View allAll Photos Tagged microelectronics
20220125 - ASU Day - Phoenix
Released:
Image fully released. Model release on file in Alumni Association.
Director of the STAM center (Secure, Trusted, and Assured Microelectronics) Michel Kinsy (cq) talks with President Michael Crow outside the state Capitol near downtown Phoenix, Tuesday, January 25, 2022, as part of the ASU Day at the State Capitol. Many schools and departments held displays on engineering, cybersecurity, border issues, health initiatives, water policy to attract the attention of state legislators and policymakers. The University is promoting the New Economy Initiative, a forward-thinking investment by the State that leverages ASU’s knowledge and expertise to improve Arizona’s competitiveness in the sectors imperative for 21st-century industrial growth. These include advanced manufacturing and materials, advanced communication technologies, artificial intelligence, automation and robotics, digital media, virtual and augmented reality, big data and more. Photo by Charlie Leight/ASU News
One digit and the colon for a watch - not sure of the magnification, but it must be about 4 or 5 times
Light Seeds
Frances Tonolete - Toronto, Canada
Rawan Ibrahim - Toronto, Canada
Flavio Firmino-Lunda - Toronto, Canada
Keith Poore - Toronto, Canada
Graham Pearson - Toronto, Canada
Interactive Installation
Science on Art is a collective of Ryerson’s physics and engineering students who formed to explore creative experiments in light, sound and electronics that extend beyond the standard academic experience.
In "Light Seeds,” their latest project, the group uses light and microelectronics to create a colourful and luminous installation in an overhead walkway, within which an array of exploding star-like projections spark to life. The projections are activated by audience members who, at street level, are interacting with multiple control sensors (musical, percussive, optical, and kinetic) that use microelectronics to create the dynamic light show projected overhead.
CRAIG WATSON/STAFF PHOTOGRAPHER
Protester John Mitchell waves his sign as Air Force One carrying President George Bush leaves Aurora's Cabot Microelectronics during President Bush's visit on Friday to promote his technology agenda.
www.wheecoolingfan.com/products/
WHEE takes the quality of its products as the soul of the company and places great emphasis on the professional experience of achievement quality. As a leading cooling fan factory, our products are diverse, ranging from DC cooling fans/cooling fan DC, DC motor clooing blowers, electronic cooling fan to brushless DC blower. From the procurement of materials in the early stage to the finished products in the later stage, WHEE has always strictly examined every link, every process and every detail with a precise and professional eye to ensure the stable function and excellent performance of the factory equipment.
TYPES OF COOLING FAN FOR SALE
Axial Fans
Axial fans are usually installed in the cabinet of electrical equipment and sometimes integrated into the motor. Due to the compact structure, axial flow fans can save a lot of space, and at the same time easy to install, so they are widely used.
>40-70mm DC Axial Fans
>80-120mm DC Axial Fans
Centrifugal Fans & Blowers
Centrifugal Fans & Blowers
When the centrifugal fan works, the blade pushes the air to flow in the direction perpendicular to the axis. The air intake is along the axis direction, while the air output is perpendicular to the axis direction.
>40-70mm DC Centrifugal Blowers
>75-130mm Centrifugal Blowers
Accessories
A cooling module, electronic components used for fever heat, including heating, heat pipe and fins set.
The set on the hot block has a surface and the lower surface of the in contrast, the heat pipe at one end connected to the heat this fins group, on the other side with the set-piece under the surface of the hot connection.
The collection hot piece of the table surface is equipped with a groove, used for the heating electronic components on them.
The grooves on the heating block can contact with the heating electronic components to realize the three-dimensional, increase of contact area, decrease in the thermal resistance, so as to improve the efficiency of heat conduction.
>Thermal Module
>CPU Cooler
Frameless Type Fans
Frameless fans are ideal for space-constrained and noise-sensitive applications and can be integrated into the complementary radiator or housing designs for maximum spatial efficiency.
>50-70mm DC Frameless Fans
>80-100mm DC Frameless Fans
Miniature Fans & Blowers
Micro cooling fan is thinner, smaller, more miniaturization, meet the needs of miniature electronic components and tiny electronic products applicable to furnish within the tiny electronic products and miniature electronic components, used in the electronic components for miniature and microelectronics cooling, and also reduce the vibration and reducing the noise of the fan operation, etc.
>DC Micro Fans
>DC Micro Blowers
>DC Micro Frameless Fans
BENEFIT OF COOLING FANS
Adopt the most advanced design, with high air volume, low noise, corrosion resistance,high quality bearing, silicon steel sheet, enameled wire, high reliability.
General type DC brushless 3.3V, 5V, 9V, 12V, 24V, 48V
Frequency generator 23k-28kHz Alarm signal output
Reversed Protection
Auto Restarted protection
PWM control output
OVP & OCP & OTP protection
PWM & Temperature control
MCU control application
- Auto Vehicle 100HZe
-CAM BOX design
- EMI disturbance preserve
3-phase IC control
FRAMEWORK OF THE SANDIA OCTAHEDRAL MOLECULAR SIEVES (SOMS).
SANDIA RESEARCHERS HAVE CREATED A NEW CLASS OF MOLECULAR CAGES THAT CAN CAPTURE RADIOACTIVE CHEMICALS SWIMMING IN A SEA OF HAZARDOUS WASTE. THEY CAN LET CERTAIN SPECIES IN WHILE KEEPING OTHERS OUT. THESE MICRO-POROUS MATERIALS, SANDIA OCTAHEDRAL MOLECULAR SIEVES, (SOMS) CAN BE USEFUL IN MICROELECTRONICS FABRICATION, WASTE CLEAN-UP AND INDUSTRIAL PROCESSING.
For more information or additional images, please contact 202-586-5251.
Governor Maura Healey, Lt. Governor Kim Driscoll and Secretary of Economic Development Yvonne Hao join Massachusetts Technology Collaborative Executive Director Carolyn Kirk and other officials to announce $9.2 million in new technology and workforce development grants aimed at spurring the microelectronics and semiconductor industry across the Northeast Region during a visit from officials and members from the U.S. Department of Defense at the NEXUS Center in Lincoln on Jan. 30, 2024. [Joshua Qualls/Governor’s Press Office]
Mike Koegel, a microelectronics engineer at Fort Meade, discusses computer components during the Bringing STEM to Life event at the National Cryptologic Museum Thursday, Nov. 10, 2016. (Photo by Steve Ruark)
Prototype of a flexible health patch (integrated in a sports t shirt) weighing just 10g – half the weight of current products. The patch uses real-time electrocardiogram (ECG), tissue-contact impedance and accelerometer information to accurately monitor physical activity.
The new engineering building under construction by McLaughlin & Harvey and budgeted to cost £52m. Some will recognise this site as the former bus turning circle.
Designed by the Building Design Partnership (BDP) and Gardiner and Theobald LLP to include: a 120-person conference room; two 50-seat class rooms; a computer teaching laboratory and a Power Teaching Lab; and new offices for the School’s Engineering Teaching Organisation. It will be home to the Institute of Energy Systems which conducts research in low carbon energy systems, technology and policy. The building has a sustainable design and a rooftop photovoltaic array which will convert sunlight into renewable energy to power the building.
It is in the the southwest corner of the campus, next to the FloWave Ocean Energy Research Facility, the Scottish Microelectronics Centre and the Roger Land Building.
estates.ed.ac.uk/campus-development/kings-buildings/curre...
science-engineering.ed.ac.uk/news-events/current-year/new...
Business Communications Manager for Dow Electronic Materials, Robin Sprague and Director Marketing for Dow Electronic Materials,Asa Yamada
RAZAVI, Behzad. Fundamentos de microeletrônica. [Fundamentals of microelectronics (inglês)]. Tradução e revisão técnica de J. R. Souza. reimpr. Rio de Janeiro: LTC, 2014. xxv, 728 p. Inclui bibliografia e índice; il. tab. quad.; 28x21cm. ISBN 9788521617327.
Palavras-chave: CIRCUITOS ELETRONICOS; MICROELETRONICA.
CDU 621.3.049.77 / R278f / reimpr. / 2014
In response to increasing demand for high performance flash based solid-state drives suitable for notebook and desktop computer users, Sontiya Nujeenseng, Area Sales Manager Intel Microelectronics (Thailand) Ltd announced the availability of Intel® High-Performance SATA Solid - State Drive Model X25-M 80 GB in Thailand.
Three pictures of the University of Maryland Microelectronics lab, each taken at different shutter speeds to produce three different hues.
Basura electrónica y óptica de un dispositivo móvil
#ipod #instagram #camera #sensor #trash #electronic #things #optical #plastic #microelectronics #photoshoot #photography
Light Seeds
Frances Tonolete - Toronto, Canada
Rawan Ibrahim - Toronto, Canada
Flavio Firmino-Lunda - Toronto, Canada
Keith Poore - Toronto, Canada
Graham Pearson - Toronto, Canada
Interactive Installation
Science on Art is a collective of Ryerson’s physics and engineering students who formed to explore creative experiments in light, sound and electronics that extend beyond the standard academic experience.
In "Light Seeds,” their latest project, the group uses light and microelectronics to create a colourful and luminous installation in an overhead walkway, within which an array of exploding star-like projections spark to life. The projections are activated by audience members who, at street level, are interacting with multiple control sensors (musical, percussive, optical, and kinetic) that use microelectronics to create the dynamic light show projected overhead.
RFM12B radio transceiver from Hope microelectronics (www.hoperf.com). It's 18x14mm, roughly the size of a thumbnail.
Lighting: DIY macro studio with diffused 285HVs left & right @ 1/2, 3rd 285HV on the background.
www.businessinsider.com/russia-ammunition-manufacturing-u...
Russian manufacturers are making up to 7 times as much ammunition as Western arms makers, Estonian defense official says
Columbia Professor Jeffrey Sachs on Judge Andrew Napolitano's channel - CIA manipulation of public opinion;
www.youtube.com/live/DEhneK9tfRg
What Prof. Sachs said in the interview was shocking but revealing. We have been lied to everyday by our politicians and the mainstream media. The article below, again, tells half-truths. Hundreds of Ukrainian conscripts are dying everyday. What we should do is to negotiate a peaceful ceasefire with Russia rather than providing more weapons to Ukraine to fight a losing war.
The stance by the West is that when the sanctions don't work, there must be due to some nefarious reasons, such as smuggling and cheating.
www.nytimes.com/2023/09/13/us/politics/russia-sanctions-m...
Russia Overcomes Sanctions to Expand Missile Production, Officials Say
Moscow’s missile production now exceeds prewar levels, officials say, leaving Ukraine especially vulnerable this coming winter.
Russia has managed to overcome sanctions and export controls imposed by the West to expand its missile production beyond prewar levels, according to U.S., European and Ukrainian officials, leaving Ukraine especially vulnerable to intensified attacks in the coming months.
In addition to spending more than $40 billion providing weapons for Ukraine, the United States has made curbing Russia’s military supply a key part of its strategy to support Kyiv.
As a result of the sanctions, American officials estimate that Russia was forced to dramatically slow its production of missiles and other weaponry at the start of the war in February 2022 for at least six months. But by the end of 2022, Moscow’s military industrial manufacturing began to pick up speed again, American officials who spoke on condition of anonymity to disclose the sensitive assessment now concede.
Russia subverted American export controls using its intelligence services and ministry of defense to run illicit networks of people who smuggle key components by exporting them to other countries from which they can be shipped to Russia more easily. In less than a year since the war began, Russia rebuilt trade in critical components by routing them through countries like Armenia and Turkey. U.S. and European regulators have been trying to work together to curb the export of chips to Russia, but have struggled to stop the flow to pass through countries with ties to Moscow.
Russia’s re-energized military production is especially worrisome because Moscow has used artillery to pound Ukrainian soldiers on the front lines, and its missiles to attack the electric grid and other critical infrastructure, and to terrorize civilians in cities. Officials fear that increased missile stocks could mean an especially dark and cold winter for Ukrainian citizens.
In the meantime, the Pentagon is working to find ways to help Ukrainians better take down the missiles and drones fired by Russia at civilian targets in Kyiv and military targets around the country. The Pentagon has provided Patriot air defense systems and cajoled allies to provide S-300 air defense ammunition, both of which have proven effective. It has also provided other air defenses like the Avenger system and the Hawk air defense system.
But Ukraine does not have enough air defense systems to cover the entire country, and must pick the sites it defends. An increased barrage of missiles could overwhelm the country’s air defenses, Ukrainian officials said.
In October 2022, the United States gathered international officials in Washington in an effort to strengthen sanctions on the Russian economy. At the time, American officials said they believed the sanctions and export controls were working in part because they deterred countries from sending microchips, circuit boards, computer processors and other components needed for precision guided weaponry as well as necessary components for diesel engines, helicopters and tanks.
But Russia adapted quickly with its own efforts to secure supplies of the needed parts.
Today, Russian officials have remade their economy to focus on defense production. With revenue from high energy prices, Russia’s security services and ministry of defense have been able to smuggle in the microelectronics and other Western materials required for cruise missiles and other precision guided weaponry. As a result, military production has not only recovered but surged.
Before the war, one senior Western defense official said, Russia could make 100 tanks a year; now they are producing 200.
Western officials also believe Russia is on track to manufacture two million artillery shells a year — double the amount Western intelligence services had initially estimated Russia could manufacture before the war.
As a result of the push, Russia is now producing more ammunition than the United States and Europe. Overall, Kusti Salm, a senior Estonian defense ministry official, estimated that Russia’s current ammunition production is seven times greater than that of the West.
Russia’s production costs are also far lower than the West’s, in part because Moscow is sacrificing safety and quality in its effort to build weapons more cheaply, Mr. Salm said. For instance, it costs a Western country $5,000 to $6,000 to make a 155-millimeter artillery round, whereas it costs Russia about $600 to produce a comparable 152-millimeter artillery shell, he said.
Still, Russia faces some shortcomings. It does not have huge inventories of missiles, though they have more of some kinds — like the Kh-55 air-launched cruise missile — in stock now than they did at the beginning of the war, according to people briefed on intelligence reports.
“In certain areas, they’ve been able to significantly ramp up production,” said Dmitri Alperovitch, an international security expert and chairman of Silverado Policy Accelerator, a Washington-based think tank.
In cases where Russia needs millions of one particular component, export controls can grind production to a halt. But the chips needed to make a couple of hundred cruise missiles would fit into a few backpacks, which makes evading sanctions relatively simple, Mr. Alperovitch said.
American officials said they can slow, but not stop Russia from smuggling the parts it needs for missile production and that it was unrealistic to think Moscow would not react to the American curbs. One way Russia has adapted is by shipping components to third countries then diverting them there back to Russia, according to the Commerce Department.
“Because the controls were having a real impact, the Russian government didn’t just throw up their hands and say, ‘You got us, we give up,’ ” said Matthew S. Axelrod, the Commerce Department’s assistance secretary for export enforcement. “They got more and more creative with their evasion attempts. And we have been really aggressively working a number of different ways to clamp down.”
Currently, the United States and the European Union have a joint list of 38 different categories of items whose export to Russia is restricted. American officials said nine of the 38, mostly microelectronics that power missiles and drones, are the highest priority to block.
American and European officials have been working with banks to develop a warning system to alert governments to possible sanctions violations. So far American banks have alerted the U.S. government to 400 suspicious transactions. The Commerce Department has been able to use a third of those suspicious activity reports in its investigations.
On Aug. 31, the Commerce Department accused three people of taking part in an illicit Russian procurement network. One of the three, Arthur Petrov, a Russian-German national, was arrested and charged by the Justice Department with export control violations.
Mr. Petrov is accused of acquiring microelectronics from U.S.-based exporters for the purpose of sending them to Cyprus, Latvia or Tajikistan. Once there, other companies helped send the components onward, eventually making their way to Russia.
One of the challenges for the U.S. government is that Russia does not need higher-end chips that are easier to track, but commoditized chips that can be used in a wide range of things, not just guided missiles.
“It makes our job harder because there are a lot of countries that it’s legal and totally fine to sell those chips to for legitimate commercial purposes,” Mr. Axelrod said. “The problem is when those chips then get diverted and shipped to Russia.”
American and Western officials say there is some good news. Russian production is still not keeping pace with how fast the military is burning through ammunition and wearing out equipment. For example, even though Russia is on pace to produce two million rounds of ammunition a year, it fired about 10 million rounds of artillery last year. That has led Moscow to desperately search for alternative sources to increase its stocks, most recently by trying to secure a weapons deal with North Korea, U.S. and Western officials said.
And although Moscow has been successful in smuggling processors and circuit boards, it is facing a shortage of rocket propellant and basic explosives, American officials said, material that can be harder to smuggle than circuit boards. Those shortages are likely to constrain Moscow if it tries to step up further production of ammunition, missile or bomb.
Russa’s increased military production has also come at a great cost to the Russian economy, particularly as interest rates spike in the country. Sanctions have taken a toll on the Russian economy’s overall health, and overcoming Western export bans has not come cheaply, said American and Western officials. The senior Western defense official said that Russia had reallocated nearly a third of its commercial economy toward arms production. The country faces a labor shortage that could make further industrial gains harder to achieve too.
Russia cut back on its attacks on Ukraine’s energy grid during the summer. But as temperatures plunge, some Ukrainian and Western analysts and government officials think Russia could renew the terror campaign on Kyiv, in hopes that it will sap Ukrainians’ will to fight.
U.S. officials hope the steady supply of air defense ammunition and additional help to improve how Ukraine intercepts Russian attacks could help counter a reinforced barrage of missiles. And Ukrainian defenses have — in some situations — grown stronger.
“Ukrainians have become better in defending their infrastructure and building defenses around their power stations and critical power grids,” Mr. Salm said. “They have become better at fixing and making sure that the impact of the power outages and other utility outages are not as harsh.”
Julian E. Barnes is a national security reporter based in Washington, covering the intelligence agencies. Before joining The Times in 2018, he wrote about security matters for The Wall Street Journal. More about Julian E. Barnes
Eric Schmitt is a senior writer who has traveled the world covering terrorism and national security. He was also the Pentagon correspondent. A member of the Times staff since 1983, he has shared four Pulitzer Prizes. More about Eric Schmitt
Thomas Gibbons-Neff is a Ukraine correspondent and a former Marine infantryman. More about Thomas Gibbons-Neff
vice president of marketing for Dow Electronic Materials, Mario Stanghellini and great china and south Asia general manager for Dow Electronic Materials, Austin Chen
Nel Cortile Teresiano si è svolta la venticinquesima edizione della Giornata del Laureato, la cerimonia in cui la Comunità accademica di Pavia consegna il diploma di laurea e festeggia i migliori neo-laureati dell’ultimo anno accademico. Una tradizione avviata nel 1991 con l’intento di rafforzare il senso di appartenenza dei laureati pavesi all’Alma Ticinensis Universitas e all’Associazione Alunni.
Programma
ore 19.00
-Benvenuto del Magnifico Rettore Prof. Fabio Rugge
-Prolusione dell’ing. Pietro Palella, Amministratore Delegato di STMicroelectronics
-Consegna dei Diplomi ai Laureati con Lode
-Consegna dei Premi ai migliori Laureati di ogni Facoltà offerti da UBI – Banca Popolare Commercio & Industria
-“Gaudeamus igitur” del Coro della Facoltà di Musicologia
4477 i laureati dell’anno accademico 2013-2014 dell’Ateneo pavese, di cui 934 con lode che riceveranno il diploma di Laurea nel Cortile Teresiano; la consegna avverrà seguendo l’ordine di istituzione dei Dipartimenti (ex facoltà) dell’Università di Pavia: Giurisprudenza, Lettere e Filosofia, Medicina e Chirurgia, Scienze Matematiche, Fisiche e Naturali, Scienze Politiche, Farmacia, Economia, Ingegneria, Musicologia, e Corsi di Laurea Interfacoltà. La Giornata del Laureato si concluderà con la consegna di 12 Premi speciali ai migliori laureati dell’anno 2013/14, con l’uscita del Corteo accademico, accompagnato dal Gaudeamus igitur eseguito dal Coro della Facoltà di Musicologia e il brindisi nei cortili dell’Università.
Ospite d’onore della XXV Giornata del Laureato è Pietro Palella, amministratore delegato e direttore generale di ST Microelectronics Italia. Cremonese classe 1951, Pietro Palella è alunno del collegio Borromeo e si è laureato in ingegneria elettronica all’Università di Pavia nel 1974.
Ha iniziato la sua carriera nei laboratori di Ricerca & Sviluppo dell’Italtel (gruppo STET) occupandosi di prodotti digitali di commutazione per le telecomunicazioni. Nel 1978 è entrato in SGS, una delle società da cui nascerà la STMicroelectronics, come ingegnere di applicazione per i prodotti per le telecomunicazioni. Diventato poi responsabile del Marketing di Prodotto per le Logiche Standard e i Dispositivi per le Telecomunicazioni, successivamente è stato promosso Product Manager per i prodotti semicustom e nel 1986, nominato Business Director della nuova filiale della ST che si occupa di ASIC, Innovative Silicon Technology. Nel 1997, Palella diventa Direttore Generale della Divisione Wireline Products e nel 2002 viene nominato Group General Manager per il mercato dell’Auto. Nell’aprile 2006 il Consiglio di Amministrazione della STMicroelectronics srl, consociata italiana del Gruppo STMicroelectronics, nomina Palella Direttore generale della Società. Dal 2012 Palella è stato nominato Amministratore Delegato di STMicroelectronics Italia. Fin dalla sua creazione Palella è promotore della Fondazione Distretto High Tech Milano Brianza di cui è Presidente. Attualmente è Vice Presidente con delega alla Ricerca e all’Innovazione di ANIE, la Federazione che all’interno di Confindustria rappresenta le imprese Elettrotecniche ed Elettroniche italiane e Vice Presidente di Confindustria Monza Brianza.