Digital Photography Review
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| Sigma SD10 | Sigma SD9 | |
| ISO sensitivity |
• ISO 100 |
• ISO 100 • ISO 200 • ISO 400 |
| Long exposures | • 15 sec at ISO 100 • 4 sec at ISO 200 to 800 • 30 sec in extended mode * |
• 15 sec at ISO 100 • 1 sec at ISO 200, 400 |
| Power | Single battery | Two battery sets |
| Exposure compensation | 1/3 EV steps | 1/2 EV steps |
| OK / Cancel buttons | Color coded red/blue | Both black |
| Wireless TTL flash | Yes | No |
| X3F embedded rendering data* | Yes | No |
| X3 Fill Light* | Yes | No |
* Extended mode
** Photo Pro 2.0 improvements
- ISO sensitivity - The SD10's X3 sensor now utilizes Microlenses
for improved sensitivity, the SD10 has two ISO modes. In the Default
mode you can select from ISO 100 to 800 and take long exposures of up
to 15 seconds at ISO 100, 4 seconds at other sensitivities. In Extended
mode you can select from ISO 100 to 1600 and take long exposures of
up to 30 seconds at any sensitivity.
- Battery system - Gone is the two battery system of the SD9,
the SD10 now only requires the bottom battery tray which takes four
AA type or two CR-V3 batteries. In addition the grip battery compartment
is now buried making the grip thinner.
- Exposure compensation - Exposure can now be adjusted in third
stop (1/3 EV) steps rather than half stop, this applies to aperture,
shutter speed and exposure compensation. In addition the new EF500 Super/ST
DG SA-N flash also supports third stop steps.
- Wireless TTL flash - This is now supported with the new EF500
Super/ST DG SA-N flash.
- X3F embedded rendering data - Photo Pro 2.0 now supports the
storage of rendering data (adjustments to digital exposure compensation,
contrast, saturation etc.) in each X3F file.
- X3 Fill Light - This excellent new feature of Photo Pro 2.0
allows you to add digital fill light to an image and raise the brightness
of shadow areas only, decreasing this setting can be used to push shadows
in darkness (useful for masking noise).
- Better image quality - Increased dynamic range, reduced noise,
improved color accuracy. *
- Enhanced AF performance - New AF algorithm. *
* Claimed
X3 sensor background
Terminology
- Photodetector - A physical device used to capture a single color value (for a Bayer camera there is one of these per pixel location, the X3 sensor has three per pixel location)
- Pixel location - A location on the final image which contains full RGB color information
What's so good about this new X3 sensor?
In the example below we are simplifying things by using a 130 x 130 sensor, thus a total of 16,900 pixel locations in the output image. Obviously the same rules apply no matter many pixel locations the final image has.
Traditional "Mosaic" sensors
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Digital cameras have for years used what is essentially a monochromatic (b&w) image sensor with individual color filters over each photodetector (known as the Bayer pattern and normally in a GRGB pattern). This means that each photodetector can only detect one of either red, green or blue light. Note that the green channel has twice the number of photodetectors as red or blue (this is because the majority of luminance information is carried in the green channel). A demosaic algorithm then combines the color of neighbouring pixels to reproduce the scene color at that pixel location.
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| Red 4,225 photodetectors |
Green 8,450 photodetectors |
Blue 4,225 photodetectors |
Output |
Foveon's X3 sensor
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Foveon's sensor instead of having a single photodetector at each pixel location has a multi-layered design which has the equivalent of a red, green and blue photodetector at each pixel location. This means that instead of having to interpolate the values of neighbouring pixels the X3 sensor 'sees' full colour at individual pixel locations. This is pretty much the 'holy grail' of digital image sensors, it should mean ultra sharp, detailed images with full color single pixel resolution.
Note that this is a simplified drawing of how the chip works, for more detail see our news article at the time.
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| Red 16,900 photodetectors |
Green 16,900 photodetectors |
Blue 16,900 photodetectors |
Output 16,900 pixel locations |
Review Notes
Because of the similarity between the SD10 and the SD9 (they're almost identical externally) the first half of this review (body, operation, menus etc.) is based on my SD9 review which was posted in November 2002.
If you're new to digital photography you may wish to read the Digital
Photography Glossary before diving into this article (it may help
you understand some of the terms used).
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Conclusion / Recommendation / Ratings are based on the opinion of the reviewer, you should read the ENTIRE review before coming to your own conclusions. Images which can be viewed at a larger size have a small magnifying glass icon in the bottom right corner of the image, clicking on the image will display a larger (typically VGA) image in a new window. To navigate the review simply use the next / previous page buttons, to jump to a particular section either pick the section from the drop down or select it from the navigation bar at the top. DPReview calibrate their monitors using Color Vision OptiCal at the (fairly well accepted) PC normal gamma 2.2, this means that on our monitors we can make out the difference between all of the (computer generated) grayscale blocks below. We recommend to make the most of this review you should be able to see the difference (at least) between X,Y and Z and ideally A,B and C. |
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This article is Copyright 2004 Phil Askey and the review in part or in whole may NOT be reproduced in any electronic or printed medium without prior permission from the author. For information on reproducing any part of this review (or any images) please contact: Phil Askey.
From:
http://www.dpreview.com/reviews/SigmaSD10/
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