SiteMapIRFP360PBFMC34184NTMD4N03R2GDS1267-050PMB4824V1.1HIP6603BECBUCC2806PWXC4085XLA-07BG432CHEF4014BT74ACT574SC Quick Search: 304 GRM TL8 FTS TXC M95 SV1 TA2 MN3 TCE RL5 FDA 724 TYN
Position:Home » DataSheet » MAX Page No. 34 » MAX491ESD Suppliers

MAX491ESD datasheet pdf datenblatt

MAX491ESD SuppliersMAX491ESD PriceRelated PDF DownLoad


F99x MCU can support up to 14 capacitive sensor input, and IC MAX491ESD and precision, high sensitivity of the touch-sensitive function, can replace the traditional mechanical buttons, roller and wheel. F99x series with ultra-low power MCU, Si11xx QuickSense infrared and ambient light sensors, system designers can develop innovative "non-contact" type of proximity sensing interface. In addition to using the direct capacitive touch sensor control, the non-contact interface allows users a simple, intuitive gestures to control and interact with the end product.

MAX491ESD Suppliers

new F99x touch sensitive MCU, Silicon Labs is man-machine interface QuickSense? series, they have low power consumption advantages, combined with a fast accurate capacitive sensing technology to meet the rapid growth of touch-sensitive market. F99x with a patented high-resolution capacitance-digital converter (CDC), access time of only 40μs, the industrys fastest capacitive touch sensing capability. The CDCs immunity to strong noise, even in harsh conditions and MAX491ESD Suppliers and the configuration can still ensure its reliability, such as thick laminates, electrical noise or induced changes in circuit manufacturing.

MAX491ESD Price

"As we launch the latest ultra-low power MCU, extends the industry-leading F9xx series, providing more functionality and MAX491ESD Price and storage capacity options to meet customer application requirements. "Silicon Labs vice president of embedded mixed-signal products, Mark Thompson, said," As the first successful launch of the wake-up power to touch the touch-sensitive sub-microampere level MCU vendors, we will continue to mixed-signal technology through continuous reform and innovation power consumption to drive new breakthroughs ."

All rights © 2010-2016