Simplifying Motion Detection and Measurement for Automotive Control Systems
As cars continue to increase in complexity, automotive designers must provide reliable and accessible controls to prevent drivers and passengers from becoming overwhelmed.
As cars continue to increase in complexity, automotive designers must provide reliable and accessible controls to prevent drivers and passengers from becoming overwhelmed.
With modern vehicles containing so many electronic components and ECUs, it’s vital that PoL converters achieve high efficiency.
Understanding the differences between USB PD (Extended Power Range) and SPR (Standard Power Range) is critical to making an informed decision during the design process.
This blog looks at the PD abilities and requirements of USB-C, including the latest high-power variants and how engineers can create efficient system designs.
As vehicles and their technology features become more sophisticated, Hall effect switches help make driving easier, safer, and more comfortable.
USB 2.0 may seem like legacy technology, but the PI5USB212 ensures it meets all the demands of today’s applications while providing a simpler and lower cost solution.
For IoT or handheld devices, it is often essential to achieve very low power consumption. This has led to an increasing trend to reduce power supply voltages for electronic devices, since power losses in a conductor are proportional to voltage squared.
As modern-day vehicles are full of technology, automotive manufacturers are under pressure to provide high-definition screens for streaming video, games, and video calls to meet consumer expectations.
As low-noise, high-PSRR power is necessary to maintain signal integrity and accuracy, especially for high output currents, designers can take advantage of ultra-low-dropout (LDO) linear regulators.
If we look at key trends in current monitoring today, precision is increasingly important and requires a current monitor component (including the resistive shunt) with a low offset voltage.