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mercredi 31 mai 2017

Conterra Hires Fiber Industry Veteran As President and Chief Operating Officer

CHARLOTTE, N.C.andnbsp;Conterra Ultra Broadband Holdings has announced the hiring of Craig S. Gunderson as its President andamp; Chief Operating Officer.andnbsp; In his new role, Mr. Gunderson will be responsible for the day-to-day operations and consolidated financial results of the Company.andnbsp; He will report to the Company's Chairman and Chief Executive Officer, Stephen Leeolou .andnbsp; After an appropriate transition period, Conterra's Executive Vice President of Operations and Technology, Dennis Francis , will be retiring from day-to-day responsibilities but will remain an active advisor to the Company.andnbsp; Click here for more.



from Cellular News http://bit.ly/2qDaviU

Global Telecom Cloud Market By Type, By End User, By Application, By Region, Competition Forecast and Opportunities, 2012 âandeuro;andquot; 2022

Telecom cloud market across the globe has been growing rapidly on back of increasing need to minimize operational and administrational costs by telecom companies. Increasing deployment in BFSI sector and in media andamp; entertainment industry is channelizing demand for telecom cloud across the globe. Unified Communication and Collaboration is gaining immense popularity among telecom service providers because of the better and more efficient service quality. Demand for Communication Defined Network services is also growing across the globe due to increasing need for responding quickly to user queries. Download the full report: http://bit.ly/2spxkTx According to "Global Telecom Cloud Market, Competition Forecast andamp; Opportunities, 2012 - 2022", global telecom cloud market projected to exhibit a CAGR of over 19%, in value terms, during 2017-2022. Major players operating in global telecom cloud market include ATandamp;T Inc., Verizon Communication Inc., BT Group plc, CenturyLink Inc., China Telecommunication Corporation, Telus Corporation, Deutsche Telekom AG, Fusion Telecommunications International Inc., Telstra Corporation Limited ADR, NTT Communications, TATA Communications, Singapore Telecommunications Limited, ZTE Corporation, International Business Machines (IBM) and Telefonaktiebolaget LM Ericsson, among others. The "Global Telecom Cloud, Competition Forecast andamp; Opportunities, 2012 - 2022" report elaborates following aspects of global telecom cloud market: - Global Telecom Cloud Market Size, Share andamp; Forecast - Segmental Analysis - By Service (Unified Communication and Collaboration, Content Delivery Network andamp; Others), By Solution (Colocation Services, Network Services, Professional Services, Managed Services), By Application (Billing and Provisioning, Traffic Management, Customer Management, Others), By Cloud Platform (IaaS, SaaS andamp; PaaS), By End User (BFSI, Retail andamp; Consumer, Healthcare, Media andamp; Entertainment, Transportation, Others (Education, Government, etc.) and By Region (North America , Europe , Asia-Pacific , South America and Middle East andamp; Africa ) - Policy andamp; Regulatory Landscape - Changing Market Trends andamp; Emerging Opportunities - Competitive Landscape andamp; Strategic Recommendations Why you should buy this report? - To gain an in-depth understanding of Telecom cloud services market across the globe - To identify the on-going trends and anticipated growth during in the next five years - To help industry consultants, telecom cloud service providers and stakeholders to align their market-centric strategies - To obtain research-based business decision and add weight to presentations and marketing materials - To gain competitive knowledge of leading players - To avail 10% customization in the report without any extra charges and get the research data or trends added in the report as per the buyer's specific needs Report Methodology The information contained in this report is based upon both primary and secondary sources. Primary research included interviews with telecom cloud service providers, channel partners and industry experts. Secondary research included an exhaustive search of relevant publications like company annual reports, financial reports, and proprietary databases. Download the full report: http://bit.ly/2spxkTx About Reportbuyer Reportbuyer is a leading industry intelligence solution that provides all market research reports from top publishers http://bit.ly/2rQ1jrv For more information: Sarah Smith Research Advisor at Reportbuyer.com Email: query@reportbuyer.com andnbsp; Tel: +44 208 816 85 48 Website: www.reportbuyer.com Click here for more.



from Cellular News http://bit.ly/2spNHzP

8x8 Partners with Jenne to Distribute Communications Cloud Solutions in the U.S.

8x8, Inc. (NASDAQ:EGHT), the world's first Communications Cloud provider, and Jenne, Inc., a leading value-added distributor of technology products and solutions focusing on voice, video, data networking, premise security and the cloud, announced today a partnership to bring 8x8's integrated, enterprise-grade cloud communications, contact center and team collaboration solutions to mid-market and enterprise companies in the U.S. through a value-added distribution model. Click here for more.



from Cellular News http://bit.ly/2rmFNb8

Monolith Software Continues to Grow Business, Names Vice President of Marketing

Monolith Software, the leading provider of next-generation, unified service assurance solutions today announced further expansion of its business management team by naming Nicole Fortenberry as its Vice President of Marketing. This announcement follows last week's appointment of John Locke as Monolith Software's CTO. Click here for more.



from Cellular News http://bit.ly/2rH83YX

C Spire offers consumers and businesses important reminders and tips on how to use their communication devices in emergency situations during 2017 hurricane season

RIDGELAND, Miss.andnbsp;With the 2017 Atlantic hurricane season just around the corner, C Spire is offering consumers and businesses in storm-prone areas some important emergency reminders and tips on using essential telecommunications before, during and after any storm or natural disaster. Click here for more.



from Cellular News http://bit.ly/2sp2CtR

ViaSat-2: Ready for Launch on June 1 from the Guiana Space Center

CARLSBAD, Calif. ViaSat Inc. (NASDAQ: VSAT), a global broadband services and technology company, today announced its ViaSat-2 satellite is in the final launch preparation stage at the Guiana Space Center in Kourou, French Guiana . ViaSat-2 is scheduled to launch on June 1 , at 4:45 pm PDT . Click here for more.



from Cellular News http://bit.ly/2spbBv1

Harris Corporation to Supply Boeing with Sonobuoy Launchers for Maritime Patrol Aircraft

Harris Corporation (NYSE:HRS) has been awarded contracts to provide Boeing (NYSE:BA) with sonobuoy launching technology for the U.S. Navy's P-8A anti-submarine aircraft. The contracts were awarded during the third quarter of Harris' fiscal 2017. Click here for more.



from Cellular News http://bit.ly/2rmfT7f

Announcing Blasting360, the First European Content Marketplace to Connect Journalists and Editors from All over Europe

Blasting News - the largest global social news magazine founded in 2013 by the Italian entrepreneur Andrea Manfredi - has been awarded funds by the Google Digital News Initiative (DNI) to develop an innovative project designed for the European publishing industry. Click here for more.



from Cellular News http://bit.ly/2sp7bEK

Embroiled in Patent Conflicts, Qualcomm Loses Wireless Executive to Apple


In January, Apple opened a lawsuit against Qualcomm for charging excessive patent royalties on the cellular modems Apple puts in smartphones. On Tuesday, a vice president of engineering who played a major role in Qualcomm’s modem business said that he had been hired by Apple.

Esin Terzioglu, who had overseen Qualcomm’s baseband processors for the last eight years, announced on his LinkedIn page that he taken a job as wireless SoC lead at Apple. He recently led the engineering team that Qualcomm’s modems to 10 nanometers, down from the 14 nanometer technology that until last year was state-of-the-art.

In a LinkedIn post that has since been removed, Terzioglu said that it was time “to move on to my next adventure.” He added: “It has been my honor and privilege to have worked with so many talented and dedicated individuals at Qualcomm.”

The post was first reported on Twitter by technology analyst Neil Shah of Counterpoint Research.

The move is the latest whiff of Apple’s chip-making ambitions. Many industry analysts said that the hiring could suggest that Apple is planning to build a custom modem chip. Adding to the speculation is that Apple’s relationship with Qualcomm has ruffled in the last year, with the company ordering some modem chips from Intel and filing the patent lawsuit.

Apple, which designed the Series-A processors in its smartphones and the wireless chips inside its AirPods, has poached engineers from Qualcomm and others in recent years. While the company has filed patents for baseband modems and other chips, it has increasingly sparred with suppliers that depend on Apple contracts for large chunks of revenue.

In April, Imagination Technologies disclosed that Apple planned to stop using its graphics technology in smartphones and other gadgets within two years. Having poached engineers from Imagination for years, Apple will brew its own graphics from scratch.

The hire comes amid a bitter challenge to how Qualcomm’s most profitable business wields its patents, which contain standard technology for tapping into 3G and 4G networks. Apple is seeking at least $1 billion in the lawsuit, which claims that Qualcomm charged exorbitant fees and punished it for aiding antitrust investigators. Qualcomm filed a countersuit in April and sued several of Apple's contract manufacturers this month.

Terzioglu previously worked as a principal scientist at Broadcom before leaving to start an embedded memory company called Novelitics, where he served as the chief technology officer.  He holds master’s and doctorate degrees in electrical engineering from Stanford University.



from Electronic Design - Engineering Essentials Curated By Experts http://bit.ly/2sfV1i8

ATandT, the City of Atlanta and Code for Atlanta Announce Atlanta Civic Coding Competition

andnbsp;ATandamp;T*, in collaboration with the City of Atlanta and Code for Atlanta , today announced the launch of the Atlanta Civic Coding Competition (C3), which offers the public an opportunity to help solve some of Atlanta's toughest challenges through an app challenge. Click here for more.



from Cellular News http://bit.ly/2sfNVKi

OSIsoft Announces SoftBank Investment

OSIsoft LLC, a leader in operational intelligence, today announced that SoftBank Group ("SoftBank") has acquired a significant minority equity interest in the company. Click here for more.



from Cellular News http://bit.ly/2qHD5Lm

ATandT Prepared To Keep Mississippi Customers Connected During Hurricane Season

JACKSON, Miss.andnbsp;ATandamp;T* is committed to keeping its customers connected during the upcoming hurricane season - before, during and after storms. We have one of the industry's largest and most advanced business continuity and disaster response programs to make sure our networks stay up and running. Click here for more.



from Cellular News http://bit.ly/2qHOPNH

Amobee Recognized for Workplace Excellence Across Multiple Regions

REDWOOD CITY, Calif. andFortune Magazine and Great Place to Work® have recognized leading marketing technology and services company, Amobee, for workplace culture excellence across the globe. Amobee was recently named one of Fortune Magazine's Best Workplaces in both Chicago and the Bay Area, as well as one of the UK's Best Workplaces by Great Place to Work. Click here for more.



from Cellular News http://bit.ly/2qHSOd5

Connecthings Joins Current, powered by GE As a Key Smart City Partner to Foster Urban andamp; Economic Development

Connecthings, operator of the largest global network of beacons in public spaces (130,000+), today announced its partnership with Current, powered by GE (NYSE:GE) to encourage the use of the Intelligent Environments platform as a living laboratory to enable economic growth and enhance the quality of life. The platform allows companies and the local tech community to harness the power of the Industrial Internet and develop new applications to solve city challenges and engage with citizens. Click here for more.



from Cellular News http://bit.ly/2qHPTBt

Jabra Addresses Government Pain Points with New Public Sector Program

LOWELL, Mass.andnbsp;Audio and communications technology specialist, Jabra,andnbsp;today announced the expansion of its Public Sector business in North America and the hiring of an industry veteran to oversee this initiative; Cheryle Walline .andnbsp; Click here for more.



from Cellular News http://bit.ly/2soEJm7

GSMA Announces First Keynote Speakers for andldquo;GSMA Mobile World Congress Americas, in Partnership with CTIAandrdquo;

The GSMA announced the first confirmed speakers for the Mobile World Congress Americas debuting September 12-14, 2017 at San Francisco's Moscone Center. The GSMA also released additional details for the inaugural Americas event today, including new programs, exhibition elements, exhibitors and sponsors. Click here for more.



from Cellular News http://bit.ly/2soZZYZ

Gigabit City Initiative Approved by Celina, Texas City Council

A unanimous decision was made by the Celina City Council to approve the Easement Ordinance amendment during the May City Council meeting. The Easement Ordinance amendment will require all developers to install fiber optic lines and conduits in all new developments within the confines of the city. Click here for more.



from Cellular News http://bit.ly/2soJRGU

COMPUTEX CPX Conference Keynotes Focus on Future Technology Trends

COMPUTEX 2017, the leading global ICT show with a complete supply chain, and IoT and startup ecosystems, kicked-off the first day of its three-day CPX Conference, "From Mobility to Intelligence," with keynote presentations focusing on future technology trends. Information and communications technology (ICT) industry heavyweights creating and implementing strategies for leading technology companies, ARM, Dell, Foxconn (Hon Hai Technology Group), Intel and Qualcomm, presented how their companies are adapting to current trends and unlocking future opportunities. Click here for more.



from Cellular News http://bit.ly/2rqCuBu

ACA Releases White Paper Highlighting the Unintended Consequences of the TCPA as it Fails to Adapt to Consumer Use of Modern Technology

WASHINGTON , May 31, 2017 /PRNewswire-USNewswire/ --andnbsp;ACA International, the Association of Credit and Collection Professionals, released a white paper, Unintended Consequences of an Outdated Statute: How the TCPA Fails to Keep Pace with Shifting Consumer Trends, which examines how the Telephone Consumer Protection Act's (TCPA) antiquated understanding of technology results in some consumers receiving a disproportionate number of telephone calls while others are almost entirely excluded from receiving legitimate business communications. The paper also updates TCPA litigation statistics. Click here for more.



from Cellular News http://bit.ly/2sfnTHi

WOW! Announces Closing of Initial Public Offering

WideOpenWest, Inc. ("WOW!" or the "Company") (NYSE: WOW) announced today the closing of its previously announced initial public offering of 18,235,295 shares of its common stock, at a price to the public of $17.00 per share. The Company also announced that the underwriters exercised in full their option to purchase up to an additional 2,735,294 shares at the initial public offering price, less the underwriting discount. The sale of the additional 2,735,294 shares was also completed today. The shares began trading on the New York Stock Exchange on May 25, 2017, under the symbol "WOW." Click here for more.



from Cellular News http://bit.ly/2qHdKRM

Organização da Televisão Ibero-Americana comemora sua terceira reunião com a participação de 31 empresas

Fortalecida e reconhecida como a organização que promove o desenvolvimento de novos conteúdos audiovisuais e acesso à conectividade na região, a Organização da Televisão Ibero-Americana concluiu sua terceira reunião, organizada pelo noticiário Univision na terça-feira em Miami , Flórida. Click here for more.



from Cellular News http://bit.ly/2qBV3DW

WOW! Announces the Seventh Amendment to Its Credit Facility

WideOpenWest, Inc. ("WOW!" or the "Company") (NYSE: WOW) announced today that WideOpenWest Finance, LLC, a subsidiary of the Company, has entered into a seventh amendment to its credit agreement with Credit Suisse AG, as administrative agent, JPMorgan Chase Bank, N.A., as the revolver agent, and the other parties thereto (the "Seventh Amendment"). Click here for more.



from Cellular News http://bit.ly/2rqlk7o

The Winding Road to Autonomous Vehicle Reality


The prospect of autonomous vehicles can spark lively conversation, well beyond the gearhead fraternity who tend to cherish the idea of an engaged driving experience. In contrast, some vehicle users look forward to the day when we can travel from A to B without the need for human input, and, therefore, greater safety and much more.

However, recent semi-autonomous vehicle accidents have brought consumer attention to what we in the industry have known for some time. This autonomous driving thing isn’t as easy as some first thought. We’re seeing major OEMs back off earlier predictions for the implementation of Level 3 and 4 semi-autonomous vehicles, with the first mainstream high-end vehicle’s availability now estimated for 2021. The table summarizes the SAE International’s definitions for the levels of autonomous driving.

The race to bring autonomous vehicles to market and the cultural divide between the Silicon Valley and traditional automotive OEMs is heating up. Automotive OEMs are known for taking long and methodical approaches to solving problems, whereas Silicon Valley adopts the mindset of going fast, being agile, and not missing a market window. These two very diverse approaches bring the best of both worlds to the design floor of autonomous vehicles.

A summary of the SAE International “Levels of Driving Automation for On-Road Vehicles,” as defined in its J3016 standard.

To date, this collaborative approach has provided evidence of success. However, as we enter the final stretch of producing these vehicles for real consumers—rather than for testing and research—will this marriage continue to hold together?

Couple this with the emerging component/systems-level technologies, infrastructural roadblocks (~30% of the roads in the U.S. are unpaved), government bureaucracy, security concerns, and the costs associated with making self-driving vehicles mainstream, and you can quickly see that the development of an intelligent, safe, and robust light vehicle has its challenges.

Getting to Level 2

At ON Semiconductor, we’re working to address the component and system challenges as we collaborate directly with the OEMs and Tier 1s. For example, we’re actively working with automotive designers to help them understand today’s requirements for a Level 2 autonomous vehicle and implement systems such as a Surround View System (see figure).

However, enabling vehicles to autonomously navigate without human input through complex settings requires them to “see” and “understand” situations more like humans (examples of these complex settings include city centers, construction zones, snow, fog, heavy rain and remote areas). This requires not only currently available, commercially viable, automotive-qualified products, but will also include technologies, products, and safety standards that aren’t yet mainstream in the industry. And, all of this must be implemented with ZERO accidents, 100% reliability, and continuous learning.

Much of this technology is currently under trial or in low-volume production. In addition, every major OEM is testing vehicles somewhere in the world, and a few high-end manufacturers have viable Level 2.5 vehicles on the street. One such example is the new Mercedes E-Class, which demonstrates numerous advanced semi-autonomous features.

Given these stringent requirements, new automotive capable technologies all have to work seamlessly with the vehicle’s “deep learning” central safety processing unit to fully manage the driving experience. Examples of these automotive-capable technologies include both global and rolling shutter CMOS image sensors for advanced driver-assistance system (ADAS) applications (eyelid detection, lane departure, signage and object detection), LiDAR (short-range object detection), and Radar (long-range object detection).

The “Sensor Fusion” technique—where the correct sensor combination is implemented for the task at hand—enables the central processor to safely complete the task, rather than attempting to operate from just one sensor input. The complexities of semi-autonomous and autonomous driving will dictate the use of a large variety of sensors to safely drive at Levels 3 through 5.

These are the peripheral components required to implement a complete Surround View System in a Level 2 autonomous vehicle.

Addressing Software Safety

Beyond the technology and sensor fusion, we haven’t even mentioned the complexities of reliable, mission-critical hardware and software. We must address the safety aspects of vehicles no longer being 100% controlled by humans.

For years now, the airlines have been dealing with “electronically controlled” systems. The airline industry has confronted with this challenge via the redundant-systems approach. This approach can be absorbed in the overall cost of a multimillion-dollar aircraft. However, multiple redundant systems in a light vehicle, while technically an answer, are far too cost-prohibitive for a production vehicle.

Functional Safety standards become an integral part of each automotive product development flow, spanning all aspects of specification, design, implementation, integration, verification, validation, and production release. ISO 26262 standard, which is an adaptation of the Functional Safety standard IEC 61508, defines Functional Safety acceptance criteria for automotive equipment, and is applicable throughout the lifecycle of the products. The scope of the standard includes all automotive electronic and electrical safety-related systems.

Specifically, the standard encompasses a set of recommended and highly recommended requirements applicable to all safety-critical components through their full lifecycle. During the development of a safety-critical item or component, the need to apply a given requirement is directly linked to an “automotive risk” based approach that allows the developer to determine risk classes, known as Automotive Safety Integrity Levels (ASILs).

By determining the risk level of an application or an element, the necessary requirements for reducing the risk level from a systematic risk to an acceptable residual risk, as well as a random hardware failure point of view, are defined. This will include the definition of a complete set of requirements for validation, but also verification through timely confirmation reviews.

For example, ON Semiconductor designs key features directly into its solutions with ISO 26262 requirements as well as keeping system-level technical safety requirements in mind. Thus, both system and software developers can implement these safety standards for their products in a cost-efficient manner—including requirements derived from safety goals up to ASIL D.

Self-driving vehicles are coming. There’s no stopping it. However, they’re not coming as fast as most of us once thought. The delay will likely not be semiconductor-related, but instead due to infrastructure, regulation, and cost. Yes, we will see fully semi-autonomous high-end vehicles in 2021, and yes, we will have many semi-autonomous options in vehicles prior to that. Fully autonomous vehicles, however, will not become mainstream for quite some time—not until they can navigate the orange barrels on the continuous, winding road to autonomous vehicle reality.

Reference:

The SAE International’s summary of the “Levels of Driving Automation for On-Road Vehicles,” as defined in their J3016 standard.



from Electronic Design - Engineering Essentials Curated By Experts http://bit.ly/2qBQ8T6

ATandT Prepared To Keep Florida Customers Connected During Hurricane Season

andnbsp;ATandamp;T* is committed to keeping its customers connected during the upcoming hurricane season - before, during and after storms. We have one of the industry's largest and most advanced business continuity and disaster response programs to make sure our networks stay up and running. Click here for more.



from Cellular News http://bit.ly/2qCj4q2

Computer gesture control via webcam and Arduino

While touchscreens are nice, wouldn’t it be even better if you could simply wave your hand to your computer to get it to do what you want? That’s the idea behind this Iron Man-inspired gesture control device by B. Aswinth Raj.

The DIY system uses an Arduino Nano mounted to a disposable glove, along with hall effect sensors, a magnet attached to the thumb, and a Bluetooth module. This smart glove uses the finger-mounted sensors as left and right mouse buttons, and has a blue circle in the middle of the palm that the computer can track via a webcam and a Processing sketch to generate a cursor position.

You can see it demonstrated in the video below, drawing a stick man literally by hand, and also controlling an LED on the Nano. Check out this write-up for code and more info on the build!



from Arduino Blog http://bit.ly/2rlxufw

Vivo sa stáva oficiálnym sponzorom Majstrovstiev sveta vo futbale FIFA World Cup(TM) 2018 a 2022

Značka smartfónov Vivo sa stáva exkluzívnym sponzorom Majstrovstiev sveta vo futbale FIFA World Cup(TM) 2018 a 2022andnbsp; Click here for more.



from Cellular News http://bit.ly/2rc7Dsa

Desenvolvedor: como você vai aproveitar ao máximo a Inteligência Artificial?

Este é um grande momento para ser desenvolvedor, especialmente quando se trata de temas relacionados à Inteligência Artificial (IA). Durante o Build 2017, que aconteceu de 10 a 12 de maio em Seattle, Washington , vi e compartilhei o entusiasmo dos desenvolvedores por usar a IA Microsoft para criar aplicativos que tenham impacto mais profundo e amplo em todos os setores da sociedade. Click here for more.



from Cellular News http://bit.ly/2qGZpVp

Turn your house into a Verizon 4G LTE home with SmartHub

Slow Wi-Fi speeds got you down? Introducing the Verizon SmartHub, a 4G LTE router that gives you the bandwidth you need using the Verizon network. SmartHub is the perfect solution for anyone who wants to easily add high-speed internet and connected devices to their home. The SmartHub uses the Verizon network you trust to connect your smartphones, laptops and smart devices, including more than 200 Wi-Fi-enabled products. With SmartHub, you can even keep your existing home phone number and make HD Voice calls. Click here for more.



from Cellular News http://bit.ly/2seV8dN

Comcast to Deliver Gigabit Internet Service in Oregon/SW Washington

Comcast announced today that it is launching a new internet service that will deliver speeds up to 1 Gigabit-per-second (Gbps) to residential customers throughout its Oregon/SW Washington region. These speeds will be among the fastest and most widely available in the region and include access to the nation's largest Wi-Fi network of more than 17 million hotspots. Combined with the company's recently launched Xfinity xFi platform, a new and personalized home Wi-Fi experience, Comcast is giving Oregon/SW Washington customers the fastest speeds, the best coverage, and ultimate Wi-Fi control in their homes. Click here for more.



from Cellular News http://bit.ly/2qGqTKQ

Introducing page-level enforcements and a new Policy center

As a publisher you face many challenges. One of the broadest and most encompassing of these is growing your user base while making sure your content remains high-quality and policy compliant. Your feedback has helped us understand this challenge, and we’re always working to improve. A few weeks ago, we announced two new AdSense features: page-level enforcements and a new Policy center. Today, we’re excited let you know that these features are available globally for all AdSense publishers.

Page-level enforcements for more granular policy actions
To allow more precise enforcements, and provide you with feedback about policy issues as we identify them, we’re introducing page-level enforcements. A page-level enforcement affects individual pages where violations of the AdSense Program Policies are found. As a result, ad serving is restricted or disabled on those pages. Ads will continue to serve where no policy violations have been found, either at the page- or site-level.

When a new policy violation on one of your pages is identified, you’ll receive an email notification and ad serving will be restricted on that page. As this is a new feature, you may already have current page-level enforcements that were not surfaced through these email notifications. To make sure you’re not missing anything, head over to the new Policy center to review existing violations.

After you've addressed all policy violations on a page, you may request a review (previously known as an “appeal”). Reviews typically take one week but can sometimes take longer. We'll restore ad serving on the affected page or pages if a page is reviewed at your request and no policy violations are found. Alternatively, you can simply remove the AdSense ad code from that page and the page-level enforcement will disappear from the Policy center in about a week.

More transparency with the new AdSense Policy center

The AdSense Policy center is a one-stop shop for everything you need to know about policy actions that affect your sites and pages. You’ll be able to see:
  • Non-compliant page(s) or site(s)
  • Why a page or site is non-compliant
  • Steps needed to make your page or site compliant 
  • Steps to request a review of the actioned page(s) or site(s)


Follow these steps to see your current page-level enforcements, and request a review of the actioned page(s):
  1. Sign in to your AdSense account.
  2. In the left navigation panel, click Settings, then click Policy center.
  3. In the "Page-level enforcements" section, find the site or sites that have page-level violations and click Show details.
  4. In the "Page" section, click the Down arrow to learn more about the enforcement, the violation(s) on the page, and how to fix them. 
  5. Click Request review and tick the box after you’ve made sure the violations on the page are fixed.
Our beta participants provided a lot of great feedback and suggestions on how to make the AdSense Policy center as useful as possible. We’re constantly looking to improve the clarity with which we communicate our policies and policy enforcements, so let us know what you think through the ”Send feedback” link in the AdSense menu.

Learn more about these updates in the AdSense Help Center or head over to the Policy center to try it out.

Posted by: John Brown, Head of Publisher Policy Communications, 
Richard Zippel, Publisher Quality Product Manager and 
Nick Radicevic, AdSense Product Manager


from Inside AdSense http://bit.ly/2snB34i

Edgybees Launches Worldandrsquo;s First Augmented Reality Game for DJI Drone Pilots on AR Smart Glasses at AWE 2017

Augmented World Expo (AWE) Edgybees, an augmented reality technology company, today announced the first-ever AR gaming application for DJI drone pilots using the Epson Moverio BT-300 Drone Edition smart glasses. Click here for more.



from Cellular News http://bit.ly/2rF7m28

Comcast to Deliver Gigabit Internet Service in Kansas City Area

Comcast today announced it is launching a new internet service that will deliver speeds up to 1 Gigabit-per-second (Gbps) to residential customers throughout the company's suburban Kansas City, Missouri, and Olathe, Kansas service areas. These speeds will be among the fastest and most widely available in the region and include access to the nation's largest Wi-Fi network of more than 17 million hotspots. Combined with the company's recently launched Xfinity xFi platform, a new and personalized home Wi-Fi experience, Comcast is giving Kansas City area customers the fastest speeds, the best coverage and ultimate Wi-Fi control in their homes. Click here for more.



from Cellular News http://bit.ly/2rpdCuf

Nominum Introduces DNS-Based Security-as-a-Service Solution for SMBs, Enterprise and Public Wi-Fi Venues

Nominum®, the DNS security and services innovation leader, announced today the availability of N2™ Secure Business, a new cloud-based DNS security solution offered as a network-based service by internet service providers (ISPs) to protect their enterprise and small and mid-sized business (SMB) customers against the damage caused by cyberthreats like ransomware, phishing attacks and other malware. The carrier-class solution also secures retail locations, stadiums, transit centers and other venues where public Wi-Fi networks enable guests and their devices to stay connected. Click here for more.



from Cellular News http://bit.ly/2rbDdWO

Comcast to Deliver Gigabit Internet Service in Colorado over Its Existing Network Infrastructure

Comcast announced today it is launching a new internet service that will deliver speeds up to 1 Gigabit-per-second (Gbps) to residential customers throughout the state of Colorado. These speeds will be among the fastest and most widely available in the region and include access to the nation's largest Wi-Fi network of more than 17 million hotspots. Combined with the company's recently launched Xfinity xFi platform, a new and personalized home Wi-Fi experience, Comcast is giving Colorado customers the fastest speeds, the best coverage, and ultimate Wi-Fi control in their homes. Click here for more.



from Cellular News http://bit.ly/2qGgQp9

CES 2018 to Spotlight the Future of Smart Cities

The Consumer Technology Association (CTA) today announced that Smart Cities will be a new area of focus at CES® 2018, as the show launches a dedicated Marketplace (exhibit area) and a full schedule of related conference programming. Owned and produced by CTA, CES 2018 is the world's gathering place for all who thrive on the business of consumer technologies. Click here for more.



from Cellular News http://bit.ly/2rECNtm

GaN Technology: A Lean, Green (Power) Machine


Download this article in PDF format.

Electricity is the world’s fastest-growing form of end-use energy consumption. The U.S. Energy Information Administration (EIA) estimates that worldwide generating capacity will grow to 36.5 million megawatt-hours by 2040, a 69% increase from 2012, driven by rising incomes in China, India, and other emerging Asian economies. Electricity generation in the U.S. will grow 24% by 2040—about 1% annually.

Houston, we got a problem…. the EIA also estimates that some 6% of electricity generated in the U.S. goes to waste in supply and disposition—more than 14 million megawatt-hours annually at current rates of consumption. Reducing just a portion of this waste through efficiency improvements could make it possible to slow the growth of demand, and accelerate the closing of inefficient and polluting coal-fired power plants.

As a result, governments and regulatory agencies worldwide are moving to implement standards for energy efficiency.

The 80 Plus standards, now part of Energy Star in the U.S., cover computer power supplies. As shown in Figure 1, the latest Titanium standard requires a maximum efficiency of up to 96% from ac input to dc output.

Meeting these new standards requires rethinking every building block in a power supply, and GaN technology is playing an increasing role.

1. The 80 Plus standards mandate successively higher efficiencies for computer power supplies. The table shows the requirements for single power supplies; a similar set of 80 Plus standards governs the redundant power systems widely used in data centers. (Source: Wikipedia)

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Why GaN?

Gallium nitride (GaN) is a wide-bandgap (WBG) semiconductor with a bandgap of 3.4 electron-volts (eV) compared to silicon’s 1.1 eV. For power designs, the wider bandgap translates into several performance improvements for GaN compared to silicon (see table).

GaN got its start in RF power amplifiers. But the prospect of improving the efficiency of everyday switching power supplies, all while saving money and reducing global warming, is enough to make most engineering hearts beat a little faster.

GaN Challenges

Hold on a second, though.

Benefitting from GaN’s superior performance requires more than simply swapping out existing silicon FETs for their GaN equivalents. The first GaN devices to appear operated in depletion mode—i.e., they were normally in the “on” state—whereas Si MOSFETs are normally off enhancement-mode devices.

To provide drop-in replacements for Si MOSFETs, GaN FET suppliers redesigned their products to operate in enhancement mode, typically by placing a low-voltage Si switch in series with the depletion-mode GaN to form a cascode configuration. A native enhancement-mode GaN device is possible, too, but driving it is more complicated because the GaN gate is resistive, voltage-sensitive, and requires a minimum current to remain on.

Replacing a Si MOSFET with a GaN FET forces other design changes, too. The driver circuit must be more precise to accommodate GaN’s higher switching speed. Also, the switches are highly sensitive to parasitic inductances from internal and external sources like traces, packages, and interconnects.

It’s not only the designs themselves that must change—the manufacturing and quality teams have their own set of challenges. The failure mechanisms and reliability of silicon power transistors have been proven and validated by 30 years of experience and continuous improvement. This has resulted in a mature qualification methodology: Product reliability and quality are certified by an extensive series of standardized tests.

GaN technology for power devices, on the other hand, is relatively new, and manufacturers are working to understand its failure modes and develop equivalent qualification methodologies. In some cases, new tests are needed to account for differences in operation.

Comparison of Si-based and GaN-based Solutions

2. An SMPS power supply using GaN technology must change many building blocks to see the maximum performance improvement. (Source: Texas Instruments)

At the system level, high-efficiency switching power-supply architectures are changing to take advantage of GaN technology. Figure 2 compares the block diagrams of a current Si-based switched-mode power-supply (SMPS) design versus one designed with GaN power devices.

Each design has a front-end power-factor-correction (PFC) circuit followed by several dc-dc stages that convert the PFC’s 400-V dc output down to the low 1.0 V or 1.8 V needed for CPUs, FPGAs, and memory devices.

An examination of the two block diagrams reveals significant differences between the two designs.The Si-based design needs four stages to convert the 115- or 230-V ac input to the 1- or 1.8-V final dc voltage, while the GaN design lets the designer eliminate the intermediate dc-dc conversion stage. The three-stage design can reduce the component count by up to 50%.

Even apart from this obvious difference, GaN technology allows efficiency improvements in each block, such as the opportunity to design with topologies that weren’t practical with silicon devices.

System Building Blocks

The increasing adoption of GaN devices in high-efficiency power supplies has spurred the development of building-block parts that can combine to form the various stages of a design. These appear several times in the discussions below.

GaN power stage: Texas Instruments’ LMG3410 integrates a Si cascode driver and a 600-V, 12-A GaN power FET into a single package (Fig. 3). The cascode arrangement keeps the GaN normally in the off state. When power is applied, the Si FET is always on, and the part uses a Direct Drive architecture to control the GaN FET directly. This architecture provides superior switching performance compared with a simple cascode device.

3. The LMG3410 combines cascode and direct GaN FET drivers to improve speed while still providing enhanced-mode operation. (Source: Texas Instruments)

The LMG3410 contains a driver specifically tuned to the GaN for fast driving without ringing on the gate. The driver ensures the device stays off for high drain slew rates up to 150 V/ns; the LGM3410 also includes overcurrent and overtemperature protection.

Digital controller: After decades of development, traditional analog dc-dc control designs have reached a plateau. Improvements in performance to meet the new ever-more-stringent standards are becoming increasingly difficult. As a result, digital power control—implementing the inner control loop of a power topology with a digital control scheme—is becoming increasingly popular

The UCD3138A is a single-chip power-supply controller that’s adaptable to a variety of power-supply building blocks, including numerous PFC, hard-switched, and LLC topologies.

The part features digital PID control of up to three independent loops, and is based around a 32-bit ARM7 core. It includes multiple power-management peripherals for functions such as light-load burst mode, synchronous rectification, input voltage feedforward, ideal diode emulation, constant-current constant-power control, peak-current-mode control, hardware-configurable soft-start operation, and many more.

One of the advantages of a digital solution is the opportunity for product differentiation through software. The UCD3138A controller is fully programmable. Designers have access to development tools that include application firmware and the Code Composer Studio integrated development environment (IDE).

Let’s now examine the GaN design in more detail and see how these two devices are used in the building blocks of a high-efficiency GaN power-supply design.

PFC Stage

Both Si and GaN designs include a front-end PFC stage to reduce the reactive component of the SMPS load. The PFC essentially forces the input current to follow the input voltage so that the SMPS load appears like a resistor to the ac line. International standards such as EN61000-3-2 and Energy Star 80 Plus require PFC to make the most efficient use of grid power and reduce harmonic distortion from power supplies.

The PFC operates as a boost converter, and typically converts the ac input to 400 V dc.

Meeting the 80 Plus Titanium standard’s peak efficiency of 96% for the whole power supply requires the PFC to be 98.5% or higher. Thus, designers have evaluated several PFC topologies in a quest for improved efficiency. These include traditional boost PFC, semi-bridgeless PFC, bidirectional bridgeless PFC, and totem-pole bridgeless PFC.

The most promising topologies are bridgeless PFC circuits that lower conduction losses by omitting the full-wave ac rectifier bridge. The totem-pole PFC is particularly attractive because it uses the fewest components, has the lowest conduction loss, and offers the highest efficiency.

4. Shown is the basic concept of a high-efficiency totem-pole PFC (a), and a GaN implementation (b). (Source: Texas Instruments)

Figure 4a illustrates the principle of the totem-pole PFC. During one ac half-cycle, diode D1 is conducting, Q4 is the active boost switch, and Q3 is freewheeling the inductor current and using the inductor energy to power the output. During the other half cycle, D2 is conducting and Q3 and Q4 switch functions.

For high power levels, continuous-conduction-mode (CCM) operation is preferred to critical conduction mode (CrM). CCM has lower peak and RMS currents that significantly reduce the stress on the power MOSFET, diode, and inductor. In addition, the filtering is easier because the current is more continuous through the boost inductor.

Finally, the switching frequency remains constant during CCM operation, simplifying the design of the boost inductor and EMI filter.

Although the totem-pole concept has been around for many years, technical challenges have prevented its widespread use before the arrival of GaN devices.

The slow reverse-recovery time of the Si MOSFET body diode prevents the totem-pole PFC from operating in CCM, and exhibits current spikes at the ac zero-crossing point.

The GaN power transistor, with its superior reverse-recovery characteristics, overcomes these issues. Figure 4b shows the LMG3410 and UCD3138A used in a totem-pole PFC stage. The rectifier diodes are replaced by two Si FETs driven by the UCC27714 high-speed, 4-A, 600-V, high-side/low-side gate driver.

The 1-kW design can attain 99% efficiency, is scalable to 3 kW, and operates at three times the switching frequency of a traditional dual-boost PFC.

Primary DC-DC converter

This voltage needs to be further stepped down to provide a dc bus supply for the system. Various topologies are used for this stage; the inductor-inductor-capacitor (LLC) and phase-shifted full bridge are common choices.

The resonant LLC power topology (Fig. 5) has high efficiency due to its high-frequency, low-loss resonant switching. However, designing an LLC converter can be challenging, since the control theory is based on frequency modulation of the converter rather than the more familiar duty-cycle modulation. A digital controller, with the ability to take high-speed precision measurements and implement application-specific algorithms, forms a key part of the solution.

5. High-frequency, low-loss resonant switching leads to the high efficiency displayed by the LLC resonant converter topology. (Source: Texas Instruments)

The LLC 1-kW isolated dc-dc converter in Figure 6 converts the 400-V dc PFC output to 48-V dc system bus voltage. The design uses the LMG3410 and the UCD3138A digital controller on the primary side to deliver a power density of over 140 W/in.3—that’s 50% higher than a state-of-the-art MOSFET-based design.

On the secondary side, the UCD7138 is a single-channel driver that acts as a companion device to the UCD3138A for synchronous-rectifier applications. The two devices work closely together to provide sensing-based adaptive synchronous-rectification (SR) control. The UCD3138 supplies the gate drive for SR FETs Q3 and Q4. The UCD7138 senses the turn-on of the FET’s body-conduction diode and communicates this to the UCD3138, which then adjusts the SR on-time for the next cycle.

6. The UCD3138A and LMG3410 are put to a different use in the 400- to 48-V dc-dc converter stage. (Source: Texas Instruments)

This approach gives high efficiency over a wide load range, doesn’t require calibration, automatically compensates for power-stage component variations, and works well in high-current applications with parallel MOSFETs. The resulting design has a switching frequency of 1 MHz and an efficiency of over 97%.

PoL DC-DC Converter

The point-of-load (PoL) dc-dc converters provide the power-supply rails for low-voltage components such as CPUs, FPGAs, and memories. Although the Si-based design includes an intermediate dc-dc stage to transform the primary dc-dc’s 48-V output down to a 12-V dc bus voltage, the GaN design includes an efficient hard-switched PoL converter that can directly handle the system bus voltage.

The PoL block (Fig. 7) uses the UCD3138A in conjunction with the LMG5200, a half-bridge power stage that integrates two 18-mΩ, 80-V/10-A GaN devices with their drivers. The HS and LS speeds are matched to within 2 ns.

7. A 48-V-to-PoL dc-dc converter uses two interleaved output blocks for faster response and increased current. (Source: Texas Instruments)

The UCD3138A also acts as a secondary-side multiphase controller for two CSD95472 synchronous buck smart-power stages. The CSD95472 integrates the driver IC, two NexFET power MOSFETs, current sensing, temperature sensing, and protection features into a SON 5- × 6-mm package. The complete PoL design operates at 92% efficiency.

Conclusion

Designing a Titanium-grade power supply with GaN technology requires paying attention to numerous details, including driver circuits, new power design topologies, digital control schemes, and even new product qualification tests. A continual stream of new devices and power system blocks is coming to market, simplifying the job of putting together a robust design.

For more information about Texas Instruments’ family of GaN solutions, and to find out more about the designs discussed here, visit the company’s Solutions page.

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