The USB Type-C Portfolio from Fairchild Semiconductor is now in stock at Mouser Electronics. Developed in order to aid manufacturers in designing thinner, sleeker next generation USB devices that consume less power and offer higher energy efficiency, Fairchild’s USB Type-C Portfolio of solutions provides backward compatibility with USB legacy data protocols and standards, and the devices also enable manufacturers to quickly and easily add USB functionality to just about any existing or future application with a USB port.
The portfolio of devices include USB controllers, USB 3.1 SuperSpeed switches and protection ICs – each offered in up to a 43 percent smaller footprint and up to 10 times less power consumption than many competitive alternatives on the market today.
The devices incorporate an I2C interface to communicate with the application’s host processor for control and command, bypassing the need for an integrated microprocessor. This system partitioning benefit enables Fairchild to offer small, flexible and low-power devices – a critical requirement for many of today's increasingly small and thin battery-powered devices.
All the USB Type-C devices feature ultra-low power consumption in standby mode and active cable detection and power support. Several of the devices perform basic features such as detect attachment, orientation and device type (dual role port, downstream facing port and upstream facing port), while others support more advanced functionality such as data role swap, power role swap, hard reset, soft reset, active cable support, Vendor-Defined Messaging (VDM) packet transmission and high-power charging up to 100 W.
All devices within the USB Type-C Portfolio, available at Mouser Electronics, are offered in compact package options, including a very small 1.2 mm x 1.3 mm WLCSP package that is several times smaller than the competition.
The small package options, combined with a very comprehensive offering of devices, enable the Fairchild USB Type-C Portfolio of solutions to meet a wide variety of application requirements, accelerate time-to-market, and give manufacturers more choice and flexibility in selecting the device with the best mix of capabilities for their USB Type-C end applications.