Empower Semiconductor的动态

??NEW PARTNERSHIP?? Silicon Line is excited to have entered into a distribution and partnership agreement with KAGA FEI America to expedite the popularization of high-speed video and imaging data communication technology and bring more value and services to our customers in North America. ? Silicon Line offers best-in-class MIPI SerDes that overcomes the length limitation of MIPI enabling the transfer of high data rate MIPI signal over a longer distance either electrically or optically. To scale up the exponentially growing demand for higher camera resolutions and bandwidth, we are looking forward to leveraging KAGA FEI America's broad customer network and knowhow in security, medical imaging, extended reality, and machine vision applications with Silicon Line's ultra-low-power MIPI interconnect ICs. About @KAGA FEI America:?https://lnkd.in/dHtuUky2 About Silicon Line:?https://lnkd.in/dCTkynVa #mipidphy #serdesic #partnership

Fun Fact Alert! Did You Know? The invention of the semiconductor laser in 1962 by Robert N. Hall revolutionized telecommunications, medicine, and consumer electronics. Today, semiconductor lasers are integral to various technologies, including high-speed internet via fiber optics, precision surgical tools, barcode scanners, and advanced manufacturing processes. #Innovation #Technology #SemiconductorLaser #ModernizeChipSolutions #Telecommunications #Medicine #ConsumerElectronics #FiberOptics

The increasing complexity of advanced semiconductor devices presents a significant challenge for current fab metrology and defect analysis solutions, highlighting the critical importance of Transmission Electron Microscopy (TEM) data in advanced device manufacturing. The Helios 5 EXL system effectively addresses these challenges through its groundbreaking automation capabilities, delivering three key benefits: user-friendly operation, exceptional sample and data quality, and proficient handling of a diverse range of device analysis requirements. Don’t miss the interview on how this cutting-edge technology accelerates time to data and facilitating modern semiconductor fabrication:https://ter.li/9lo8dj #semiconductorindustry #technologyinnovation #productvideo #Helios5EXL #dataanalysis

?? Med-Tech Industry & Component Obsolescence ?? Did you know that while medical devices are designed to last 10-15 years, many of their critical electronic components become obsolete within just 3-5 years? This leads to costly redesigns, regulatory delays, and disruptions in products like MRI machines, pacemakers, and diagnostic equipment. ?? A single redesign due to obsolescence can cost over $100,000 and delay market entry by months. At Maketronics, we specialize in sourcing obsolete components to ensure the continuous operation of life-saving devices, without the need for expensive redesigns. Let’s keep your production lines moving and your devices in service! #ComponentObsolescence #MedTech #MRI #Pacemakers #MedicalDevices #Diagnostics #HealthcareInnovation #SupplyChainSolutions #ObsoleteParts #Electronics #Maketronics #EOLManagement #ProcurementSolutions #MedicalTechnology #Healthcare

A nice overview of the IC design activity at CEA-Leti.

?? Delivering for patients How new flexible X-ray semiconductors could hold the key to better outcomes for patients. Read the article written by Dan Cathie, CEO of Silveray, here ?? https://lnkd.in/eHScyuSx #electronics #medical #semiconductors

Powered by TDK Chip Embedded Power modules

New article alert: Check out our recent article on the Impact of Photoluminescence Imaging Methodology on Transport Parameters in Semiconductors. #OLED #PLImaging #Optoelectronics

#??????????????-?????????? #?????????????? #???????????? ???? ???????????????? ???? ?????????? ?????? ??????.???? ????. ???? ????????, ???? ?? ???????? ???? ??.????% ???????????? ?????? ???????????????? ????????????. ???? ?????? ????????: https://lnkd.in/ecm7mqXP The Acousto-optic Devices Market is seeing #growth due to increasing demand for precise laser modulation and beam control applications in fields like #telecommunications, medical imaging, and material processing. These devices offer enhanced control over light by using sound waves, which makes them valuable in applications that require #high accuracy and reliability. As industries seek efficient and #innovative solutions, acousto-optic devices are becoming integral to advancements in laser #technology and optical communication. With ongoing research and development, these devices are expected to achieve even #greater functionality and integration into various high-tech applications. ?????????????????????? ?????????????????? 1. G&H (Gooch & Housego) 2. Isomet Corporation 3. Brimrose Corporation of America 4. Harris Corporation 5. AMS Technologies AG #?????????????????????????????????????? #?????????????????????????????? #???????????????????????????????????????? #???????????????????????????? #?????????????????????? #???????????????????????????????????? #???????????????????????????????????? #?????????????????????????????????????? #?????????????????? #???????????????????????????????????????????? #?????????????????? #?????????????????????????????? #?????????????????????????????????? #???????????????????????????????????????? #????????????????????????????

if you are dealing with a semiconductor which is being dominated by defects/disorder, typically is the case of organic semiconductor then you will like to read this interesting article which suggests many experimental findings based on transient microscopy can give wrong estimate of crucial transport parameters! Congratulations to Gangadhar S B. and Rishabh Saxena in Prof Anna Koehler & Prof Heinz Bassler group at Bayretuth University for putting this insightful work together.