Tiny Rectifiers Help OEMs Meet Consumer Demands for Ever-Smaller Wearables
As the wearable technology market sees impressive growth, design engineers must meet the demand for ever-smaller components.
As the wearable technology market sees impressive growth, design engineers must meet the demand for ever-smaller components.
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.
The FE/FEQ & FT/FTQ families are RoHS-compliant two-pad crystals that use seam sealing, which makes them fully lead-free in contrast to equivalent crystals that use a glass-sealed design.
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.
The automotive industry's rapid transition to electric or hybrid vehicles, and increasing ADAS and ECU usage, result in more power and computational performance being required to drive new loads and process data in real time.
Demand continues to increase as more and more products add screens, with the automotive industry a significant part of this market growth.
The electronics industry possesses a never-ending drive for lower power consumption and more compact devices.
The adoption of LEDs has revolutionized lighting across a huge range of applications, with massively reduced power consumption and increased reliability.
Right now, the automotive industry is going through a big transformation as it rapidly shifts from internal combustion engines to battery-powered electric vehicles (EVs).