium ion batteries.
Safety is a primary consideration for any battery used in portable devices; if overcharged, it should not overheat or catch fire. Lithium iron batteries have superior chemical and thermal stability and are superior to lithium ion batteries. Lithium iron batteries remain cool at room temperature, while lithium ion batteries may experience thermal runaway and heating under similar charging conditions. Lithium iron phosphate (LiFePO4) is a non-toxic material, but lithium ion dioxide (LiCoO2) is a lithium ion based compound that is harmful in nature and is an allergen to the eyes and skin. Harmful and not considered a safe material. The handling of lithium-ion batteries is often a major concern for manufacturers and users.
Performance is a major criterion when choosing a battery. Frequently used batteries should have a long service life, a slower discharge rate and a lighter weight. Lithium-ion batteries tend to be slightly heavier and larger than lithium-ion batteries, which is why lithium-ion batteries are more commonly used in portable devices. Lithium-ion batteries have higher energy densities at new times, and their discharge rates increase over time, which means they provide better performance in the first few days. On the other hand, lithium iron batteries have a lower self-discharge rate and are more desirable for intermittently used equipment. The jump starter (hopefully) is only taken a few times a year and stored in the car for the rest of the time. For occasional use, it is best to choose jumper starters with lithium-iron batteries because they charge longer than lithium-ion batteries.
Durability, reliability and cost effectiveness
Battery life is defined by the number of charge/discharge cycles that the battery can survive. Lithium iron is more durable than lithium ions because the former lasts about 2, 000 cycles, while the latter can only survive 1, 000 times. The battery also has a "shelf life", which means that the battery cannot be used for a long time before it is started. For lithium-iron batteries, lithium-ion batteries have a shelf life of about 350 days, which is about 300 days. Cobalt, which is commonly used in lithium ion batteries, is also more expensive than iron or phosphate. In summary, lithium iron phosphate batteries are less expensive than lithium-ion batteries (safer materials make them less expensive to manufacture and recycle).
So what do jump start manufacturers recommend when you choose a jump starter? Welcome to: https://www.linsheng.com/product/jump-start