Smart Cities

Distance awareness devices rely on ToF proximity sensors

Tue, Jul 21, 2020

Amsterdam-based start-up, Aura Aware, is using ST’s FlightSense time of flight (ToF) technology in a smart distance-awareness portable device for use at retail counters and check-in desks.

The device displays a green OK signal that changes to red if a person crosses a safe, minimum distance threshold.

The VL53L1X compact ToF proximity and ranging sensor is used in the Aura Aware devices. It has an operating range of up to four metres and very low power consumption. Signal processing is built into the sensor, simplifying design. It also provides features such as crosstalk compensation that maintains measurement accuracy even if the sensor window becomes obscured by foreign material.

ToF sensors transmit photons and then calculate distance to the target based on the time it takes for the reflected photons to be received back by the sensor. Ranging accuracy is unaffected by surface characteristics of the  target, such as clothing colour or skin reflectivity, which is a characteristic that makes it particularly suitable for devices designed to help people maintain social distancing.

The sensors can also help users avoid contact with surfaces, including self service touchscreens, smart water taps and pushbutton door openers, located in high-traffic areas. The speed and precision of ToF sensing enable FlightSense sensors to manage basic on/off control as well as to detect and interpret gestures like tapping and swiping for smart touchless human machine interaction.

Another advantage is the linear response when measuring short distances. It allows them to be used inside dispensing machines to detect the level of hand-sanitising liquid or the number of personal protective items such as face masks.

The FlightSense ToF sensors are in production now. Samples are available on request.

STMicroelectronics specialises in semiconductor technologies, including the semiconductor supply chain and manufacturing facilities. The independent device manufacturer works with customers and partners to design and build products, solutions and ecosystems and technologies that enable smarter mobility, more efficient power and energy management, and the wide-scale deployment of the Internet of Things and 5G technology.

http://www.st.com

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QBix-Pro is first 5G-enabled embedded computing system, claims Gigapic

Mon, Jul 20, 2020

Believed to be the first 5G-enabled embedded computing system, the QBiX-Pro-KBLB7100HD-A1 has been announced by Gigapic.

The fanless embedded computer is based on an Intel Core i3-7100U processor and has two DDR4 SO-DIMM sockets and a maximum capacity of 32Gbytes. It also has a dual channel DDR, operating at 2133MHz.

For wireless communication support, the QBiX-Pro-KBLB7100HD-A1 has one M.2 slot for Wi-Fi and Bluetooth and an M.2 slot for 3G, 4G and 5G networks.

It measures 160 x 118 x 62.6mm and is certified to IEC 60068-2-64, IEC 60068-2-6 and IEC 60068-2-27.

The industrial computer control system supports 5G communication modules and has been verified by Taiwan’s main mobile carrier, Chunghwa Telecom’s 5G field test.

The I/O interface will enable a selection of industrial applications, such as factory automation, smart transportation, smart retail, medical, and IoT edge computing. As well as operational efficiency and service quality required for 5G, Gigapic says it will provide customers the flexibility to arrange internal workspaces without the need for wired internet access.

A 5G embedded PC will aide industry 4.0 functions, such as machine vision, automated guided vehicles (AGVs) and factory automation.

Benefits of 5G networks over existing 3G and 4G ones include low latency, more bandwidth with higher frequencies and faster connection times. The connectivity through a fast, reliable network which protects privacy and security issue, will enable smart cities and smart transportation, remote medical care and wirelessly connected industrial devices and high-quality video streaming, explains Gigapic.

The low latency and high-frequency bandwidth are especially helpful in industrial applications, requiring machine vision and automation, Giagapic envisages.

The ability to transmit large amounts of data quickly will allow cloud-enabled information centres to optimise the manufacturing process via data analysis of everyday processes, continues the company.

Gigapic is a subsidiary of Gigabyte. It was established in 2018 as an independent IPC-focused spin-off from Gigabyte. The company’s R&D department enables it to keep pace with today’s technology, providing standardised off the shelf products and customised products, service and support to system integrators, OEMs and ODMs.

http://www.gigaipc.com

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Magnachip launches 5G-ready smartphone DDICs

Thu, Jul 16, 2020

MagnaChip has expanded its high frame rate (HFR) display driver integrated circuit (DDIC) range for organic light emitting diode (OLED) smartphone displays.

HFR technology improves the image quality of any screen by increasing the number of frames (images) used per second. For 5G smartphones, it is vital, argues Magnachip, as it means a vivid and smooth visual experience for users.

The company has been producing HFR OLED smartphone DDICs since 2018, when it introduced a 120Hz HFR DDIC for FHD+ (full high definition+) OLED smartphone displays. All of MagnaChip’s HFR OLED products support 144Hz for FHD+ displays and 120Hz for QHD+ (quad high definition+) displays.

MagnaChip Semiconductor designs and manufactures analogue and mixed-signal semiconductors for communications, IoT, consumer, industrial and automotive applications. The company provides a broad range of standard products and manufacturing services to customers worldwide.

With more than 40 years’ of operating history, MagnaChip owns a portfolio of approximately 2,950 registered patents and pending applications, and has extensive engineering, design and manufacturing process expertise.

http://www.magnachip.com

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Multi-sensor module is for developers with the IoT bug

Thu, Jul 16, 2020

SmartBug is an intelligent multi-sensor IoT module by TDK. The InvenSense module combines TDK’s MEMS sensors and precision algorithms in a simple, wireless unit.

It is designed as a dedicated source of smart sensor data for a range of IoT applications from smart homes and appliances to wellness monitoring.

The module enables quick and easy access to reliable and smart sensor data without the need for programming, soldering or extra modifications, says TDK. The SmartBug integrates TDK’s six-axis IMU (gyroscope and accelerometer) with magnetometer, pressure, temperature, humidity and ultrasonic sensors and high-precision algorithms. These algorithms include sensor fusion, HVAC filter monitoring, asset monitoring, gesture detection, activity classification, air mouse monitoring and smart door open/close detection.

The SmartBug module enables accurate and remote monitoring via both Bluetooth Low Energy (BLE) and Wi-Fi and provides autonomous SD card data logging capability for IoT applications with large data volumes.

The SmartBug is small with a flat base and is designed to be placed almost anywhere, from a simple door to an industrial robot for remote data collection. The module can be used by product developers across consumer and commercial IoT applications, advises InvenSense, a TDK Group company.

InvenSense partners Nordic Semiconductor, AKM, Sensirion, and Espressif Systems provide an ecosystem set of components that enable multiple key features within the SmartBug module.

Nordic Semiconductor’s low power microcontroller with BLE 5.2 acquires multi-sensor data from the SmartBug and runs all supported algorithms. It enables streaming of smart sensor data via both USB and BLE, and provides over the air (OTA) firmware upgrades and support for add-on cards with SD card logging and ultrasonic sensors.

The WiFi chip from Espressif Systems expands the wireless data streaming and logging capabilities of SmartBug to higher throughput (up to 2KHz) and long ranges.

AKM’s magnetometer enables multiple features including compass data collection, nine-axis sensor fusion for accurate orientation heading and magnetic anomaly detection for asset monitoring applications in SmartBug.

SmartBug also leverages the humidity and temperature sensor from Sensirion for data streaming and logging, humidity and temperature-based events for asset monitoring applications.

The SmartBug sensor module is currently stocked at TDK’s distribution partners including Arrow, Avnet, DigiKey, Mouser, Symmetry and Components Distributors.

http://invense.tdk.com

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