It adopts high-quality battery monomers grouped and screened and designed by special mechanical structure to assemble all ranges of built-in BMS batteries.
Voltage levels: 12V, 24V, 36V, 48V, 96V, 110V, 220V, 330V, 380V, 440V, 600V.
Rated battery volumes: 10 ~ 2000Ah.
Battery types: lithium iron phosphate (LiFePO4), Valve Regulated Lead Acid (VRLA), high rate Nickel Cadmium Battery, nickel-hydrogen power, silver zinc battery and so on.
Main functions of BMS: capacity forecast, over current, over voltage, over charge, over discharge, over-temperature protection, single voltage balance, abnormal alarm, CAN-BUS communication, programmable parameters.
Bms For Lithium Ion Battery,Li Ion Battery Management System,Lithium Battery Management System,Li Ion Bms Xinxiang Taihang Jiaxin Electric Tech Co., Ltd , https://www.chargers.be
The latest announcement of the US Department of Energy (DOE) looks at the comparison of energy consumption during use of various lighting technologies, including manufacturing, transportation, usage, and processing costs. A total of compact fluorescent lamps (energy-saving lamps), LED bulbs, and Incandescent lamp. The title of the report is "Evaluation of Life Cycle Energy Consumption of Incandescent Lamps, Compact Fluorescent Lamps, and LED Lamps."
The report is the first step of a large-scale project of the Department of Energy. The Department of Energy will evaluate the energy and environmental consumption of different lighting technology throughout its life cycle, focusing on manufacturing, transportation, use, and disposal costs.
The report states that the average life cycle energy consumption of LED lamps and energy-saving lamps is similar, about one-fourth that of incandescent lamps, but if LED lamps meet their performance targets in 2015, their life cycle energy use is expected to Reduce it by about half.
In addition, all three types of lamps represent the most energy-intensive life-cycle phases during the "use" phase, which accounts for an average of 90% of the total life cycle energy. Followed by the manufacturing and transportation stages, transportation energy consumption is less than 1% of the life cycle energy consumption of all types of lamps.
The most uncertain of the lifecycle energy consumption calculations is the LED package cost, which ranges from 0.1% to 27%, with an average of 7%. The study of the Ministry of Energy's entire large-scale project will include the life cycle assessment of LED bulbs, including direct and indirect material costs and manufacturing, transportation, operation, and disposal costs. It will also include items such as purchasing, dismantling, and chemical testing of LEDs and traditional lighting products to study whether there is potentially hazardous material that exceeds processing capacity.