How to Solve the Imbalance between Li-ion Battery Pack Cells and the usual maintenance of Lithium-ion batteries
One Lithium Ion battery pack is composed of several cells connected in series and parallel; and in the process of our usage, we will encounter the situation of a power imbalance between the cells, which will accelerate the consumption of the entire battery pack’s service life if not dealt with in time. Read on to get more about balancing the lithium-ion battery pack. (Mainly about the ones of 3.7v nominal cell voltage and 4.2v full cell voltage).
Why the unbalance between cells inside the battery pack?
Due to the limitations of the process conditions, lithium-ion battery pack between the cells even after selection, there is always a certain difference, after several charges and discharge cycles or long-term shelving, the internal expansion and contraction of the cells, the self-consumption of electricity will also change, between the cells will produce a large voltage difference and capacity difference, the existing protection circuit, equalization circuit and charging method, can not make the battery pack between the cells simultaneously filled, the battery pack lost balance, the battery pack capacity can not be fully developed.
Steps to Solve the Power Unbalance between the Li-ion pack cells
1, First of all, charge the entire battery pack and then float charge for 2 to 3 hours after the light is turned. If the battery pack is placed at a long-term power loss and has been unable to charge, you can directly charge across the protection plate for 10 minutes (using the discharge port charging), and then charge normally.
Wires and charger for Lipo Battery
2, Unplug the protection board wires. Note that please make a good mark on the wires before unplugging. The 2 wires of the board, can not be inserted backward. Measure the voltage of the adjacent pins on the row of wires, if it is 48V, there are 16 voltages, and 60V is 20 voltages. The first string of voltages starting from the negative terminal is the voltage between the negative terminal of the battery pack and the first row of wires, and so on for the others. Find a single string with a voltage lower than 3.50V, determine the positive and negative poles, and mark it well.
3, Use a 3.6v charger, the voltage below 3.50v single string charging to 3.60 to 3.70V. But someone should be on duty to prevent overcharging resulting in battery scrap.
Note that the charger of the lithium iron phosphate (LiFePO4) battery pack is different from ordinary Lithium-ion Batteries. The maximum termination charging voltage of lithium batteries is 4.2V; while the cell of the LiFePO4 battery pack is 3.65v.
4, According to the original order to plug back into the row of wires, pay attention not to reverse the connection, install the battery, and it can be put into use again.
The Usual Maintenance Of Lithium-ion Batteries
Finally, and then Grepow(格瑞普) shares with you some of the usual maintenance of lithium-ion batteries. Because of no memory effect characteristics, each time or every day after use, the lithium-ion battery pack should be timely and regular charging; if the Lipo electric bicycle is placed for more than two months, the battery pack should be thoroughly charged once; if placed for over 5 months, carry out a charge-and-discharge cycle; Lithium-ion bicycle in the case of non-use, we should promptly turn off the power. At the same time, the battery pack when not in use should be pulled out of the battery holder and put in another place (the better temperature is below 25℃/77℉). This is because the motor and controller will still consume power under no load.
In fact, with the implementation of the new national standard, lithium-ion batteries are bound to enter a period of blowout, and many lithium-ion products are bound to emerge. But I hope more lithium-ion companies can focus on the product itself, to improve the added value of the product, then the lithium-ion battery will be more popular with users.
- |
- +1 赞 0
- 收藏
- 评论 0
本文由翊翊所思转载自格瑞普,原文标题为:How to Solve the Imbalance between Li-ion Battery Pack Cells?,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关推荐
What is the packaging technology of soft pack Li Ion battery?
Soft pack lithium-ion batteries are always found in consumer electronics, as UAV/drone batteries, and the high-performance batteries of RCs, for military, and automotive industries. This article talks about the packaging technology of soft pack Li Ion battery.
Sodium Ion VS Lithium Ion Battery – are Sodium Batteries Better?
Some people say that sodium batteries will be the hope of the future, while others say that this is a technology scam. Will sodium batteries replace existing lithium-ion and lithium polymer batteries? Today, Grepow will explain to you why.
LFP vs NMC Battery: Exploring the Differences
In the realm of energy storage, Lithium Iron Phosphate (LFP) and Nickel Manganese Cobalt (NMC) batteries have emerged as two prominent contenders. Both have unique characteristics and applications, making them popular choices for various industries. LFP vs NMC Battery: What‘s the difference? This article aims to delve into the specifics of LFP and NMC batteries, outlining their features, benefits, and drawbacks.
Recycling and Regeneration of Lithium Batteries
Under the pursuit of economic and environmental protection, the production and demand of lithium batteries have grown in recent years. Decommissioned lithium batteries are known as high-grade mines, coupled with the price and mining of raw materials, so the recycling value is obvious.
Grepow Rechargeable Li-lon Button Cells Solutions for High-tech Applications
Grepow has provided dedicated energy solutions for high-tech applications in bluetooth headsets for smart phones, notebook bridging function, body shaping and training sensors, medical and health care equipment, wireless sensor and network infrastructure and many more. For all these applications, Grepow offers a range of Lithium-Ion button cells and battery assemblies in diameters from 7.8 - 24 mm with 6.5 mAh to 210 mAh.
What is a High Energy Density Battery?
In this article, we explore what makes a battery high-energy, identify the current leaders in the field, and discuss the science behind their high performance, focusing on the materials and technologies that enable such impressive energy storage capabilities.
What is the Impact of Long Coldness on Agriculture Spraying UAVs Batteries and How to Deal with it
Agricultural drones are not only used for spraying and applying medicine, but also for spreading fertilizer, seeds, and feeds to meet the diversified needs of farmers and improve production efficiency.
Can Lipo Battery Cells Be Shipped by Air?
With the widespread use of electronic products, batteries nowadays have become household items that we can see everywhere. The most commonly encountered type of battery is the lithium-ion battery.
NMC Battery vs. LCO Battery: What’s the Difference?
When it comes to lithium-ion batteries, two of the most commonly discussed chemistries are NMC (Nickel Manganese Cobalt) and LCO (Lithium Cobalt Oxide). Both are widely used in a variety of applications, from electric vehicles to consumer electronics, but they differ significantly in terms of chemical composition, energy density, cycle life, and cost. Understanding the key differences between NMC and LCO batteries is essential for choosing the right battery for specific applications, whether you‘re powering a smartphone or an electric vehicle.
Grepow Battery will exhibit at 2022 Summer Asia Smart Wearable Exhibition
The bi-annual Asia Smart Wearable Exhibition (ASWE) will be held from July 18 to July 20 at Shenzhen International Convention and Exhibition Center. Grepow will bring its smart wear accessories shaped lithium-ion batteries and button batteries present, booth number: C24 in Hall 4.
NMC vs NCA Battery Cell: What’s the Difference?
Choosing between NMC and NCA battery cells depends on the specific requirements of the application. NMC cells offer a versatile and cost-effective solution with balanced energy and power characteristics, making them ideal for a wide range of uses from EVs to power tools. On the other hand, NCA cells provide higher energy density and longer cycle life, making them suitable for high-performance EVs, consumer electronics, and aerospace applications.
How Are Smart Rings Powered?
Smart rings are powered by efficient, rechargeable batteries and designed with energy-saving technologies, they provide a balance of performance and convenience. As a global leading lipo battery manufacturer, Grepow can provide extremely narrow smart ring batteries, as thin as 1.4mm and as narrow as 4.5mm, to meet the design requirements of various innovative smart rings.
Prescription vs OTC Hearing Aids: What‘s the Difference?
If you value convenience, long-term savings, and eco-friendliness, rechargeable hearing aids could be the better choice. However, if you prefer a lower upfront cost and the simplicity of changing batteries without worrying about charging, disposable battery models might be more suitable. Both options are available in prescription and OTC hearing aids, so you can make a choice that best suits your lifestyle and hearing needs.
AUV vs. UUV: What’s the Difference?
Underwater exploration, research, and military operations often require the use of specialized vehicles that can operate autonomously or be remotely controlled. Two key types of underwater vehicles are AUVs (Autonomous Underwater Vehicles) and UUVs (Unmanned Underwater Vehicles). Though they share similarities, these systems have distinct roles, capabilities, and applications. In this article, we’ll explore what these terms mean, their differences, and the advantages and disadvantages of each type of vehicle.
Recycling of PV Panels Can Improve the Performance of Lithium Batteries?
Previously, despite the positive sunshine side of the photovoltaic industry, it was heavily criticized for environmental recycling. Now, Australian scientists have come up with the idea of reusing one of the toughest but most valuable components–semiconductor silicon.
电子商城
品牌:至诚微
品类:Highly integrated synchronous boost charger IC
价格:¥1.9200
现货: 10,000
品牌:至诚微
品类:Highly integrated synchronous boost charger IC
价格:¥1.2941
现货: 10,000
服务
可自由定制电池形状,锂离子聚合物/磷酸铁锂成分,放电倍率Max. 50C (持续放电倍率) / 150C (脉冲放电倍率),充电倍率:Max. 5,厚度可达0.5mm。
最小起订量: 5000 提交需求>
登录 | 立即注册
提交评论