The problem of smartphones running out of battery power too soon during the day is well known and in response new fast charging standards have been introduced, ranging from multi-level output ones like USB Power Delivery and Quick Charge to 5V/multi-Amp proprietary Direct Charging protocols. This drives the demand for AC/DC converters with high efficiency over an adjustable 3-20V range, small size, good load step response and very low no-load power. NXP introduces a complete AC/DC fast charging system covering all these requirements, comprising the TEA1936 fly-back controller, the TEA1993/98 synchronous rectifier and the TEA190x family of protocol controllers that communicate with the device to be charged. The TEA190x family supports all mainstream fast charging protocols, is highly configurable and enhances charger safety by an extensive set of hardware integrated protection features.

Near Field Communications (NFC) is appearing on many new smartphones, and offers secure money transactions (Apple Pay and Google Wallet) and convenient access to public transport or even your hotel room. NXP's NFC receiver is a key component that enables mobile NFC hardware. Today we'll talk about how to get more from your NFC experience by boosting the Smartphone battery voltage, or reducing the NFC antenna size - for more stylish slim phones - while not upsetting other circuits in the phone with unwanted RF noise.

The new USB TYPE-C and PD specification has brought the new possibilities on power implementation through USB port, that will give the end customer a very different experience. At the same time, the new specification has raised the requirements on the power components with higher voltage and higher current. Also the ability to swap current source and change output voltage makes the power structure design even more complex. In order to distribute power in a reliable way on TYPE-C port, NXP has developed a set of Power switches for it. Watch Video Presentation

This session introduces designers to authentication of USB devices, including use cases such as high power charger authentication over USB PD, and the solutions to threats posed by "Bad USB". Approaches covered will include pros and cons of vendor-specific authentication as well as compliance with emerging standards. Specific implementation examples will be discussed using NXP authentication products within the USB Type-C ecosystem. Watch Video Presentation

Industry 4.0, also known as Industrial IoT, is based on cyber physical systems. It will connect objects together inside and outside the factory. This session will discuss the newest technology solutions to access up to the far end remote node via wired or wireless connection. We will go into more detail on IO-Link, a point to point communication, replacing traditional sensor to PLC cabling. IO-Link enables smart access to a sensor or an actuator with data collection and maintenance capabilities. We will also look at disruptive long range wireless communication based on Sigfox technology to connect isolated sensors requiring a long battery life. Watch Video Presentation

Whether your requirements are size and power, or range and bandwidth, there is a right-sized Wi-Fi solution available now for your i.MX-based processor design! Through partnerships with industry leaders in Wi-Fi technology and module design, NXP can now offer proven Wi-Fi solutions across a range of size, power and performance levels suitable for consumer, automotive, industrial and battery-powered mobile or remote i.MX-based applications. In this session we will cover the latest Wi-Fi protocols, certifications, and interoperability issues for Wi-Fi, as well as the range of wireless LAN solutions now available for use with i.MX applications processors and evaluation boards. Watch Video Presentation