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.
Atmel's Automotive Group showcases their cutting edge automotive infotainment user interface demo using Atmel QTouch and Atmel MaxTouch metal mesh curved display technologies, with up to a hundred million lines of code, at least 30 MCU-controlled devices, and some with as many as 100, the vehicle is the ideal application to bring smart, connected devices in the era of the Internet of Things (IoT). Automotive technology is quickly becoming an integral part of the digital lifestyle as consumers want to bring their mobile devices seamlessly into their vehicles. The next-generation AvantCar 2.0 showcases connectivity to the vehicle through an advanced HMI console connected to a concept car highlighting car access, car networking, MCUs, audio-over-Ethernet, MHL support and security technologies. The 2.5D (two-and-a-half dimensional) car showcases several of Atmel's automotive technologies in a car access simulation for the Passive EntryGo, LIN communication in a car network and Car Area Network (CAN) communications—all systems that use Atmel MCUs, LIN transceivers and SBCs. Additionally, AvantCar 2.0 demonstrates audio streaming over Ethernet-AVB.
This is the lowest power consuming 32bit ARM Processor in the world based on ARM Cortex-M0+ for wearables (can be with basic touch) and for the sensor networks in the Internet of Things, can run up to more than a decade on a battery. The new Ultra low power Atmel | SMART SAM L21 based on the ARM Cortex-M0+ Core uses less than a third of the power consumption of competitive solutions and can run in active mode down to 35uA/MHz and retain 32kB of Flash and run a real time clock at 900nA. In this demo the SAM L21 is powered from the heat of a hand through a Peltier Element, this is enough energy to modulate a music file and transmit it with AM modulation at 1MHz to the nearby radio receiver. This demo shows that the SAM L21 is truly unique in supporting ultra-low power consumption in active mode without having to limit Flash or SRAM size, it is perfect for IoT and other battery powered applications where large embedded memories are needed.
Atmel has over 40,000 customers of its Microcontroller units - companies embedding MCUs to make devices powering the Internet of Things. For example, Arduino devices use Atmel MCUs. The Arduino WIFI shield includes a new Atmel MCU processor built from the ground up for WIFI running on batteries. Atmel is launching the lowest power 32bit ARM Cortex-M0+ processor (see their press release here) and Atmel is also launching the highest performance ARM Cortex-M7 Microcontroler (see press release here)
This video was taken at the IDTechEx event Internet of Things Applications. For more see http://www.IDTechEx.com.
Movon makes a PCB module based computer which is primarily designed for in vehicle purposes. The module computer runs an embedded Linux operating system. The processor technology is a Arm Cortex A5 from atmel. Movon's technology is being used by car companies such as TATA. Movon also does testing for other companies such as Samsung. Movon will in the future be developing a driverless car system.
Filmed at the HKTDC Hong Kong Electronics Fair (Spring Edition) 2014
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Atmel shows their latest Sensor Hub microcontroller solutions. Here showing a demo showing accurate controlling and measuring with 3d tracking. Showing also a true virtual reality augmented reality 3D accelerated software demo.
Possibly the biggest project in the world getting people involved with prototyping and developing hardware and software projects, Massimo Banzi is the co-founder of the Arduino project. He is an Interaction Designer, Educator and Open Source Hardware advocate.
The Arduino Due is a microcontroller board based on the Atmel SAM3X8E ARM Cortex-M3 CPU. It is the first Arduino board based on a 32-bit ARM core microcontroller. It has 54 digital input/output pins (of which 12 can be used as PWM outputs), 12 analog inputs, 4 UARTs (hardware serial ports), a 84 MHz clock, an USB OTG capable connection, 2 DAC (digital to analog), 2 TWI, a power jack, an SPI header, a JTAG header, a reset button and an erase button.