Weartech-ICs & Semiconductors

ToF sensors advances use less energy or double range

Mon, Jun 13, 2022

Metasurface lens technology is introduced by STMicroelectronics in its second generation, FlightSense multi-zone direct time of flight (ToF) sensor. The VL53L8 uses less energy and can range twice as far as existing products, said the company. 

The FlightSense ToF ranging sensor for smartphone camera management and augmented reality / virtual reality  (AR / VR) offers up to four metres in range in all zones indoors, while reducing the power consumption by half compared to the previous-generation device, operating in common conditions. 

The ToF sensor’s metasurface lens technology and power-efficient architecture reduces battery loading, extends camera autofocus ranging and enhances scene-understanding features, explained Eric Aussedat, executive vice president and general manager of the imaging sub-group within ST’s Analog, MEMS and Sensors group.

What is claimed to be the world’s first optical metasurface technology was developed in partnership with Metalenz. It enables optical systems to collect more light, provide multiple functions in a single layer and deliver new forms of sensing in smartphones and other devices, in the form factor of a single, compact package, added ST.

This second-generation ranging sensor incorporates an efficient optically diffractive metasurface lens technology, manufactured at the company’s 300mm fab in Crolles, France. The VCSEL driver is three times more capable than the previous generation with an efficient VCSEL, enabling the VL53L8 to deliver twice the ranging performance of earlier VL53L5 or reduce power consumption by 50 per cent, when operating in comparable conditions. It delivers this performance while maintaining the same field of view and discrete output-ranging zones (4×4 at 60 frames per second or 8×8 at 15 frames per second).

The module embeds a high output 940nm VCSEL light source, an SoC sensor with an embedded VCSEL driver, the receiving array of SPADs (single photon avalanche diodes) and a low power, 32-bit microcontroller core. 

The VL53L8 adopts a metasurface lens technology in both the transmit and receive apertures and delivers 16 or 64 discrete ranging zones with stable and accurate ranging, said ST.

The sensor is housed in a single reflowable component that offers 1.2V and 1.8V I/O compatibility for ease of system integration. It is also claimed to significantly reduce the host processor loading over the demands of the first-generation sensor.

Like all other FlightSense ToF proximity sensors, the VL53L8 retains an IEC 60825-1 Class 1 certification and is fully eye-safe for consumer products with an advanced lens detach detection system. 

The VL53L8 can be used in smartphones and tablets in both user-facing, like object tracking and gesture recognition, and world-facing applications, such as laser-autofocus, camera selection, touch-to-focus, and flash dimming. It is also suitable for accessories in personal electronics equipment (e.g. smart speakers and AR / VR and mixed reality (MR). The VL53L8 will deliver even greater benefit to these features in low-light conditions, said ST. It can also support indoor/outdoor detection and smart-focus bracketing, as well as consumer lidar, where depth mapping is required. 

The VL53L8 is entering mass production now for select customers. 

http://www.st.com

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Sensor tracks motion and orientation for IoT and metaverse

Fri, Jun 10, 2022

Sensor fusion for motion tracking, heading and orientation detection is provided by the FSP201 low power sensor hub microcontroller released by Ceva. It is designed for use in consumer robotics and smart devices which use motion tracking and orientation such as 3D audio headsets or XR (extended reality, or augmented, virtual and mixed reality) glasses. They can also be used in six-axis motion use cases across the IoT and the metaverse.

The FSP201 is based on Ceva’s proprietary MotionEngine sensor processing software and a low-power 32bit Arm Cortex M23 microcontroller. Manufacturers can choose from a pre-qualified list of external six-axis IMU (inertial measurement units) sensors (i.e. accelerometer plus gyroscope). These are from different sensor suppliers, thereby ensuring supply chain flexibility. The sensor options can be used to provide correction smoothing actions and auto-centring for example. The former corrects orientation drift slowly and transparently allowing head and body tracking by the user for an immersive XR or 3D audio experience, the latter dynamically recentres the soundstage in 3D audio applications based on a user’s gaze to maintain immersion in dynamic conditions and eliminate drift. Other options are sensors with tilt independent heading, which allows for proper heading output even when a robot’s driving surface is uneven, enabling rapid adjustment to obstacles or changes in flooring types and ones with inclination detection to provide three degrees of freedom robot orientation to detect surface issues that could cause the robot to become stuck or damaged.

Proprietary algorithms are able to monitor changes in sensor performance and temperature during live operation for dynamic calibration. Several low-cost MEMS sensors from leading suppliers are pre-qualified and have drivers pre-integrated to accelerate development and ensure supply chain flexibility, added Ceva.

The FSP201 is designed to be versatile, using I2C and UART interfaces for chip connectivity and can be placed directly on the target product’s main circuit board or designed into a separate module. It is also code-compatible with the BNO08X series of nine-axis sensor system in package (SiP) products. 

The FSP201 and evaluation tools are available for immediate sampling via designated distributors. 

https://www.ceva-dsp.com

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Sitara AM62 processors expand edge AI while cutting the power budget

Tue, Jun 07, 2022

Sitara AM62 processors have been released by Texas Instruments. The company said that they help expand edge artificial intelligence (AI) processing and the low power design enables support for dual-screen displays and small size human machine interface (HMI) applications. 

According to Texas Instruments (TI), the next generation of HMI will bring new ways of interacting with machines, such as enabling gesture recognition to give commands in a noisy factory environment or enabling the control of machines by phones or tablets with a wireless connection. The AM62 processors bring analytics to edge devices at low power, including suspend states as low as 7mW. There is also no need to design for thermal considerations, said TI, which can give engineers flexibility to deploy new capabilities in size-constrained applications or industrial environments. Adding edge AI features to HMI applications, including machine vision, analytics and predictive maintenance, can advance HMI beyond a mere interface to enable human-machine interaction. 

The AM62 processor starts at less than $5.00 to bring low-cost analytics to HMI devices with basic camera-based image processing and edge AI functions, such as detecting and recognising objects, said TI. AM62 processors also enable dual-screen, full HD displays and support for multiple operating systems, including Mainline Linux and Android operating systems. AM62 processors also support both wired and wireless connectivity interfaces. 

Additionally, the AM62 processors can reduce power consumption in industrial applications by as much as 50 per cent compared to competing devices, said TI. They can thus enable an application powered by AA batteries to remain on for over 1,000 hours. This is possible, said TI, due to a simplified power architecture. The device features only two dedicated power rails and five power modes. Deep sleep mode at less than 5mW enables longer battery life, while an active power of less than 1.5W is made possible by a core voltage of 0.75V. Reducing system power consumption extends battery life and helps engineers meet design requirements for handheld or size-constrained devices. Achieving optimal power performance is further simplified with the new TPS65219, a companion PMIC specifically designed to meet AM62 processor power supply requirements, said TI. 

There is a wide range of tools and resources for AM62 processors including multiple open-source software such as Mainline Linux, to simplify the application development process and help accelerate time to market. A hardware ecosystem includes a third-party evaluation module. 

The AM625 and AM623 processors are now available in a 13 x 13mm, 425-pin ALW package. It is available directly from TI and authorised distributors.

TI will showcase the AM62 processors and demonstrate system-level solutions for edge AI and electric vehicle charging HMI applications in at Embedded World in Nuremberg, Germany (21 to 23 June 2022) at its stand in Hall 3A #215.

http://www.TI.com

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Radio wave ranging sensor is sensitive enough for gesture initiation 

Mon, Jun 06, 2022

Radio wave ranging sensors announced by Socionext are able to detect minor movements in positional information for tracking. The SC1240 series radio wave ranging sensors use the 60GHz band and have a built-in signal processing circuit for detecting the position and movement of a person.

The sensor that complies with the global broadband 60GHz radio equipment standard. It is able to detect the position and movements of a person, said Socionext and its high precision sensing and built-in signal processing circuits use a 6.8GHz (57.1 ~ 63.9GHz) wide band to detect minor movements as positional information, enabling it to be used in advanced applications such as tracking human movements and operation by gestures.

The sensor has built-in range finding and angle calculating signal processing circuitry, believed to be the first in the industry. It is based on the company’s mmwave radio communication LSIs and 24GHz radio wave range finding sensors. 

The integrated SC1240 series uses 3D position information without the need for high frequency or advanced signal processing technology, claimed Socionext. It includes multiple antennas, wireless circuitry, ADCs, FIFO memory, SPI (serial peripheral interface), a sequencer that flexibly changes the duty cycle and controls power consumption, and a signal processing circuit for distance measurement and angle calculation. It also provides an autonomous activation function. These features allow users to easily obtain the height and positional data on the X, Y and Z planes for precision sensing actions such as the detection of multiple people or gesture without contact.

Average power consumption is 0.72mW at 0.1 per cent duty cycle operation, reported Socionext. The sensor is supplied in an FC-BGA measuring 4.0 x 7.0 x 1.2mm.

Sample shipments are scheduled for Q2 2022, and mass production in Q1 2023.

Socionext supplies SoCs for use in automotive, data centre, networking and smart devices.

Socionext Inc. is headquartered in Yokohama, and has offices in Japan, Asia, the United States and Europe.

Socionext Europe has headquarters is in Frankfurt, Germany with offices in Munich, Germany and Maidenhead, UK. The Munich Design and Support Centre specialises in embedded graphic, hardware and software product development for the automotive sector. The Maidenhead office in the UK supports Socionext’s IP Development & Engineering Centre with a focus on high speed data conversion IP. Socionext Europe offers customers a range of custom SoCs. 

http://www.socionext.com 

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