NTC (Negative Temperature Coefficient) temperature sensors are widely used for temperature measurement and control due to their high sensitivity, fast response, and cost-effectiveness. However, like any electronic component, they can be damaged under certain conditions. Understanding the causes of d...
In the world of automotive engineering, precision and reliability are nonnegotiable. When it comes to designing and maintaining automotive transmissions, one of the most critical challenges is managing heat. Excessive temperatures can lead to component wear, reduced efficiency, and even system failu...
Whether designing a next-gen power supply, building an automotive BMS, or upgrading a smart appliance, selecting the right thermistor is more complex than it seems. This Q&A addresses some of the most common and technical questions engineers ask when working with NTC thermistors.
Q1: What...
In the race toward carbon neutrality, innovation often starts with rethinking the smallest components. NTC thermistors, though compact, play a crucial role in helping engineers design smarter, greener electronics. From preventing thermal inefficiencies to extending product lifespan, these passive se...
As embedded systems become more intelligent and power-aware, the ability to monitor temperature accurately has become essential. Whether you're designing a power supply, motor controller, battery pack, or IoT device, integrating an NTC thermistor is a simple yet powerful way to enable real-time ther...
