Selecting the right sensor is a critical step in electronic system design, influencing accuracy, reliability, and long-term ...

In many Internet of Things (IoT) applications, minimizing power consumption is a key design requirement. IoT capability involves adding sensors and connectivity to a valve or similar device in a ...

This file type includes high-resolution graphics and schematics when applicable. Performance vs. power dissipation—it’s one of the most delicate tradeoffs for those who develop smart sensors for the ...

Streams of data from higher-speed sensors pose throughput and latency challenges for designers. However, optimizing a design for those criteria can come at the expense of increased power consumption ...

Sensors are an indispensable tool to inform utility managers of the state of the electricity grid and the occurrence of ...

In Part II, we reviewed tradeoffs between response time and power consumption, as well as other issues resolved by a ganged sensor. In this final segment, we will cover sensor ganging implementation ...

Efficiency and power density are persistent challenges in high-current applications, particularly as systems become more ...

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 ...

Researchers have developed a battery-free sensor that reacts to sound waves, such as particular spoken words, producing enough vibrational energy to power an electronic device. The novel sensor would ...

Streams of data from higher-speed sensors pose throughput and latency challenges for designers. However, optimizing a design for those criteria can come at the expense of increased power consumption ...