Hardware board series/

Lithium battery protection board bms 3S 4S 12V Li-ion battery pack 40A 60A 80A

  • Product model:EH006
  • Interface Type:Same Port
  • Output current interval:40-80A
  • Number of strings :3-4S
  • Voltage platform:48V/60V/72V/84V/96V
  • Support cell type:Li-ion
  • Product size:150mm*90mm*10mm
  • Applicable product:Electric two/three wheeler/energy storage
  • additional function:Passive equalizing voltage
  • Include accessories:Battery detection cable 600mm

  • Product Details
  • Parameter
  • Installation
  • Accessories
  • Announcements


1. Overcharge Protection and Recovery
1)Single overcharge: When the voltage of any battery cell in the battery pack is higher than the set value of single overcharge voltage and the duration reaches the single overcharge delay, the system enters the state of single overcharge protection, shuts down the charging MOS, and the battery pack cannot continue to charge. After entering the overcharge protection state when the voltage of all cells falls below the recovery value of the overcharge, or when the battery string discharges, the overcharge protection state is removed.

(2)Total voltage overcharge: When the total voltage of the battery pack is greater than the set value of total voltage overcharge protection (default value: number of single overcharge voltage)and the duration reaches the total voltage overcharge delay, the system enters the state of total voltage overcharge protection, shuts down the charging MOS, and the battery pack cannot continue to charge. When the total voltage of the battery string falls below the recovery value of the total voltage overcharge or the battery string discharges, the total voltage overcharge protection state is removed.

2. Overdischarge Protection and Recovery
(1)Single overdischarge: When the minimum voltage of the battery string is lower than the set valueof ss the single overdischarge voltage and the duration reaches the single overdischarge delay,the system enters the overdischarge protection state, shuts down the discharge MOS, and thebattery string cannot continue discharging. After entering the over-discharge protection state, thevoltage of all cells reaches the recovery value of the over-discharge state or the battery string is charged to release the over-discharge protection state.

(2)Total voltage overdischarge: When the total voltage of the battery string is lower than the set value of total voltage overdischarge protection (default value: voltage of a single unit * number of overdischarge) and the duration reaches the total voltage overdischarge delay,the systementers the total voltage overdischarge protection state, shuts down the discharge MOS,and the batterystring cannot continue discharging. When the total voltage of the battery string exceeds the total overvoltage recovery value or the battery string is charged, the total overvoltage protection state isremoved.

3.Charge Overcurrent Protection and Recovery
When the charging current exceeds the charging overcurrent protection current and the duration reaches the overcurrent detection delay time, the system enters the charging overcurrent protecti onstate and the battery pack stops charging. After entering the charging overcurrent protection state,it will automatically recover after 60 seconds or discharge the battery string to release the char ging overcurrent state.

4.Discharge Overcurrent Protection and Recovery
When the discharge current exceeds the discharge overcurrent protection current and the duration reaches the overcurrent detection delay time, the system enters the discharge overcurrent protecti on state and shuts down the discharge MOS. After entering the discharge overcurrent protection st ate, it will automatically recover or charge to remove the discharge overcurrent state after 60 secon ds. Discharge has two stages of overcurrent protection function, has different response speed to dif ferent current values, more reliable protection of the battery.

5.Temperature Protection and Recovery
(1)Charge and discharge high temperature protection and recovery: When the NTC detects that the surface temperature of NTC(MOS) is higher than the set high temperature protection temperature, the system enters the high temperature protection state, the charging or discharging MOSFET is closed, and the battery pack cannot be charged or discharged in this state. When the temperature of the NTC(MOS) surface drops to the set value of high temperature recovery, the system will release the high temperature protection state and the charge and discharge MOS will be turned on again.

(2)Charge and discharge low-temperature protection and recovery: When the temperature of the surface of the core detected by NTC is lower than the set low-temperature protection temperature during charge and discharge, the system enters the low-temperature protection state, andthe charging or discharging MOSFET is off. In this state, the battery pack cannot be charged or discharg ed. When the temperature of NTC surface rises to the set value of low temperature reco very, the sy stem will release the low temperature protection state and the charge and discharge MOS will be tu rned on again.

6.Balancing Function
BMS has passive balancing function and uses resistance discharge to balance. For balance parameters ,please refer to the balance voltage content in “Electrical Characteristics of Protection Board next month. After the balance is started, the balance indicator of the corresponding channel blinks, and the balance indicator stops blinking and goes off. The specific balance is as follows:

Balancing function description
Detection voltage equalizing current Opening Condition Suspensive Condition
Li-ion ≥4.125±0.03V 55±15mA The voltage of any battery > the test voltage Other battery voltages are>the detection voltage Voltage of all batteries > detection voltage

All battery voltages < test voltage

LiFePO4 ≥3.525±0.03V 47±15mA
Balancing indicator status description
State Flash all at once Partial Flicker Stop Flashing Steady Light
Explain Line Connection The Corresponding Battery is Equalizing Equalizing off The Corresponding Resistance

is Burned Out

Current Configuration 40A 60A 80A
Continuous Discharge Current 40A 60A 80A
L1 Discharge Overcurrent Protection 80±5A 120±12A 200±20A
L2 Discharge Overcurrent Protection 160±16A 240±24A 400±40A
Charge Overcurrent Protection Value 32±8A 48±12A 80±20A
Standard Charging Voltage Li-ion Number of Battery Strings X 4.2V
LiFePO4 Number of Battery Strings X 3.6V
Product Size (Length)150mm * (Wide)90mm *(High)15mm
Detection Voltage Li-ion 4.25±0.025V LiFePO4 3.65±0.025V
Release Voltage Li-ion 4.125±0.025V LiFePO4 3.55±0.025V
Detection Delay 800-1200mS
Detection Voltage Li-ion 2.8±0.03V LiFePO4 2.3±0.025V
Release Voltage Li-ion <3.0±0.03V LiFePO4 <2.7±0.03V
Detection Delay 800-1200mS
L1 Discharge Overcurrent Detection Delay 1400-2600mS
L2 Discharge Overcurrent Detection Delay 140-260mS
Charge Overcurrent Subject Removal 400-600mS
Discharge Overcurrent Release Condition Disconnect Load or Charge Activation
Opening Condition External Load Short Circuit
Detection Delay 160-600uS
Release Condition Disconnect Load or Charge Activation
Detection Voltage Li-ion 2.8±0.03V LiFePO4 2.3±0.025V
Release Voltage Li-ion <3.0±0.03V LiFePO4 <2.7±0.03V
Balanced Current 800-1200mS
Start-up Condition All Battery Voltage
Test Voltage
Closing Condition All Battery Voltage
Test Voltage
Charge Low Temperature Protection Li-ion 2.8±0.03V LiFePO4 2.3±0.025V
Low Temperature Protection Recovery Li-ion <3.0±0.03V LiFePO4 <2.7±0.03V
Charging High Temperature Protection 800-1200mS
High Temperature Protection Recovery 800-1200mS
Low Temperature Discharge Protection Li-ion 2.8±0.03V LiFePO4 2.3±0.025V
Low Temperature Discharge Protection Recovery Li-ion <3.0±0.03V LiFePO4 <2.7±0.03V
Discharge High Temperature Protection 800-1200mS
High Temperature Protection Recovery 800-1200mS
Reserved Function, Optional On: The Switch Activates/Turns on the Discharge
Off: Turns off the Discharge
Regular Edition <60uA
Weak Current Switch Version <80uA
Interface Specification
Interface Name Pin Mark Defined Declaration
B- Interface / B- Negativebattery,Negativebattery
C- Interface / C- The negative end of charge and discharge of protection plate is connected with

the negative end of charge and discharge

Sampling Line Interface 1 B0 Connect the First Battery Negative Stage
2 B1+ Connect the First Battery Positive Stage
3 B2+ Connect the Second Battery Positive Stage
Connect the Last Battery to the Positive Stage

Installation and Disconnection Instructions
1)weld the B-wire (thick blue wire) on the BMS to the battery pack B-.

2)The first row of cables (black) is connected to battery B-, the second cable is connected to the first series of positive battery terminals, and the third cable is connected to the second series of positive battery terminals. And so on until the last line is welded to the battery pack’s total positive terminal.

3)Starting from the black row of wires, the voltage between each two adjacent rows of wires was measured. The first and second wires were the first series of voltage, the second and third wires were the second series of voltage, and so on. The ternary lithium was 2.8V-4.25V, and the lithium iron phosphate was 2.5V-3.65V. If the voltage is not in the above range, it means that the wiring is wrong; Check the welding sequence again.

4)Weld the B- wire to the total negative electrode of the battery, insert the bar wire, and finally weld the C- wire to the negative electrode of charge and discharge; After connection, measure whether the voltage of (B- and total positive electrode) and (C- and total positive electrode) is the same. If the voltage is different, the charger needs to be connected and charged to activate the protection plate.

5)Finally, stick the sensor around the battery, do not stick against the protection plate.

Specifications of Battery Detection Cables
String number 13 14 15 16 17 18 19 20
Number of detection lines 14 15 16 17 18 19 20 21
Test line specification 24AWG    L=600mm
B-C- Cable specifications
Current parameter 40A 60A 80A
Number of input cables(B-) 2 4
Number of output cables(C-) 2 4
Input/output line specifications 10AWG     L=150MM

Precautions for installing the protection plate

1.The wiring of different manufacturers is not universal, please use our matching wiring;

2.The protection plates of different voltage platforms can not be mixed, such as the ternary protec tion plate can not be used on the iron lithium battery;

3.When testing, installing, touching and using the protection plate, take measures to discharge stat ic electricity;

4.Do not reverse connect the charging input during use; otherwise, the protection plate and batte ry may be damaged.

5.Do not make the radiator surface of the protection plate contact the battery directly, otherwise the heat will be transferred to the battery, affecting the safety of the battery;

6.Do not use protection plates in series or parallel. 7)Do not disassemble or change protective panel components by yourself.

Special Version

Our products carry out strict factory inspection and testing, but because customers use different en vironments (especially in high temperature, ultra-low temperature, under the sun, etc.), it is inevi tab le that there will be failure of the protection board, so customers need to choose and use the prote ction board in a friendly environment, and choose a certain amount of redundancy protection board.

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