The LED driver is a crucial element to the unit, powering and regulating the LED during use. Whether the driver be directly installed with the LED or housed within a separate unit itself, it is important to protect the driver to maintain efficiency in any operating environment. Electrolube offer a wide selection of thermal management products, coatings and encapsulants - find your Electrolube solution.More info >
The LED driver is should not be overlooked when considering a design, both the environmental protection of the unit and the thermal management can play a crucial part in efficiency. As with any power electronics unit, thermal management is a key consideration utilised to dissipate heat away from the unit; this is particularly important in LED designs where the Luminaire is housed with the driver, (see Thermal Management of LEDs). The second consideration is the protection of the PCB from the environment. As is discussed in Protection of LEDs the entire unit can be potted in order to provide complete protection, however in less extreme environments a conformal coating may be a more cost effective option. Electrolubes 2K materials also offer ‘the best of both worlds’ providing protection for both the PCB and the Luminaire from the environment without the need to fully pot the unit and 2K500 has been used in LED applications such as street lighting.
If you have any questions our dedicated technical support team are on hand to answer your questions and don’t forget that our LED brochure contains vast amount of comparison data to help you select the right material including collaborative test data from Bridgelux comparing Electrolube products and helping you select the right product for you:
Our in house experts have also penned a whole series of useful material for the LED designer check out the latest :
Product code: TPM35001K
TPM350 is one of Electrolube's latest high-performance product innovations in our thermal interface material range.
It is designed for easy application via screen printing, containing a small amount of solvent which evaporates after application to leave a cured material in place. This eliminates the mess associated with thermal pastes or greases. The material changes viscosity (phase change) once it reaches its activation temperature of 50°C ensuring efficient thermal transfer during operating conditions, minimizing contact thermal resistance, and returning to its cured state once it cools down again.
This phase change allows for a vast array of application scenarios while it also has an exceptional thermal conductivity value of 3.5W/m.K.
With thermal interface materials, every application is different and one should not rely solely on the TDS to compare products. If you have any concerns or questions, please don't hesitate to get in touch with our technical support team.
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