Ceramic coated aluminum fin heatsink improves heat dissipation to allow 16 5w for a19 led lamps taiwan puritic corporation tpc has successfully improved the aluminum fin heatsink of 10w a19 to be upgraded to 16 5w a19 via the state of the art ceramic coating and it can save significant cost.
Ceramic vs aluminum heatsink.
The metal is lightweight and has relatively good thermal conductivity.
With a ceramic heat sink even if the driver fails completely mains electricity is not conducted by the heat sink and the product is safe.
So the general rule for innovative thermal management with ceramic heat sinks is.
It s drawbacks though are weight and cost.
In particular extruded aluminum heat sinks fit the needs of most projects.
The new ceramcool gu10 led spot works with any led.
A heat sink also commonly spelled heatsink is a passive heat exchanger that transfers the heat generated by an electronic or a mechanical device to a fluid medium often air or a liquid coolant where it is dissipated away from the device thereby allowing regulation of the device s temperature.
The ceramic materials used are rubalit aluminum oxide and alunit aluminum nitride which can feature a number of different metalizations and conductor path structures if necessary even three dimensional and around the edge.
In computers heat sinks are used to cool cpus gpus and some chipsets and ram modules.
Micro porous ceramic heat sinks provide a very large surface area compared to conventional copper and aluminium heat sinks.
Heat is moved by air circulation.
Copper has even better thermal conductivity than aluminum.
Copper is better at heat transfer and aluminum is better at heat dissipation so good heat sinks have a copper.