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High thermal conductivity interface materials help solve the heat dissipation issue of wireless chargers in cars
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An increasing number of vehicles are equipped with wireless chargers, which offer convenience and strong compatibility, avoiding poor contact between charging plugs and ports caused by frequent plugging and unplugging of cables.  However, a major problem in the practical application of wireless charging is heat dissipation.  During wireless charging, the coil on the transmitting end generates a large amount of heat energy due to the oscillation and the large current flowing through it, leading to heating of the coil and affecting the charging efficiency.

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Wireless chargers generate heat during the charging process.  If the heat is not dissipated in a timely manner, the surface temperature of the wireless charger can become excessively high and transfer this heat to the electronic devices in direct contact with it, causing the devices to overheat and affecting the battery life of the electronic devices.


SEANTEC Electronics offers thermal interface materials with excellent thermal conductivity and stability, which meet the requirements of automotive electronics.  The use of thermal silicone films, thermal gels, or thermal greases as interface materials in automotive wireless charging modules can help dissipate heat and ensure stability.  These thermal interface materials have excellent thermal conductivity, effectively transferring heat away from the wireless charging module.  They can also fill in the small gaps between the heat sink and the wireless charging module, thereby improving the efficiency of heat transfer.