Industrial operations are becoming increasingly data-driven. From manufacturing plants and oil terminals to water treatment ...

In Part 2 we related the impact on signal quality to some possible real-world basic signal and shield grounding choices (both the good and the bad). But, even in that brief discussion, it is clear ...

The sensor uses frequency-modulated continuous wave (FMCW) technology and supports water-level detection with theoretical ...

In Part 1 of this article, we explained popular liquid-level sensing methods and their limitations. We also delved into why capacitive-sensing techniques are superior to traditional methods used for ...

The old Internet-of-Things adage: 'you can't improve what you can't measure' couldn't be more relevant to the industrial sector. With technology adoption in mining, manufacturing, and logistics ...

The persistent challenge in remote sensing and cartographic science lies in reconciling the geometric fidelity of vectorized outputs with real-world cartographic specifications, while simultaneously ...

When designing a system, one of the most important design decisions is choosing what voltage domain(s) to use. Some voltage domains, such as 5 V, are good for noisy and harsh operating environments ...

Quantum sensors are transforming how we measure and navigate, offering levels of precision far beyond classical systems. By exploiting atomic superposition, cold atom interferometers, and diamond NV ...

Among the primary challenges facing engineers developing imaging sensors for automotive cameras is creating a high-dynamic-range (HDR) system that can detect and display LEDs without flicker.