锂离子电池 Lithium Ion Battery MSDS英文

History of revision版本更改历史记录Contents 目录1．Scope 适用范围 32．Adopted Standard引用标准 33．Electrical Characteristics电气特性 34．Battery Performances Test Criterion 电池性能测试规范 35.1 Appearance 外观 35.2 Measurement Apparatus 测试设备 35.3 Testing Condition 测试条件 35.4 Reliability Test 可靠性测试 35．Shipment 运输 36．Storage 贮存 37．Package and Marking包装与标志 38.1 Package 包装 38.2 Marking 标志 38．Protection Circuit 保护电路 39.1 Schematic of the PCB 保护板原理图 39.2 PCM BOM9.3 PCM Parameter PCM参数 39．Outline Drawing 外形图纸 310．Appendix 附录 33.7 Instructions and Safety Requirement 使用说明和安全规程 33.7.1 Recommending Usage推荐使用事项 33.7.2 Hazard Warning危险警告 33.7.3 Warning 警告 33.7.4 Cautions 注意事项 310.2 Quality Evaluation Programme 质量评定 310.3 Environment Protection 环保要求 310.4 Others 其他事项 31．Scope 适用范围This description defines the general requirements for thebattery’s rating parameter, electrical requirement, safety requirement, environmental compatibility, test and judgment, usage instructions, safety regulation, quality evaluation and packaging, marking, storage,shipment and handling, which cellular phone battery with 523450AR-850mAh rechargeable battery cell, adapted for Digital products.本规格书描述电池之标称参数、电气特性、安全性能、环境适应性及其实验和判定、使用说明和安全规程、质量评定及包装、标志、贮存、运输等。

锂离子电池的离子电导率英文Lithium-ion batteries are among the most widely utilized energy storage solutions in various applications, ranging from consumer electronics to electric vehicles and even large-scale energy storage systems. Their popularity stems from their high energy density, relatively low self-discharge rate, and the absence of memory effect. However, one of the critical factors determining the performance of lithium-ion batteries is their ion conductivity, which significantly impacts the battery's rate capability, power density, and overall efficiency.Ion Conductivity in Lithium-ion Batteries.Ion conductivity, commonly denoted as σ (sigma), refers to the ability of ions to move through a material. In the context of lithium-ion batteries, this material is typically the electrolyte, which serves as the pathway for lithium ions to shuttle between the anode and cathode during charge and discharge cycles. A higher ionconductivity indicates that the ions can travel faster within the electrolyte, leading to faster charge transfer rates and, consequently, higher power density.Importance of Ion Conductivity.The importance of ion conductivity in lithium-ion batteries cannot.。

英语词汇大全—电池1.Alkaline batteries ：碱性电池2.Capacitor batteries：电容电池3. secondary battery 二次电池4. Rechargeable batteries ：充电电池5. Primary batteries ：原电池6. Lithium batteries ：锂电池7. Lithium ion batteries ：锂离子电池8. Lithium polymer batteries：锂聚合物电池9. Environmental Protection batteries:环保电池10. Nickel iron batteries ：镍铁电池11. Nickel cadmium batteries ：镍镉电池12. Carbon zinc batteries ：碳锌电池13. Nickel zinc batteries：镍锌电池14. Zinc air batteries：锌空电池15. Silver zinc batteries：银锌电池16. Zinc chloride batteries：银氯化物电池17.Silver oxide batteries ：银氧化物电池18. Silver cadmium batteries ：银钙电池19. Lead calcium batteries：铅钙电池20. Lead acid batteries：铅酸电池21. Lead-acid starter batteries：起动铅酸电池22. Lead-acid traction batteies：牵引用铅酸电池23. Aircraft lead-acid batteries：航空用铅酸电池24. Sealed lead acid batteries：密封铅酸电池25. Lead-acid batteries for stationary valve-regulated：固定型阀控密封式铅酸蓄电池26. small-sized valve-regulated lead-acid batteries：小型阀控密封式铅酸电池27. Lead-acid batteries for motorcycles：摩托车用铅酸电池28. Lead-acid batteries for disel locomotive：内燃机车用铅酸电池29. Lead-acid batteries for electric road vehicles：电动道路车辆用铅酸电池。

Page: 1 of 8No.SET2016-00478化学品安全技术说明书MSDS Report委托单位：Client unit样品名称：Name of sample 锂离子电池Lithium-ion Battery委托单位地址：Address缩写 Abbreviation ： CAS ：Chemical Abstract ServiceEC ：European Inventory of Existing Commercial chemical Substances3 危险性概述 Hazards identification紧急情况概述:可能在火灾爆炸,释放氟化氢气体。

Emergency Overview: May explode in a fire, which could release hydrogen fluoride gas.化学成份 Chemical composition 重量百分比 in % by weight CAS 号 CAS No. EC 号 EC No. 分子式 Molecular Formula Lithium Cobalt Dioxide 35 12190-79-3 235-362-0 LiCoO 2Graphite(various Carbons) 18 7782-42-5 231-955-3 C Organic electrolyte 15 NA NA NA Equivalent Max Lithium 3.5 7439-93-2 231-102-5 Li Aluminum foil 4 7429-90-5 231-072-3 Al Copper foil 14 7440-50-8 231-159-6 Cu Lithium hexafluorophoshate 2 21324-40-3244-334-7 LiF 6P Steel and inter conponents 8.5 7439-89-6231-096-4Fe2 成分/组成信息 Composition/Data on componentsChemical characterization: 1 化学品及企业标识 Identification of substance样品名称 Product name: 锂离子电池 Lithium-ion Battery 型号 Part No.： ICR18650 2200MAH制造商/供应商 Manufacturer/ Producer: 地址 Address ： 电话Telephone ： 传真Fax:电子邮件Mail: /化学品安全技术说明书号 MSDS code ：SET2016-00478Material Safety Data SheetPage: 2 of 8No.SET2016-00478。

锂电池专业术语解释及英文对照Author:HarrisonPart 1 Basic1.锂原电池（lithium primary battery）也称为一次锂电池，负极为锂，且被设计为不可充电的电池。

包括单体锂原电池和锂原电池组。

2.锂蓄电池（Rechargeable lithium battery）锂离子电池和锂金属蓄电池统称为锂蓄电池（也称为可充放锂电池，二次锂电池）。

3.锂离子电池（lithium ion battery）利用锂离子作为导电离子，在正极和负极之间移动，通过化学能和电能相互转化实现充放电的电池。

包括单体锂离子电池和锂离子电池组。

4.单体锂离子电池（lithium ion cell）锂离子电池的基本单元，由电极、隔膜、外壳和电极片等在电解质环境下构成。

金属锂蓄电池（rechargeable lithium metal battery）电池中负极侧含有金属锂的锂蓄电池。

也称为可充放金属锂电池。

5.液态锂蓄电池（liquid rechargeable lithium battery）电池中只含有液体电解质的锂蓄电池。

6.非水有机溶剂锂蓄电池（nonaqueous rechargeable lithium battery）电解质为有机溶剂的液态锂蓄电池。

7.水系锂蓄电池（aqueous rechargeable lithium battery）电解质为水溶剂的液态锂蓄电池。

8.混合固液电解质锂蓄电池（mixed solid liquid electrolyte rechargeable lithium battery）电池中同时含有液体和固体电解质的锂蓄电池。

①电池单体中固体电解质质量或体积占单体中电解质总质量或总体积之比达到一半，或者单体中一侧电极含有液体电解质，另一侧电极只含有固体电解质，这两种均称为半固态电解质锂蓄电池，有时简称为半固态锂电池；②单体中固体电解质质量或体积分数超过一半，液体电解质的质量或体积分数低于一半的，有时称为准固体电解质锂蓄电池或准固态锂电池；③液体电解质的质量或体积分数低于电解质总质量或总体积分数5%的，有些作者称之为固态电解质锂蓄电池，或者固态锂电池。

锂离子电池常用专业英语（一）序号首字母英文中文1 A aging 老化2 B battery charger 充电器3 black-fleck 黑斑4 C cap 盖板5 capacity density 能量密度6 capacity grading 分容7 cathode tab welding 极耳超焊8 cell 电芯9 charge(capacity) retention 荷电（容量）保持10 checking code 检码11 concave spot 凹点12 constant current charge 恒流充电13 constant current discharge 恒流放电14 constant voltage charge 恒压充电15 corrective measures 纠正措施16 crack 裂纹17 cut-off voltage 终止电压18 cycle life 循环寿命19 D dark trace 暗痕20 degrade 降级21 dent 凹痕22 discharge depth 放电深度23 distortion 变形24 drape 打折25 E Electrical and MechanicalServices Department 机电部26 electrolyte 电解，电解液27 empaistic 压纹28 end-off voltage 放电截止电压29 environmentally friendly 对环境友好30 equipment first inspection 设备首检31 erode 腐蚀32 explosion-proof line 防爆线33 F first inspection 首检34 formation 化成35 fracture 断裂36 I inspection 检验37 insulate 绝缘38 internal resistance 内阻39 J jellyroll 卷芯40 joint 接缝，结合点42 laser reticle 激光刻线43 laser welding-flatwise weld 激光焊接-平焊laser welding-standing weld 激光焊接-立焊44 leakage 漏液45 leak-checking 测漏46 leaving out of welding 漏焊47 limited charge voltage 充电限制电压48 local action 自放电49 M margin turnly 翘边50 measuring the dimension of cells 电芯卡尺寸51 meet requirement 达到要求52 memory effects 记忆效应53 N nick 划痕54 nominal voltage 标称电压55 notice-board confirmation 看板确认56 nugget 硬块57 O obverse 正面58 open circuit voltage 开路电压59 over charge 过充60 over discharge 过放61 over the thickness 超厚62 P particle 颗粒63 PE membrane PE膜64 pit 坑点65 placing cells into the box 电芯装盒66 point inspection 点检67 preventive measures 预防措施68 pricking the tapes 扎孔69 process inspection 制程检验70 put the battery piled up 将电芯叠放在一起71 Q qualified products 合格品72 quality assurance 质量保证73 quality control 质量控制74 quality improvement 质量改进75 quality match 品质配对76 quality planning 质量策划77 R rated capacity 额定容量78 recharge 再充电79 refitting the can of cell 电芯壳口整形80 requirment 要求81 reverse 背面，反面82 rework 返工83 ringing cells into pyrocondensation films 套热缩膜85 sand aperture 砂眼86 scar 疤痕87 secondary battery 二次电池88 select appearance 选外观sharp-set 批锋89 short circuit checking 测短路90 smudginess 污物91 spot welding by laser 激光点焊92 spot welding place 点焊位置93 spraying the code 喷码94 spur 毛刺95 sticking the PVC cover boards 贴面垫96 storing 陈化97 storing with high voltage 高压储存98 T tabs deflection 极耳歪斜99 tabs excursion 极耳错位100 technics requiment 工艺要求101 U ultrasonic welding 超声波焊接102 ultrasonic welding strength 超焊强度103 unqualified products 不合格品104 W wave 波浪105 working procedure 工序（二）盖板cover board底板solepiece钢珠steel ball压钢珠press steel ball防爆阀valve preventing explosion大电流(倍率)放电discharge in high rate current标称电压Normal voltage标称容量normal capacity放电容量discharge capacity充电上限电压limited voltage in charge放电下限电压terminating voltage in discharge恒流充电constant current charge恒压充电constant voltage charge恒流放电constant current discharge放电曲线discharge curve充电曲线charge curve放电平台discharge voltage plateau容量衰减capacity attenuation起始容量initial discharge capacity流水线pipelining传送带carrying tape焊极耳welding the current collector卷绕wind叠片layer贴胶带stick tape点焊spot welding超声焊ultrasonic welding三元素Nickle-Cobalt-Manganese Lithium Oxide three elements materials 钴酸锂Cobalt Lithium Oxide锰酸锂Manganese Lithium Oxide石墨graphite烘箱oven真空烘箱vacuum oven搅拌机mixing device vacuum mixing device涂布机coating equipment裁纸刀paper knife ,,,,,,cutting knife分条机equipment for cutting big piece to much pieces辊压机roll press equipment电阻点焊机spot welding machine超声点焊机ultrasonic spot welding machine卷绕机winder自动叠片机auto laminating machine激光焊机laser welding machine注液机infusing machine真空注液机vacuum infusion machine预充柜pre-charge equipment化成柜formation systems分容柜grading systems测试柜testing systems内阻仪battery inner resistance tester万用表multimeter转盘式真空封口机turntable type vacuum sealing machine自动冲膜机automatic aluminum membrane shaper锂离子电池设计专业英语Capacity 容量Battery Thickness 电池厚度Battery width 电池宽度Battery length 电池高度Impedance 内阻Can thickness 壳体厚度Can wall thickness 壳体壁厚Can bottom thikness 壳体底部厚度Can lid thickness 壳体盖板厚度PP film thickness PP胶厚度Ni (AL) tab thickness Ni（Al）极耳厚度Battery width 电池宽度Can width margin 电池宽度留边Can length 壳体长度Can cross area 壳体体积Winding pin width 卷针宽度Can Side residue 壳边残余Naked battery thickness 裸漏电池厚度Naked battery width 裸漏电池宽度Naked battery length 裸漏电池高度Cathode formulation 阴极含量Cathode material specific capacity 阴极克比容量Cathode 阴极装填Cathode area density 阴极面密度Cathode bulk density 阴极体积密度Cathode weight 阴极重量Cathode thickness 阴极厚度Cathode elongation rate 延伸率Cathode actual length 阴极实际长度Cathode design length 阴极设计长度Cathode width 阴极宽度Cathode Scratched area width 阴极涂片宽度Al foil density 铝箔密度Al foil thickness 铝箔厚度Cathode weight 阴极重量Separator thickness 隔离膜厚度Separator length 隔离膜长度Separator width 隔离膜宽度Separator density 隔离膜密度Separator weight 隔离膜重量Anode formulation 阳极含量Anode material specific capacity 阳极克容量Anode loading 阳极装填量Anode area density 阳极面密度Anode bulk density 阳极体积密度Anode thickness 阳极厚度Anode length 阳极长度Anode width 阳极宽度Anode scratched area width 阳极刮粉区宽度Cu foil density 铜箔密度Cu foil thickness 铜箔厚度Anode weight 阳极重量Cathode Tab length 阴极极耳长Cathode Tab width 阴极极耳宽Cathode Tab thickness 阴极极耳厚度Anode Tab length 阳极极耳长度Anode Tab width 阳极极耳宽度Anode Tab thickness 阳极极耳厚度Adhesive tape Length 胶带长度Adhesive tape Width 胶带宽度Adhesive tape thickness 胶带厚度Assembly adhesive tape 装配胶带Bottom length 底部长度Bottom Width 底部宽度Bottom Thickness 底部厚度Top length 顶部长度Top Width 顶部宽度Top Thickness 顶部厚度Welding length 焊接长度Welding Width 焊接宽度Welding Thickness 焊接厚度Electrolyte 电解液Battery Impedance 电心内阻Battery weight 电池重量Can wall thickness 壳体壁厚Can bottom thikness 壳体底厚Can lid thickness 盖板厚度Can width margin 壳体边缘宽度Can Side residue 壳体留边Cathode formulation 阴极含量Cathode material specific capacity 阴极克容量Cathode area density 阴极面密度Cathode bulk density 阴极体积密度Cathode elongation rate 阴极延伸率Cathode scratched area width/Pin width 阴极刮粉宽Al foil density 铝箔密度Al foil thickness 铝箔厚度Separator thickness 隔离膜厚度Separator density 隔离膜密度Anode formulation 阳极含量Anode material specific capacity 阳极克容量Anode bulk density 阳极体积密度Anode Scratched area width 阳极刮粉区宽度Cu foil density 铜箔密度Cu foil thickness 铜箔厚度。

The design of the lithium battery charger IntroductionLi-Ion rechargeable batteries are finding their way into many applications due to their size, weight and energy storage advantages.These batteries are already considered the preferred battery in portable computer applications, displacing NiMH and NiCad batteries, and cellular phones are quickly becoming the second major marketplace for Li-Ion. The reason is clear. Li-Ion batteries offer many advantages to the end consumer. In portable computers,Li-Ion battery packs offer longer run times over NiCad and NiMH packs for the same form factor and size, while reducing weight. The same advantages are true for cellular phones. A phone can be made smaller and lighter using Li-Ion batteries without sacrificing run time. As Li-Ion battery costs come down, even more applications will switch to this lighter and smaller technology. Market trends show a continual growth in all rechargeable battery types as consumers continue to demand the convenience of portability. Market data for 1997 shows that approximately 200 million cells of Li-Ion will be shipped, compared to 600 million cells of NiMH. However, it is important to note that three cells of NiMH are equivalent to one Li-Ion cell when packaged into a battery pack. Thus, the actual volume is very close to the same for both. 1997 also marked the first year Li-Ion was the battery type used in the majority of portable computers, displacing NiMH for the top spot. Data for the cellular market showed a shift to Li-Ion in the majority of phones sold in 1997 in Europe and Japan.Li-Ion batteries are an exciting battery technology that must be watched. To make sense of these new batteries, this design guide explains the fundamentals, the charging requirements andthe circuits to meet these requirements.Along with more and more the emergence of the handheld electric appliances, to the high performance, baby size, weight need of the light battery charger also more Come more big.The battery is technical to progress to also request continuously to refresh the calculate way more complicatedly is fast with the realization, safety of refresh.Therefore need Want to carry on the more accurate supervision towards refreshing the process, to shorten to refresh time and attain the biggest battery capacity, and prevent°from the batteryBad.The AVR has already led the one step in the competition, is prove is perfect control chip of the next generation charger. The microprocessor of Atmel AVR is current and can provide Flash, EEPROM and 10 ADCses by single slice on the market Of 8 RISC microprocessors of the tallest effect.Because the saving machine of procedure is a Flash, therefore can need not elephant MASK ROM Similar, have a few software editions a few model numbers of stock.The Flash can carry on again to weave the distance before deliver goods, or in the PCB Stick after pack carry on weaving the distance throughan ISP again, thus allow to carry on the software renewal in the last one minute.The EEPROM can used for conservancy mark certainly coefficient and the battery characteristic parameter, such as the conservancy refreshes record with the battery that raise the actual usage Capacity.10 A/ Ds conversion machine can provide the enough diagraph accuracy, making the capacity of the good empress even near to its biggest capacity. And other project for attaining this purpose, possible demand the ADC of the exterior, not only take up the space of PCB, but also raised the system Cost.The AVR is thus deluxe language but 8 microprocessors of the designs of unique needle object" C" currently.The AT90S4433 reference The design is with" C" to write, the elucidation carries on the software design's is what and simple with the deluxe language.Code of C this design is very Carry on adjust easily to suit current and future battery.But the ATtiny15 reference design then use edit collected materials the language to write of, with Acquire the biggest code density.An electric appliances of the modern consumption mainly uses as follows four kinds of batteries:1.Seal completely the sour battery of lead( SLA)2.The battery of NiCd3.The NiMHhydrogen battery( NiMH)4.Lithium battery( Li- Ion)At right choice battery and refresh the calculate way need to understand the background knowledge of these batteries. Seal completely the sour battery( SLA) of lead seals completely the sour battery of lead to mainly used for the more important situation of the cost ratio space and weights, such as the UPS and report to the police the backup battery of the system. The battery of SLA settles the electric voltage to carry on , assist limits to avoid with the electric current at refresh the process of early battery lead the heat.Want ～only the electricity .The pond unit electric voltage does not exceed the provision( the typical model is worth for the 2.2 Vs) of produce the company, the battery of SLA can refresh without limit. The battery of NiCd battery of NiCd use very widespread currently.Its advantage is an opposite cheapness, being easy to the usage;Weakness is from turn on electricity the rate higher.The battery of NiCd of the typical model can refresh 1,000 times.The expired mechanism mainly is a pole to turn over.The first in the battery pack drive over.The unit that all turn on electricity will take place the reversal.For prevent°froming damage the battery wrap, needing to supervise and control the electric voltage without a break.Once unit electric voltage Descend the 1.0 Vs must shut down.The battery of NiCd carries on refresh in settling the electric current by forever . The NiMH hydrogen battery( NiMH) holds to shoot the elephant machine such as the cellular phone, hand in the hand that the importance measure hold equipments, the etc. NiMHhydrogen battery is anusage the most wide.This kind of battery permit.The quantity is bigger than NiCd's.Because lead to refresh and will result in battery of NiMH lose efficacy, carry on measuring by the square in refresh process with.Stop is count for much in fit time.Similar to battery of NiCd, the pole turn over the battery also will damage.Battery of NiMH of from turn on electricity the rate and is probably 20%/ month.Similar to battery of NiCd, the battery of NiMH also settles the electric current to refresh .Other batteries says compare in lithium battery( Li- Ion) and this texts, the lithium battery has the tallest energy/ weight to compare to compare with energy/ physical volume.Lithium batterySettle the electric voltage to carry on refresh with , want to have the electric current restrict to lead the heat in the early battery of refresh the process by avoid at the same time.When refresh the electric current Descend to produce the minimum electric current of the enactment of company will stop refresh.Leading to refresh will result in battery damage, even exploding.The safety of the battery refreshes the fast charge machine( namely battery can at small be filled with the electricity in 3 hours, is usually a hour) demand of the modern.Can to the unit electric voltage, refresh the electric current and the battery temperatures to carry on to measure by the square, avoid at the time of being filled with the electricity because of leading to refresh.Result in of damage.Refresh the method SLA battery and lithium batteries refreshes the method to settle the electric voltage method to want to limit to flow for the ever ; The battery of NiCd and battery of NiMHs refresh the method.Settle the electric current method for the ever , and have severals to stop the judgment method for refresh differently. Biggest refresh the electric current biggest refresh the electric current to have relation with battery capacity( C).Biggest usually refresh the electric current to mean with the number of the battery capacity.For example,The capacity of the battery for 750 mAhs, refresh the electric current as 750 mAs, then refresh the electric current as 1 C(1 times battery capacity).IfThe electric current to flow refresh is a C/40, then refreshing the electric current for the battery capacity in addition to with 40.Lead the hot battery refresh is the process that the electric power delivers the battery.Energy by chemical reaction conservancy come down.But is not all.The electric powers all convert for the sake of the chemistry in the battery ability.Some electric power conversions became the thermal energy, having the function of the heating to the battery.When electricity.After pond be filled with, if continue to refresh, then all electric powers conversion is the thermal energy of the battery.At fast charge this will make the battery.Heat quickly, if the hour of can not compare with stop refresh and then willresult in battery damage.Therefore, while design the battery charger, to the temperature.It is count for much that carry on the supervision combine to stop refresh in time.The discretion method battery stopped refresh of different and applied situation and work environment limitted to the choice of the method that the judgment stop refresh.The sometimes temperature allow of no.Measure easily, but can measure electric voltage, or is other circumstances.This text takes the electric voltage variety rate(- dV/ dt) as the basic judgment to stopThe method for refresh, but with the temperature and absolute electric voltage be worth for assistance and backup.But the hardware support that this text describe speaks as follows.The method of the havings of say. Time of t – this method that is the decision when stop refresh most in ually used for spare project of the hour of fast charge.Sometimes also be .Refresh(14- 16 Hour) basic project of the method.Be applicable to various battery.Stop refresh when the electric voltage of V – be the electric voltage to outrun the upper ually with the forever settle the electric current refreshes the match usage.The biggest electric current is decide by the battery, usually For the 1 C.For prevent°froming refresh the electric current leads to causes battery lead greatly hot, the restrict of the electric current at this time very key.This method Is a lithium battery basic to refresh and stop project. The actual lithium battery charger usually still continues into after attain biggest electric voltage Go the second stage refresh, to attain 100% battery capacity. For battery of NiCd and battery of NiMHs are originally method can Be the spare judgment stops refreshing the project. - The method exploitation that this judgment of the dV/ dt – electric voltage variety rate stops refresh negative electric voltage variety rate.For the battery of some types, be the battery to be filled with the subsequence Refreshing continuously will cause electric voltage descend. At this time this project was very fit.This method usually useds for the ever to settle the electric current to refresh, Be applicable to to the fast charge of the battery of NiCd and battery of NiMH. The electric current of I –is to refresh the electric current small in a certain the number that set in advance stop refresh. Usually used for the ever to settle the electric voltage to refresh the method.Be applicable to the SLA Battery and lithium battery.The T – temperature absolute zero can be the basis that battery of NiCd and battery of NiMHs stop refresh, but even suited for to be the backup project.Any battery for temperature to outrun initial value have to stop refresh.The basis that the dT/ dt –temperature rising velocity fast charge variety rate of the temperature of hour can be to stop refresh.Please consult the norm that the battery produces the company( battery of NiCdOf typical model be worth for the 1 oC/ min) the –be applicable to the battery of NiCd and battery of NiMHs.Need to stop refresh when the DT – outrun the temperature value of theenvironment temperature to be the bad battery temperature and the environment temperature to exceed the certain threshold.This method can be the battery of NiCd and The project that battery of SLA stops refresh.While refreshing in the cold environment this method compares the absolute zero to judge the method better.Because bigMost systems usually only have a temperature to stretch forward, have to will refresh the previous temperature to be the environment temperature. DV/ dt=0 –s zero electric voltages differ this method with- the method of dV/ dt is very and similar, and more accurate under the condition that electric voltage will not go up again. Be applicable to the NiCd Battery and battery of NiMH.This reference design completely carried out the battery charger design of latest technique, can carry on to various popular battery type quicklyRefresh but need not to modify the hardware soon, a hardware terrace carries out a charger product line of integrity.Need only Want to will refresh the calculate way to pass lately the ISP downloads the processor of FLASH saving machine can get the new model number.Show very muchHowever, this kind of method can shorten time that new product appear on market consumedly, and need a kind of hardware of stock only.This design provide The in keeping with SLA, NiCd, NiMH of the integrity and the database function of the battery of Li- Ion.锂电池充电器的设计介绍根据其尺寸，重量和能量储存优点，锂- 离子可再充电电池正在被用于许多的应用领域。