Production produce optical devices of general industrial, special and scientific use
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Activities in the Optical Device Business
We enjoy top shares in these growth markets in which demand is increasing globally by producing products that meet the needs for high-definition images. As lenses, essential to producing various images, constitute the center of our business, the research and development, manufacture and sale divisions work in close coordination to further promote our optical business.
Moreover, our business strategy has been to focus on products for which we can win the number one share using our unique advanced technologies, and actually we enjoy top shares for the lenses used in cell phones with high-definition cameras at least two million pixels and TV cameras, as well as for lenses used in security devices such as security cameras.
In the manufacture of lenses, both glass and plastic are used. Glass is polished and plastic is molded with special technologies. For this reason, in the lens manufacturing industry, division of labor and outsourcing are taken for granted. However, we have all the technologies required for the treatment and processing of the materials, and as our strong point, have been responsible for product development, design, molding, manufacture, and inspection in an integrated manner.
As manufacturing lenses for QuickSnap, we acquired the technology needed to mass-produce small lenses of high performance, which give us a big competitive advantage. Using all these strengths, the Fujifilm Group successfully developed lenses for cell phone cameras as its representative product.
Early in the s, soon after the cell phone camera market was launched, we began developing highly value-added lenses for the phones, predicting that high-quality and highly functional lenses would be needed in the future, although the image quality of , to , pixels was the standard for cell phone cameras at that time. Now that an image quality of three million pixels is becoming the standard, we are far and away the top maker of high-performance lenses in the three million-pixel or higher image quality.
In order to ensure that photos are taken at a high definition exceeding three million pixels, multiple lenses need to be combined. We reduced the number of lenses used by introducing complex-shaped aspheric lenses, thereby achieving a downsizing. What is more, we can produce a stable supply of several million products each month-an incredibly large number.
Manufacturers of parts that are used in products sold in very large quantities across the world such as cell phones and security cameras need to be cost competitive in addition to having the ability to produce stable supplies of high-performance products. The Fujifilm Group has been preparing for this type of market its since early days. In FUJINON now, Fujifilm launched a production base in Tianjin and established one more in Shenzhen in , and is now processing and assembling lens units at the bases 24 hours a day.
Our robust product system can produce stable supplies of manufactured products, and in order to ensure the precision of the products, we are implementing drastic measures to manage quality at our Chinese bases as strictly as in Japan. While strengthening the sales power to expand its products' market share to reach the top, the optical device divisions in the Fujifilm Group will increase value to its products by incorporating their lens units into camera modules through stronger cooperation with other divisions related to electronic imaging devices such as digital cameras.
The Fujifilm Group aims to expand its optical device business even more through this kind of cooperation. In the world of optical devices, higher-quality images and digitization are becoming the two keywords. In addition to lenses used in broadcast cameras and cell phones cameras, lenses for security and in-vehicle cameras are expected to become growth markets for us. We are already enjoying a top share globally for lenses for security cameras, but we will make even more efforts to increase our share by meeting the needs for higher definition and super-telephotographic cameras.
In addition, there is an increasing demand for high-precision vein authentication in the field of personal recognition systems, and so we are now finding ourselves in a business environment where we can fully display our technological capabilities. The introduction of lenses for in-vehicle cameras has just started for rear monitoring and front viewing systems.
In the future, however, it is said that at least 10 cameras will be installed onboard a vehicle to ensure driving safety, and so we are committed to developing in-vehicle camera lenses in cooperation with automakers, particularly in fields where we can utilize our high-quality image technologies. Skip the menu to main contents. Move to main menu. Skip to main contents. Help Menu starts here. Sitemap Search Within Site Feature starts here. Skip the main menu to current location in your website.
Current location in your website. Start main contents. Introduction of the business Specific Efforts. Note: The article on this page is taken from Sustainability Report Highly value-added and high-performance products created through unique opt-mechatronics.
Flexibly polishing glass and molding plastics for different applications and in different sizes. Achieving outstanding cost competitiveness by building a robust production system comprising Chinese bases. Security lenses. Cine lenses. Cell phone lenses. Digital camera lenses. Projector lenses. High-definition TV lenses. Lenses for security and in-vehicle cameras are expected to become growth markets.
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Not a MyNAP member yet? Register for a free account to start saving and receiving special member only perks. Since the early part of this century the manufacturing of optical components and systems has changed dramatically throughout the world, both in the types of products that are made and in the approach that is taken to making them. Once devoted entirely to passive image-forming components such as lenses and mirrors and to the instruments made from them, the industry now also manufactures a wide range of active elements such as lasers and optical sensors. Until recently, the industry depended heavily on a craftsman-style approach to manufacturing, with much of the work being carried out on an order-by-order basis by very small businesses.
Account Options Login. Koleksiku Bantuan Penelusuran Buku Lanjutan. Access Online via Elsevier Amazon. Elsevier , 22 Okt - halaman. Solar Energy in Developing Countries is a documentation report with bibliography on solar energy research and development in developing countries such as those in Asia, Central and South America, Africa, and Middle East.
Not a MyNAP member yet? Register for a free account to start saving and receiving special member only perks. Modern manufacturing is being revolutionized by the use of optics, which can both improve current manufacturing capabilities and enable new ones. Light can be used to process or probe materials remotely, even through windows isolating harsh or vacuum environments. With no surface contact, there is no contamination of the process by the probe beam and no wear of tool edges. Scanning provides action over large areas. Light can be used to induce photochemistry, for example, in photolithography to produce submicron features in thin films of photoresist or in rapid prototyping where liquid polymers are solidified by lasers to form a three-dimensional piece from a computer-aided design database. Light can cast images, making it possible to inspect a part or use the image to guide the working tool to the correct area of the work-piece. Images of the surface topology can be compared to the topology of the ''perfect" image captured in a database or the topology of an identical piece to ensure consistent component fabrication.
Optics is the branch of physics that studies the behaviour and properties of light , including its interactions with matter and the construction of instruments that use or detect it. Because light is an electromagnetic wave , other forms of electromagnetic radiation such as X-rays , microwaves , and radio waves exhibit similar properties. Most optical phenomena can be accounted for using the classical electromagnetic description of light. Complete electromagnetic descriptions of light are, however, often difficult to apply in practice. Practical optics is usually done using simplified models.
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Что вы говорите! - Старик был искренне изумлен. - Я не думал, что он мне поверил. Он был так груб - словно заранее решил, что я лгу.
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Сеньор Ролдан поднял трубку с обычной для него самоуверенностью. - Buenas noches, - произнес мужской голос на беглом испанском; звонивший выговаривал слова чуточку в нос, словно был немного простужен. - Это гостиница. - Нет, сэр. Какой номер вы набираете? - Сеньор Ролдан не потерпит сегодня больше никаких трюков. - 34-62-10, - ответили на другом конце провода. Ролдан нахмурился.
- Что же ты предлагаешь. Открыть дверь и вызвать сотрудников отдела систем безопасности, я угадал. - Совершенно. Будет очень глупо, если вы этого не сделаете.
Три… три… три… 238 минус 235. Разница равна трем. Он медленно потянул к себе микрофон.
Сьюзан это не удивило. Она не могла припомнить, чтобы когда-то отменялось дежурство, но Стратмор, очевидно, не хотел присутствия непосвященных. Он и мысли не допускал о том, что кто-то из сотрудников лаборатории узнает о Цифровой крепости. - Наверное, стоит выключить ТРАНСТЕКСТ, - предложила Сьюзан.
Попросите его передать паспорт Росио.
3 - Да! - скомандовал Фонтейн. - Нажимайте. Сьюзан задержала дыхание и опустила палец на клавишу Ввод. Компьютер издал звуковой сигнал. Никто не мог даже пошевелиться.
Не кажется ли тебе, что это звучит как запоздалое эхо. Она тоже засмеялась. - Выслушай меня, Мидж. Направь мне официальный запрос. В понедельник я проверю твою машину.
Их количество удваивалось каждую минуту. Еще немного, и любой обладатель компьютера - иностранные шпионы, радикалы, террористы - получит доступ в хранилище секретной информации американского правительства. Пока техники тщетно старались отключить электропитание, собравшиеся на подиуме пытались понять расшифрованный текст. Дэвид Беккер и два оперативных агента тоже пробовали сделать это, сидя в мини-автобусе в Севилье.