Lifepo4 Battery Management System, buy BMU Lithium Ion Batteries, LiFePO4 Battery Management System / Units on China Suppliers Mobile

Product Details

Delivery Time:25DAYS
Certification:UL/UN38.3

BMU Lithium Ion Batteries, LiFePO4 Battery Management System / Units

Description:

The battery management system is comprised of master module (BMU), slave module (PCBA), battery

modules, contactor and LCD (optional). Up to 128 modules can be connected in series and parallel to build

a whole system. The whole system voltage can reach 700V at most.

Main Feature

Beside the basic functions such as over-voltage, under-voltage, over-current, over-heat and balancing,

O’CELL BMS owns the following features.

1. Master-Slave architecture makes the system flexible.

2.LevelⅡalarm makes maintenance easier.

3. CAN2.0 and industrial level electronic components makes system reliable.

4. Contactor makes high rate charging and discharging feasible.

5. Periodic insulation measurement makes personnel safer .

6. IP56 design makes system suitable for wider application.

7. Host can control the system easily.

Main Function

1. Measure the voltage of the battery in series and the whole system.

2. Detect the charge/discharge current of battery system.

3. Calculate the battery system\'s SOC.

4. Measure the insulation of battery system.

5. Control the temperature of battery system.

6. Communicate with host or LCD screen.

7. Communicate with charger.

8. Record the operation and failure data .

9. Data storage and monitoring by PC.

Applications:

1. Eco battery power system for light electric vehicle, HEV, EV, etc.

2. Energy storage system for solar, wind or solar-wind system, etc.

3. Backup power system for telecom base station, communication equipments, power grid, banks, UPS, etc.

Specifications:

Feature	Comments
RS-485 Communication	RS-485 Communications is used to communicate with the battery modules.
CAN interface	CAN interface will be used to communicate with the host or the charger.
Charge Disconnect	When the battery modules are fully charged, they will communicate with the BMU and the BMU has the ability to turn off the charger or open the charger main contactor, interrupting current flow.
Analog/Digital Communications	In case the host controller doesn’t have a CAN interface, the BMU communicates with the host via analog/digital signals. These signals include: Outputs – SOC (A), disable regen(D), early warning(D), BMU fault(D) Inputs- 12V ignition (D), vehicle fault (D),
Discharge Interrupt	When the batteries are discharged to the under-voltage protection point, BMU will attempt to alert the host to inhibit discharge. If discharge continues beyond this warning, the BMU will request that the main contactor open or can open it itself.
Insulation measurement	The BMU will check to make sure the battery module is sufficiently isolated from the chassis before and after the main contactor is closed.
Pre-charge circuit	To limit the inrush current into the systems capacitors, a pre-charge resistor is connected to B+ before the main contactor is closed. This also prevents arcing and pitting across the contact tips. The BMU will close an auxiliary contactor to place a resistor in line with B+. After 2 seconds, the main line contactor will close.
Inter-module Balancing	Compensates slight capacity imbalance between different batteries when charging.
Intra-module Balancing	Compensates slight capa