AMEYA360:Ams OSRAM TOPLED® D5140 Silicon PIN Photodiode
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AMEYA360:Ams OSRAM TOPLED® D5140 Silicon PIN Photodiode

  AMEYA360:Ams OSRAM TOPLED D5140 Broadband Silicon PIN Photodiode (SFH 2202) provides higher sensitivity to visible light in the green wavelength and increased linearity (30x higher) than standard photodiodes on the market. By reducing the effect of interference from ambient light and improving the received optical signal quality, these enhanced features enable smart watches, activity trackers, and other wearables to measure heart rate and blood oxygen saturation (SpO2) more accurately.          The SFH 2202 photodiode allows system operation with lower LED light intensity, saving power and extending battery run-time while maintaining highly accurate measurements. The specially designed package with black sidewalls minimizes internal cross-talk, further decreasing errors in optical measurements and increasing the constancy of heart rate measurements.  FEATURES  Clear silicone package  ESD of 2kV acc. to ANSI/ESDA/JEDEC JS-001 (HBM, Class 2)  Especially suitable for applications from 400nm to 1100nm  Small outline dimensions  Suitable for reflow soldering  Enhanced green sensitivity  Speed-enhanced PD for 940nm  APPLICATIONS  Digital diagnostic devices  Vital sign monitoring  SPECIFICATIONS  16V maximum reverse voltage  150mW maximum total power dissipation  830nm typical wavelength of maximum sensitivity  400nm to 1100nm typical spectral range of sensitivity  3.2A to 4.1A typical photocurrent range  8.12mm2 typical radiant sensitive area  2.85mm x 2.85mm typical active chip area dimensions (LxW)  60° typical half angle  Dark current  0.07nA typical at 5V  25nA maximum at 10V, 0.1nA typical  75ns to 250ns typical rise time range  75ns to 200ns typical fall time range  1.1V typical forward voltage  23pF capacitance  -40°C to +85°C operating temperature range
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Release time:2023-04-11 11:30 reading:3240 Continue reading>>
Ameya360:ams OSRAM Launches Global Partner Network
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Ameya360:ams OSRAM Launches Global Partner Network

  AMS OSRAM has launched a new Global Partner Network of design consultancies, module suppliers, and supporting component manufacturers to accelerate customers’ time to market and facilitate new business opportunities, while taking advantage of the latest optical and sensor technologies.  Partners are selected based on their technical expertise, solution offering and track record of working with customers to co-create new products. The Global Partner Network encompasses the hardware, software, tools, services and know-how required to quickly capitalize on today’s megatrends without huge investment.  “ams OSRAM products are at the leading edge of many optical and sensor technologies. The Global Partner Network Program will deliver more customer value. It will enhance our relationship with our partner ecosystem and provide our joint customers with a comprehensive and global pool of expertise and solutions. ams OSRAM is ensuring that any customer can take advantage of our technologies, no matter how much design experience or resources it has internally,” said Pierre Laboisse, Executive Vice President of Global Sales and Marketing at ams OSRAM.  The new ams OSRAM Partner Network is designed to give customers multiple options to procure the support that best fits their business model with the integration of advanced optical and sensor systems into end product designs.  It includes different type of partners so that interested ams OSRAM customers are put in position to procure the appropriate solution or service: module and solutions providers; independent design houses; manufacturers of complementary offerings; and manufacturers of recommended components.  The ams OSRAM Global Partner Network already includes more than 40 partners offering advanced lighting and sensing solutions for automotive, industrial, consumer and medical applications. ams OSRAM welcomes new members to the network to expand the range of expertise and capabilities available to its customers.  Members of the network will benefit from a formal framework for the co-operation with ams OSRAM. This includes direct expert-to-expert interaction with ams OSRAM specialists, training materials and tools; access to samples for early design and testing; mutual promotion of each other’s products in sales collateral, online and on social media; and joint discovery of new business opportunities.
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Release time:2023-02-01 11:25 reading:3202 Continue reading>>
<span style='color:red'>Osram</span> Continental Joint Venture Commences Operations
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Osram Continental Joint Venture Commences Operations

The Osram Continental GmbH joint venture has successfully completed negotiations and the issuance of merger control approvals. The new company is actively doing business with a focus on intelligent lighting solutions in the automotive market, effective July 2, 2018.Osram Continental, with headquarters in Munich, Germany, will initially employ approximately 1,500 people across 16 locations worldwide. The company plans to move the headquarters to Garching, Germany, within the next year. The joint venture aims to generate annual sales in the mid-triple-digit-million-euro range. Continental and Osram each hold a 50 percent stake in the joint venture, which is fully consolidated through Osram.Osram Continental is planning for growth rates of up to double digits annually for the next five years. This is based on strong growth in the market for LEDs, as well as laser-based lighting modules and solutions, and associated electronics. The initial products from the joint venture are expected to be ready for series production by 2021.Dirk Linzmeier, CEO of Osram Continental, has high expectations for the start of the joint venture. “Over the past few months, we have laid down a number of milestones, allowing us to create a new company that will revolutionize the future of automotive lighting. Building on these fundamentals, Osram Continental will provide a significant boost to the market.”“By launching our joint venture, we are generating confidence that the market for intelligent automotive lighting will continue to grow and be viable. Furthermore, with our team of experts from both companies, we will increase the efficiency, innovation and integration of our products. I am looking forward to collaborating with our new colleagues to develop exciting, game-changing products,” said Harald Renner, CFO and member of the general management of Osram Continental GmbH.The market for vehicle lighting in the automotive industry is currently in a period of transition as it moves toward semiconductor-based lighting technologies. As a result, software and electronics are becoming increasingly influential. Through this partnership, Continental and Osram are combining their strengths to develop state-of-the-art headlamp modules and solutions for tail and interior lighting for both automotive manufacturers and suppliers.Joint venture takes intelligent automotive lighting to a new levelThe joint venture will utilize advancements in digitalization to produce intelligent car lighting solutions, allowing multi-functionality from a single source. With its optimized approach, and by combining lighting and intelligent electronics, Osram Continental also strives to ensure market penetration of LED technology in all vehicle segments.As such, the company will not only use software-based solutions to create a configurable light distribution system – for anti-glare dipped headlamps and high beam headlamps, for example – but it is also developing intelligent lighting functions. Using data from the navigation system and sensors, vehicles equipped with these solutions in the future will, for example, be able to project warning messages for other road users while driving.Continental develops pioneering technologies and services for sustainable and connected mobility of people and their goods. Founded in 1871, the technology company offers safe, efficient, intelligent and affordable solutions for vehicles, machines, traffic and transport. In 2017, Continental generated sales of €44 billion and currently employs more than 240,000 people in 61 countries.In the Interior division, everything revolves around information management in the vehicle and beyond. The range of products for various vehicle categories includes instruments, multifunction displays, head-up displays, control devices, access and tire information systems, radios, infotainment and operating systems, climate control units, software, cockpits, telematics solutions and services, and intelligent transport systems. The Interior division employs more than 46,000 people worldwide and generated sales of €9.3 billion in 2017.OSRAM, headquartered in Munich, is a leading global high-tech company that has been in the industry for over 110 years. The majority of its products are semiconductor-based and are used in a wide range of applications from virtual reality to autonomous driving and smartphones, all the way through to connected, intelligent lighting solutions for buildings and cities. OSRAM utilizes the endless possibilities offered by light to improve the lives of people and societies. In the future, OSRAM’s innovations will not only allow us to see better, but also to communicate, travel, work and live better. At the end of the 2017 fiscal year (as at September 30), OSRAM employed around 26,400 people worldwide and generated sales of over €4.1 billion in this fiscal year. The company is listed on the stock exchanges in Frankfurt am Main and Munich under WKN: LED 400 (ticker symbol: OSR). 
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Release time:2018-07-12 00:00 reading:1066 Continue reading>>
<span style='color:red'>Osram</span> Morphs from Lightbulbs to Optoelectronics
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Osram Morphs from Lightbulbs to Optoelectronics

  Aldo Kamper’s seven-year career as CEO of Osram Opto Semiconductors neatly overlaps the transformation of parent company Osram over the last decade.  Osram, a German company once known in the United States for Sylvania light bulbs (Osram GmbH acquired GTE’s Sylvania lighting division in 1993), identifies itself today as a “tech company.” Highlighting its light source technologies, Osram is driving R&D projects into such diverse fields as illumination, sensing and visualization.  If its booth at the Consumer Electronics Show earlier this month was any indication, Osram is a core light-source supplier to lidars that analyze vehicles’ surroundings and a provider of headlights that shine the road ahead but can automatically adjust intensity to prevent blinding oncoming vehicles or pedestrians. Osram also provides lights for iris scanning and facial recognition in smart phones, and provides sensors embedded in wearable devices.  While Kamper isn’t claiming credit for the parent company’s transition, he knows that basic semiconductor technologies and their devices — developed and manufactured by his own division Opto Semiconductors — have been critical to Osram’s recent growth.  After successfully divesting its lamps business, Osram GmbH — with 4 billion euro earnings in FY 2017 — last year generated revenues from three business units: Opto Semiconductors (1.7 billion euros), Specialty Lighting (2.3 billion euros) and Lighting Solutions and Systems (1.0 billion euros).  Today, Osram Opto Semiconductors (Regensburg, Germany) is the world's second largest manufacturer of optoelectronic semiconductors after Japan’s Nichia.  In a one-on-one interview with EE Times during CES, Kamper, who took over at Osram Opto Semiconductors in 2010 at the age of 40, showed no signs of boredom after seven years in the same division. Instead, the youthful-looking Kamper talked much like a kid in a candy store, still awe-struck by the potential of various optoelectronic applications in everyday life.  A Dutch native, Kamper joined Osram in 1994 after graduating from the University of Limburg. He spent two years — between 1997 and 1999 — in California at Stanford University’s graduate school of business earning an MBA. After two years in Silicon Valley’s technological hothouse, Kamper thought: “There is no way I’m going back to a lightbulb company.”  Fortunately, Kamper didn’t have to find a new job at a chip company in Silicon Valley, because the lightbulb company was catching the high-tech bug. The Opto Semiconductors team became an integral part of Osram’s light bulb-to-tech revolution.  Today, 50 percent of Opto Semiconductors’ revenue comes from the automotive sector. The rest of the Opto Semiconductors’ business derives from the consumer sector where optoelectronics is applied to everything from wearable devices to signal generations. Having two sectors to lean on by “going back and forth between them” is a good thing, according to Kamper. It proves that “we are not a one-trick pony.”  Opto Semiconductors’ product portfolio includes high-performance light-emitting diodes (LEDs) — designed for automotive and general lighting applications — miniature LEDs for mobile devices, as well as infrared diodes (IRED), semiconductor lasers and detectors.  Manufacturing is the key  Osram’s rapid growth couldn’t have happened and wouldn’t continue without the company’s intense R&D and ability for cost-efficient production, according to Kamper. “After all, we are in the cost-intensive game for semiconductors,” he said.  Case in point: Last November, Osram opened a new plant in Kulim, Malaysia. The German company believes it will be “the world's largest LED factory using 6-inch wafers.”  But wait. If Osram Opto Semiconductors is indeed in the semiconductor business, shouldn’t the company be fabless?  Other than Intel, your typical chip company in Silicon Valley these days is fabless. Fab ownership is not just frowned upon. It simply doesn’t make sense, because of the cost-prohibitive capital investment required for chip companies to build fabs. Outsourcing semiconductor production to a foundry like Taiwan Semiconductor Manufacturing Co. (TSMC) is the norm, freeing chip vendors’ resources to spend on more R&D.  Asked why Opto has its own fab, Kamper explained that the fabless theory does not apply to optoelectronics. For LED chips, product differentiation lies in each company’s proprietary process for manufacturing chips. “Epitaxy growth is the first step, which is such a vital early portion of chip fabrication that can define the core elements of the LED chips,” Kamper said.  With Kulim up and running, Osram now has a global network of three chip fabs. Two others are in Penang and Regensburg. This group of fabs allows Osram to cover a range of LED chip technologies including blue, green, white, red, orange, yellow and infrared, as well as surface and volume emitters.  The Kulim operation is notable for two reasons. First, it marks Osram’s transfer of its epitaxy stage of production outside of Germany. No other major LED chip farms out epitaxy.  Second, the Kulim plant will be the first to combine all production steps involved in chip manufacturing — from epi growth to wafers — under one roof. “We will have an in-house control over the full value chain,” said Kamper. “This lets us optimize our components better.”  Osram invested a total of 370 million euros in the first stage of the Kulim fab. It plans to expand in two additional stages, investing up to a billion euros for the whole expansion including LED assembly capacities, according to the company.  No foundries for LED chip vendors  Is there any equivalent to TSMC in the world of optoelectronics? Is anyone offering foundry services for LED chip suppliers?  There is none.  It’s almost ironic that TSMC, the world’s largest semiconductor foundry, once made a serious attempt to enter the LED chip business in 2009. But, by January 2015, the company tacitly admitted defeat, pulling the plug and selling out to Epitstar in Taiwan.  At the time of the 2009 announcement, TSMC promised to “develop LED technology on silicon wafers to capitalize on silicon's ultra-low thermal resistance and potential for integrating LEDs with integrated circuit (IC) functionality.” TSMC’s strategy called for LED chip and packaging processes to be executed at the wafer level (eight-inch silicon wafer), rather than on individual LED chips. TSMC discussed its plan to integrate process steps from epi growth, chip formation and packaging to lens molding and complete processes at the wafer level.  In the end, none of these grand plans panned out. Meanwhile, LED chip vendors have continued to develop their own secret sauce for proprietary process technology, just as Osram Opto Semiconductors has done.  Osram’s automotive heritage  Osram Opto Semiconductors holds its “automotive heritage” dear to its heart.  When BMW first used blue backlight for its vehicle’s information clusters, “lighting became cool” for OEMs, tier ones and drivers alike, explained Kamper. LED lights moved further into the interior and exterior of vehicles in the form of tail lights and headlamps.  At one point, HID (high-intensity discharge) lamps were heavily as vehicles’ main lighting systems. But in the end, HID failed to take the world by storm with a penetration ratio that never exceeded 15 percent. In contrast, the growth of LED lamps in vehicles has steadily grown, said Kamper.  One of the most exciting new developments in the headlamp space is Adaptive Driving Beam (ADB). OEMs, tier ones and light source technology suppliers are pitching it in Europe and Japan. ADB is designed to adjust the lights automatically, when onboard cameras sense oncoming vehicles or pedestrians. ADB either dims individual LEDs in the lamp or shifts the beam down and sideways.  With the emergence of ADB, drivers can leave their lights always on high beam to provide maximum lighting. Kamper said ADB technology is also spawning “new applications and more features.” With ADB’s higher luminance, ADB-equipped vehicles can detect outlines of obstacles on the road or even read road signs.  Vehicles’ window as a display  Beyond ADB, LEDs can be also leveraged to project an image onto a vehicle’s windows, according to Kamper. “Windows could essentially become low-resolution displays. Projected images or messages can be used to interact with pedestrians,” he added.  Among other LED-related applications for vehicles, LED cameras can monitor a driver. If it finds the driver inattentive, LEDs can suddenly light up the steering wheel as a warning.  LED lighting can also enhance comfort inside vehicles.  LED lighting for vehicles is only the tip of the iceberg. Practically every vehicle today has IR laser, said Kamper. IR laser’s uses range from “cameras, rain sensor wipes and all the way to powerful lidars,” he added.  Osram’s high-power infrared pulse lasers have been featured in cars for time-of-flight (TOF) measurements in adaptive cruise control (ACC) systems and automatic braking systems. The next big thing for Osram lasers, however, is lidar applications. Osram’s extremely efficient, high-power infrared pulse laser of short pulse length is said to enable lidar systems to operate at high optical powered levels to realize large detection ranges, while still being safe for the naked eye.  Osram invests in lidar expert LeddarTech  Last July, Osram acquired a 25.1 percent share in LeddarTech, a Canadian developer of a proprietary lidar technology integrated into semiconductors and sensor modules for self-driving cars and ADAS.  Asked why Osram invested in LeddarTech, Kamper said, “The world needs to make more reliable lidars available at different price points for different markets.” Osram invested in LeddarTech, thinking that backing up LeddarTech might help the adoption of Osram’s highly-efficient infrared lasers with 905nm wavelength as the “standard” for certain types of lidars.  Kamper said that lasers with 905nm wavelength could pave the way for a new laser emitter technology — above 1,400-nm wavelength. Industry analysts say that the laser in the new wavelength promises to bring to lidars higher resolution and longer range. Practically every lidar company including Princeton Lightwave (bought by Ford), Continental (through its acquisition of ASC), and Luminar Technologies are all working on new laser emitter technology.
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Release time:2018-01-24 00:00 reading:1217 Continue reading>>

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