Digital Photography from 20,000 Feet
by Wesley Fink on September 25, 2006 12:05 AM EST- Posted in
- Digital Camera
Lenses on Digital SLR Cameras
While digital point-and-shoot makers normally quote their lenses in familiar 35mm terms, no such convention exists in the digital SLR market. Here, everything is the opposite, as all specs are defined in 35mm terms even though the digital SLRs themselves use a smaller APS C size sensor. This is even carried so far as using 35mm equivalents to define lenses designed for the Digital SLR - even though the "digital-design" lenses can't even cover the frame on a full-size 35mm camera. Thus lenses like the common 18-55mm Canon and Pentax kit zooms and the 18-70mm Nikon and Sony (Minolta) kit zooms really describe those lenses as if they were 35mm.
To know what a lens can do on a digital SLR you have to know the lens factor. Nikon, Pentax, Sony, Minolta, Samsung (Sony sensor) and most others use a sensor about 23.6 x 15.8mm with a lens factor of 1.5. This means that if you multiply the stated lens focal length by 1.5 you will get a focal length of how that lens behaves on your Digital SLR. Let's see how that translates.
Canon uses a CMOS sensor that is slightly smaller at 22.1x14.8mm, and therefore requires a slightly higher 1.6 lens factor. This makes a slight difference in the real focal length of the lens on a digital SLR, but both 1.5 and 1.6 factors are close in value.
Olympus has taken a totally different approach to the sensor used in their digital SLR cameras and has adopted a new digital-only lens mount and lens system called the four thirds system. There is a consortium of 4/3 members that support the 4/3 standard. They include Kodak, Fujifilm, Leica, Panasonic, Olympus, Sanyo, and Sigma. Olympus introduced the first 4/3 system camera and lenses in 2003. Panasonic recently added their own 4/3 camera in the Lumix L1, along with several Leica 4/3 lenses.
It should also be mentioned that Canon has introduced a professional and a premium grade full-frame digital SLRs. There is no lens factor required for these SLRs with a 35mm-size CMOS sensor. These two cameras are, however, in a different category, with the EOS 1DS Mark II selling for about $8000 and the newer EOS 5D for about $3300. Nikon, another recognized top pro brand, has stayed with the DX/APS size sensor in their top pro camera, the Nikon D2X.
Technology has certainly reached the point where 35mm size sensors could be manufactured for a relatively reasonable cost; however, there is no clear movement at the present time to a 35mm size sensor. Most in the industry seem content with the APS C to DX size digital sensor. Perhaps in the near future, we may see some movement to full-frame sensor for the top Pro cameras with APS C/DX for mainstream SLRs. It's just a bit too early to do anything but speculate at this point.
Lens Angle of View
Now that you have a good idea of how to figure out lenses on digital SLR cameras, it is worthwhile to remember why we change lenses.
Wide angle, normal and telephoto lenses see different points of view as you can clearly see in this same scene taken with 35mm, 70mm, and 105mm lenses on 35mm film. From the chart above you can see this would be equivalent to 23mm, 47mm, and 70mm lenses designed for 35mm photography and shot on a Nikon or Sony (1.5 factor) digital SLR. This is a very important distinction and critical to understanding how 35mm lenses behave on today's digital SLR cameras. A 28mm lens designed for a 35mm camera "sees" as if it is a normal lens on a digital SLR, a 50mm normal lens "sees" like a 75mm short telephoto (portrait) lens on a digital SLR. Zoom lenses have been around for quite a while now and most will be familiar with the different view captured with each type of lens. However, they may be surprised to find that the 28mm-80mm wide-angle to short telephoto kit lens they bought for 35mm "sees" like a normal to medium telephoto 42mm-120mm lens on the digital SLR. That is why the new kit lenses that sound so exotic like the 18-55mm and 18-70mm are nothing more than the APS C size version of the old reliable 28-80 and 28-105.
Once you get accustomed to the new focal length definitions for digital SLR cameras, things will fall into place. The shorter the focal length the more extreme the wide angle and the larger the "view" included in the image. The larger the focal length value the more "magnified" the image. Wide angle ranges are very useful for interiors and shots of groups of people. Telephotos are great for shooting from an audience or nature photography like birds. Normal of course is a good all-around focal length.
Because existing 35mm lenses make up the bulk of available lenses on digital SLR cameras, and because the real lens value is a multiple of 1.5 or 1.6, it is easy to see that wide-angle lenses are hard to find on digital SLRs. The 35 wideangle 28mm is a normal lens on a digital SLR, and the super-wides usually stop at specialty fisheye lenses around 15mm, which is still a normal wide 23 to 24mm on digital SLR cameras. As a result, almost any extreme wide-angle lenses you will find for digital SLR cameras will be designed just for digital cameras. These include the Sigma and Tamron lenses in the 10-20mm range, and lenses from the major lens makers like the Nikon 11-18mm.
The Olympus four thirds system lens factor is included mostly for reference, since Olympus manufactures a whole new lens line for their digital SLR. None of the older Olympus lenses from 35mm work on the new digital cameras unless you use a special converter. Even with the converter they will work in full manual mode only. The 2.0 lens factor does come into play for third-party lenses designed to work on the Olympus 4/3 cameras, so you can determine the effective focal lengths with the 2.0 multiplier. However, independent lens makers are mainly designing for a 1.5 to 1.6 lens factor, and the 4/3 equivalents are not always very attractive. Sigma markets basic and specialized fast digital lenses in the 18-55mm range. That's a desirable 27/29 to 83/88 on a 1.5 or 1.6 camera. However, on Olympus 4/3 that is a 36-100mm lens. That is still useful, but there is almost no wide-angle when mounted on a 4/3 camera. This is the problem Olympus faces. Until others adopt this open standard four thirds mount, the only lenses designed specifically for the 4/3 system will come from Olympus.
It should now be clear why the digital SLR, with the ability to see through the taking lens, is a more flexible platform for digital photography. Today's Digital SLRs focus and meter exposure through that same taking lens. With auto-exposure and autofocus, a digital SLR can be as simple as any point-and-shoot camera. Plus there is the added flexibility of a much larger selection of interchangeable lenses that are available to allow the user the best chance to capture what they want in any situation. However, despite the fact you don't need to know anything about F-stops, shutter speed, and the light sensitivity of the sensor, we will tell you with absolute certainty that you will take better images if you do understand a bit about what is going on behind those automatic functions.
While digital point-and-shoot makers normally quote their lenses in familiar 35mm terms, no such convention exists in the digital SLR market. Here, everything is the opposite, as all specs are defined in 35mm terms even though the digital SLRs themselves use a smaller APS C size sensor. This is even carried so far as using 35mm equivalents to define lenses designed for the Digital SLR - even though the "digital-design" lenses can't even cover the frame on a full-size 35mm camera. Thus lenses like the common 18-55mm Canon and Pentax kit zooms and the 18-70mm Nikon and Sony (Minolta) kit zooms really describe those lenses as if they were 35mm.
To know what a lens can do on a digital SLR you have to know the lens factor. Nikon, Pentax, Sony, Minolta, Samsung (Sony sensor) and most others use a sensor about 23.6 x 15.8mm with a lens factor of 1.5. This means that if you multiply the stated lens focal length by 1.5 you will get a focal length of how that lens behaves on your Digital SLR. Let's see how that translates.
| SLR Lens Factor Conversions | |||
| 35mm Focal Length | 1.5 Lens Factor Nikon, Pentax, Sony, Minolta, Samsung |
1.6 Lens Factor Canon |
2.0 Lens Factor Olympus |
| 10-20mm | 15-30mm | 16-32mm | 20-40mm |
| 14-45mm | 21-68mm | 22-72mm | 28-90mm |
| 18-55mm | 27-83mm | 29-88mm | 36-110mm |
| 18-70mm | 27-105mm | 29-112mm | 36-140mm |
| 24 mm | 36 mm | 38 mm | 48mm |
| 28 mm | 42 mm | 45 mm | 56mm |
| 35 mm | 53 mm | 56mm | 70mm |
| 50 mm | 75 mm | 80 mm | 100mm |
| 85 mm | 128 mm | 136 mm | 170 mm |
| 70-210mm | 105-315mm | 112-336mm | 140-420mm |
| 135 mm | 203 mm | 216 mm | 270 mm |
| 75-300mm | 113-450mm | 120-480mm | 150-600mm |
| 500 mm | 750 mm | 800 mm | 1000 mm |
Canon uses a CMOS sensor that is slightly smaller at 22.1x14.8mm, and therefore requires a slightly higher 1.6 lens factor. This makes a slight difference in the real focal length of the lens on a digital SLR, but both 1.5 and 1.6 factors are close in value.
Olympus has taken a totally different approach to the sensor used in their digital SLR cameras and has adopted a new digital-only lens mount and lens system called the four thirds system. There is a consortium of 4/3 members that support the 4/3 standard. They include Kodak, Fujifilm, Leica, Panasonic, Olympus, Sanyo, and Sigma. Olympus introduced the first 4/3 system camera and lenses in 2003. Panasonic recently added their own 4/3 camera in the Lumix L1, along with several Leica 4/3 lenses.
It should also be mentioned that Canon has introduced a professional and a premium grade full-frame digital SLRs. There is no lens factor required for these SLRs with a 35mm-size CMOS sensor. These two cameras are, however, in a different category, with the EOS 1DS Mark II selling for about $8000 and the newer EOS 5D for about $3300. Nikon, another recognized top pro brand, has stayed with the DX/APS size sensor in their top pro camera, the Nikon D2X.
Technology has certainly reached the point where 35mm size sensors could be manufactured for a relatively reasonable cost; however, there is no clear movement at the present time to a 35mm size sensor. Most in the industry seem content with the APS C to DX size digital sensor. Perhaps in the near future, we may see some movement to full-frame sensor for the top Pro cameras with APS C/DX for mainstream SLRs. It's just a bit too early to do anything but speculate at this point.
Lens Angle of View
Now that you have a good idea of how to figure out lenses on digital SLR cameras, it is worthwhile to remember why we change lenses.
Wide angle, normal and telephoto lenses see different points of view as you can clearly see in this same scene taken with 35mm, 70mm, and 105mm lenses on 35mm film. From the chart above you can see this would be equivalent to 23mm, 47mm, and 70mm lenses designed for 35mm photography and shot on a Nikon or Sony (1.5 factor) digital SLR. This is a very important distinction and critical to understanding how 35mm lenses behave on today's digital SLR cameras. A 28mm lens designed for a 35mm camera "sees" as if it is a normal lens on a digital SLR, a 50mm normal lens "sees" like a 75mm short telephoto (portrait) lens on a digital SLR. Zoom lenses have been around for quite a while now and most will be familiar with the different view captured with each type of lens. However, they may be surprised to find that the 28mm-80mm wide-angle to short telephoto kit lens they bought for 35mm "sees" like a normal to medium telephoto 42mm-120mm lens on the digital SLR. That is why the new kit lenses that sound so exotic like the 18-55mm and 18-70mm are nothing more than the APS C size version of the old reliable 28-80 and 28-105.
Once you get accustomed to the new focal length definitions for digital SLR cameras, things will fall into place. The shorter the focal length the more extreme the wide angle and the larger the "view" included in the image. The larger the focal length value the more "magnified" the image. Wide angle ranges are very useful for interiors and shots of groups of people. Telephotos are great for shooting from an audience or nature photography like birds. Normal of course is a good all-around focal length.
Because existing 35mm lenses make up the bulk of available lenses on digital SLR cameras, and because the real lens value is a multiple of 1.5 or 1.6, it is easy to see that wide-angle lenses are hard to find on digital SLRs. The 35 wideangle 28mm is a normal lens on a digital SLR, and the super-wides usually stop at specialty fisheye lenses around 15mm, which is still a normal wide 23 to 24mm on digital SLR cameras. As a result, almost any extreme wide-angle lenses you will find for digital SLR cameras will be designed just for digital cameras. These include the Sigma and Tamron lenses in the 10-20mm range, and lenses from the major lens makers like the Nikon 11-18mm.
The Olympus four thirds system lens factor is included mostly for reference, since Olympus manufactures a whole new lens line for their digital SLR. None of the older Olympus lenses from 35mm work on the new digital cameras unless you use a special converter. Even with the converter they will work in full manual mode only. The 2.0 lens factor does come into play for third-party lenses designed to work on the Olympus 4/3 cameras, so you can determine the effective focal lengths with the 2.0 multiplier. However, independent lens makers are mainly designing for a 1.5 to 1.6 lens factor, and the 4/3 equivalents are not always very attractive. Sigma markets basic and specialized fast digital lenses in the 18-55mm range. That's a desirable 27/29 to 83/88 on a 1.5 or 1.6 camera. However, on Olympus 4/3 that is a 36-100mm lens. That is still useful, but there is almost no wide-angle when mounted on a 4/3 camera. This is the problem Olympus faces. Until others adopt this open standard four thirds mount, the only lenses designed specifically for the 4/3 system will come from Olympus.
It should now be clear why the digital SLR, with the ability to see through the taking lens, is a more flexible platform for digital photography. Today's Digital SLRs focus and meter exposure through that same taking lens. With auto-exposure and autofocus, a digital SLR can be as simple as any point-and-shoot camera. Plus there is the added flexibility of a much larger selection of interchangeable lenses that are available to allow the user the best chance to capture what they want in any situation. However, despite the fact you don't need to know anything about F-stops, shutter speed, and the light sensitivity of the sensor, we will tell you with absolute certainty that you will take better images if you do understand a bit about what is going on behind those automatic functions.
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ic144 - Monday, September 25, 2006 - link
why don't we all just head over to http://www.dpreview.com">www.dpreview.com?silver - Monday, September 25, 2006 - link
Some people appreciate diversity in opinion. Take me for instance. I would prefer to read three reviews on a motherboard and come to my own consensus prior to actually purchasing said motherboard.tsapiano - Monday, September 25, 2006 - link
Overall a very good article, however there is one major points that I'd like to address here. The conclusion page (under 'Lens Confusion') makes the following statement:Focal length is a physical property of the lens itself - it is not affected by the size of the sensor. While the field of view (and hence behaviour) of a given focal length changes based on the size of the imaging plane that doesn't change the fact that the focal length remains the same. As this article notes, each format (8x10", 4x5", 6cm, 35mm, APS, etc.) uses different focal lengths for different purposes so the 35mm vs. 24mm (APS/DX) change is no different ;)
'Equivalent' focal lengths are useful as a transitional aide, but if the 35mm format fades away, then why would we want to base things on being equivalent to an obsolete format? For a new user comming into the DSLR market, it would seem just as easy to teach them that a '35mm lens is a normal' rather than trying to explain how focal lengths were used on a format that they aren't using ;) Naturally, for users comming from the 35mm space it might be easier to use the equivalent numbers - however that is only a problem durring the transition period.
Conversely, if the market moves toward a tiered system with professional equipment using 35mm sensors and consumer equipment uses APS-C then using 'equivalent' focal lengths will simply create more confusion. For instance, if an APS camera user were to buy a professional lens (that will be labeled with the real focal length) their consumer equipment (which is labeled with an 'equivalent' focal length) will be marked differently. IMHO simply telling users to multiply all focal lengths by 1.5x is much easier than explaining that a professional 100mm lens produces the same FoV as a consumer 150mm lens ;)
Wesley Fink - Monday, September 25, 2006 - link
I basically agree with you. My only concern here is that the "digital" lenses designed for the DX format will not provide a full image on a 35mm camera. You also quickly find that the 28mm to 80mm lens is NOT a wide-angle to short tele when mountd on a digital SLR. Then there is the exotic sounding 18-55mm kit lens that behaves on a digital SLR like a 28mm-85mm lens and that most definitely will NOT operate as a full-frame 18mm on a 35mm camera.tsapiano - Monday, September 25, 2006 - link
True, but if you label a 12-24mm DX lens an 18-36mm 'equivalent' lens and put it on the shelf beside a 17-35mm FF lens you're bound to confuse people even more. The 17-35 will also mount on an APS camera, but it will provide the eqivalent of a 25-50mm lens - however with the differential labeling, it may appear that it would be wider than the DX lens. If you just stick with the real focal length of the lens, then you give people a better idea of their relative reach.
But that's the fundamental problem - the only reason we relate 18mm as an ultra-wide focal length is that we're still used to shooting with 35mm. People with this level of experience generally can figure this stuff out relatively easilly - the people who have trouble with it are generally those just starting out. For someone who has never used 35mm, however, 18mm doesn't really mean much other than what they are told - simply telling them that 18mm is a moderate wide angle is much simpler than trying to explain 'equivalence' to a format they've never used (and likely never will) ;)
As for mounting an 18-55mm lens on a full-frame camera, you'd still get the same FoV as a full-frame 18mm lens it'd just be that the edges would have extreme vinetting so the image would be difficult to make use of. Either way, it's easier to explain 'don't put DX/EF-S/etc. lenses on a FF camera' than it is to explain why the APS 18-36mm lens is much wider than the FF 17-35mm lens ;)
Regardless, I certainly understand what you are saying ;) The caveat is that the vendors are kind of stuck between a rock and a hard place. They could rebrand APS lenses with equivalent focal lengths, however (a) that creates confusion with full-frame lenses also in their lineup (which for most vendors is the vast majority of their lines) and (b) it means that they'll be stuck using this 'equivalent' nomenclature long after most consumers forget what 35mm was ;) If they stay with the real focal lengths, it creates some confusion in the short term, but it allows them to use a standard designation across their entire lineup and will eventually become a non-issue once people get used to it.
Purhaps the easier solution would be to simply place FoV angles alongside the focal length designations on the lens barrel. The concept of a 45 horizontal degree field of view would likely mean a whole lot more to the average consumer than saying a 28mm lens on an APS-C body ;)
silver - Monday, September 25, 2006 - link
I never did understand why manufacturers didn't simply go with a magnification factor. A normal lens would be a 1X which would be the equivalent of the diagonal of the film/CCD/CMOS. A 0.5X would be half the diagonal and so forth. The only issue I can see would be in considering the perspective of the subject to the surroundings in the image. Not a huge concern when using focal lengths in the 0.5X ~ 4.0X range though admitedly there are a huge number of cameras with lenses that zoom well beyond those parameters.Visual - Tuesday, September 26, 2006 - link
well obviously its because the manufacturers have no clue on what camera you'll strap the lenses and what their film/sensor diagonal will be.silver - Tuesday, September 26, 2006 - link
In that case they really need to hire better engineers if they don't know what size the CCD's in their own cameras are !Note that this all points out the need for some standardization as well. Standardization is in the best intrest of the consumer as it opens up competition. This is why PC sell 99:1 versus Mac. Mac has completely alienated a lot of their user base by persistently changing their architecture. Something they seem determined to keep doing.
Lastly, the mangnification would be indicated based on the lenses targetd system. A lens designed for use on a Canon full-frame system would simply need to be stamped differently for use on a Nikon. The lenses aren't interchangeable unless one uses a lens mount such as the Tamron Adaptall that has seen very modest use in the past on 35mm cameras.
wgoldfarb - Monday, September 25, 2006 - link
Sorry for the very long post, but photography is a subject that is close to me and I was left with some very mixed feelings after reading your article. I have been a "prosumer" photographer for over 25 years, with some professional work thrown-in a long time ago. I just switched to 100% digital not too long ago, so naturally I was excited to hear AT was starting a digital photography section. As a newbie when it comes to computers and overclodcking I have come to admire your incredibly thorough reviews and articles for computer hardware, and was looking forward to the same level of depth and knowledge in photography. However, I must admit that after reading this article I was somewhat disappointed.Overall the article is excellent, as is usual with AT. But in the article you also send some mixed messages, and say some things that affect your credibility.
You start by saying that most computer enthusiasts don't know enough to understand the "jargon" used by traditional review sites. However, you are also focusing on digital SLRs which can cost $500 and more once you include the body, lens and other required accesories. Anyone seriously considering such an SLR (instead of a cheaper, simpler point-and-shoot) almost certainly already knows enough about photography to understand the "jargon", or at least can easily learn it with some research. This is a double standard. You say most photography sites use language that is gibberish to a non-photographer. Guess what: your own reviews of hardware are gibberish to most computer newbies, and even to some more knowledgeable users. Yet this is precisely why you offer great reviews. Assuming some prior knowledge on the part of your reader allows you to focus on incredibly detailed, in-depth reviews of hardware. That is, to me, one of your greatest values. I can learn the basics anywhere, but only here can I find such outstanding in-depth reviews or a community of incredibly knowledgeable users. Yet for photography you are suggesting you will target a comparably less informed user. I think this underestimates the knowledge of your community. In addition, catering to such an audience will limit the technical depth of your reviews. I'd much rather see you target a more informed user (maybe provide some guides to allow newbies to learn the jargon?) and concentrate on the same level of technical depth you currently have in hardware, along with jargon, gibberish and all. Anyone can provide a basic review of equipment, be it computer hardware or digital SLRs. Very few people can provide truly in-depth, reliable, technical reviews, and I think this is where AT can stand out from the rest.
You also make some comments that could affect your credibility. As an example, on page 1 you say "In the end taking a digital photo is still basically dependent on the same set of 'rules' as taking a film image, as the only real difference in digital and film is what happens after the image is captured". This is not accurate. As a very important example, the nature of digital sensors has a significant impact of how you expose an image for digital capture. Yes, you could just point and shoot with a digital camera, but you would not be getting the most out of your image or equipment. Given the nature of digital sensors, with digital cameras you need to "expose to the right" to maximize the amount of detail you can capture (i.e. you need to overexpose your image somewhat). You also need to think carefully about the format you will use to store the image on the camera (which may impact quality and definitely impacts the amount of post-processing you may need), and must make careful decisions on white balance before taking the picture. There is an inherent difference between film and digital sensors, and they do affect how you take pictures even before you release the shutter. Look at it this way: if a newbie was about to purchase some DDR2 1066 RAM only to permanently run it at DDR2 553 speeds you would almost certainly suggest that he/she learn enough to overclock his system and leverage the RAM to its fullest, or else you would suggest that he/she not waste the money on such expensive memory. It is no different with digital cameras. If someone pays upwards of $500 for an SLR ,he/she should learn enough to use it to its full potential, and not just use it as a film camera or a point-and-shoot digital.
Having said all this, I think you could offer a great digital photography review section if you stick to what you do best: in-depth, reliable, highly technical reviews of equipment, with your own benchmarks and testing techniques. People can learn the basics anywhere, but here they would find great in-depth reviews not available elsewhere. You go into incredible detail, testing and benchmarking when evaluating the performance of a GPU, and certainly use lots of very technical "jargon" that allows you to offer outstanding reviews, without worrying about catering to less informed users. Those users (including me) usually do their basic research to learn the jargon before reading your reviews. Why would you not apply the same high standards when reviewing digital SLRs?
Moving on to the type of tests, I would love to see extensive batteries of tests covering a wide range of factors, similar to what you now do with hardware. Conduct tests of cameras using identical images that we can compare across cameras and Brands. If testing an SLR body, use a reference high-quality lens so that lens quality is not a factor in the captured image, again allowing us to compare different camera bodies. Develop tests to measure noise at higher ISOs (a potential issue with smaller sensors, such as those in the 4/3 system pioneered by Olympus). Evaluate the time it takes for an image to be written to the camera's storage media at different formats, and how that impacts the ability to shoot continuous frames. If the camera has a built-in flash, evaluate the effectiveness and range of the flash. Look at the available lens offerings for a given body (which, as you correctly point out, can sometimes have a greater impact on image quality than the number of pixels on the sensor). Evaluate the quality of "kit lenses" (by comparing their images to those of the reference lens). Evaluate the in-camera software (e.g. how well does the auto white balance work under different lighting conditions? How well does the camera "process" the raw image to convert it to a jpg?). The list could go on and on, even without going beyond just cameras. There are numerous relevant factors to test in a digital camera, I just touched on a few. There is LOTS of room for thorough, in-depth, technical reviews that you would not be able to offer if you cater to a less informed crowd. And there certainly is room for a website such as AT to conduct these detailed, thorough reviews, using your experience with hardware testing to provide a level of thoroughness and detail that is simply not available elsewhere.
Wesley Fink - Monday, September 25, 2006 - link
You bring up some interesting points, and they are points the staff at AT are still debating. You might find it interesting that almost all the AT Editors thought this introductory guide was possibly too technical. Several commented that they really had to pay attention to get the technical details I was discussing. This is from Editors who write those technical computer equipment reviews you enjoy here. I was worried it was too basic since I didn't even cover things like lens perspective and color balance, in the interest of keeping the size more managable and the article more readable.Our real issue with Digital Cameras is knowing which audience to address. We do understand there are readers that are vey knowledgable in digital photography, but there are also readers who know next to nothing about digital cameras. AT is known as a computer equipment review site, so if we sometimes go too far on the technical side of computer testing it is normally forgiven. However, based on our Editors and questions from readers, we really think we need to aim our Digital Camera reviews at a slightly lower common denominator.
We will likely test and talk more about where various digital photo technology is useful and the best use for certain equipment and cameras than other photo reviews. This will likely be below what you want in the beginning, but if the demand is there we will move to ever more extensive benchmarking as the section evolves.
As for your experience with the sensor in your camera, it appears to be camera/sensor specific. I could make the same argument for every film that exists - they all respond best to certain exposure techniques and those techniques differ depending on the film. However my personal experience has been the opposite of yours - blown highlight from overexposure are much more an issue than underexposure in digital, since I can usually correct shadow detail in Photoshop and I can't always recover blown highlights. Yes, white balance adjustments can be made on the fly with digital and ISO can be adjusted on the fly, which is very unlike film. However, white balance and ISO just work at a different point in digital, and they stil mean the same thing. No we don't have the added latitude of the print process as film does, but we have a similar and even greater latitiude with post processing in Photoshop or other image-editing software.
While I do agree that anyone using only point and shoot is not getting all they can from the camera I also believe strongly that you can still get a lot of quality out of your digital camera on Auto when it is backed by some knowledge. I would also bet you that the great majority of our readers who use digital cameras generally use auto - even with SLRs - and only once in a while go off the program for special situations. I learned this the hard way trying to help our other "geek" editors who almost all own SLR cameras they bought themselves, but who really struggled to take decent photos for our reviews. Once they were given a few tips on lenses to use for available light and how to control depth of field their photos instantly improved = and they almost all still use auto.
Your suggestions for tests and benchmarks are appreciated, and we will definitely consider those as we determine how we will move forward in reviewing Digital Photography equipment.