Dust settles on UK Ventilator Challenge

By Nick Flaherty www.flaherty.co.uk

Find out what actually happened with the UK Ventilator challenge over the last three months: Dust settles on the UK Ventilator Challenge

• UK LOOKS TO RAMP UP PRODUCTION FOR COVID-19

Over 5000 companies offering their support and over 7500 members of staff contributing to the effort. However there were companies without medical experience, such as excavator maker JCB, and other that had experience said they had no response to their offers of help:  SPEC SAYS TO CALL AN ELECTRONIC ENGINEER TO MEET BATTERY CHALLENGE

The challenge worked with the paraPAC from Smiths, and the Vivo65 and Nippy4+ from Breas Medical in Sweden, and helped guide one newly adapted model, the Penlon ES2, through regulatory approval. The CE approval for this has just been received, allowing the units to be exported to other countries that need ventilators.

Just over 10,000 units from Smiths and Penlon have been delivered, along with 4,000 from existing manufacturer Breas Medical . Over 2,500 have been imported from abroad. A shipment of 150 Vivo65 and Nippy4+ ventilator units arrived from Sweden in May.  

Four new designs were assessed as meeting the requirements of the UK’s medical regulator, the Medicines and Healthcare products Regulatory Agency. The Dyson/TTP CoVent, the Babcock Zephyr+, the Cambridge Consultants Veloci-Vent and the Swagelok Piran Vent were deemed to have achieved a performance level which met the MHRA’s requirements.

The independent testing organisation (MD-TEC) concluded that they would have all been clinically usable as pandemic ventilators. However these designs were not progressed to mass production as part of the Ventilator Challenge due to reduced demand, said the UK

There's lots of ventilator coverage on our dedicated page on ventilator technology and production which will still be updated

 

 

Email problems

By Nick Flaherty www.flaherty.co.uk

Hi - if you are having problems with emailing us, please use npflaherty@gmail.com - update: all fixed

While it has been quiet on the blog it hasn't out in the world - please see the ventilator and healthtech page for all our latest Covid-19 tech stories 

Many thanks

Zinc flow battery emerging ... 3D battery innovation ... 1mm thick electrolytic capacitor ... 4kW GaN eval board

Power news this week from eeNews Power By Nick Flaherty www.flaherty.co.uk

. Zinc flow battery startup eyes Europe


. World's largest cable maker to use IBM cloud


. $6m funding for Israeli 3D battery material firm

POWER TECH TO WATCH

. Flip chip gate driver package boosts power density


. Battery health sees 10x boost from AI

POWER PRODUCTS

. SIMO power management IC halves footprint

. 1mm thick form factor for aluminium electrolytic capacitor


. Transphorm, Microchip team for 4kW GaN AC-DC evaluation board


. Why Low Quiescent Current Matters for Longer Battery Life


. Selecting an Approach to Build Flexible, Cost-Effective ECU Production Test Systems

Ventilator technology updates

By Nick Flaherty www.flaherty.co.uk

Keep up to date with all the latest news on ventilator technology and production from eeNews Europe. Who is developing ventilators, who is shipping, what other technologies are helping in fighting the Coronavirus outbreak.

Building ventilators for the Coronavirus outbreak ... Lilium raises $240m for its electric aircraft ... Battery analytics in a digital twin

Tech and power news this week by Nick Flaherty at eeNews Europe www.flaherty.co.uk

. Ventilator technology takes centre stage

. OneWeb teeters on the brink

. Electric aircraft maker raises $240m

. ION Energy teams for battery management in electric excavator


. £30m for UK power technology development network

POWER TECH TO WATCH . €11m for Munich battery digital twin startup

. Design kit dramatically reduces PMIC power and die size


. Titanium potassium-ion battery cathode has high potential

POWER PRODUCTS
. Two pin D²PAK packaging for SiC diodes

. Machine learning slashes battery fast charging scheme development time

Transmitter boost for terahertz sensing

By Nick Flaherty www.flaherty.co.uk

Researchers at EPFL in Zurich have developed a low cost transmitter for terahertz signals used for sensing. 

The team at the Power and Wide-band-gap Electronics Research Laboratory (POWERlab), led by Prof. Elison Matioli, built a nanoscale device that can generate extremely high-power signals in just a few picoseconds to produces high-power THz waves.

The technology, which can be mounted on a chip or a flexible medium, could one day be installed in smartphones and other hand-held devices. THz waves are largely used for object detection through other materials. 

The device generates high-intensity waves from a spark, with the voltage spiking from 10 V (or lower) to 100 V in the range of a picosecond. The device is capable of generating this spark almost continuously, meaning it can emit up to 50 million signals every second. When hooked up to antennas, the system can produce and radiate high-power THz waves.

The device consists of two metal plates situated very close together, down to 20nm apart. When a voltage is applied, electrons surge towards one of the plates, where they form a nanoplasma. Once the voltage reaches a certain threshold, the electrons are emitted almost instantly to the second plate. This rapid movement enabled by such fast switches creates a high-intensity pulse that produces high-frequency waves.

Conventional electronic devices are only capable of switching at speeds of up to one volt per picosecond. The extremely short rise times down to five picoseconds were only limited by the measurement set-up. By integrating these devices with dipole antennas, high-power terahertz signals with a power–frequency trade-off of 600 milliwatts terahertz squared were emitted, much greater than that achieved by the state of the art in compact solid-state electronics. 

The new device can be more than ten times faster, can generate both high-energy and high-frequency pulses. "Normally, it's impossible to achieve high values for both variables," said Matioli. "High-frequency semiconductor devices are nanoscale in size. They can only cope with a few volts before breaking out. High-power devices, meanwhile, are too big and slow to generate terahertz waves. Our solution was to revisit the old field of plasma with state-of-the-art nanoscale fabrication techniques to propose a new device to get around those constraints."

"These nanodevices, on one side, bring an extremely high level of simplicity and low-cost, and on the other side, show an excellent performance. In addition, they can be integrated with other electronic devices such as transistor. Considering these unique properties, nanoplasma can shape a different future for the area of ultra-fast electronics", said Mohammad Samizadeh Nikoo, a PhD student at the POWERlab.

The technology could have wide-ranging applications beyond generating THz waves. The ease of integration and the compactness of the nanoplasma switches could enable their implementation in several fields, such as imaging, sensing, communications and biomedical applications.

 "We're pretty sure there'll be more innovative applications to come," adds Matioli.

www.epfl.ch/index.en.html

Industrial Temperature 2TB NVMe and SATA M.2 solid state drives

By Nick Flaherty www.flaherty.co.uk

Greenliant has started volume production of its industrial temperature (-40°C to +85°C) 2 Tbyte NVMe and SATA M.2 solid state drive (SSD) modules. 

Built in the 2280 form factor, and offered with hardware encryption and on-board DRAM, the ArmourDrive SSDs save space, improve security and increase capacity for a wide variety of applications.

The 87 PX Series SATA and 88 PX Series NVMe M.2 drives have 240 GB, 480 GB, 960 GB and 1.92 TB with the industrial temperature range. The built-in ECC bit error detection and correction is optimised for 3D three-bit-per-cell NAND devices and advanced flash management extends drive life through dynamic and static wear leveling so the cells are used equally. It also supports AES-256 / TCG OPAL encryption and Secure Erase.

“Customers rely on our wide and deep selection of quality solid state storage products, and Greenliant is pleased to be one of the first companies to offer I-temp 2 Terabyte M.2 SSDs for industrial applications that require higher capacities,” said Arthur Kroyan, vice president of business development and marketing, Greenliant. “With on-board DRAM and advanced security features, these products deliver consistent sustained performance and strong user data protection, which can be important advantages for certain embedded systems.”

Greenliant is shipping the full line at www.greenliant.com

SMARC2.1 revision drives MIPI into embedded vision

By Nick Flaherty www.flaherty.co.uk

SGET has approved the new SMARC 2.1 specification, aiming to drive the adoption of the MIPI standard into the embedded vision market.

The latest version adds additional features such as SerDes support for extended edge connectivity and up to four MIPI-CSI camera interfaces to meet the increasing demand for a fusion of embedded computing and embedded vision. The new features are backward compatible with Rev. 2.0, which means that 2.1 modules can be integrated on 2.0 carriers. All extensions to Rev.2.0 are also optional, so SMARC 2.0 modules are automatically compatible with SMARC 2.1.

"The new SMARC 2.1 specification is an important step towards embedding MIPI-CSI camera technology, which is widely used in smartphones, firmly and for the first time within the standard of an embedded computing specification," said Christian Eder, Director Marketing at congatec and SGET editor of the SMARC 2.1 specification. "We need this extremely cost-effective technology in order to be able to integrate it into any embedded application. For this purpose, SMARC 2.1 provides not only one or two, but up to four interfaces for comprehensive situational awareness and highest device efficiency."

Demand for machine vision cameras is growing at double-digit rates, particularly for applications such as surveillance, forensics, robotic surgery, intelligent traffic systems, border control and health monitoring. In addition, camera technology continues to be used for process inspections to reduce errors such as incorrect fill levels, faulty products in the production line and packaging defects. Autonomous logistics vehicles also take up a large market share in the industrial sector.

With comprehensive Ethernet support for more connectivity at the edge gaining increasing significance, two of the four supported PCIe lanes now offer two additional Ethernet ports via SerDes signals. These can also be used for vision through the connection of GigE vision cameras.

Other new features include PCIe clock request signals, which can be used to switch off unused PCIe lanes to save power, and 14 instead of 12 GPIOs (General Purpose Input/Output). In response to many requests, the specification document was also completely restructured to optimize readability.

Further information on the new SMARC 2.1 specification can be found at SGET https://sget.org/standards/smarc/.

Additionally, congatec prepared an updated white paper on the advantages of the SMARC specification which is available for download at: https://www.congatec.com/en/technologies/smarc.html

Further information on the SMARC 2.1 compatible conga-SMX8 with Arm based NXP i.MX 8 processors can be found at: https://www.congatec.com/en/products/smarc/conga-smx8.html

Further information on the SMARC 2.1 compatible conga-SA5 with Intel Atom processors (code name Apollo Lake) can be found at: https://www.congatec.com/en/products/smarc/conga-sa5.html

European ventilator boost ... X-fab to move US fab to SiC ... Management software for microgrids

News this week at eeNews Europe by Nick Flaherty www.flaherty.co.uk

. Medtronic looks to double ventilator production in Ireland

. German solid state LiDAR startup raises Series A funding

. BMZ ramps up battery production for ventilators

. Three team for EV battery recycling cluster in Finland

. X-Fab moves US fab to SiC, adds epi

. Machine learning slashes battery fast charging scheme development time

. GaN efficiency in the data centre reaches 98 per cent

. Standalone VBUS-powered controller targets 5V USB-C charging

. Open energy management software platform for microgrids and smart buildings


. SiC driver sees automotive qualification

Boosting the UK's ventilator production for Covid-19

By Nick Flaherty www.flaherty.co.uk on eeNews Europe

The UK’s only ventilator manufacturer is ramping up production to meet demand to tackle the Covid-19 Coronavirus crisis as the UK government calls for assistance from the industry.

https://www.eenewseurope.com/news/uk-looks-ramp-ventilator-production-covid-19

“We have increased our capacity, and moved to 7 days working across our global manufacturing sites where required to meet demands from our customers,” said Sally Cozens, managing director at Breas UK. She declined to say that that capacity is, other than “we are increasing to meet demands globally”.

Breas UK claims to be the only UK ventilator manufacturer, making a range called Nippy, while its parent company Breas also makes other medical equipment. Breas is headquartered in Sweden and owned by the Chinese Fosun conglomerate, and has 150 staff worldwide.

The German government has reportedly ordered 10,000 ventilators from Draegerwerk in Luebeck, while Hamilton Medical in Switzerland has ramped up production by 30% to a run rate of 20,000 a year.

Medical 3D printing firm Open Bionics has also offered its help. “We build medical devices, have technicians, engineers, processes and assembly lines in place and ready to go. We need parts and build instructions,” said Sam Payne, chief operating officer and co-founder of Open Bionics in Bristol, UK.

Other suggestions of companies with medical equipment skills have included Meditec England, Smiths Medical, SLE, Diamedica, OES Medical and Penlon.

Silicon Labs launches security tech for system-on-chip designers

By Nick Flaherty www.flaherty.co.uk

Silicon Labs has developed physically unclonable function (PUF) hardware to reduce the risk of IoT security breaches and compromised intellectual property in system-on-chip designs. The first SoC devices will be launched later this month.

The Secure Vault technology is a suite of security features designed to help connected device manufacturers address Internet of Things (IoT) security and data threats. It includes a dedicated core, bus and memory, is separate from the host processor. This hardware separation isolates critical features, such as secure key store management and cryptography, into their own functional areas, making the overall device more secure. 

This will be used in the Wireless Gecko Series 2 platform that will be launched by the end of Q2 2020.

"The security landscape is changing rapidly, and IoT developers face increasing pressure to step up device security and meet evolving regulatory requirements," said Matt Johnson, senior vice president and general manager of IoT product at Silicon Labs. "Secure Vault simplifies development, accelerates time-to-market and helps device makers future-proof products by taking advantage of the most advanced integrated hardware and software security protection available today for IoT wireless SoCs."

"Embedded security is a key requirement for IoT products, and software updates alone cannot address all vulnerabilities present in insecure hardware," said Tanner Johnson, senior cybersecurity analyst at Omdia. "As a result, hardware components can comprise the front line of defense for device security, especially with new legislation targeting IoT product security."

Secure Vault is also aimed at devices addressing emerging regulatory measures, such as GDPR in Europe and SB-327 in California, making it secure updates to connected devices possible over-the-air (OTA) throughout the product lifecycle.

One of the biggest challenges for connected devices is post-deployment authentication. The trust provisioning service with optional secure programming provides a secure device identity certificate during chip manufacture for each individual silicon die.

Keys are encrypted and isolated from the application code, and virtually unlimited secure key storage is offered as all keys are encrypted using a master encryption key generated using a PUF. The power-up signatures are unique to a single device, and master keys are created during the power-up phase to eliminate master key storage, further reducing attack vectors.

Advanced Tamper Detection includes easy-to-implement product enclosure tamper resistance to sophisticated tamper detection of silicon through voltage, frequency and temperature manipulations. Hackers use these changes to force hardware or software to behave unexpectedly, creating vulnerabilities for glitch attacks. Configurable tamper-response features enable developers to set up appropriate response actions with interrupts, resets, or in extreme cases, secret key deletion.

Silicon Labs is currently sampling new Secure Vault-enabled wireless SoCs, which are planned to be released in late Q2 2020. 

silabs.com/security.

Silicon Labs
Silicon Labs (NASDAQ: SLAB) is a leading provider of silicon, software and solutions for a smarter, more connected world. Our award-winning technologies are shaping the future of the Internet of Things, Internet infrastructure, industrial automation, consumer and automotive markets. Our world-class engineering team creates products focused on performance, energy savings, connectivity and simplicity. silabs.com

Follow Silicon Labs at news.silabs.com, at blog.silabs.com, on Twitter at twitter.com/siliconlabs, on LinkedIn at linkedin.com/company/siliconlabs and on Facebook at facebook.com/siliconlabs.