Displays & LED

Display Technology adds Aaeon’s Boxer-8221AI to linecard

Mon, Oct 03, 2022

The latest box PC designed by Aaeon which is powered by Nvidia’s Jetson Nano for AI applications.

The Boxer-8221AI Box PC is intended for mid-level deployment of AI and edge computing applications, confirmed the company. The Jetson Nano SoC combines the quad-core Arm Cortex-A57 MPCore processor with Nvidia Maxwell GPU architecture featuring 128 Nvidia Cuda cores.

The fanless embedded Box PC allows processing speeds up to 472GFLOPs (floating operations per second) and is capable of operating multiple neural networks or processing several high resolution images at the same time. The Nvidia Jetson Nano also provides the Boxer-8221AI with 4Gbyte RAM and 16Gbyte eMMC storage.

The Boxer-8221AI is certified to CE and FCC class A. It has one LAN and two RS-232 ports as well as one M.2 E-Key 2230 port for Wi-Fi.

The power input is 12V DC.

Established in 1996 as Display Solutions and acquired by Display Technology in September 2018, the UK subsidiary of Fortec Elektronik. Display Technology delivers the latest technical innovations in displays, touch screens and embedded computing backed by services from initial consultation through to sample design, volume manufacturing and immediate-response after-sales support. 

In the UK, the company specialises in embedded computing market sectors, including industrial instrumentation and control, transportation, retail/point of sale, outdoor signage, medical, marine, audio and lighting control and energy management.

http://www.displaytechnology.co.uk

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IoT LED streetlight controller shines a light on smart cities

Fri, Apr 22, 2022

Infrastructure specialist, Urban Control has partnered with Nordic Semiconductor to produce an IoT LED streetlight luminaire controller that can be networked for control by any central management system (CMS) based on the TALQ standard, the smart city standard developed by the TALQ Consortium.

Set for initial deployment in April 2022, each Urban Node 324 Cellular city streetlight LED luminaire controller includes a Nordic Semiconductor nRF9160 multi-mode NB-IoT / LTE-M system-in-package (SiP). The controller plugs into an industry-standard Zhaga LED lighting socket. The controller is connected over the local cellular IoT network and remotely controlled by any smart city CMS.

The operational simplicity of each Urban Node 324 comes from them being engineered to work via a lightweight machine to machine (LwM2M) platform called Alaska from IoTerop. The platform leverages the two most common smart city IoT standards: uCIFI and TALQ and uses embedded design engineering to minimise on-air bandwidth and reduce power consumption to levels sufficient to support battery-powered smart city sensors and devices.

The use of standard cellular technology means that Urban Node 324 Cellular can be deployed immediately and is cost-effective for small and distributed lighting estates. It can be used to deliver intelligent control to streetlights in retail parks, hotel chains, office and warehouse developments, and across rail infrastructure such as stations, car parks and good yards.

Urban Control Urban Node 324 Cellular controllers allow the user the ability to precisely control brightness and therefore energy consumption and costs. It has the ability to dynamically respond to sudden changes in pedestrian numbers or road traffic, to monitor energy consumption in real-time and identify and even pre-empt faults to efficiently co-ordinate maintenance staff to reduce operating costs.

Intelligent, centrally controlled streetlights offer many benefits. Light output can be adapted to precisely what is needed, and they can respond dynamically to changes in pedestrian footfall or road traffic. In doing so, they reduce energy costs, carbon emissions and light pollution.

“Unlike traditional smart city lighting installations that require a specialised network to be built, the Urban Node 324 Cellular works straight out-of-the-box just like a smartphone,” says Miguel Lira, Urban Control’s innovation and development director. “This makes it commercially and technologically viable for any size installation because it does not require the operator to build their own wireless IoT network or become a wireless IoT network operator themselves.” The system is scalable with the capability to be used for small clusters of streetlights all the way up to massive, multi-million node capital city-sized installations, he says. “This is truly a game changer in the smart city streetlighting industry.”

Lorenzo Amicucci, business development manager at Nordic Semiconductor, agrees. “Moving away from proprietary solutions towards devices which are ready straight out of the box and leverage cellular networks that are already deployed in every town, city and significant population centre around the world, devices like Urban Node 324 can make anywhere smart more quickly and for less cost.” 

https://www.nordicsemi.com

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LED installation beacon is available in seven colours

Tue, Mar 08, 2022

Available in a choice of seven colours, the LED installation beacon 240 Multicolour has UL approval and is rated IP69K, the highest protection rating, said Werma Signaltechnik.

The compact LED installation beacon also has UL approval required for the USA. Colour options are red, yellow, green, white, blue, purple and turquoise.  The UL certification enables it to be used worldwide, conforming to the safety regulations of the USA and Canada.

The IP69K standard is the highest protection class for electrical equipment, guaranteeing protection against solid objects, liquids, steam and dust. Water penetration is not possible, even at short distances, very high pressure, and high temperatures, ensuring it can be used with high-pressure systems.

Typical application examples are the mobile machinery, food processing, pharmaceutical and petrochemical industries, where all equipment must meet washdown requirements and be regularly exposed to high-pressure water jets.

The LED installation beacon 240 Multicolour combines a large, bright and attention-grabbing illuminated surface with excellent visibility and robustness. It has a diameter of 55mm and rises just 46mm above the surface when installed, making it suitable for use where installation space is limited.

The seven colours allow it to be used in a variety of ways. For example to signal malfunctions or statuses at the control console of a machine, in the machine housing or on control cabinets. The compact size means it is suitable for automation applications.

The LEDs signal is clearly visible from all angles, said Werma, yet thanks to the frosted dome, the light effect is pleasant and homogenous. The efficient installation beacon needs only 40 to 130mA, depending on the variant.

The beacon can also be supplied in combination with a buzzer which emits a 3,400Hz pulse tone signal with a volume of 85dB.

The M30 installation size means the signal device can be easily mounted. Bit-encoded controlling allows the three basic colours green, yellow and red to be displayed using just two PLC outputs. With additional outputs, blue, turquoise, violet and white can also be activated.

The beacon has a long service life of up to 50,000 hours, added Werma.

http://www.werma.com

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Magnachip expands OLED DDIC for automotive displays

Mon, Jan 10, 2022

Organic light-emitting diode (OLED) display driver integrated circuits (DDICs) from Magnachip now include models for automotive displays. 

The company has responded to an increase in demand for automotive semiconductors required for electric vehicles (EVs), autonomous driving and connected cars and their infotainment and safety systems. OLED panels offer image quality, high visibility and fast response times.

Magnachip is developing an OLED DDIC for automotive systems’ centre stack and instrument cluster displays, based on its 40nm process technology. The next-generation DDIC supports a wide range of resolutions including FHD (full high definition) and is suitable for both rigid and flexible OLED displays. The DDIC will integrate source drivers, gate drivers and timing controllers in a single chip. This feature will enable the production of cost-effective display panels consisting of fewer components, says Magnachip. 

Market research company, Omdia, expects the automotive display market to grow from $8.2 billion in 2021 to $9.7 billion in 2025. The revenue of global automotive OLED panel market reached $117 million in 2021 and it is expected to increase approximately 350 per cent to $524 million in 2025, says the company.

YJ Kim, CEO of Magnachip, believes: “Vehicles incorporating displays based on our next-generation OLED DDIC technology represents another step in improved safety, functionality and convenience for consumers.”  

The company plans to supply the new product to premium European car manufacturers in the first half of 2023.

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 to customers worldwide. It has more than 40 years of operating history and a portfolio of approximately 1,200 registered patents and pending applications, together with extensive engineering, design and manufacturing process expertise. 

http://www.magnachip.com 

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