The alternative is to do it on the cheap: take the PDF file, print it in an appropriate size, download the code, and start testing. I think some people have posted raster images (e.g. JPEG files) of the chart on the Web; the outline description here should produce a better test chart, as it. Ian Grey all galleries Galleries Lens Sharpness Tests Downloadable Lens Test Chart II previous next: 29-DEC-2005: Downloadable Lens Test Chart II. Download this 300ppi, 12'x18' test target. File size is 1.2mb. Make sure to download the 'original' file size.
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Measures the overall performance of a lens-camera combination for a challenging indoor lighting condition.
Measures in P-Mpix sharpness performance of a lens-camera combination. More on Sharpness
Measures in % the ratio between the most distorted point and the width of the straight line. More on Distortion
Measures in Exposure Value the loss of exposure of an image when going far from its center. More on Vignetting
Measures in T-stop a lens' ability to transmit light from the photographic scene to the sensor surface. More on Transmission
Measures in µm how well the camera prevents color fringing. More on Chromatic Aberration
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Part 5 - Focus Accuracy Check (for AF lenses)
A common complaint seen on web photo forums is that cameras (and/or lenses) aren't achieving accurate focus. Sometimes the focus point is in front of the intended subject and sometimes it's behind it. Some of these observations may be due to technical problems with AF, but some are due to user error or unreasonable user expectations.
Of course no manufacturer of cameras or lenses claims that autofocus isabsolutely perfect. For example, Canon state that the spec for focus on'consumer' bodies (such as the Digital Rebels and the EOS 20D/30D/40D) is thatit should be within the DOF (Depth of Field). On the 'pro' bodies (EOS 1 series) focus spec for f2.8 and faster lenses (f4 on some models) is that it should be within 1/3 of the DOF. With slowerlenses the AF accuracy of the 'pro'bodies reverts to the same as that of 'consumer' bodies which don't have thehigh precision sensors.
So the bottom line is that focus should be within the DOF, or to put it another way,the image should look sharp. If it doesn't look sharp, focus is not likely to be in spec.
Note also that both the camera and lens are involving in focusing. A focusing error can be theresult of either a camera or a lens calibration problem.
The Lens Testing Focus Chart
I've written this article so that users can test their DSLR under a set of'standard' conditions. The lens testing chart which is shown atreduced size below can be downloaded (as a Zipped JPEG) HERE
You can see two sets of parallel lines which are your focus indicators. The numbers 1,2 and 3 represent 1cm, 2cm and 3cm distances when the chart is used at 45 degrees asexplained below. In the center is a single vertical line (or horizontal line, depending on how the target or oriented), and that's your focus point.
The Lens Focus Test
To use the lens testing chart you set it up at 45 degrees to the axis of the lens as shown below.The easiest way to do this is to have the camera horizontal and tilt the target back by 45 degrees. You can also lay the target on the floor and shoot down on it with the camera at 45 degrees. Inthis configuration (with the target at 45 degrees to the optical axis of the lens) the 1, 2 and 3cm distance marks are correct. They are actuallyspaced at 1.41, 2.82 and 4.23cm from the focus line on the test chart, but when viewed at 45 degrees thesedistances are modified by the Cosine of the viewing angle (Cos 45 = 0.707). The lens should be at maximum aperture for minimum DOF and maximum sensitivity to focus errors.
Use is easy. Once you have everything setup you select your focus point (let's use thecenter point) and make sure the focus zone includes only the single focus targetline. It's important to note that the area of the AF sensor may not be exactly the sameas the markings on the viewfinder screen, so make sure there's nothing near the AF zonebut the focus line. Then you take your shots. Take several and refocus each time. Try several manualfocus shots also, using Live View with magnification if your camera has that ability. Use the maximum aperture of your lens so as to get minimum DOF.
The Results
Below is an example cropped from a frame taken with a EOS 10D using 50mm f1.8 lens atf1.8 and focused manually on the single vertical line. Focus distance was about 0.45m (Ihave the Mark I version of this lens which has a focus scale, the newer Mark II versiondoes not).
This image displays accurate focus. The '1', '2' and'3' characters are pretty much equally blurred both in front of and behind thefocus line. There's maybe a very slight bias towards the front, but on the next manualfocus shot you might see an equal bias towards the rear. There's nothing wrong with themanual focus of this this camera or lens. The lines are spaced at 2mm intervals. 1, 2 and3 represent 1cm. 2cm and 3cm distances in front of and behind the focus line. Note that at longer focus distancesthe DOF is not symmetrical about the focus point and you should see slightly more DOF behind the point of focus than in front of it. The important thing is that the lines at the zero position (at which you focus) are the sharpest.
The next shot shows the same view, but taken using autofocus.
Here you can see a slight bias in front of the focus line. The '1cm' mark is sharper in front of the focus line than behind it, though the focus lineitself is still quite sharp. I'd estimate that focus is maybe 2mm in front if the focusline, but the line itself is still within the 'sharp' zone, maybe close to therear limit of the DOF. For a 50mm lens at f1.8 focused at a distance of 0.45mm thecalculated DOF is 5mm (+/- 2.5mm). So the focus isn't 'perfect' but it's pretty good and within specfor autofocus. I'd suspect that such small focus offsets are pretty common but nobody evernotices them. Below is the same shot at f5.6 and the focus offset is undetectable to myeyes due to the increased depth of field at f5.6.
The distance between the target and the camera should be whatever you typically shoot at, or about 25x the focal length of the lens if you want the best assessment of general focusing accuracy. If you are too close and get into the macro range, it's possible that focus errors could be different from what you might observe at infinity. Just be sure that the focus zone of the camera only covers the single focus line. If you are so far away that the focus zone extends across the other marks, print the target larger to compensate. If you double the size of the target, the 1cm, 2cm, 3cm marks will become 2cm, 4cm and 6cm respectively.
What if the auto focus is off?
If you get great, sharp, properly focused images using manual focus (liveview + magnification), but your shots using AF are off focus, you have a couple of choices, depending on which lens and which camera is involved. Either the lens or the camera could be out of adjustment, but if only one or two lenses seem to have a problem and the rest don't, then it's probably a lens issue. If every lens you own has a problem, then it may be a camera adjustment issue.
The equipment manufacturer can make focus correction adjustments to their cameras and lenses so you can send either (or preferably both) of them off for the manufacturer to calibrate and adjust. However if you are shooting with a camera that has microfocus adjustment (like most current EOS DSLRs except for the Rebel series), you can make corrections yourself.
Lens Test Chart Download
Canon EOS AF adjustment can be done in +/- 20 steps and the camera remembers the lens and only applies the correction when that particular lens (actually lens type) is mounted. You can find the right amount of adjustment pretty easily by systematic trial and error. You might start out trying shots at 0, -5 and +5 settings. If the focus looks better at +5 than at 0 then you know you need to add a +ve adjustment. Try +10. If +10 is not as good as +5 then you know the right number is less then 10. If +10 is better than +5 then you know the right adjustment is more than +5. You keep on iterating until you have the best focus and at that point either reducing or increasing the AF adjustment makes the image less sharp.
A few Sigma lenses are compatible with their 'USB Dock'. If you attach a compatible lens to the USB dock you can use a computer to adjust the lens focusing parameters. However it only works with Sigma lenses and only with a few of their newest ones (35/1.4, 17-70/2.8-4 and 120-300/2.8 as of 11/13)
Some DSLR models from Nikon, Sony, Olympus and Pentax also have AF microadjustment capability. Generally the more recent, higher end, models have the feature, but you'll have to check with the camera manual to be sure.
Testing Lens Test Chart Download Free
Here's a list including cameras released up to around 2013:
Testing Lens Test Chart Download Excel
Canon: 1Dx, 1DsMk3, 1DMk3, 1DMk4, 5DMk2, 5DMk3, 7D, 6D, 70D, 50D (note not the 60D)
Nikon: D4, D3,D3x, D3s, D300, D300s, D600, D700, D800, D800E, D7000
Sony: A900, A850, SLT-A77, SLT-99
Olympus: E-30, E-620, E-5
Pentax: K20D, K2000, K200D, K-5, K7D, 645D