Product Parameter
| 基本参数 Basic parameters | ||||
| 基本项目 Basic project | 规格 Specifications | 单位 Company | 备注 Remarks | |
| 电流 Electric current | 持续放电电流 Continuous discharge current | 25 | A | |
| 瞬间放电电流 Instantaneous discharge current | 75 | A | ||
| 充电 Charge | 充电电压 Charging voltage | 锂电充电器12.6V Lithium battery charger 12.6V | V | 开关电源13-16V Switching power supply 13-16V |
| 充电电流 Charging current | 25(max) | A | ||
| 过充保护 Overcharge protection | 过充检测电压 Overcharge detection voltage | 4.28±0.05 | V | 单芯 Core |
| 过充保护延时 Overcharge protection delay | 0.5 | S | ||
| 过充解除电压 Overcharge release voltage | 4.08±0.05 | V | 单芯 Core | |
| 电量均衡 Electricity balance | 电量均衡检测电压 Electricity balance detection voltage | 4.2±0.05 | V | |
| 电量均衡解除电压 Electricity balance release voltage | 4.2±0.05 | V | ||
| 电量均衡电流 Electricity balance current | 45 | mA | ||
| 过放保护 Over discharge protection | 过放检测电压 Overdischarge detection voltage | 2.55±0.08 | V | |
| 过放检测延时 Overdischarge detection delay | 0.1 | S | ||
| 过放解除电压 Overdischarge release voltage | 2.9±0.1 | V | ||
| 过电流保护 Overcurrent protection | 过电流检测电压 Overcurrent detection voltage | 150 | mV | |
| 过电流检测延时 Overcurrent detection delay | 10 | mS | ||
| 过电流保护电流 Overcurrent protection current | 75±5 | A | ||
| 过电流保护解除条件 Release conditions for overcurrent protection | 断开负载 Disconnect load | |||
| 短路保护 Short circuit protection | 短路保护条件 Short circuit protection conditions | 外部负载短路 External load short circuit | ||
| 短路检测延时 Short circuit detection delay | 250 | μS | ||
| 短路保护解除条件 Short circuit protection release conditions | 断开负载 Disconnect load | |||
| 温度保护 Temperature protection | 温度保护 Temperature protection | / | ℃ | 可外加温度开关 Can be equipped with an additional temperature switch |
| 内阻 Internal resistance | 主回路导通内阻 Main circuit conduction internal resistance | ≤20 | MΩ | |
| 自耗电 Self consumption power | 工作电流 Working current | ≤30 | μA | |
| 睡眠电流(电流过放时) Sleep current (when current is over discharged) | ≤20 | μA | ||
| 工作温度 Working temperature | 温度范围 Temperature range | 零下20到零上80 From minus 20 to above 80 | ℃ | |
Note: To achieve better consistency and balance, try to use a 13V switch source for charging (with a self stopping current below 30mA). Because the balancing current of the balancing IC is around 45mA, and most 12.6V lithium battery chargers on the market will automatically stop when the charging current is detected to be below 100mA. Before balancing, there will be no charge coming in, resulting in an unbalanced voltage of each battery group. Regarding the issue of voltage drop between the battery voltage and the output terminal voltage, the working principle of this type of protection board is negative electrode protection. When just assembled, some may experience a voltage drop of 0.1-0.3V, which can be reduced by cycling the charging and discharging several times. This is a normal phenomenon. Try not to use a 12V power supply for the charger. A 3-string lithium battery is fully charged at 12.6V, and charging with a 12V power supply will result in insufficient charging. The protective board will not protect it and will continue to charge. Long term use will affect the battery life. Thank you for your understanding.
Product Be Careful
This protective board cannot be used for lithium iron phosphate batteries, hernia lamps, hand drill battery packs, electric fishing machine battery packs, electric bicycle battery packs, children's car batteries, 775 (4A) and above motors, and 1W fisheye LED lights. Customers who purchase the above combinations are advised to pay attention!.
The power range described is applicable to the following products:
Massager battery pack, LED light backup power supply, 12V electronic products, solar street light battery pack, monitoring backup power supply, and other products.
Attention: For discharge products with a current of 3A or higher, the battery discharge rate should be 3C or higher.
Ratio calculation formula: A 1C rate battery with a capacity of 2000 is equal to 2AH * 1=2A working current.
3C rate battery, 2000 capacity equals 2AH * 3=6A working current.
During use, the battery will heat up due to the unsuitable battery rate, which cannot be used for a long time as the battery will quickly damage.
Attention 1: Strictly follow the wiring diagram for 0V (B -), 3.7V (B1), 7.4V (B2), 11.1V (B+), and do not intentionally short circuit!
Note 2: After connecting the cable, it is necessary to charge it first before there is output.
Note 3: When connecting 3 groups of batteries in series, please ensure that the voltage of each group of batteries is the same. If they are not the same, please fully charge each group of batteries separately before using them in series. The group of batteries with the fastest voltage drop during discharge testing is the poor battery.
Just to clarify: Do not mix good and poor batteries together for use! The closer the capacity/internal resistance of the three sets of batteries, the better! The usage effect of 2 good batteries+1 poor battery=the usage effect of 3 poor batteries.
Product Attribute
The properties of the lithium battery protection board are:
Model: HX-3S-FL25A-A
Overcharge voltage range: 4.25-4.35v ± 0.05v
Size: 56*45*4.0mm
Overdischarge voltage range: 2.3-3.0v±0.05v
Upper limit working current: 20-25A (pay attention to heat dissipation)
Working temperature:- 40---+50℃
Maximum instantaneous current: 35-40A
Storage conditions:- 40-- +80℃
Static current: less than 30uA
Effective lifespan: greater than 30000 hours
Internal resistance: less than 100m Ω
Short circuit protection: capable of protection and delayed self recovery.
Balanced current: 45mA
Charging voltage: 12.6V-13V
Test point description: When S1 and S2 are short circuited, P+P - will output voltage, indicating that all MOS protections are normal. Adding a normally open temperature detection can expand the temperature protection function.
The size and device description of the protective board;
The size of the protective board is 56 * 45 * 4.0mm; The components are Hongkang 2110-CB protection chip+Hongkang BB3A balanced IC and genuine AOD472 * 8 or AOD452 * 8;
Note: The nickel sheets and accessories described and displayed below are not included in the price of the product in this link. The shipment is for a single board
Product Precautions
| 故障处理与解决事项 Troubleshooting and resolution issues | ||
| 故障现象 Fault phenomenon | 故障检查与原因 Fault inspection and causes | 处理方法与保修 Handling methods and warranty |
| 无法放电 Unable to discharge | 先连接适用的充电器充电,再分别测量3节电池的电压,如果其中一节电池电压低于2.7V左右,保护板会启动过放保护。 First, connect the appropriate charger to charge, and then measure the voltage of three batteries separately. If one of the batteries has a voltage below about 2.7V, the protection board will activate the over discharge protection. | 配对好每节电池,好电池与差电池不要混用(无法解决,可以联系售后) Pair each battery well and do not mix good and poor batteries (if this cannot be resolved, please contact after-sales service) |
| 无法充电 Unable to charge | 测量3节电池的电压,如果其中一节电池电压超过4.23V左右,保护板会启动过充保护。 Measure the voltage of three batteries. If one of the batteries exceeds around 4.23V, the protection board will activate overcharge protection. | 配对好每节电池,好电池与差电池不要混用(无法解决,可以联系售后) Pair each battery well and do not mix good and poor batteries (if this cannot be resolved, please contact after-sales service) |
| 充电/放电失效 Charging/discharging failure | B-(OV)、B1(3.7V)、B2(7.4V)、B+(11.1V)接错线 B - (OV), B1 (3.7V), B2 (7.4V), B+(11.1V) are connected incorrectly. | 重新接线或更换新板 Reconnect or replace with a new board |
| 过充/过放失效 Overcharging/overdischarging failure | B-(0V)、B1(3.7V)、B2(7.4V)、B+(11.1V)接错线 B - (0V), B1 (3.7V), B2 (7.4V), B+(11.1V) are connected incorrectly | 重新接线或更换新板 Reconnect or replace with a new board |
| 放电保护 Discharge protection | 检查负载的启动电流是否超过保护板的过流保护电流。 Check if the starting current of the load exceeds the overcurrent protection current of the protection board. | 更换更大电流的保护板 Replace the protective board with a higher current |
| 元件虚焊 Component virtual soldering | 元件有一个脚与PCB焊盘之间无连接上。 There is no connection between one foot of the component and the PCB pad. | 补焊 Repair welding |
| 元件连焊 Component soldering | 元件的两个或两个以上引脚之间有连接短路。 There is a short circuit between two or more pins of the component. | 拆下元件重新焊接 Remove the components and re weld them |
| 静电击穿 Electrostatic breakdown | 未通电状态下,测量MOS管G极、D极、S极,任意两个引脚的正向电阻和反向电阻都是0Ω When not powered on, measure the forward and reverse resistance of any two pins of the MOS transistor's G, D, and S poles, and the resistance is 0 Ω | 拆除更换MOS管 Dismantle and replace MOS transistor |
Product Questions and Answers
1. Can I use your protective board for my battery?
Answer: There are two issues to consider when using this protective board: First, how many strings of batteries do you have, and you need to buy a protective board that corresponds to the number of strings. 2、 What material is your battery made of? We have two types of protective plates for lithium iron phosphate and polymer lithium batteries. If your battery is a single cell of lithium iron phosphate with a nominal voltage of 3.2V, you need to choose the 3.2V lithium iron phosphate in the classification. If it is a single cell of polymer (ternary, cobalt acid, manganese acid lithium battery) with a nominal voltage of 3.6V (or 3.7V), please choose the 3.7V polymer classification.
2. How can I determine what material my battery is made of?
Answer: You can take a look at the nominal voltage of your battery. Lithium iron phosphate batteries are usually rated at 3.2V, while other batteries are usually rated at 3.6V or 3.7V. You can also directly ask the seller what material the battery is made of. Many buyers say that my battery is 18650 or 26650 soft pack, etc. This is the appearance, not the material! We are unable to determine your battery protection parameters based on this.
3. How many A protection boards should I choose?
Answer: The number of A protection boards to choose depends on the power of your product or the current limit of the controller. For example, choose 10A for those below 100W, 20A for those below 200W, and 25A for those below 300W, For those above 500W, please contact our Wangwang first. The current of the protection board cannot be less than the current limit of the controller.
4. Can I use this protective board with my 20AH battery?
Answer: The size of your battery capacity is not directly related to the current using this board. A large capacity is not necessarily a large battery, but mainly depends on the continuous current. That is to say, the greater your power, the greater the continuous current of the protection board you choose, which is not directly related to your battery capacity.
5. How should the charger voltage be set?
Lithium batteries should be charged with a dedicated charger for lithium batteries, and lead-acid battery chargers should not be used. Lead acid charging may cause high-voltage breakdown of the protective board MOS tube, resulting in overcharging and lack of protection for the protective board.
Charger voltage setting: Use your battery pack string number * 4.2V, which is the charging voltage for non iron lithium batteries. The charging voltage for iron lithium batteries is the battery string number * 3.60V, which is the charging voltage for iron lithium batteries. The charging current standard is 0.2 times the capacity.
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