Facsimile

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A facsimile (from Latin fac simile, "made alike") is a copy or reproduction of an old book, manuscript, map, art print, or other item of historical value that is as true to the original source as possible. It differs from other forms of reproduction by attempting to replicate the source as accurately as possible in terms of scale, color, condition, and other material qualities. (Wikipedia.org)




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Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


Communications, IEEE Transactions on

Telephone, telegraphy, facsimile, and point-to-point television, by electromagnetic propagation, including radio; wire; aerial, underground, coaxial, and submarine cables; waveguides, communication satellites, and lasers; in marine, aeronautical, space and fixed station services; repeaters, radio relaying, signal storage, and regeneration; telecommunication error detection and correction; multiplexing and carrier techniques; communication switching systems; data communications; and communication theory. In addition to the above, ...


Vehicular Technology, IEEE Transactions on

IEEE Transactions on Vehicular Technology was one of the most-cited journals, ranking number-six (tying with IEEE Communications Letters) in telecommunications in 2002, according to the annual Journal Citation Report (2002 edition) published by the Institute for Scientific Information. This periodical covers land, airborne, and maritime mobile services; portable or hand-carried and citizens' communications services, when used as an adjunct to ...




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Regulation requirements of advanced spectrum exploitation technologies

Benoist Deschamps; Klaus Moessner; Ben Smith 2010 Future Network & Mobile Summit, 2010

Even today many papers and presentations make the claim that there is sufficient spectrum available for all new and future services, if only the spectrum could be used more efficiently, inter alia through additional flexibility in the assignment of frequencies to those systems that need the spectrum at a certain point in time at a given location. It still seems ...


The Canadian MSAT Field Trials Program

D. W. Halayko 1992 IEEE International Conference on Selected Topics in Wireless Communications, 1992

The Canadian Department of Communications is providing a multi-year program for implementation of market trials involving the introduction of new MSAT services in Canada. The author describes the Department's Field Trials Program that commenced in late 1990. The Trials Program includes end-users requiring wide-area portable communications or fixed wide-area communications for the monitoring of remote equipment such as weather stations, ...


Green polymer light-emitting device preprared for next-generation flexible electronic application

Ming-Lung Tu; Yan-Kuin Su 2010 International Symposium on Next Generation Electronics, 2010

An efficient flexible polymer light-emitting device (PLED) was fabricated for next-generation flexible electronic application. The substrate was flexible polyethylene terephthalate (PET). The polymer, poly(2,3-dibutoxy-1,4-poly(phenylene vinylene)) (DBPPV), was light-emitting material. From the J-V characteristic, the threshold voltage was determined to be 4.7V for flexible PLED. The maximum luminescence was 10235 cd/m2. The maximum efficiency of green flexible PLED was 3.49 cd/A.


On "The Evolution of Wideband Services in the United States"

G. Royden IEEE Transactions on Communication Technology, 1967

Clarification is made on the matter of the introduction of repeaters into long distance telephone service.


IEEE Transactions on Nuclear Science information for authors

IEEE Transactions on Nuclear Science, 2008

Provides instructions and guidelines to prospective authors who wish to submit manuscripts.


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eLearning

Regulation requirements of advanced spectrum exploitation technologies

Benoist Deschamps; Klaus Moessner; Ben Smith 2010 Future Network & Mobile Summit, 2010

Even today many papers and presentations make the claim that there is sufficient spectrum available for all new and future services, if only the spectrum could be used more efficiently, inter alia through additional flexibility in the assignment of frequencies to those systems that need the spectrum at a certain point in time at a given location. It still seems ...


The Canadian MSAT Field Trials Program

D. W. Halayko 1992 IEEE International Conference on Selected Topics in Wireless Communications, 1992

The Canadian Department of Communications is providing a multi-year program for implementation of market trials involving the introduction of new MSAT services in Canada. The author describes the Department's Field Trials Program that commenced in late 1990. The Trials Program includes end-users requiring wide-area portable communications or fixed wide-area communications for the monitoring of remote equipment such as weather stations, ...


Green polymer light-emitting device preprared for next-generation flexible electronic application

Ming-Lung Tu; Yan-Kuin Su 2010 International Symposium on Next Generation Electronics, 2010

An efficient flexible polymer light-emitting device (PLED) was fabricated for next-generation flexible electronic application. The substrate was flexible polyethylene terephthalate (PET). The polymer, poly(2,3-dibutoxy-1,4-poly(phenylene vinylene)) (DBPPV), was light-emitting material. From the J-V characteristic, the threshold voltage was determined to be 4.7V for flexible PLED. The maximum luminescence was 10235 cd/m2. The maximum efficiency of green flexible PLED was 3.49 cd/A.


On "The Evolution of Wideband Services in the United States"

G. Royden IEEE Transactions on Communication Technology, 1967

Clarification is made on the matter of the introduction of repeaters into long distance telephone service.


IEEE Transactions on Nuclear Science information for authors

IEEE Transactions on Nuclear Science, 2008

Provides instructions and guidelines to prospective authors who wish to submit manuscripts.


More eLearning Resources

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IEEE-USA E-Books

  • Conclusion

    In the first three and a half years of its existence, Fairchild Semiconductor developed, produced, and marketed the device that would become the fundamental building block of the digital world: the microchip. Founded in 1957 by eight former employees of the Schockley Semiconductor Laboratory, Fairchild created the model for a successful Silicon Valley start-up: intense activity with a common goal, close collaboration, and a quick path to the market (Fairchild's first device hit the market just ten months after the company's founding). Fairchild Semiconductor was one of the first companies financed by venture capital, and its success inspired the establishment of venture capital firms in the San Francisco Bay area. These firms would finance the explosive growth of Silicon Valley over the next several decades. This history of the early years of Fairchild Semiconductor examines the technological, business, and social dynamics behind its innovative products. The centerpiece of the book is a collection of documents, reproduced in facsimile, including the company's first prospectus; ideas, sketches, and plans for the company's products; and a notebook kept by cofounder Jay Last that records problems, schedules, and tasks discussed at weekly meetings. A historical overview, interpretive essays, and an introduction to semiconductor technology in the period accompany these primary documents.

  • Index

    In the first three and a half years of its existence, Fairchild Semiconductor developed, produced, and marketed the device that would become the fundamental building block of the digital world: the microchip. Founded in 1957 by eight former employees of the Schockley Semiconductor Laboratory, Fairchild created the model for a successful Silicon Valley start-up: intense activity with a common goal, close collaboration, and a quick path to the market (Fairchild's first device hit the market just ten months after the company's founding). Fairchild Semiconductor was one of the first companies financed by venture capital, and its success inspired the establishment of venture capital firms in the San Francisco Bay area. These firms would finance the explosive growth of Silicon Valley over the next several decades. This history of the early years of Fairchild Semiconductor examines the technological, business, and social dynamics behind its innovative products. The centerpiece of the book is a collection of documents, reproduced in facsimile, including the company's first prospectus; ideas, sketches, and plans for the company's products; and a notebook kept by cofounder Jay Last that records problems, schedules, and tasks discussed at weekly meetings. A historical overview, interpretive essays, and an introduction to semiconductor technology in the period accompany these primary documents.

  • Appendix: Semiconductor Technology in the Late 1950s and the Early 1960s

    In the first three and a half years of its existence, Fairchild Semiconductor developed, produced, and marketed the device that would become the fundamental building block of the digital world: the microchip. Founded in 1957 by eight former employees of the Schockley Semiconductor Laboratory, Fairchild created the model for a successful Silicon Valley start-up: intense activity with a common goal, close collaboration, and a quick path to the market (Fairchild's first device hit the market just ten months after the company's founding). Fairchild Semiconductor was one of the first companies financed by venture capital, and its success inspired the establishment of venture capital firms in the San Francisco Bay area. These firms would finance the explosive growth of Silicon Valley over the next several decades. This history of the early years of Fairchild Semiconductor examines the technological, business, and social dynamics behind its innovative products. The centerpiece of the book is a collection of documents, reproduced in facsimile, including the company's first prospectus; ideas, sketches, and plans for the company's products; and a notebook kept by cofounder Jay Last that records problems, schedules, and tasks discussed at weekly meetings. A historical overview, interpretive essays, and an introduction to semiconductor technology in the period accompany these primary documents.

  • Bibliography

    In the first three and a half years of its existence, Fairchild Semiconductor developed, produced, and marketed the device that would become the fundamental building block of the digital world: the microchip. Founded in 1957 by eight former employees of the Schockley Semiconductor Laboratory, Fairchild created the model for a successful Silicon Valley start-up: intense activity with a common goal, close collaboration, and a quick path to the market (Fairchild's first device hit the market just ten months after the company's founding). Fairchild Semiconductor was one of the first companies financed by venture capital, and its success inspired the establishment of venture capital firms in the San Francisco Bay area. These firms would finance the explosive growth of Silicon Valley over the next several decades. This history of the early years of Fairchild Semiconductor examines the technological, business, and social dynamics behind its innovative products. The centerpiece of the book is a collection of documents, reproduced in facsimile, including the company's first prospectus; ideas, sketches, and plans for the company's products; and a notebook kept by cofounder Jay Last that records problems, schedules, and tasks discussed at weekly meetings. A historical overview, interpretive essays, and an introduction to semiconductor technology in the period accompany these primary documents.

  • Image Telegraphy

    This chapter contains sections titled: Facsimile Device of Bain Image Telegraph of Bakewell Pantelegraph of Caselli Autographic Telegraph of Bernhard Meyer Telautograph of Elisha Gray

  • Notes

    In the first three and a half years of its existence, Fairchild Semiconductor developed, produced, and marketed the device that would become the fundamental building block of the digital world: the microchip. Founded in 1957 by eight former employees of the Schockley Semiconductor Laboratory, Fairchild created the model for a successful Silicon Valley start-up: intense activity with a common goal, close collaboration, and a quick path to the market (Fairchild's first device hit the market just ten months after the company's founding). Fairchild Semiconductor was one of the first companies financed by venture capital, and its success inspired the establishment of venture capital firms in the San Francisco Bay area. These firms would finance the explosive growth of Silicon Valley over the next several decades. This history of the early years of Fairchild Semiconductor examines the technological, business, and social dynamics behind its innovative products. The centerpiece of the book is a collection of documents, reproduced in facsimile, including the company's first prospectus; ideas, sketches, and plans for the company's products; and a notebook kept by cofounder Jay Last that records problems, schedules, and tasks discussed at weekly meetings. A historical overview, interpretive essays, and an introduction to semiconductor technology in the period accompany these primary documents.

  • Phototelegraphy

    This chapter contains sections titled: Kopiertelegraph of Gustav Grzanna Telautograph of Arthur Korn Telegraphoscope of Edouard Belin Siemens-Karolus-Telefunken Picture Transmission System Facsimile Machines of AT&T and Western Union Photograph Transmission Equipment in Japan



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