Archives for April 2024
Tamron 28-75mm f2.8 Nikon Z review
Sony Cyber-shot R1 retro review
Blackmagic releases new 12K and 17K cine cameras
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From: https://www.newsshooter.com/2024/04/12/blackmagic-design-ursa-cine-ursa-cine-17k/
Blackmagic Design URSA Cine & URSA Cine 17K
Airy3D – Teledyne e2v collaboration
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Link: https://www.airy3d.com/airy3d-e2v-collaboration/
Teledyne e2v and Airy3D collaboration delivers more affordable 3D vision solutions
Grenoble, FRANCE, April 23, 2024 —Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, is pleased to announce a new technology and design collaboration with Airy3D (Montreal, Canada), a leading 3D vision solution provider. The first result of this partnership is the co-engineering of the recently announced Topaz5D™, a low-cost, low power, passive, 2 megapixel global shutter sensor which produces 2D images and 3D depth maps.
Arnaud Foucher, Business Team Director at Teledyne e2v, said, “We’re very excited to have collaborated with Airy3D on the development of Topaz5D, our latest unique CMOS sensor. The need to deploy alternative 3D vision solutions in different industries is crucial. Teledyne e2v’s image sensor design capability coupled with Airy3D’s proven 3D technology has allowed us to develop more 3D vision products for several market segments with a reduced cost of ownership.”
Chris Barrett, CEO of Airy3D, commented, “Airy3D uniquely combines our patented optically Transmissive Diffraction Mask (TDM) design and deep software processing know-how, enabling our partners to add value to their products. Teledyne e2v’s image sensor design, production and supply chain expertise are paramount in introducing these novel 3D solutions to the market and this initiative is a key milestone for us.”
A Topaz5D Evaluation Kit and monochrome and color sensor samples are available now for evaluations and design. Please contact Teledyne e2v for more information.
Lecture on Noise in Event Cameras and "SciDVS" camera
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Talk title: "Noise Limits of Event Cameras" presented at the Cambridge Huawei Frontiers in image Sensing 2024
Speaker: Prof. Tobi Delbruck
Abstract: "Cameras that mimic biological eyes have a 50 year history and the DVS event camera pixel is now nearly 20 years old. Event camera academic and industrial development is active, but it is only in the last few years that we understand more about the ultimate limits on their noise performance. This talk will be about those limits: What are the smallest changes that we can detect at a particular light intensity and particular speed? What are the main sources of noise in event cameras and what are the limits on these? I will discuss these results in the context of our PhD student Rui Graca’s work on SciDVS, a large-pixel DVS that targets scientific applications such as neural imaging and space domain awareness."
“PowerShot V10” vlog camera and “OCT-R1” ophthalmic device win international design award “Red Dot Design Award”
Tsuzuri Project donates to Kyoto City University of Arts a high-resolution facsimile of Ogata Kōrin’s “Waves at Matsushima,” to be displayed at an area of the university open to the public
A review of event cameras for automotive applications
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Event Cameras in Automotive Sensing: A Review
Shariff et al.
IEEE Access
DOI: https://doi.org/10.1109/ACCESS.2024.3386032
Abstract:
Event cameras (EC) represent a paradigm shift and are emerging as valuable tools in the automotive industry, particularly for in-cabin and out-of-cabin monitoring. These cameras capture pixel intensity changes as ”events” with ultra-low latency, making them suitable for real- time applications. In the context of in-cabin monitoring, EC offer solution for driver and passenger tracking, enhancing safety and comfort. For out-of-cabin monitoring, they excel in tracking objects and detecting potential hazards on the road. This article explores the applications, benefits, and challenges of event cameras in these two critical domains within the automotive industry. This review also highlights relevant datasets and methodologies, enabling researchers to make informed decisions tailored to their specific vehicular-technology and place their work in the broader context of EC sensing. Through an exploration of the hardware, the complexities of data processing, and customized algorithms for both in-cabin and out-of-cabin surveillance, this paper outlines a framework encompassing methodologies, tools, and datasets critical for the implementation of event camera sensing in automotive systems.
Two more Sony job openings – Belgium, this time
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Sony Depthsensing Solutions Brussels, Belgium
Analog Design Manager Link
IC Validation and Verification Engineer Link
TriEye and Vertilas 1.3μm VCSEL-Driven SWIR Sensing Solutions
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TriEye and Vertilas Partner to Demonstrate 1.3μm VCSEL-Driven SWIR Sensing Solutions
TEL AVIV, Israel, April 16, 2024/ – TriEye, pioneer of the world's first cost-effective mass-market Short-Wave Infrared (SWIR) sensing technology, and Vertilas GmbH, a leader in InP VCSEL products, announced today the joint demonstration of a 1.3μm VCSEL-powered SWIR sensing system.
TriEye and Vertilas announce their collaboration in advanced imaging technology. This partnership has led to the development of a technology demonstrator that integrates TriEye's state-of-the-art Short-Wave Infrared (SWIR) Raven image sensor with Vertilas’ innovative Indium Phosphide (InP) Vertical-Cavity Surface-Emitting Laser (VCSEL) technology. Adopting high-volume, scalable manufacturing strategies, these technologies provide cost-effective solutions for both consumer and industrial
markets.
The system highlights the capabilities of TriEye's CMOS-based SWIR sensor, noted for its high sensitivity and 1.3MP resolution. Designed to enhance imaging in various industries, including automotive, consumer, biometrics, and mobile robots, this solution represents a significant step forward in sensing technology. Alongside, Vertilas introduces its InP SWIR VCSEL technology that provides high output power with high power efficiency. This new VCSEL technology is a complementary innovation that enhances the SWIR camera's functionality. Deploying 1.3μm VCSEL arrays enables greatly improved eye safety and signal quality while minimizing sunlight distortion. Vertilas InP VCSEL array technology also
offers wavelengths at 1.55μm up to 2μm. This new technology is expected to broaden the scope of applications in imaging and illumination across multiple industries.
"Vertilas is thrilled to expand our efforts with TriEye in this groundbreaking initiative. Our InP VCSEL technology, combined with TriEye's exceptional SWIR sensor, marks a significant advancement in the realm of imaging and illumination solutions”, said Christian Neumeyr, CEO at Vertilas. “This collaboration is more than just a technological achievement; it represents our shared vision of innovating for a better, more efficient future in both consumer and industrial applications."
"At TriEye, our commitment has always been to bring revolutionary SWIR technology to the forefront of the market. The integration of our SWIR sensor with Vertilas InP VCSEL technology in this collaborative venture is a testament to this mission”, said Avi Bakal, CEO of TriEye. “We are proud to unveil a solution that not only enhances imaging capabilities across various industries but also does so in a cost-effective and scalable manner, making advanced sensing technology more accessible than ever."
CBP, Canon Announce Partnership Against Counterfeit Products
CBP, Canon Announce Partnership Against Counterfeit Products
Camera identification from retroreflection signatures
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In a recent article in Optics Express titled "Watching the watchers: camera identification and characterization using retro-reflections,", Seets et al. from University of Wisconsin-Madison write:
A focused imaging system such as a camera will reflect light directly back at a light source in a retro-reflection (RR) or cat-eye reflection. RRs provide a signal that is largely independent of distance providing a way to probe cameras at very long ranges. We find that RRs provide a rich source of information on a target camera that can be used for a variety of remote sensing tasks to characterize a target camera including predictions of rotation and camera focusing depth as well as cell phone model classification. We capture three RR datasets to explore these problems with both large commercial lenses and a variety of cell phones. We then train machine learning models that take as input a RR and predict different parameters of the target camera. Our work has applications as an input device, in privacy protection, identification, and image validation.
Link: https://opg.optica.org/oe/fulltext.cfm?uri=oe-32-8-13836&id=548474
Job Postings – Week of 21 April 2024
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Omnivision Principal Image Sensor Technology Engineer |
Santa Clara, California, USA |
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NIST RAP opportunity - Metrology for Faint Photonics |
Boulder, Colorado, USA |
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Innovative Scientific Solutions, Inc. Research Engineer |
WPAFB (Dayton), Ohio, USA |
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OIP Sensor Systems Senior Electronics Design Engineer |
Oudenaarde, Belgium |
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TU Delft Junior researcher |
Delft, Netherlands |
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Teledyne e2v Project Manager |
Chelmsford, England, UK |
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ST Microelectronics Validation Team Manager |
Edinburgh, Scotland, UK |
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The Open University UK Space Detector Calibration Scientist |
Milton Keynes, England, UK |
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University of Trento Ph.D. position on 3D silicon detector development |
Trento, Italy |
Canon releases LI5030 sensor
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Canon’s 2.8 MP LI7060 CMOS sensor is equipped with an HDR drive function that achieves a wide 120 dB range at low noise levels. This wide range results in a greater ability to extract usable information even where there is a substantial difference between the lightest and darkest areas of an image. Even when using the sensor during normal drive operation, the sensor can achieve a dynamic range of 75 dB.
The LI5040 and 3U5MGXSBA global shutter image sensor employs an advanced pixel design introducing drive readout and gathering structures which help significantly reduce noise, and contributing to a wide dynamic range with a power consumption of 500mW. Equipped with a 3.4μm pixel size and all pixel progressive reading at 120fps, the 2/3” sensor size with 5.33 million effective pixels (2592 x 2056) easily allows for applications in machine vision and other industrial environments where smaller size and high performance are required. It is available in RGB, Monochrome, and a specialized RGB‐NIR color filter.
LI5030SA is a CMOS type of solid-state image sensor with a 35mm full frame effective pixel array of 19 Megapixels. It uses a global shutter function instead of a conventional rolling shutter. It enables simultaneous exposure timing for all 19 megapixels. It can output an effective 5688 x 3334 pixels of video at 57.99 fps and 12bit via 24 channels of digital signal output. LI5030SA series consists of LI5030SAC (color), LI5030SAI (RGBIR), LI5030SAM (monochrome), and LI5030SAN (Naked). LI5030SAN does not have a microlens or color filter.
The high sensitivity, resolution, and global shutter of this sensor along with multiple color filter variations makes the LI5030 a great choice for a wide array of applications such as microscopes, factory automation, traffic surveillance, drone vision, etc.
Canon aids relief effort following 2024 Taiwan Earthquake
Canon aids relief effort following 2024 Taiwan Earthquake
Sony IMX900 videos
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This video presents Sony's 1/3.1" global shutter image sensor IMX900 with approx. 3.2 effective megapixels that is compact, high-resolution, and has improved near-infrared sensitivity. Here are its three features.
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Chapters
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0:00 Opening
0:40 Compact, high resolution(1/3.1" 3.2MP)
1:12 Improved incident light angle dependency
3:00 Enhanced NIR region sensitivity
3:41 Ending
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This video presents Sony's IMX900 global shutter image sensor, which is ideal for industrial applications such as barcode reading, picking robot, and AMR (autonomous mobile robots).
Here are the three functions that support optimal imaging for different scenarios.
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Chapters
=================================
0:00 Opening
0:27 Fast Auto Exposure
1:42 Quad HDR(High Dynamic Range)
2:22 Quad Shutter Control
Canon’s SELPHY series of compact photo printers celebrates 20th anniversary
EgisTec to acquire Curious
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Taiwan-based IC design house Egis Technology (EgisTec) has announced
plans to acquire Curious, a Japan-based IP and fabless chipmaker, in a
share swap transaction valued at NT$525 million (US$16.4 million).
Curious designs IP for image sensors:
http://www.curious-jp.com/en/
Egis makes fingerprint sensors including under-display optical sensors, including those used in older Samsung Galaxy S9 and S9+ phones:
https://www.egistec.com/en/
Job Postings – Week of 14 April 2024
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Samsara Lead Camera Systems Engineer |
San Francisco,, California, USA |
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Fraunhofer HHI Telecommunications Scientist Photonic for single photon detectors |
Berlin, Germany |
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Fraunhofer HHI Telecommunications Scientist photonic Foundry Platform |
Berlin, Germany |
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RTX Raytheon Principal Signal and Sensor Modeling Engineer |
Tucson, Arizona, USA |
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Swansea University Funded EPSRC DTP PhD Scholarship: Diamond NV Quantum Sensor |
Swansea, Wales, UK |
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Apple Optical Characterization and Simulation Engineer |
Cupertino, California, USA |
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TU Delft Phd Position for Low-power Broad-spectrum Image Sensor with Local Smart Data Processing |
Delft, Netherlands |
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Thermo Fisher Scientific Engineer III, Systems Design |
Hillsboro, Oregon, USA |
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Weizmann Institute Tracking in SF-QED experiments and R&D of wide-bandgap detectors |
Rehovot, Israel |
X-FAB annonces BSI process for next gen image sensors
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X-FAB Enhances Image Sensor Performance Through Back-Side Illumination
NEWS – Tessenderlo, Belgium – Apr 03, 2024
Presenting a foundry route to medical, automotive and industrial customers that combines boosted sensitivity, larger pixel size and more extensive sensor area
X-FAB Silicon Foundries SE, the leading analog/mixed-signal and specialty foundry, has just announced a major addition to its optical sensor offering. Aimed at use in next generation image sensor fabrication, the company is now able to provide a back-side illumination (BSI) capability in relation to its popular XS018 180nm CMOS semiconductor process.
Through BSI, imaging devices’ performance characteristics can be significantly enhanced. It means that the back-end process metal layers do not block the incident light from reaching the pixels, increasing fill factors by up to 100%. This is highly beneficial in situations of low-level illumination – as higher pixel light sensitivity can be achieved. BSI also offers the added advantage of significantly reducing the crosstalk between neighboring pixels, due to shorter light paths, leading to better image quality. Though small-pixel BSI solutions for 300mm wafers with high-volume consumer usage are commonplace, there are very few options available for image sensors with stitched large-pixel arrangements for 200mm wafers, especially when additional customizations are required. The new X-FAB BSI capability brings new possibilities, allowing customers with even the most demanding application expectations to be served - such as those involved in X-Ray diagnostic equipment, industrial automation systems, astronomical research, robotic navigation, vehicle front cameras, etc.
Leveraging the XS018 platform, which offers high readout speeds and exhibits low dark currents, image sensors with multiple epi options will be produced. An ARC layer can be added and then tuned in accordance with particular customer requirements. The accompanying X-FAB support package covers a full workflow from initial design through to the shipment of engineering samples, with a comprehensive PDK included.
“BSI technology has become increasingly prevalent in modern imaging devices, thanks to its ability to boost image quality by placing light-sensitive elements closer to the light source and avoiding unwanted circuitry obstructions. This is proving very useful in environments where light is limited,” states Heming Wei, Technical Marketing Manager for Optical Sensors at X-FAB. “Though much of this uptake has been within the consumer electronics sector, there are now numerous opportunities emerging in the industrial, automotive and medical markets. Via access to X-FAB’s BSI foundry solution, it will now be possible for these to be properly attended to, with a compelling offering being provided that brings together heightened sensitivity, enlarged image sensor dimensions and bigger pixel capacities too.”
Sony news and videos
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From https://www.sony-semicon.com/en/news/2024/2024032801.html
New Fab Expansion at Sony Device Technology (Thailand) Co., Ltd.
Atsugi, Japan — Sony Semiconductor Solutions Corporation today announced that, starting in February 2024, it has begun the operations with several production lines at the new fab built on the premises of Sony Device Technology (Thailand) Co., Ltd. (“SDT”), a production center responsible for assembly processes of semiconductors. The opening ceremony was held today, officiated by top executives from Sony Semiconductor Solutions Group led by Terushi Shimizu, President and CEO of Sony Semiconductor Solutions and Yoshihiro Yamaguchi, President of Sony Semiconductor Manufacturing, SDT Managing Director Takeshi Matsuda. It was witnessed by guests including Japan’s Ambassador to Thailand, Mr. Masato Otaka, Mr. Wirat Tatsaringkansakul, BOI Deputy Secretary General and other VIPs.
SDT serves as a production center for the assembly of the main product line within Sony’s Imaging & Sensing Solutions business. The new fab, dubbed “Building 4,” will be utilized for the assembly of image sensors for automotive applications and display devices as well as the mass production of laser diodes for data center application.
Going forward, SDT plans to expand production facilities at Building 4 in line with market trends, while also planning to create approximately 2,000 new jobs with this new operation, thereby contributing to local employment and expanding the semiconductor industry in Thailand.
In addition, SDT has been operating its facilities on 100% renewable energy since fiscal year 2021. In the clean room of Building 4, the air conditioning system controls cleanliness, temperature and humidity by focusing on areas of need, and recycling technology for waste heat and hot water has also been adopted. Furthermore, SDT plans to cover the roof area of Building 4 with solar panels, with operations scheduled by the end of 2024 (calendar year). By accelerating the initiatives to reduce energy consumption and adoption of renewable energy, SDT will continue to run on 100% renewable energy even after Building 4 goes into full operation.
“With the completion of Building 4, we are very pleased to be able to deliver to more customers, a product line-up whose market is expected to expand over the medium to long term,” said Takeshi Matsuda, Managing Director of Sony Device Technology (Thailand) Co., Ltd. “As an overseas manufacturing site of Sony Semiconductor Solutions Group, SDT will contribute to the sustainable evolution of Sony’s business as well as society.”
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Two new videos about IMX900 sensor on YouTube:
This video presents Sony's 1/3.1" global shutter image sensor IMX900 with approx. 3.2 effective megapixels that is compact, high-resolution, and has improved near-infrared sensitivity. Here are its three features.
This video presents Sony's IMX900 global shutter image sensor, which is ideal for industrial applications such as barcode reading, picking robot, and AMR (autonomous mobile robots). Here are the three functions that support optimal imaging for different scenarios.
Sony Cyber-shot F828 retro review
Job Postings – Week of 7 April 2024
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California Institute of Technology SRL Instrument Scientist |
Pasadena, California, USA |
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ERC Centre de Nanosciences et de Nanotechnologies PhD position :Integrated electro optical modulators and photodetectors in the mid-IR spectral range. |
Palaiseau, France |
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Omnivision Product Marketing Manager |
Santa Clara, California, USA |
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University of Edinburgh Research Associate in Short Wave Infrared LIDAR Sensors |
Edinburgh, Scotland, UK |
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United Imaging America Laparoscope Image Signal Processing Expert |
Houston, Texas, USA |
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ETH Zurich DMAPS Detector Development (DRD3 Collaboration) |
Zurich, Switzerland |
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Leonardo DRS Principal Electro-Optical Engineer |
San Diego, California, USA |
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NASA Goddard SFC Far-Infrared Detectors for Space-Based Low-Background Astronomy |
Greenbelt, Maryland, USA |
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KLA Senior / Staff Electrical R&D Engineer (Hardware) |
Singapore |
STMicroelectronics has an opening in Paris
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STMicroelectronics
Expert in image processing algorithms for optical sensors (or) Paris, France Link
Expert en algorithmes de traitement d'image pour capteurs optiques
CIS shipments for smartphones shrank in 2022 and 2023
Available: a Ph.D. Scholarship under Prof. Guy Meynants
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KU Leuven
PhD on temporal noise reduction in CMOS image sensors Geel, Belgium Link
Toppan shifts image sensor production to China
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From Nikkei Asia news: https://asia.nikkei.com/Business/Tech/Semiconductors/Japan-s-Toppan-shifts-image-sensor-component-production-to-China
Japan's Toppan shifts image sensor component production to China
TOKYO -- Japan's Toppan Holdings has moved production of components for CMOS image sensors from Japan to China, aiming to boost local production 40% as Beijing looks to bolster its supply chains for related technologies.
CMOS -- complementary metal-oxide semiconductor -- sensors convert light captured by camera lenses into electrical signals. Among CMOS components, Toppan produces on-chip color filters (OCF) that colorize captured images and microlenses that increase light-gathering power. Without OCF, CMOS can only detect differences in light level.
Toppan brought related equipment from its plant in Japan's Kumamoto prefecture to a facility in Shanghai and increased production lines from five to seven. They do not fall under U.S. export restrictions targeting China for advanced chipmaking equipment.
The Kumamoto plant will be used for research and development and its approximately 370 employees will be maintained.
The global CMOS market in 2022 was around $21.2 billion, according to French research firm Yole Intelligence. Sony Group leads with a 42% market share, followed by Samsung Electronics with 19% and U.S.-based Omnivision with 11%.
China's presence among top companies is limited to seventh-place GalaxyCore with 4% and eighth-place SmartSens with 2%. While Sony and Samsung manufacture OCF in-house, Chinese manufacturers mainly procure from outside sources.
In China, demand is increasing for CMOS related to automobiles, smartphones, surveillance cameras and other fields. Toppan will strengthen sales to local CMOS sensor manufacturers by producing near areas of demand.
Toppan's move comes as Beijing is spending more than $1.75 billion a year on subsidies to boost domestic semiconductor production, according to the South China Morning Post.
The U.S. has placed restrictions on the export of chipmaking equipment to China out of concerns the technology could be diverted for military purposes, making it difficult for the country to produce advanced chips.
Among chips in practical use, the most advanced level is currently said to be 3 nanometers. In general, the smaller the nanometer level for a logic chip, the more powerful it is.
Amid U.S. restrictions, China is focusing on CMOS, which differ from logic chips in manufacturing method and the definition of advanced products. Most CMOS can be manufactured using mature technology of 28 nm or greater, with the production equipment falling outside of the U.S. restrictions.
China's share based on production capacity of all 28-nm or greater so-called legacy chips is expected to reach 33% of the world's total in 2027, up 4 percentage points from 2023, according to Taiwan research firm TrendForce.
Beijing announced its "Made in China 2025" high-tech industry development plan in 2015, choosing semiconductors as a priority area. Two large government funds have been set up so far to help boost the domestic chip industry.
Plans for a third phase have recently emerged. Bloomberg reported this month that China was raising more than $27 billion from local governments and state-owned enterprises for a chip fund, the biggest of its kind.
Investment in mature technology other than CMOS is also increasing in China, and Japanese and U.S. manufacturing equipment makers are increasing sales in this field as well.
The value of chipmaking equipment shipments to China reached a record high of over $30 billion in 2023, up 6% from 2022 and putting the country first ahead of Taiwan and South Korea in imports, according to industry group SEMI.
STMicroelectronics and CEA LETI develop microlenses for SPADs
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In a preprint titled "Metasurface-based planar microlenses for SPAD pixels", J. Vaillant et al. of STMicroelectronics and CEA LETI write:
In this paper we present two design generations of metasurface-based planar microlenses implemented on Front-Side Illumination SPAD pixels. This kind of microlens is an alternative to conventional reflow microlens. It offers more degrees of freedom in term of design, especially the capability to design off-axis microlens to gather light around the SPAD photodiode. The two generations of microlenses have been fabricated on STMicroelectronics SPAD and characterized. We validated the sensitivity improvement offered by extended metasurface-based microlens. We also confirmed the impact of lithography capability on metasurface performances, highlighting the need have access to advance deep-UV lithography.