Blue Gorilla magnetic charging treasure hot serious is not normal.
The charging treasure will generate a certain amount of heat during the charging process, but if the hot is serious, there may be some problems. First of all, it may be that the internal circuit design of the charging treasure is unreasonable, resulting in low energy conversion efficiency and excessive heat generation. Secondly, it may be that the heat dissipation design of the charging treasure is poor, and the heat cannot be effectively dissipated, resulting in the heat not being dissipated in time. In addition, it is also possible that the battery quality of the charging treasure is not good, resulting in excessive battery heat.
If it is found that the charging treasure is hot, it is recommended to stop using it, and consult a professional for inspection and maintenance.
The following points should be noted when using the power bank. First of all, choose regular brands and reliable channels to buy charging banks to ensure reliable product quality. Secondly, follow the instructions of the charging bank when using, and do not overcharge or over-discharge, so as not to cause damage to the battery.
At the same time, avoid exposing the charging bank to a high temperature environment, so as not to aggravate the heating problem.
Finally, if the charging bank is found to be abnormally hot or other problems, it should be stopped in time and consulted by professionals for inspection and treatment.
A little heat while charging is normal
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About charging heat:
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The charger is equivalent to a small transformer, which converts 220V electricity into the voltage that your mobile phone can accept
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When the primary winding of the transformer is energized, the magnetic flux generated by the coil flows in the core, because the core itself is also a conductor, in the plane perpendicular to the magnetic force line will induction potential, this potential in the cross section of the core to form a closed loop and generate current, like a vortex called \"vortex\". This \"eddy current\" increases the loss of the transformer and increases the temperature rise of the transformer's core heating transformer.