After the inverter starts working, all parts of its internal components begin to run and the power increases, generating a large amount of heat. This heat is transferred to the inverter shell by means of heat conduction and heat convection, causing the temperature of the shell to rise. Why Is Heat Dissipation Necessaryfor Inverters?
Nowadays, common inverter cooling methods mainly include liquid cooling, air cooling and natural cooling. For low power inverters such as X1-Boost-G4, aluminum heat s in k is a good choice. The heat sink increases the surface area of heat exchange, allowing the air exchanging heat with the surface of the heat sink.
Aluminum heat-sink and fan can transfer the internal heat well, besides, the inverter case also plays an auxiliary role in the heat dissipation of the whole machine. The inverter housing is in close contact with the heat sink, and the heat concentrated in the heat sink can be transferred to the inverter housing by means of thermal conductivity.
In summer, as the intensity of sunlight increases, the heat transferred to the inverter shell through solar radiation also increases, causing the casing temperature to rise. Why Do Inverter Generate Heat? After the inverter starts working, all parts of its internal components begin to run and the power increases, generating a large amount of heat.
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