Page 346 – Electronics-Lab.com

New OLED architecture has 10,000 PPI resolution

Posted on 26 October, 2020 by mixos

Researchers at Samsung in Korea and Stanford University in the US have developed and patented a new architecture for OLED displays with resolution up to 10,000 pixels per inch (PPI). by Nick Flaherty @ eenewsembedded.com

The design uses adapted an electrode ultra-thin solar panels with a base layer of reflective metal with nanoscale corrugations, called an optical metasurface.

The metasurface can manipulate the reflective properties of light and thereby allow the different colours to resonate in the pixels. These resonances are key to improving the light extraction from the OLEDs.

Compared to OLED displays in today smartphones with resolution of 500PPI, the metaphonic pixel array will be able to provide brighter and better colour accuracy for virtual reality displays.

“We’ve taken advantage of the fact that, on the nanoscale, light can flow around objects like water,” said Mark Brongersma, professor of materials science and engineering at Stanford who worked with Won-Jae Joo at the Samsung Advanced Institute of Technology (SAIT). “The field of nanoscale photonics keeps bringing new surprises and now we’re starting to impact real technologies. Our designs worked really well for solar cells and now we have a chance to impact next generation displays,” he said.

The metasonic OLED offers an alternative to the two types of OLED displays that are currently commercially available. Red-green-blue OLEDs have individual sub-pixels that each contain only one colour of emitter. These are fabricated by spraying each layer of materials through a fine metal mesh to control the composition of each pixel. They can only be produced on a small scale.

Larger devices such as TVs use white OLED displays where each of the sub-pixels contains a stack of all three emitters and then relies on filters to determine the final sub-pixel colour. This is easier to fabricate but are more power-hungry as the filters reduce the overall output of light.

In conventional RGB-OLEDs, the different frequencies mean red sub-pixels have a different height from the blue emitters. This means materials deposited above the emitters have to be laid down in unequal thicknesses to create a flat screen. By contrast, the base layer corrugations in the metasonic OLEDs allow each pixel to be the same height for a simpler manufacturing process.

In lab tests, the researchers successfully produced miniature proof-of-concept pixels. Compared with colour-filtered white-OLEDs, the pixels had a higher colour purity and twice the luminescence as well as pixel density of 10,000 per inch.

The next steps for integrating this work into a full-size display is being pursued by Samsung.

www.stanford.edu

BOXER-8250AI: The Solution Built for Powering AI Edge Computing

Posted on 26 October, 202027 October, 2020 by mixos

The BOXER-8250AI brings the power of NVIDIA® Jetson Xavier™ NX in a flexible edge computing system built for AI acceleration.

AAEON, a leader in AI edge solutions, announces the release of the BOXER-8250AI AI Edge box PC powered by NVIDIA® Jetson Xavier™ NX. With a rugged design and I/O layout featuring five Gigabit Ethernet ports, the BOXER-8250AI is perfect for powering edge networks and deploying intelligent applications from mask detection to virtual fences.

The BOXER-8250AI is powered by the innovative Jetson Xavier NX from NVIDIA. Featuring a six-core 64-bit ARM processor, it boasts 384 CUDA® cores, 48 Tensor Cores, and two NVDLA engines capable of running multiple neural networks in parallel, delivering accelerated computing performance up to 21 TOPS. Built to bring dedicated AI processing to the edge, the system also features 8GB of LPDDR4 memory and 16GB of onboard eMMC memory that’s expandable through the Micro-SD card slot.

The key feature of the BOXER-8250AI is its five Gigabit Ethernet LAN ports, designed to interface with high-speed cameras without delay or compromise of stream quality. Each port is designed to deliver 1 Gbps speeds individually, maximizing overall quality of performance. With the power of the NVIDIA Xavier NX SoC, the BOXER-8250AI can process multiple inputs and inferences in parallel, allowing a single BOXER-8250AI system to provide wider coverage and greater control wherever it’s deployed. The system also features four USB 3.2 Gen 1 ports and two COM ports allowing flexibility in connecting devices to the system.

AAEON brings industry leading embedded computing design to the BOXER-8250AI, creating an embedded AI Edge system that’s built to deploy just about anywhere. Fanless design keeps dust and other particles out, helping the system to run reliably and reduce maintenance costs. The system also offers wide operating temperature range, providing consistent computing performance in temperatures from -10°C all the way to 65°C.

“The BOXER-8250AI powered by NVIDIA Jetson Xavier NX offers users and developers a rugged, flexible platform built to handle multiple inferences or more intensive ones,” said Alex Hsueh, Senior Director of AAEON’s System Platform Division. “With its I/O layout, the BOXER-8250AI is perfect for connecting with IP cameras and increasing coverage area for smart security applications, such as virtual fences or monitoring crowds for fevers and compliance with face mask requirements.”

more information: https://www.aaeon.com/en/p/ai-edge-solutions-nvidia-jetson-xavier-nx-boxer-8250ai

The New Coral Dev Board is Powered by MediaTek

Posted on 26 October, 2020 by Rik

At the beginning of this year, we saw Google’s announcement of a stripped-down Coral Dev Board Mini and Coral Dev Board implementing their in-house 4-TOPS Edge TPU. Now Seeed has come with $100 pre-orders on the Mini along with a pre-soldered Coral Accelerator Module. Shipment is expected at the end of October 2020.

The new Coral Dev Board Mini is powered by MediaTek 8167s SoC accompanied by the new solderable Edge TPU module. Like the Coral Dev Board, the Mini version runs Google’s version of Debian Linux called Mendel. The power-efficient MediaTek 8167s is equipped with 4x Cortex-A35 cores and an Imagination PowerVR GE8300 GPU. The processor is comparable with its superior siblings, the MediaTek 8167a and 8167b. The SoC adds comprehensive audio interfaces such as I2S and 8-channel TDM input and output. The MediaTek 8167s adds the support for 1280 x 800-pixel displays and H.264, H.265, and HEVC decoding. It also offers a 12MP camera ISP and H.264 encoding.

The Coral Dev Board Mini, as the name suggests, it is designed as an evaluation platform for the new Acceleration Module. The Edge TPU is designed to run TensorFlow Lite ML and AutoML Vision Edge models for high-speed ML inferencing on low-powered Arm Linux systems. The Edge TPU runs at 4 TOPS using 0.5 watts for each TOPS (2 TOPS per watt). On a side note, AutoML is a library of fast, high-accuracy custom image classification models.

The Coral Dev Board Mini has a dimension of 64 x 48mm. It comes with 2GB LPDDR3 and 8GB eMMC. It has a dual USB 2.0 Type-C ports and a micro-HDMI 1.4. The Mini provides 802.11ac with Bluetooth 5.0, 4-lane MIPI-DSI, and -CSI2 FFC connectors. It also has a 40-pin GPIO connector and a 3.5mm audio jack.

Specs for the Coral Dev Board Mini

Processor: MediaTek 8167s (4x Cortex-A35); Imagination PowerVR GE8300 GPU; separate Edge TPU AI chip via Coral Accelerator Module
Memory: 2GB LPDDR3; 8GB eMMC
Networking: 802.11ac with Bluetooth 5.0
Media I/O Port:
- Micro-HDMI 1.4 port
- 4-lane MIPI-DSI via FFC
- 4-lane MIPI-CSI2 via FFC
- 3.5mm audio jack
- Digital PDM mic
- 2-pin speaker terminal
Other I/O Port:
- 2x USB 2.0 Type-C ports with power input support
- 40-pin GPIO header
Dimensions: 64 x 48mm
OS Support: Mendel Linux (Debian based)

The Coral Dev Board Mini, Currently on preorders for $99.99 at Seeed and Google. Shipments are due from Seeed starting October 31.

New Study shows Rare form of Magnetic and Electrical Property in stack-twisted Graphene

Posted on 26 October, 2020 by Rik

A group of scientists at Columbia University and the University of Washington has found unique electronic states along with an uncommon kind of magnetism, can develop in a three-layer graphene structure.

The work was inspired by current research studies of twisted monolayers or twisted bilayers of graphene, making up either 2 or 4 overall sheets. These results were discovered to treat a range of uncommon electronic states driven by strong interactions between electrons.

We wondered what would happen if we combined graphene monolayers and bilayers into a twisted three-layer system,

stated Cory Dean, a teacher of physics at Columbia University and among the paper’s senior authors.

We found that varying the number of graphene layers endows these composite materials with some exciting new properties that had not been seen before.

In addition to Dean, Assistant Professor Matthew Yankowitz and Professor Xiaodong Xu, both in the departments of physics and product science and engineering at the University of Washington, are senior authors on the work. Columbia college student Shaowen Chen, and University of Washington college student Minhao He is the paper’s co-lead authors.

To conduct the experiment, the scientists stacked a monolayer sheet of graphene onto a bilayer sheet and twisted them by about 1 degree. At temperature levels a couple of degrees over, the group observed a range of insulating states and which do not carry out electrical energy, but they are driven by strong interactions between electrons. They also discovered that these states can be managed by using an electrical field throughout the graphene sheets.

We learned that the direction of an applied electric field matters a lot,

stated Yankowitz, who is likewise a previous postdoctoral scientist in Dean’s group.

On the other hand, when the scientists pointed the electrical field towards the monolayer graphene sheet, the system looked like twisted bilayer graphene. But when they put the direction of the electrical field towards the bilayer graphene sheet, it resembled twisted double bilayer graphene—the four-layer structure.

Besides, the group found completely new magnetic statesin the twisted system. Unlike standard magnets, which are driven by a quantum mechanical residential or commercial property of electrons called “spin“. As they observed, a collective twisting movement of the electrons in the group’s three-layer structure carries the magnetism.

“This is really just the beginning,” as stated Yankowitz, because they are dealing with the experiments to improve and understand the basic properties of the brand-new states they found in this research.

More information can be found in this research paper.

Espressif Systems ESP32-S2-WROVER generic Wi-Fi MCU

Posted on 26 October, 2020 by mixos

ESP32-S2-WROVER is a powerful, generic Wi-Fi MCU module that has a rich set of peripherals

ESP32-S2-WROVER is a powerful, generic Wi-Fi MCU module that has a rich set of peripherals. This module is an ideal choice for a wide variety of application scenarios relating to the Internet of Things (IoT), wearable electronics, and smart home.

At the core of this module is ESP32-S2, an Xtensa® 32-bit LX7 CPU that operates at up to 240 MHz. ESP32-S2 integrates a rich set of peripherals, including SPI, I²S, UART, I²C, LED PWM, ADC, DAC, touch sensor, temperature sensor, and up to 43 GPIOs. It also includes a full-speed USB On-The-Go (OTG) interface to enable USB communication.

Key features

Unparalleled security for your connected devices
Helps you build connected low-power devices
Build whatever you like with its rich IO capabilities
Cost-effective

Additional features

MCU:
- Embedded ESP32-S2, with Xtensa® single-core 32-bit LX7 microprocessor, up to 240 MHz
- 128 KB ROM
- 320 KB SRAM
- 16 KB SRAM in RTC
Hardware:
- Interfaces: GPIO, SPI, LCD, UART, I2C, I2S, Camera interface, IR, pulse counter, LED PWM, USB OTG 1.1, ADC, DAC, touch sensor, temperature sensor
- 4 MB SPI flash. (The module with 8 MB flash or 16 MB flash is available for a custom order.)
- 2 MB PSRAM
- Operating supply voltage: from 3.0 to 3.6 V
- Operating temperature range: from -40 to 85 °C
Wi-Fi:
- 802.11 b/g/n
- Bit rate: 802.11n up to 150 Mbps
- 0.4 μs guard interval support
- Operating frequency range: 2412 to 2484 MHz

more information: https://www.espressif.com/sites/default/files/documentation/esp32-s2-wrover_esp32-s2-wrover-i_datasheet_en.pdf

Espressif Systems ESP32-WROOM-32E generic Wi-Fi+BT+Bluetooth LE MCU

Posted on 26 October, 2020 by mixos

ESP32-WROOM-32E integrates ESP32-D0WD-V3 and has higher stability and security performance

ESP32-WROOM-32E integrates ESP32-D0WD-V3 and has higher stability and security performance. It is a powerful, generic Wi-Fi+BT+BLE MCU module that targets a wide variety of applications, ranging from low-power sensor networks to the most demanding tasks, such as voice encoding, music streaming, and MP3 decoding.

Key features

Extra security against Fault Injection Attacks
Robust & Compact Design
Ultra-low power consumption
Optimized Layout

Additional features

MCU:
- ESP32-WROOM-32E contains a dual-core Xtensa^® 32-bit LX6 MCU.
- 448 KB of ROM for booting and core functions.
- 520 KB of on-chip SRAM for data and instructions.
- 8 KB of SRAM in RTC, which is called RTC FAST Memory and can be used for data storage; it is accessed by the main CPU during RTC Boot from the Deep-sleep mode.
- 8 KB of SRAM in RTC, which is called RTC SLOW Memory and can be accessed by the co-processor during the Deep-sleep mode.
- 1 Kbit of eFuse: 256 bits are used for the system (MAC address and chip configuration) and the remaining 768 bits are reserved for customer applications, including flash-encryption and chip-ID.
Hardware:
- Module interfaces: SD card, UART, SPI, SDIO, I²C, LED PWM, Motor PWM, I2S, IR, pulse counter, GPIO, capacitive touch sensor, ADC, DAC
- 4 MB SPI flash
- Operating supply voltage: 3.0 V to 3.6 V
- Recommended operating temperature range: -40 °C to +85 °C
Wi-Fi:
- Protocols: 802.11 b/g/n (802.11n up to 150 Mbps); A-MPDU and A-MSDU aggregation and 0.4 µs guard interval support
- Frequency range: 2.4 GHz ~ 2.5 GHz
Bluetooth:
- Protocols: Bluetooth v4.2 BR/EDR and BLE specification
- Radio: NZIF receiver with –97 dBm sensitivity; Class-1, class-2, and class-3 transmitter; AFH
- Audio: CVSD and SBC
Certification:
- Bluetooth certification: BQB
- Wi-Fi certification: Wi-Fi Alliance
- RF certification: FCC/CE-RED/SRRC/IC/MIC
- Green certification: REACH/RoHS

more information: https://www.espressif.com/sites/default/files/documentation/esp32-wroom-32e_esp32-wroom-32ue_datasheet_en.pdf

New WL-SMTW Series LEDs Emit Light of Wavelengths 450, 660 and 730 nm

Posted on 26 October, 202026 October, 2020 by mixos

SMT mountable LEDs in a 2835 package extend Würth Elektronik extensive range of horticulture LEDs. The three WL-SMTW series LEDs emit light of the wavelengths 450 nm (Deep Blue), 660 nm (Hyper Red) and 730 nm (Far Red) – ideal for applications controlling plant growth through specific light mixtures. Besides vertical farming and lighting in greenhouses, thanks to their efficiency, small size and minimal heat generation the WL-SMTWs, combined with the manufacturer’s other LEDs are also suitable for classic LED applications like displays and backlighting.

A photosynthetic photon flux of up to 0.94 µmol/s at a current of just 150 mA, and the small size (2.8 x 3.5 x 0.8 mm) mean you don’t even need three mid-power LEDs to replace a high-power LED. This allows larger-scale and more homogeneous lighting applications to be realized. With its Development Kit, Würth Elektronik is there for the developers of horticultural lighting solutions, to whom the WL-SMTW product is particularly directed. In the REDEXPERT online simulation platform there is a “Horticulator” in which lighting recipes can be created (https://redexpert.we-online.com/redexpert/#/smodule/26). All Würth Elektronik LEDs are available from stock. Free LED samples are provided.

Cooperation with research institutions

“Our new LED series offers excellent value for money and high luminosity – the Deep Blue LED is unique on the market in this respect,”

Harun Özgür, Division Manager, Optoelectronics at Würth Elektronik eiSos GmbH & Co. KG expresses his satisfaction about the new addition to horticulture LED range (http://www.we-online.com/leditgrow).

Johann Waldherr, agricultural scientist in Würth Elektronik’s LED team, explains: “The blue light plays a role in many plant processes, such as the formation of secondary metabolites. The illumination with spectra individually created from the different wavelengths of monochromatic LEDs becomes even more efficient with the new mid-power LEDs, yet at the same time more homogeneous.

These three LEDs form a basic framework in combination with other LEDs of the WL-SMTW, WL-SWTP and WL-SMDC series, so it is possible to create specific lighting recipes for a wide range of the horticulturist’s quality parameters, such as more blossoms, more fruit, more biomass, more vitamins, and so on. As our partners’ innovation partner, we conduct intensive research and we have established a competence network with research institutions, sharing our knowledge with our customers.

For example, Würth Elektronik maintains research cooperations with the Dürnast Greenhouse Laboratory Center at the Technical University of Munich along with other research institutions.

Further information at www.we-online.com

PICKitPlus now runs on Linux – The software that uses the Microchip PK2 and PK3 to program new and legacy microcontrollers from Microchip.

Posted on 26 October, 2020 by mixos

We are very pleased to announce the release of the Linux version of PKCMD: PKCMD-LX. This is the Personal Computer version, designed to run on flavours of Linux, both 32 and 64 bit. This was a huge investment by us. But, these are exciting developments for the software as it shows what can be with the PK2 and PK3 programmers!

PKCMD-LX can be used for reading and writing Microchip’s PIC range of microcontrollers, using the Pickit 2 or Pickit 3 device programmers. PKCMD-LX provides the best experience for the Linux user, developers and the professional developer community, and as a command-line utility is can be easily integrated into users scripts.

Distribution

PKCMD-LX is distributed as an AppImage. Using an AppImage enables the development team to provide native binaries for Linux users the same way we do for other operating systems. An AppImage enables the development team to package the PKCMD-LX application for common Linux operating systems, e.g., Ubuntu, Debian, openSUSE, RHEL, CentOS, Fedora etc.

The PICKitPlus AppImage comes with all dependencies that cannot be assumed to be part of each target system and will run on most Linux distributions without modifications.

Almost all major distributions are compatible with AppImages, without requiring the user to make modifications to the base system. AppImages are portable. Users can place the AppImage on a USB flash drive and run it from there, on any machine, as the users wish.

Supported Linux Distributions

Distributions known to be compatible version require libc, and these include:

Arch 2011.08.19
CentOS 7.8.2003 (released in 2020)
Debian 7 (Wheezy)
Fedora 15 (Lovelock)
Gentoo 11.2
Mint 11 (Katya)
openSUSE 12.1
Slackware 13.37
Ubuntu 11.04 (Natty)

Distributions that do not use libc (such as Abyss, Alpine, Sabotage, Vanilla and Void) will not run PKCMD-LX.

Free Compatibility-test Program

A compatibility-test program is available free of charge on our website: Download our free download to see if the full product is compatible with the target computer and Operating System: http://www.pickitplus.co.uk/distros/open/pkcmd-lx-compatibility-test.tar.gz

Get the software

Visit our website www.pickitplus.co.uk to obtain the software, and, to get the latest part database see: https://github.com/Anobium/PICKitPlus

TI Release TPS62912, TPS62913 family of low-noise DC/DC Switching Regulators

Posted on 23 October, 2020 by mixos

Texas Instruments released the TPS62912 and TPS62913 family of low-noise DC/DC switching regulators with integrated ferrite-bead compensation. They offer low noise of 20 µV_RMS for frequencies ranging from 100 Hz to 100 kHz and ultra-low output-voltage ripple of 10 µV_RMS.

Traditional low-noise power supply architectures include such technology like DC/DC converters, low-noise LDO, and an off-chip filter, like a ferrite bead. Integrating ferrite-bead compensation allows the TPS62912 and TPS62913 to use the already present ferrite bead as a filter against high-frequency noise and reduce power supply output voltage ripple by upwards of 30 dB.

Further, both converters offer a power-supply rejection ratio of 65 dB at up to 100 kHz. They also enable spread-spectrum frequency modulation to advance attenuate radio-frequency spurs. In addition to this, the TPS62912 and TPS62913 allow synchronization to an external clock, providing the ability to meet signal-to-noise ratios and spurious-free dynamic range targets.

Featuring a peak efficiency of 97%, the converters allow for engineers to design for noise filtering without an LDO. This reduces power losses by up to 76% and 1.8 W in analog front-end (AFE) designs and 1.5 W in designs using a wideband ADC.

For more information, visit www.ti.com/TPS62912-pr or www.ti.com/TPS62913-pr

New LG NeON 2 ACe Solar Module Features Integrated 320 W Microinverter

Posted on 23 October, 2020 by mixos

LG Electronics USA is introducing the LG NeON® 2 ACe, the latest AC solar module featuring LG’s own integrated microinverter designed for easy installation, monitoring and use. The new addition to LG’s best-selling NeON 2 lineup, available now, builds on LG’s extensive array of solar products, providing homeowners and installers with a wide selection of options tailored for each individual home or building.

The LG NeON 2 ACe is an ideal solution for those seeking high-efficiency and performance along with a faster installation process. This new 60-cell panel features a power class of up to 365W, along with its integrated 320W microinverter. The new NeON 2 ACe panel is the second module within LG Solar’s advanced portfolio that features an integrated microinverter (following the LG NeON R ACe launched at last year’s Solar Power International). LG’s one-stop-shop solution benefits installers and homeowners alike.

The design of LG’s new smart AC system allows for the factory-installed microinverter to be recessed into the frame of the panel and serve as one unit in conjunction with the junction box. The panel offers a straightforward installation, simplified accessories and no exposed DC connections. From an installation perspective, this design not only reduces Balance of System requirements compared to a typical inverter that might clutter a garage or outside walls, but it also reduces the opportunity for field installation errors.

The LG NeON 2 ACe additionally provides increased flexibility for array designs and is an excellent solution for homeowners and installers, saving them time and money throughout the installation process.

The LG NeON 2 ACe has been designed with aesthetics in mind using thin, circular-shaped wires that give it a minimalistic appearance, thanks to its award-winning Cello technology. The implementation of this technology also improves the opportunity for light absorption resulting in an increase of power output. The new panels provide a sleek appearance on the end user’s home or building.

LG’s NeON 2 ACe panels are the only solar products manufactured and backed by a single company offering a 25-year limited warranty, which covers workmanship, performance, and a labor cost reimbursement (up to $450). End users can feel confident using a trusted brand for their project. Because the microinverter is built onto the solar panel, warranty claims are handled by changing the entire module instead of replacing sub-components or attempting field fixes. This eliminates time spent diagnosing panel or inverter issues.

NEW NeON 2 ACe SPECIFICATIONS:

Monocrystalline N-type cell
Power class up to 365 watts
66.93 x 40.00 x 1.57 in (1,700 x 1,016 x 40mm)
43 lbs. (19.5kg)
Tempered Glass with High Transmission Anti-Reflective Coating
NEMA 250 Type 6 Microinverter Enclosure
Built-in LG Microinverter High-level Output (DC 365W, AC 320W)
21.1% Module Efficiency, Microinverter Efficiency 97% (based on CEC standards)
-0.34%/℃ Temp. Coefficient
25-year Limited Product Warranty
90.1% Performance Warranty (25 years)

The LG NeON 2 ACe also includes a lifetime access to LG’s EnerVu monitoring platform so both customers and installers can track the long-term reliable performance and the real-time analytics of their solar system. It can also alert LG customer service to help address a technical issue remotely if one were to arise.

“With more and more people continuing to work from home, homeowners increasingly are turning to solar as a smart investment that puts their home to work for them, offsetting high utility bills,” said Brian Lynch, head of solar business development, LG Business Solutions USA.

“Our research shows that, when making such a seminal investment, the most important factors to homeowners are brand reputation, warranty and product variety for different scenarios,” he added. “LG provides our customers the peace of mind that they’re investing in a product backed by years of experience, manufactured under stringent research and development, and with an industry-leading warranty.”

For more information on LG’s NeON 2 ACe and its portfolio of solar solutions, please visit LG.com/solar.