Better Light announces 416MP scanning back

Written by Adorama News Writer
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Published on March 11, 2007
Adorama News Writer
Adorama ALC

produce 794MB 48-bit RGB file-sizes, and are well-suited for the art reproduction market and archivists who need to reproduce very fine detail in line art, text, scrolls, and original artwork. 300 dpi artwork can be printed as large as 34×45 inches. The back will retail for $22,000 and will be available later this month, but lower resolution models are also available for as little as $7,000.



For details, read the Better Light press release:



New Super10K-HS Scanning Back Generates 794 MB 48-bit RGB File at Native Resolution



Better Light, the leading designer and manufacturer of large-format digital scanning camera backs, has announced the addition of a new digital scanning back to its SuperModel family that captures up to 416 megapixels of true RGB image data in every scan.



The combination of large high-resolution files, extraordinary detail and superb control of color and tones, has made Better Light scanning backs the device of choice for a wide variety of advertising, commercial, reproduction and archival applications since 1994.



Better Light scanning backs are widely acknowledged for capturing image quality superior to film or fixed-array digital cameras. Used on a 4×5 view camera or any device accepting 4”x5” film holders, the capture area is 72mm x 96mm (120mm diagonal), creating a huge pixel population with the scan movement of its tri-linear sensor. Each pixel receives pure red, green and blue data so there is no interpolation of color data, or typical digital artifacts, or moiré pattern issues to deal with in post-production.



The new Super10K-HS™ answers the call of museums and similar institutions for larger native file sizes. It has the ability to create a direct digital image at a native resolution of 10,200 x 13,600 pixels. This high resolution allows scanning of originals up to 34 x 45 inches in size at 300 pixels per inch without stitching or interpolation, and generates a 794 MB 48-bit RGB file size.



“This new file size capability will be of special interest to those portions of the art repro market that deal with large originals, and who demand very fine detail in reproducing line art, text, scrolls, and other subjects where absolute clarity is of maximum importance,” said Better Light President Michael Collette.



“A unique aspect of the increased resolution possible with the new Super10K-HS back is that its resolving power can exceed that of the camera lens. At its 100% resolution setting, the Super10K-HS captures 70 line pairs per millimeter with 60% contrast, which is higher than most lenses can deliver.”



The new Super10K-HS offers an ISO range from 64 to 1000, line times from 1/8th to 1/120th of a second, and a 40 GB (or optional 80 GB) internal hard drive for image storage. The unit provides 11 resolution settings that can be used to capture the perfect file size for each imaging project, independent of the selected ISO sensitivity. The camera is also ICC profile-compatible. The Super10K-HS is priced at $22,995 and will ship at the end of March.



Each of the company’s scan back models includes Better Light’s ViewFinder™ camera control software, which allows the user to fine-tune exposure, ISO sensitivity, color balance and contrast, matching the subject, lighting and output conditions for a perfect digital image — like having a customized “digital film emulsion”. Quality judgments are made based on a high-quality preview image on the monitor, prior to the capture of the large, high-resolution file. This software is provided for both Macintosh and Windows computers.



Better Light offers six models with image file size capability up to 1.1 GB (48-bit RGB). Priced from $6,495, any model is upgradeable to a higher performance model, enabling the photographer to upgrade as requirements change. The product line covers the diversified range of photographic applications including commercial, catalog, still life, landscape, art reproduction, scientific and archival imaging.