The growing awareness for sustainable energy consumption has led to greater electrification in a variety of applications. Especially in the automotive field, the number of electrical components continues to increase due to technological innovations spurred by advances in EVs and autonomous driving. Each of these electrical applications requires a variety of voltage sources, all of them stabilized by capacitors. This results in an increasing demand of external components, increasing PCB sizes and adding cost to the Bill of Material.
Following the development of ultra high-speed pulse control technology Nano Pulse Control™ and ultra-low current technology Nano Energy™, ROHM has added a third Nano power supply technology, Nano Cap™, that reduces the number of external capacitors required for linear regulators.
In a circuit, typically comprised of a linear regulator and MCU, a 1uF capacitor is usually required at the output of the linear regulator while 100nF is requested at the input of the MCU. However, leveraging ROHM's linear regulator utilizing Nano Cap™ technology - developed by combining analog expertise covering circuit design, layout, and processes - eliminates the need for the capacitor at the regulator output and ensures stable operation with just the 100nF input capacitor. By decreasing both the number of capacitors along with the capacitance needed for power supply circuits in the automotive and other fields, ROHM can contribute to minimizing circuit design load.
Furthermore, Op amp samples utilizing Nano Cap™ technology have already been released in part, and linear regulators utilizing Nano Cap™ technology as well as LED drivers that built-in Nano Cap™ equipped regulators are scheduled to be released in 2020.
ROHM is committed to further enhancing the development of Nano CapTM technology to completely eliminate the need for capacitors while expanding the use of this technology not only to linear regulators, but Op amps, LED drivers, and other analog ICs as well, which contribute to society through the effective use of resources that minimizes environmental load.
Read the original article on ROHM Semiconductor.