HOW MUCH DOES DELIVERY COST?
Free Delivery for Phuket, Thailand only. Would be extra cost for other cities with in Thailand.
Why Choose Lithium-ion?
The high-energy density and large number of discharge cycles provided by lithium-ion cells are the most important factors, which make them indispensable in mobile phones and electric vehicles alike. However, there are many other ways in which they are superior to traditional battery chemistries. As well as the high-energy density of the cells, they are able to discharge at a higher power and can then be re-charged much more quickly. In applications where charging power or time may be limited, such as solar PV systems or stop-start cars, it is not harmful to operate lithium-ion cells continuously at partial state of charge. This gives them greater operating flexibility than lead acid cells.
interaction between lithium-ion cells and the environment is very mild. There are no gas emissions from charging cells and heat loss, due to charging inefficiency, is very low. This means that it is possible to use lithium-ion cells in closed cabinets, completely isolated from their surroundings. At end of life the cells should be re-cycled but they contain no controlled toxic materials such as cadmium, mercury and lead.
Lithium-ion operation employs the same principles as any other rechargeable battery. During discharge, electrical charge moves through an external wire circuit between the electrodes of the battery. To balance the charge transfer within the cell, positively charged lithium-ions move through an internal electrolyte circuit between the positive and negative electrodes. During re-charge the process goes into reverse and lithium-ions move back through the electrolyte.
Many different types of chemical can be used to make the electrode materials which carry the lithium-ions. This is a very active area of research and development, which is promoting the use of lithium-ion batteries in an increasing number of applications. Some examples of the chemicals that can be paired together to make cells are shown below:￼As each pair of materials will make a cell with different electrical properties, it is important to select the right cell for a particular application and not to mix or replace cells with different chemistries. For example, Lithium Iron Phosphate (LFP) cells combine a carbon negative electrode with an iron phosphate positive electrode to make a cell with an operating voltage of 3.2V. Four of these cells can be connected in series to make a 12Volt automotive battery, which is directly compatible with most vehicle electrical systems. This would not be possible with a Lithium Cobalt Oxide (LCO) cell, as it has an operating voltage of 3.7V.
Cell structure – The cell structure for larger capacity cells uses a prismatic design with robust metal walls. This provides the optimum combination of packing density, thermal management and protection required for industrial and automotive applications.
Battery Management Systems – Battery Management Systems (BMS) are an essential component for the safe operation of multi-cell lithium-ion batteries. The primary function of the BMS is to bring all the cells in a battery to the same state of charge and to maintain them in that condition throughout the life of the battery. The BMS achieves this by monitoring the voltages of all individual cells within a battery. Cells with higher voltages are discharged to bring them in line with the rest of the pack.
The large quantity of information collected by the BMS allows the battery condition to be monitored precisely and gives enhanced security compared with traditional battery technology. This increased intelligence also reduces the costs for maintenance and extends the operating life of battery systems.
Transportation – The transportation of lithium-ion batteries is regulated because their high energy content must be controlled with standard packing procedures. Lithium-ion batteries are Class 9 Hazardous Materials and all packaging must be labelled accordingly with the UN3480 identification number. Commercial cells must have passed the series of safety tests defined in UN.
Benefits of Lithium-ion Batteries