Example of safety, lithium-ion battery protection measures and explosion reasons

Yazar ：Iflowpower – Taşınabilir Güç İstasyonu Tedarikçisi

Lithium-based battery is the fastest battery system in the past 20 years and is currently widely used in electronic products. Recent mobile phones, laptop explosion essentially battery explosion. What kind of mobile phone and laptop battery are working, how to work, why explosion, how to prevent explosion.

After the lithium ion battery core is charged to the voltage higher than 4.2V, it will begin to appear. Aşırı şarj basıncı yüksek, tehlike de daha yüksek.

After the lithium battery voltage is higher than 4.2V, the remaining number of lithium atoms in the positive electrode material is less than half, and the storage gear will often fall, so that the battery capacity has a permanent decline. If it continues to charge, since the reservoir of the negative electrode is filled with a lithium atom, the subsequent lithium metal will accumulate in the surface of the negative material.

Bu lityum atomları negatif yüzeyden lityum iyonuna doğru dallanmış kristalleşmeye uğrayacaktır. Bu lityum metal kristalleri diyafram kağıdından geçerek pozitif ve negatif kısa devreler oluşturacaktır. Sometimes the battery before the short circuit will explode first because materials such as the overcharge process, the electrolyte and other materials will crack the gas, so that the battery housing or pressure valve is broken, allowing oxygen to enter the lithium atomic reaction in the negative surface, In turn explodes.

Therefore, when the lithium ion battery is charged, it must be set to set the voltage upper limit to simultaneously taking into account the life, capacity, and security of the battery. En çok istenen şarj voltajı sınırı 4.2V&39;tur.

Lityum pil deşarj edildiğinde bir voltaj sınırı olması gerekir. Pil voltajı 2,4V&39;un altına düştüğünde bazı malzemeler tahrip olacaktır.

Also because the battery will be self-discharge, the more long voltage is lower, so it is best not to put it until 2.4V when discharged. The lithium ion battery is discharged from 3.

0V to 2.4V, and the released energy only accounts for about 3% of the battery capacity. Therefore, 3.

0V is an ideal discharge cutoff voltage. Şarj ve deşarj anında gerilim sınırının yanı sıra akım sınırı da gereklidir. Akım çok büyük olduğunda, lityum iyon depolama ızgarasına girmiyor ve malzemenin yüzeyinde birikiyor.

After these lithium ions are electronically, the lithium atomic crystallization occurs on the surface of the material, which is the same as the excessive charge, which can cause dangerous. Çatlama durumunda patlayacaktır. Bu nedenle lityum iyon pillerin korunmasında; şarj voltajının üst sınırı, deşarj voltajının üst sınırı ve akımın üst sınırı dikkate alınmalıdır.

In general, in addition to the lithium-ion battery cell, there will be a protective plate, which is important to supply these three protection. However, the three protection of the protector is obviously not enough, and the global lithium-ion battery explosion is still biography. Akü sisteminin güvenliğini sağlamak için akü patlamasını daha dikkatli analiz etmeniz gerekir.

Explosion causes: 1, internal polarization; 2, extreme tape absorption, reactive drum with the electrolyte; 3, the quality, performance problem of the electrolyte itself; 5, the laser welding sealing performance in the assembly process is poor, leakage when the immersion is leaked; 6, dust, polar dust is first easily causing micro-short circuit; 7, the positive and negative poles are thicker than the process range, the shell is difficult; 8, note Liquid sealing problem, steel ball sealing performance is not good to cause gas drum; 9, the housing material exists thickness, the thickness of the housing deformation; 10, the outer ambient temperature is also an important cause of explosion. The type of explosion type explosion analysis of the battery core explosion can be summarized as external short circuit, internal short circuit, and three kinds of charge. Burada dış sistem, pil takımının kötü yalıtım tasarımından kaynaklanan kısa devreleri de içeren pilin dışını ifade eder.

When a short circuit is outside the battery cell, the electronic component is not cut off, and the interior of the battery cell will have high heat, resulting in a partial electrolyte steaming, and support the battery shell. When the internal temperature of the battery is high to 135 degrees Celsius, the quality of the diaphragm is closed, the electrochemical reaction is terminated or near termination, the current is plummeted, and the temperature is slowly decreased, which in turn prevents the explosion. However, the fine hole closing rate is too poor, or the fine hole does not close the diaphragm paper, which will continue to rise, more electrolyte, and finalize the battery housing, and even increase the battery temperature to make the battery temperature燃 并 and explod.

The internal short circuit is important because the copper foil is pulling the membrane of the aluminum foil, or the branches of the lithium atom wear the diaphragm. Bu ince iğneler mikro kısa devrelere sebep olabilir. Since the needle is very fine, there is a certain resistance value, therefore, the current is not necessarily.

Bakır alüminyum folyo tutkalı üretim sürecinden kaynaklanmaktadır. And because the glitch is small, sometimes it will be burnt, so that the battery will return to normal. Bu nedenle çapaklardan kaynaklanan patlamanın olasılığı yüksek değildir.

Bu şekilde her bir hücrenin iç kısmından kısa bir bataryanın dahili olarak şarj edilmesi mümkün olur. Ancak patlama olayı gerçekleşmiş ancak istatistiksel olarak desteklenmiştir. Therefore, the explosion caused by internal short circuits is important because of overcharge.

Çünkü, iğne şeklinde bir lityum metal kristalleşmesidir ve bir mikro kısa devredir. Dolayısıyla akü sıcaklığı giderek artacak ve en sonunda yüksek sıcaklık elektrolit gazına dönüşecektir. Bu durum, malzemenin yanma patlaması yapacak kadar yüksek olması veya dış kabuğun önce kırılması, böylece içine hava girmesi ve lityum metalin patlaması anlamına gelir.

Ancak aşırı iç kısa devreden kaynaklanan bu patlamanın mutlaka şarj anında meydana gelmesi gerekmiyor. It is possible that the battery temperature is not high to let the material burned. When the gas appears, the consumer is not enough to break the battery housing, the consumer will terminate the charging, with the mobile phone to go out.

At this time, the heat of many micro-short circuits, slowly increase the temperature of the battery, after a period of time, only explosion. Tüketicinin genel tanımı, telefonu eline aldığında telefonun ısındığını ve patladığını görmesidir. Bazı patlama türlerinde, patlamaya dayanıklılık, önleme, harici kısa devre önleme ve pil güvenliğini iyileştirme olmak üzere üç açıdan odaklanabiliriz.

Bunlardan aşırı ısınmayı önleme ve harici kısa devreyi önleme elektronik korumaya ait olup, akü sistemi tasarımı ve akü takımı ile büyük ilişkisi vardır. Elektrik güvenliğinin iyileştirilmesinin odak noktası, pil çekirdek üreticisi ile büyük ilişkisi olan kimyasal ve mekanik korumadır. Safety problems of safety hazardous lithium-ion batteries are not only related to the nature of the pool materials, but also related to battery preparation technology and use.

The mobile phone battery has frequent explosion events, on the one hand, due to the failure of the protection circuit, but more importantly, there is no fundamental solution to the material. The lithium cobalt-cobaltate is a very mature system, but after the charge is filled, there is still a large amount of lithium ions to stay in the positive electrode. When it is filled, the lithium ions remaining in the positive electrode will flock to the negative electrode.

The negative electrode forming the dendride is an inevitable result of an inevitable battery with a battery of the lithium cobaltate material. Even in the normal charge and discharge process, there may be excess of lithium ion free to the negative electrode to form dendrites, and the lithium cobaltate material. Energy is more than 270 mA per gram, but in order to ensure its cycle performance, the actual use capacity is only half the theoretical capacity.

During use, due to some reason (such as damage to management system), the battery's charging voltage is too high, and a portion of the lithium remaining in the positive electrode will take out that the electrolyte is deposited in the form of a metal lithium in the form of metal. Dendritic paste the diaphragm to form an internal short circuit. The important component of the electrolyte is carbonate, the flash point is very low, the boiling point is also low, and it will burn or explode under certain conditions.

If there is an overheating of the battery, it can cause carbonates in the electrolyte to be oxidized and restored, there is a large amount of gas and more heat, such as lack of safety valve or gas is not released through the safety valve, the battery pressure will rise sharply and cause explosion. The polymer electrolyte lithium-ion battery does not fundamentally solve safety problems, and lithium cobaltate and organic electrolyte, and the electrolyte is a gel, it is not easy to leak, and more violent combustion will occur, combustion is a polymer battery safety Best problem. There are also some problems in use, and there will be a short circuit or internal short circuit in the battery.

External short-circuit time battery instant current discharge, consume a lot of energy in the internal block, huge heat. The internal short circuit forms a large current, and the temperature rise results in melting, and the short circuit area is expanded, which in turn forms a vicious circle. The lithium-ion battery is a high operating voltage of 3 to 4.

2V to a single battery. It is necessary to take an anterior solution having a decomposition voltage greater than 2V, and an organic electrolyte will be electrolyte under high current and high temperature, and a gas is generated. Resulting in elevated internal pressure, severely breaking the housing.

Overcharge may precipitate metal lithium, in the case of cracking in the housing, direct contact with air, resulting in combustion, and incorporate electrolyte, a strong flame, rapid expansion, explosion. In addition, there is a battery short circuit due to improper use of improper use, such as squeezing, impact and water, etc., which can cause battery short circuit, exotherm in discharge or charging process.

Safety of lithium-ion batteries: To prevent battery over-discharge or overcharge due to improper use, a triple protection mechanism is provided in a monomer lithium ion battery. First, the switching element is used. When the temperature in the battery rises, its resistance increases, when the temperature is too high, the power is automatically stopped; the second is to select the appropriate partition material, when the temperature rises to a certain value, The microphone microphone on the partition will be automatically dissolved, so that the lithium ion cannot pass, the internal reaction is stopped; the third is to provide a safety valve (that is, the inner pressure of the battery rises to a certain value, the safety valve Automatically open to ensure the safety of the battery.

Sometimes, although the battery itself has safety control measures, because some reasons causing the failure, the lack of safety valves or gas is not as follows through the safety valve release, the compressor in the battery will rise sharply and cause explosion. In general, the total energy and safety of the lithium ion battery are inversely ratio, with the new battery capacity, the battery volume is also increased, its heat dissipation performance is deteriorated, and the possibility of accidents will increase significantly. About lithium-ion batteries for mobile phones, basic requirements are one of the probability of safety accidents, which is also a minimum standard that the public can accept.

About large-capacity lithium-ion batteries, especially automobiles, etc., forced heat dissipation, especially important. Choose a safer electrode material, select the lithium manganate material, and ensure that the lithium ion of the positive electrode is completely embedded in the negative electrode carbon aperture in the full power state.

At the same time, there is a solid structure of lithium manganate, so that its oxidative properties are much lower than lithium cobaltate, and the decomposition temperature exceeds lithium cobaltate 100 ° C, even because the internal short circuit (acupuncture), external short circuit, when it is fully charged, it is fully capable Prevent the risk of burn, explosion due to precipitated metal lithium. In addition, the lithium manganate material can also be greatly reduced. Improve the performance of existing safety control technology, first improve the safety performance of lithium-ion battery cores, this is especially important for large-capacity batteries.

Selecting a diaphragm with a good thermal shutdown performance, the use of the diaphragm is to pass through the positive and negative electrode of the battery, allowing the passage of lithium ions. When the temperature rises, it is closed before the diaphragm is melted, thereby rising the internal resistance to 2000 ohms, so that the internal reaction stops. When the internal pressure or temperature reaches the preset criteria, the explosion-proof valve will open, start to perform a pressure, and the internal gas is too tired, the deformation, eventually causes the housing to burst.

Improve control sensitivity, select more sensitive control parameters and joint control with multiple parameters (this is especially important for large-capacity batteries). Regarding the large-capacity lithium-ion battery pack is a string / parallel-linked, such as the laptop has a voltage of 10V, the capacity is large, and the voltage requirements can be satisfied with 3 to 4 unit cells, and then 2 ~ 3 series of battery packs are parallel to ensure large capacity. The large-capacity battery pack itself must set more complete protection, but also consider two circuit board modules: protection circuit board module and SmartBatteryGaugeboard module.

The entire set of battery protection includes: Level 1 Protection IC (Preventing Battery Overcharge, Over-Press, Short Circuit), Level 2 Protection IC (Preventing 2nd Overstall), Fuse, LED Indication, Temperature Adjustment. Under the multi-level protection mechanism, even in the case of an abnormality in the power charger, the laptop has an abnormality, the laptop battery can only be converted to automatic protection, if the situation is not serious, often work properly after re-plugging, no Explosion. .