20kwh 48volts Lithium Ion Rechargeable Battery Price Modular Battery Pack

             4.8KWH 9.6KWH 14.3KWH 19.6KWH Li Battery Pack LiFePO4 Modular Energy Storage System     The stacked lithium battery system is a chemical electric energy storage system consisting of multiple lithium battery packs and the main control boxes in series, as shown in picture.  It is pre-connected with a power communication wiring harness for plug and play, and equipped with Wifi antenna module for remote monitoring and operation and maintenance services through the Internet. The internal cell is lithium iron phosphate square shell battery.1. Each battery cell of the stacked lithium battery system is 4.8kwh.2. A single stack can be extended to a maximum of 7 battery modules, 33.6kwh in total.3. The maximum two stacks in parallel form a 67.2kwh system.  Modular ESS FeaturesModular design for ease of expansion Higher usable capacity resulting in less battery modules installed Allows for large installation with no LV Hub Visual interface, real-time monitoring of product status User data security Remote software program update, fault diagnosis Easy installation High energy density   Modular Lithium Ion ESS Specification  Intelligent Service Platform for remote monitoring and managementRemote monitored by PC and Bluetooth.   Compatible Inverter brands that have been tested and are supportedSOLIS GROWATT DEYE MEGAREVO LUXPOWER SOFAR Afore,.. Etc. 48V Lithium Battery SystemBrandProtocol nameCommunicationPylontechCAN-Bus-protocol-PYLONCANGoodweGoodwe communication protocolCANSolisCAN communication protocolCANSUNGROWCAN-Bus-protocol-PYLONCANCHNT PowerChint+Power CAN bus protocol V1.0.0CANSOFARSofar BMS CAN bus protocolCANGrowattGrowatt BMS CAN-Bus-protocol-low-voltageCANLuxpowerLuxpowertek Battery CAN ProtocolCANSol-ArkSol-Ark CAN Bus ProtocolCANTBBTBB BMS CAN communication V1.02CANDeyeCAN-Bus-protocol-PYLON-v1.3CANSunsynkCAN-Bus-protocol-PYLONCANLIVOLTEKLIVOLTEK CANBUS Protocol of Low Voltage SystemV1.0CANSOROCEC2_CAN1.0CANMEGAREVOMegarevo _5K_BMS communication V1.01CANAforeLuxpowertek Battery CAN ProtocolCANSacolarGrowatt BMS CAN-Bus-protocol-low-voltageCANSRNEPACE BMS Modbus Protocol for RS485485DeyeDeye RS485-protocol-pylon-low-voltage-129600485SMKSMK GT 20220510.html485VictronicVoltronic Inverter and BMS 485 communication protocol485EASUNVoltronic Inverter and BMS 485 communication protocol485MPP SolarVoltronic Inverter and BMS 485 communication protocol485EPEVEREPEVER BMS-Link communication V1.4.pdf485BenttersonRS485-protocol-pylon-low-voltage-communication485High Voltage Lithium Battery systemBrandCommunicationSolisCANGoodweCANSOLINTEGCANDeyeCANSINYCANKOYOECANGrowattCANINVTCANSinexcelCANGSSTESCANKELONGCANSINENG485MegarevoCANAs shown in the following figure, first place the battery unit on the base from top to bottom. Note that the power and communication in-line terminal fasteners are marked in red circles on the left, and the upper and lower positioning components are marked in red circles on the right. The in-line terminal fasteners and positioning components on the base are fully inserted into the positioning and positioning grooves at the bottom of the battery unit.Figure 1 One battery unit is stackedFigure 2 Four battery units are stackedFigure 3 System diagram after four devices are stackedFunctions of LiFePO4 Battery Pack BMS  (Battery Management System):(1) Measurement of LiFePO4 battery terminal voltage(2) Energy balance between single LiFeP04 cells(3) Total battery voltage measurement(4) Total battery current measurement(5) SOC calculation: estimate the remaining power of the Lithium battery(6) Dynamically monitor the working state of the LiFePO4 battery pack: prevent over charging or over discharging(7) Real-time data display (8) Data recording and analysis: maintain the reliability and efficiency of the entire battery operation  Application of LiFePO4 Battery Pack with BMS   /* January 22, 2024 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(",").forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1