In this section, we will cover the use of hall sensors for low-power detection of strong magnetic fields in three dimensions.
In this section, we will cover how to harden a meter against these magnetic tamper attacks by using shunts for current sensors.
This series of videos provides a concise yet in-depth introduction to sensing using FMCW radars.
These training labs walk you through installation, building and example mmWave sensor projects.
See demonstrations of mmWave sensors in action across automotive and industrial applications.
Watch demonstrations using our AWR mmWave radar sensors in applications such as short-range radar, long-range radar, in-cabin driver detection and more.
Watch demonstrations using our IWR mmWave sensors in applications like drones, robotics, traffic monitoring, level sensing and more.
Learn about the differences between optical and time of flight (ToF) technologies, and how to select the right distance and range-sensing technology.
Learn about the tools and resources we provide to help you prototype easier and faster.
This chapter provides an in-depth view of key temperature sensing specifications and terminologies.
In this section of Precision Labs, we will explain thermal design considerations beyond the sensor component alone.
This section looks into application design for common temperature sensing applications.
The series of videos in this section will give a thorough explanation of the tradeoffs in bandwidth versus power.
Learn the background on current sensing and the different types of amplifiers used in this application.
Learn key applications concerns in current sensing, including shunt resistor selection, PCB layout and example circuits.
Learn more about the basics of magnetic sensing and Hall-effect sensor capabilities.