04.19.16
STMicroelectronics will exhibit its development ecosystem and smart solutions that enable Internet-of-Things (IoT) and wearable applications at TECHNO-FRONTIER 2016.
An IoT world of Smart Houses, Cities, and Industries, in which important physical objects are connected to the Internet, is set to bring about revolutionary changes to industrial infrastructures and people’s lifestyles. Semiconductor technology is a key to realizing the promise of IoT.
ST offers one of the richest development ecosystems that enable the creation of IoT applications in shorter times and at lower cost. The development ecosystem consists of STM32 Nucleo ARM Cortex-M MCU (microcontroller) development boards and X-Nucleo extension boards equipped with motion and proximity sensors, connectivity ICs, NFC tags, motor drivers, MEMS microphones and other components.
To date, ST has released 26 types of Nucleo boards and 22 types of X-Nucleo boards. The modular hardware is complemented with the STM32Cube software development tool that includes a range of code libraries, to provide useful software functions and accelerate application development. At the ST booth, visitors can get hands-on experience with the STM32 development ecosystem using different Nucleo and X-Nucleo boards for motion detection, wireless connectivity, motor control, range measurement, and audio detection.
In an IoT-capable society, smarter spaces can be created by connecting various devices through wireless mesh networks. ST’s Smart Home demonstration uses a BLE (Bluetooth Low Energy) mesh network to control indoor-lighting, detect door open/close status, and monitor temperature. Operated from a tablet or a smartphone, the demonstration relies on network nodes based on Nucleo and X-Nucleo boards equipped with BLE network processors, acceleration and temperature sensors, as well as an evaluation board for remote-control lighting ICs.
Sensing technologies play an extremely important role in an IoT scenario where numerous sensors are embedded in various physical objects and locations. ST will conduct a range-measurement demonstration using its latest FlightSense ToF (Time-of-Flight) proximity sensor. Capable of measuring longer distances faster and more accurately than conventional sensors, ST’s ToF sensor enables the creation of new applications for robots, drones, and wearable devices.
An IoT world of Smart Houses, Cities, and Industries, in which important physical objects are connected to the Internet, is set to bring about revolutionary changes to industrial infrastructures and people’s lifestyles. Semiconductor technology is a key to realizing the promise of IoT.
ST offers one of the richest development ecosystems that enable the creation of IoT applications in shorter times and at lower cost. The development ecosystem consists of STM32 Nucleo ARM Cortex-M MCU (microcontroller) development boards and X-Nucleo extension boards equipped with motion and proximity sensors, connectivity ICs, NFC tags, motor drivers, MEMS microphones and other components.
To date, ST has released 26 types of Nucleo boards and 22 types of X-Nucleo boards. The modular hardware is complemented with the STM32Cube software development tool that includes a range of code libraries, to provide useful software functions and accelerate application development. At the ST booth, visitors can get hands-on experience with the STM32 development ecosystem using different Nucleo and X-Nucleo boards for motion detection, wireless connectivity, motor control, range measurement, and audio detection.
In an IoT-capable society, smarter spaces can be created by connecting various devices through wireless mesh networks. ST’s Smart Home demonstration uses a BLE (Bluetooth Low Energy) mesh network to control indoor-lighting, detect door open/close status, and monitor temperature. Operated from a tablet or a smartphone, the demonstration relies on network nodes based on Nucleo and X-Nucleo boards equipped with BLE network processors, acceleration and temperature sensors, as well as an evaluation board for remote-control lighting ICs.
Sensing technologies play an extremely important role in an IoT scenario where numerous sensors are embedded in various physical objects and locations. ST will conduct a range-measurement demonstration using its latest FlightSense ToF (Time-of-Flight) proximity sensor. Capable of measuring longer distances faster and more accurately than conventional sensors, ST’s ToF sensor enables the creation of new applications for robots, drones, and wearable devices.