World's lowest power capacitive touch, the new Atmel QTouch Surface platform builds on the market-proven QTouch capacitive touch button sensing technology supported by Atmel | SMART MCUs. The new solution includes an on-chip peripheral touch controller (PTC), the cornerstone technology that enables higher performance capacitive touch on Atmel MCUs. Consuming less than 4µA, the QTouch Surface technology is perfect for wearables and other battery-powered applications that require a capacitive touch user interface.
Greg Kroah-Hartman shows the Google Project Ara prototype phone and development board, and he talks about Greybus the protocol that they are developing to make it possible for these hardware modules that must be able to talk to each other and to the host module, they can be hot swappable, they have to be able to describe themselves so everything just works smoothly, they work on the knowledge that they have from USB, PCI, Firewire and all the previous protocols that people have implemented, they work on the base level of what UniPro can do, and they go from there. This is just another sub-system of Linux that drivers plug into. Rob Herring is the project tech lead at Linaro for Project Ara, and he talks about how the Linaro guys are working on the Kernel portions, the ARM Applications Processor modules and the Android modifications to support hardware modules hotplug in a Smartphone.
ARM talks sensors to servers demonstrations, ways to implement Internet of Things, using the mbed development boards with Arduino headers, the Arduino Shield with a low-power WiFi, doing custom sensor modules with temperature, microphone, ultra-sonic and motion sensors, stacking them up to do sensor nodes, then putting them around the booth to show a dashboard of things happening at the booth hosted on an AppliedMicro X-Gene server.
Guillaume Chansin (@GChansin) is one of the analysts from IDTechEx. We meet him in Santa Clara where the company is holding their annual US event. We talk about what we will see during the conference and why printed electronics can help make better wearable devices. He also explains printed sensors, flexible displays, and why we will not see flexible LCD anytime soon.
IDTechEx brings the business and technology communities on key future technologies together at the Santa Clara Convention Center, in California. Their event is focused on some of the most important and most exciting emerging technologies of the future with focus on 3D Printing, Internet of Things, Printed Electronics, Wearable Technologies, Graphene and Supercapacitors. To attract at least 2,500 attendees and more than 200 exhibitors. Hear from the IDTechEx team a day before the conference kicks off. Find out more about the IDTechEx events at: http://www.idtechex.com/events/
Self-balancing on a ball by inverted pendulum, they dance synchronized, using sensors, cameras and perfect precision in the remote coordination, they demonstrate some of Murata's sensor components and innovation ability. You can watch the rest of the video to see some of Murata's sensors, energy harvesting demonstrations and more.
Slap it onto your wrist, and your movements turn into sounds through bluetooth to your smartphone/tablet. Successful on Kickstarter, it has over 30 sounds on the app thus far, you can play air drums, you can sword fight, you can shoot, you can throw ninja weapons or make some magic in the air.