Negative temperature coefficient (NTC) ceramics and thin films represent a pivotal class of materials in modern electronics, where their intrinsic property of decreasing electrical resistance with ...

Switching a home to solar power (or, at least, installing solar panels to help offset some of your grid usage) can be a worthwhile endeavor. It can also be kind of a headache, with several common ...

An Italian-Greek research group has developed a large-area perovskite solar panel with graphene-doped electron transporting layers. With increasing temperatures, the module exhibits a smaller drop in ...

The impact of on-resistance on MOSFETs. The role of temperature coefficient in comparing different MOSFETs' on-resistance. What type of FET has the lowest conduction losses? There's nothing quite like ...

With the trend toward miniaturization, temperature effects in power electronics are more pronounced than ever. If you’re dealing with temperature fluctuations in your circuit, you may need a ...

Temperature sensor integrated circuits (ICs) have several advantages over negative temperature coefficient (NTC) thermistors. For example, temperature sensor ICs have a much more linear response than ...

Brazilian scientists have assessed variations in temperature coefficients in solar modules to determine whether there is a relationship between the dependence of these coefficients and irradiance.