Fujifilm FinePix F700 Review
Back in January 2003 Fujifilm announced a new type of image sensor called SuperCCD SR, this new sensor was set to revolutionize digital cameras to expand its dynamic range so that highlights would be maintained and photographic reproduction with what still closer to film. This new sensor succeeds in extending the dynamic range of having to photodiodes in each photosite location, a large photodiode that captures most of the dynamics (as a digital camera normal photodiode), a second much smaller photodiode which is less sensitive and picks most noteworthy detail. Information from the two photodiodes combine to offer extended dynamic range.
The FinePix F700 was announced just before PMA in February 2003 approximately one month after the announcement of the sensor, this new camera is the first feature for the Super CCD SR. After this announcement is complicating things, the F700 was delayed not once but twice, first in April for "Summer", and then in late June for "October". I am pleased to report that we now have a full production FinePix F700 and, therefore, can bring you this review.
SuperCCD SR: Marcos slideshow presentation
Please note that the slides are then given a presentation to journalists Fujifilm UK.
SuperCCD SR diagram of the structure, a micro, a color filter, two photodiodes by photosite SuperCCD SR designed to replicate the film negative of having two different sensitivity of photodiodes
Primary photodiode has a high sensitivity, but a relatively narrow dynamic range, captures dark shades and medium secondary photodiode has a low sensitivity but high dynamic range, four times higher than that of the high sensitivity photodiode
House DSP processor combines the output of the two sets of photodiodes to produce the final 'extended dynamic range image Weather Flow capture both photodiodes are exposed at the same time it is read first primary, secondary reads the last
Simulated advantage of SuperCCD SR simulated advantage of SuperCCD SR
If you're new to digital photography, you might want to read the Digital Photography Glossary before diving into this article (which can help you understand some of the terms used).
Conclusion / Recommendation / Ratings are based on the opinion of the reviewer, you should read the entire review before reaching their own conclusions.
The images can be viewed in a larger size with a small magnifying glass icon in the lower right corner of the image, clicking on the image will display a higher (typically VGA) image in a new window.
The Fujifilm FinePix F700 Camera battery code was fujifilm np-40 ,to navigate the review just use the next / previous page buttons, to jump to a particular section or choose the section in the drop-down menu or select it from the navigation bar at the top.
DPReview calibrate their monitors using Color Vision optical fiber in the (fairly well accepted) PC normal gamma 2.2, this means that our leaders can make the difference between all the (computer generated) grayscale blocks below. We recommend to take full advantage of this review should be able to see the difference (at least) between X, Y and Z and, preferably, A, B and C.
Back in January 2003 Fujifilm announced a new type of image sensor called SuperCCD SR, this new sensor was set to revolutionize digital cameras to expand its dynamic range so that highlights would be maintained and photographic reproduction with what still closer to film. This new sensor succeeds in extending the dynamic range of having to photodiodes in each photosite location, a large photodiode that captures most of the dynamics (as a digital camera normal photodiode), a second much smaller photodiode which is less sensitive and picks most noteworthy detail. Information from the two photodiodes combine to offer extended dynamic range.
The FinePix F700 was announced just before PMA in February 2003 approximately one month after the announcement of the sensor, this new camera is the first feature for the Super CCD SR. After this announcement is complicating things, the F700 was delayed not once but twice, first in April for "Summer", and then in late June for "October". I am pleased to report that we now have a full production FinePix F700 and, therefore, can bring you this review.
SuperCCD SR: Marcos slideshow presentation
Please note that the slides are then given a presentation to journalists Fujifilm UK.
SuperCCD SR diagram of the structure, a micro, a color filter, two photodiodes by photosite SuperCCD SR designed to replicate the film negative of having two different sensitivity of photodiodes
Primary photodiode has a high sensitivity, but a relatively narrow dynamic range, captures dark shades and medium secondary photodiode has a low sensitivity but high dynamic range, four times higher than that of the high sensitivity photodiode
House DSP processor combines the output of the two sets of photodiodes to produce the final 'extended dynamic range image Weather Flow capture both photodiodes are exposed at the same time it is read first primary, secondary reads the last
Simulated advantage of SuperCCD SR simulated advantage of SuperCCD SR
If you're new to digital photography, you might want to read the Digital Photography Glossary before diving into this article (which can help you understand some of the terms used).
Conclusion / Recommendation / Ratings are based on the opinion of the reviewer, you should read the entire review before reaching their own conclusions.
The images can be viewed in a larger size with a small magnifying glass icon in the lower right corner of the image, clicking on the image will display a higher (typically VGA) image in a new window.
The Fujifilm FinePix F700 Camera battery code was fujifilm np-40 ,to navigate the review just use the next / previous page buttons, to jump to a particular section or choose the section in the drop-down menu or select it from the navigation bar at the top.
DPReview calibrate their monitors using Color Vision optical fiber in the (fairly well accepted) PC normal gamma 2.2, this means that our leaders can make the difference between all the (computer generated) grayscale blocks below. We recommend to take full advantage of this review should be able to see the difference (at least) between X, Y and Z and, preferably, A, B and C.
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