Amazon – possible SanDisk UHS-1 card bargain

Yesterday we received two SanDisk 30MB/s 16GB SDHC cards from Amazon UK – £15.99 each, a couple of pounds more than regular Class 10 cards like the Transcends we normally use on all current Alpha and NEX models. You must have faster than 15MB/s for cameras such as the A55, A580 or NEX-5n not because of video issues, or even because you want to shoot raw bursts – you need it to be sure that shooting sweep panoramas or 3D panoramas will not a) fail b) corrupt your card and lock you out of shooting in the process.

This is what happened to us when using a SanDisk Ultra 15MB/s card which had been fine for all other work. Fortunately we had a spare card, the corrupted card was removed and its file contents recovered using SanDisk’s free program.

The SanDisk 30MB/s card labelled for ‘HD video’ is of course not limited to video and is ideal for any similar use which includes sweep pans, multishot noise reduction, HDR and 12fps bursts (etc). It is labelled slightly differently:

At £15.99 in the offer linked to here (click the image of card or this link) it’s a very good value fast reliable card from a premium maker. Admittedly, we are now seeing the Transcend brand falling to £12-13 for Class 10 which despite their info saying Class 6 or faster (etc) is the minimum you should aim for with Alpha and NEX current generation models. SEE COMMENTS – Amazon changed this offer a couple of days later to the less desirable 20MB/s but there was still a good price on 32GB 30MB/s.

We ordered two of the 16GBs and what actually arrived the next day was a pair of these:

These cards – 300X, 45MB/s, UHS-1 Class 10 – are not listed for sale under the Extreme branding but can be found as the last generation of Extreme Pro, priced at £43.50. Clearly SanDisk is repositioning the prices and labelling of the card range. So, we were apparently sent the latest version of something they’ve still got on sale for £43.50 but we paid £15.99.

March 24th update: can’t vouch for the vendor, the above were from Amazon themselves, but there’s one seller with the 45MB/s cards genuinely offered at under £20.

It gets more interesting as the real speed demon – the 95MB/s 16GB Extreme Pro which was selling for £80 or so recently – has dropped in price to be BELOW the price of the 45MB/s version which is now marked as having a ‘newer’ version. You can buy the 95MB/s card for only £38.10. We’ve ordered and received one of these, no errors or substitutions.

There is no guarantee that if you order the bargain HD Video 30MB/s card you will get the same switched product as we did with a March 18th order, delivered March 20th, UK. Even if you don’t it is a great price for a card which should guarantee the correct operation of NEX-7, Alpha 77, Alpha 65. The 95MB/s version is one of the fastest SD cards yet made, and will go beyond correct operation to ensure the fastest clearing of the camera’s buffer, fastest image playback or review, and the highest number of consecutive shots when shooting continuous sequences.

Disclaimer: Amazon prices can change on a daily basis, and Amazon USA or other regions may differ.

– DK

A57 – no GPS

A57 announced today does what was needed and updates the A55 to have a decent EVF, plus a few bells and whistles. It’s got a 77-style microphone, and also a mic input socket for external mic moved to a better position than the A55. It has full 1080/50p video capability, 12 fps burst mode (with the usual restrictions and more*), a 15-point 3-cross AF sensor like the A65.

This camera is not an A55 body revision – it uses the NP-FM500H battery, the larger size found in the earlier A5xx-series Alphas and the A77/65. This should give it far more shots (well, OK, 550) per charge than the smaller ’50’ size battery used by the NEX and A55/33/35 etc. Sony’s new accessories include an LED video light, HVL-LE1. The rear screen is similar to the 55, reversible to the body (one of the major points missing from the NEX-7, which cries out to be configurable that way but can’t be).

Exposure bracketing remains limited to the inexplicable and disappointing 1/3 or 2/3 (0.7EV) steps and just three frames, so for HDR you are obliged to work manually or use the camera’s  JPEG-only function.

*You only get 12fps in the ‘tele-zoom’ mode which is effectively a 2X crop to a mere 4 megapixel image, optimistically interpolated up by Sony in-camera to create a redundantly oversized not quite sharp enough JPEG in ‘tele-zoom’ mode. Otherwise, you get the usual and impressive 8fps regular and 10fps ‘advance priority’ modes, plus a 3fps Lo speed.

But they have dropped GPS, unless someone has managed to miss it out from the specs. Oh well. Not that interested now. Disappointing. Potentially much improved travel camera – one I would prefer to the Alpha 77 for size, weight, and sensor – turned into a family camera with some neat joke functions like automatically cropping portraits and then blowing up the cropped area to 16 megapixels. This uses face recognition, a variation of the tele-zoom kludge, and what could be a very annoying Rule of Thirds composition adjustment – at least it also saves the original file with the face/s placed where you intended. The best thing about features like these is that you can turn then off, the worst thing is that Sony probably think this is more useful than GPS.

Available end of April, and we shall be rushing out to avoid this model and wait for the next bus to arrive. Everyone has been saying – we’d love an A77 or even an A65 with the 16 megapixel sensor. Or we’d love an A55 upgraded with the better viewfinder. So what do Sony deliver? Neither…

Hopefully I should have put ‘yet?’ after that last remark.

– DK

The EVF future

At photokina 2010, Paul Genge from Sony pretty much told me that Sony’s future lay in the EVF (translucent mirror or otherwise, Electronic View Finder) models. He was not able to say anything firm. Since then, I’ve spoken to him on several occasions and he has repeated that Sony left all options open but the EVF design was likely to be the way ahead. What he has not said directly to me is that conventional SLR design – Optical View Finder – was off the roadmap.

EVF does away with the need for the finder to be positioned anywhere near the optical axis. Noses can safely hit thin air not a rear screen. Unless you are left eyed. NEX-7 with ocular surround fitted.

Although Sony did not attend Focus on Imaging 2012, the UK website TechRadar secured an interview statement during Focus week, in which Paul appears to have confirmed without ambiguity that the future was EVF-only, and that the forthcoming full frame successor to the Alpha 900 would be an SLT-EVF design. At the same time, we learn that the 70-200mm SSM G and 70–400mm SSM G lens are to be revised for 2013.

We know, from several sources, that Sony is not currently making all its lenses – even the high end ones – in one facility, or in its own workshops. I believe the 70-400mm SSM G is a contracted-out design and that the 70-300mm SSM G has always been made by a third party lensmaker. This is nothing new; the Minolta 100-400mm APO was patented by Tokina and sold to Minolta as an exclusive (no-one else got the lens) and the same company made some if not all the 100-300mm APO lenses. Using different sources means that various types of coating are appearing; traditional Minolta style – the multi achromatic coating, Carl Zeiss T*, Tamron’s BBAR-derived coatings, some Sony multicoatings of unknown pedigree on Chinese SAM lenses, and a new water and oil resistant coating due to be used for the revised 70-200mm and 70-400mm.

This coating is nearly always combined with weather or splash proof design, and companies which have the ability to apply it include Hoya (Tokina, Kenko, Marumi, Pentax), Olympus, Canon, Nikon, and Sigma. Sigma is very significant as they have installed new coating lines recently and they are going through a bit of a subcontracting boom. Their facilities are all in Japan, they are on high ground and were slightly affected by the earthquake but not by the tsunami. They have a long history of building lenses and cameras for Leica, Carl Zeiss, Panasonic, Olympus, Canon/Kodak and interchangeable lenses for nearly all the major names.

If the high end tele zooms are to be revised, weatherproofing and the new coating will certainly arrive along with a synchronisation of lens appearance and finish. But I’m willing to bet something else is involved. The SSM focus system is only partially suitable for contrast-detect operation. It works, on static subjects, but unless some major advance is made in CD-AF it’s lacking the refinement and speed of the AF found in SEL (native Sony NEX) lenses. I’ve tested the 70-400mm on the LA-EA1 with NEX-7, I can work with the lens comfortably on most subjects and the camera is very good at refusing to take the shot until focus is 100% locked.

All that just to get 2X the magnification – NEX-7 with LA-EA1 and 70-400mm SSM G (an operational kit, if not fast) compared to Tamron 18-200mm NEX lens with the correct type of contrast-detection friendly focus motor and protocols.

What Sony must surely want to do is dispose of the SLT (‘translucent’) pellicle mirror and the Phase Detection AF module. It makes most sense to focus, meter, view and expose from one single sensor. In order to do so, lens focus motors need a slightly different control protocol. SSM lenses are already CD-AF compatible, as are SAM onboard focus motor lenses, but they don’t match the NEX system SEL lenses. Sigma HSM and Tamron USD Alpha mount lenses are not CD-AF compatible and do not work correctly on the LA-EA1 adaptor. Upgrading matters most with tele lenses, and they are also most likely to be used in adverse weather for wildlife, news or sports. So my guess is that the upgrade to these lenses will be comprehensive and that it will look forward to possible Sony Alpha bodies with either no SLT mirror, or a movable SLT mirror and choice between PD-AF and CD-AF.

As for the EVF itself, it’s one stage away from being better than a very good optical finder on balance of qualities. Unlike optical finders, the EVF is not susceptible to user eyesight error (incorrect dioptre correction, combined with eye focusing accommodation) and presents the user with a low resolution but otherwise very accurate view of the image focused on the sensor. It can do this at light levels where optical finders become difficult to use, while also presenting a review of the captured image if desired – ‘shot success’ confirmation.

Differences between the ‘identical’ EVF of the NEX-5n accessory finder FDA-EV1S and the NEX-7 fixed built-in version are mostly down to the difference between the 16 megapixel generation 2 sensor, and the 24 megapixel. Response speed, low light noise, quality of colour and contrast are all influenced more by the two very different sensors. User observations that one is better or worse than the other will nearly always be down to this, and variations in settings between the two cameras compared.

There are things you can do on an EVF, such as magnifying a focus point well away from the centre, which simply can’t be done at all with an optical finder and may not always be convenient to do on a rear screen. The fact that EVFs permit eye-level video shooting, and that video is now a permanent feature of the Alpha class of camera from entry to semiprofessional, makes the EVF design change more inevitable.

Paul Genge had a short exchange of information with me when I was considering selling my Alpha 900 and all my frame Alpha lenses (after starting to use the A77). He said I’d regret selling my good full frame lenses when I replaced my Alpha 900 with a full frame model I would just not believe. His message was ‘you wait – you’ll not regret it’. So, I sold my old Minolta-era full frame lenses and bought myself a brand new 28-75mm f/2.8 SAM, Sony 50mm f/1.4 (replacing Minolta vintage), a 24mm f/2 Carl Zeiss SSM, and a 70-400mm SSM G. I kept the Alpha 900  and a few lenses I like which are unique in their function, such as the Samyang 85mm f/1.4 manual, the Sigma 70mm f/2.8 Macro, the Sigma 12-24mm and an old 16mm f/2.8 full frame fisheye. Instead of getting out of full frame, I re-invested in it.

I’m expecting the Alpha 900 replacement to be either an SLT design like a scaled-up A77 with 36 megapixels, or a second generation hybrid SLT design with a mirror you can raise to use CD-AF or manual live focusing. I’m hoping that it will appear with a new 28-75mm, 24-70mm or better midrange f/2.8 with improved SSM, weatherproofing and new coatings like the 16-50mm f/2.8 DT.

– David Kilpatrick

Using Adobe Bridge/ACR for ‘film looks’ controlled by your Alpha

It’s now easy enough to find camera profiles – image looks created by independent photographers, as Adobe and Sony do not provide any – which make a big difference to raw processing using Adobe Camera Raw or Lightroom. There are also many fine adjustments you can make within these programs, able to customise the image output so that it either looks just like an in-camera JPEG of a chosen picture style, or like nothing you can produce in-camera.

Many users wonder, sometimes, why their raw pictures viewed in Adobe Bridge look different from in-camera JPEGs. Sometimes they look identical but then after working for a while and fine-tuning your preferences, you see big differences between the two if you shoot RAW+JPEG. This is in addition to differences which can happen if you set the camera to shoot in sRGB (useful for the JPEG) but your computer to save as AdobeRGB (superior in many ways for raw conversions intended to be printed).

In ACR/Bridge, you can choose as a Preference whether to build fast thumbnails or high quality, and whether to build full screen previews or accept whatever is embedded in the file. If you do not set the preference to build high quality previews and thumbs, what you see in the thumbnails is normally an embedded JPEG which is part of the raw file and an exact match to an in-camera JPEG even if you don’t save one of these. What you see in the larger preview pane will depend on your screen size, the camera, and the type of raw but for nearly all modern DSLRs on laptops the basic quality option will show the embedded JPEG and you will even be able to zoom it without interpreting the raw data.

If, on the other hand, you set your Bridge prefs to large size and high quality previews using a large screen such as an iMac 27″, and you have ACR/PS/CS5/Elements installed, Bridge will access the ACR engine behind the scenes and will render your raw files. It creates a ‘cache’ of full screen size JPEG files (which will eventually use a lot of disk space) which exactly reflect the settings for any given camera/ISO default. You have the choice, in Preferences, between having a single Default for each camera or a different Default for every single ISO increment on each camera. If you set the ISO specific Default, the conversion used to build the preview/thumb will be exactly the settings you have saved for that ISO. See below where I repeat this all again for emphasis.

The 100% and full screen fast forward keystrokes

Bridge/ACR will render the full sized 100% view of the raw using saved default settings if you used the Loupe (a small section only) or the very useful sequence of: press space bar = show the full screen preview; mouse-click with the cursor at any point on this to zoom in to 100%; scroll round using controls/mouse; magnify 200%, 400%, or 800% using scroll-wheel or Apple Magic Mouse finger-touch; return to Bridge browsing using space bar. Be warned that even with a fast machine, Bridge builds the sharpness of your enlarged view (normally 100%) in stages.

What you first see may look a bit soft, wait two seconds and it will get sharper, another two seconds and it will be transformed to pixel-perfect rendering. Never judge a Bridge/ACR 100% or loupe view the instant you access it. Bridge/ACR is clever enough for you to be able to go to the magnified view with one shot, and using your arrow keys move to exactly the same position in your other shots at the same view. You can, by this means, compare sharpness in a set of shots. Once each has rendered for that point in the shot, the cache makes sure you can go back and forth between images faster, they do not need to render again.

But it’s Bridge Camera Raw Preferences which hides the great feature I’m telling you about here – a tip which can enable to you use the lower, manual-only set ISO values of some Alpha cameras like the new 77 to ‘load’ different ‘raw’ films just by changing the ISO setting. Or indeed, other camera makes which have similar ISO control.

Different raw conversions can be made specific to exact ISO settings, so that if you select a given setting, its unique conversion will automatically be used and its effect will be shown in the preview and thumbnail created.

This would be a disaster for Auto ISO – but the Alpha 77 has six different ISO settings between 50 and 160 which are NEVER used by Auto ISO, and can safely be used for my tip here. Also, there’s really not a great deal of difference between the noise, sharpness, and dynamic range of ISO setting with this low range. They are all very good.

ISO-specific default magic

So, I have an Alpha 77 with ISO settings 50, 64, 80, 100, 125, 160 all of which are very low noise and good quality. In Bridge/ACR, I can decide that ISO 50 will be used the Vivid camera profile, strong contrast curve, a certain degree of capture sharpening, a certain black point and so on. I can adjust all this until I think that ISO 50 looks just like Velvia film. Then I save the new default.

Taking a frame set to ISO 64, I can make a default which I think looks like Kodachrome 64 perhaps using the Landscape profile. For 80, I might decide to make a fake infra-red process default with added grain, monochrome conversion and contrast effects. For ISO 100, a default which is standard and looks like a good neutral colour slide. For 125, maybe an FP4 in acutance developer printed on G4 paper mono; for 160, a Portrait profile combined with no sharpening, to imitate Vericolor Type S or Fujicolor 160N.

The examples below do not use different ISOs, I have used one raw file to show the differences, of course!

‘Standard’ – this is the colour, contrast and profile used when Adobe Standard is set as ‘Camera Raw Default’ in Bridge on the Alpha 77. This default includes WB As Shot, Exposure as shot (0), no Recovery, no Fill, Black point 5, Brightness 50, Contrast 25, Clarity/Saturation/Vibrance all at 0, Medium tone curve.

This is the same overall conversion, using a profile called ‘Neutral’ designed to be similar to the camera’s Neutral JPEG setting.

This is a profile called ‘Vivid’, again with no other adjustments.

This is an interesting custom profile called ‘Positive Film’ which clearly has some major adjustments.

This is ‘Standard’ (not the Adobe Standard) but with multiple adjustments saved in the Default – Brightness to 75, Clarity to 25, Saturation and Vibrance both to 20, Strong contrast curve. This Default is a custom one which I prefer for many shots where good saturation and midtone brightness is needed. In fact, many Alpha 77 users advise changing the ACR default Brightness from 50 to 75 permanently as the 50 figure used by Adobe appears to make the images flat and dark.

This custom high contrast ‘red filtered’ mono conversion includes strong lens vignetting added (by moving correction sliders to zero) and a greyscale rendering controlled using the Hue/Saturation/Luminance control tab for colour balance. Blue, Aqua and Purple values have been lowered and Red and Orange values raised to imitate a camera filter on panchromatic film.

If you have not found and installed any third-party profiles, you can instead make detailed adjustments including contrast and saturation for much the same effects.

I am fully aware of the ‘well I can do all this in Photoshop‘ response, the point is that all these and other far more complex processes (including any of the raw conversion Presets found in popular styling packages by Marcus Bell, onOne and others) can be effectively assigned to one chosen ISO setting in the ‘protected from Auto’ range 50-160 on the Alpha 77.

Now, when I open my folder of raw of images in Bridge set to create High Quality thumbs and large previews, they can all get exactly my customised process treatment for the thumbnails depending on the ISO I have set. One image might appear with the b/w process above and the next with colour. I will be able to preselect a different Bridge preview and a different startpoint ACR process just by selecting a different ISO on the camera. I can leave ACR’s default settings in place from 200 and up, so I will never get Auto ISO producing strange differences from one frame to the next due to Bridge/ACR presets. Yes, I did once set some different conversions for specific ISOs in the Auto range and it really messed up by image selection – I found I had increased brightness for 320 but not for 400 (etc) so my exposures seemed to go all over the place when Auto ISO chanced to pick small changes from one shot to the next.

You can apply more NR and sharpening control to ISO 200 to 12800 as needed – and again, this will automatically be applied according to the ISO, to the preview and thumb as well as the opened raw for conversion. But it won’t look odd as the exposure, colour and contrast will remain constant.

Pros and cons

If you want to revert to a standard single process for all ISO settings, you’ll lose the customisation of Bridge/ACR but you can save each setting as a Camera Raw Default process (named) and restore the settings at any time. Or, you can just reserve one careful combo for a single ISO setting such as 80 and only set this when the specific result is wanted, leaving every other setting at factory default.

It only applies to one camera body at a time, you would need to set up the same defaults for every different similar body you use – and not all Alpha bodies offer the useful 1/3rd step ISO increments and low ISO range which make the idea practical. But, this is also an advantage, because if you process files from another camera of the same exact model it will be unaffected unless you set it up. Camera Raw Defaults can be set as specific to each serial numbered body, and each different ISO, so there is never any need for someone else’s raw files to be accidentally altered by your own personal setup.

Profiles

I use a set of Alpha profiles I have assembled from as many sources as possible, but mainly from Maurizio Piraccini’s development for every KM/Sony Alpha camera:

http://www.piraccini.net/2011/02/profili-colore-sony-a900-per-adobe-lr.html

These are also linked to via a Photoclubalpha Forum thread:

http://www.photoclubalpha.com/forum/viewtopic.php?f=6&p=66090#p66090

To read a Forum thread about ‘Deep’ profiles (which is mainly about noise levels, not about the image looks themselves, but includes instructions on how to install all similar profiles) go to:

http://www.photoclubalpha.com/forum/viewtopic.php?f=32&t=5786&p=60905

These threads contain links to profiles provided or sourced by Agorabasta as a forum contributor including some for most makes.

If you have any sources for other sets of created profiles, for any Alpha models, please add a Comment at the end of this post, and provide the link (crediting the source or the author if you have that information).

You read it here first – and you’ll never forget how this can be used. Lightroom offers the same functions and preferences. Other programs may follow suit. Now you can use your manual ISO settings for raw files just the same way you can apply picture styles to in-camera JPEGs, and get the results in ACR/Lightroom – no need to be restricted to Sony Image Data Converter to read tags.

– David Kilpatrick

Sony Alpha 77 & 65 Firmware v1.04 download

The download is approximately 65MB of data in a Mac .dmg mountable disk image, or some other stuff for Windows.

The process will take about seven to ten minutes overall including downloading, opening and completing the procedure. You need a battery for the camera with at least three bars showing – preferably fully charged – and your computer to camera USB cable. The actual transfer to the camera takes about four minutes follow by 30 seconds of internal processing.

During the Mac update, you may see this window when the camera is turned off for the upload from computer to camera, and at the end of the process:

Do not worry about this – it refers only to the Mass Storage connection. Do not let this distraction interrupt your process.

SLT-A65 Firmware Upgrade v 1.04

Windows

http://www.sony-asia.com/support/download/478855

Apple Macintosh
http://www.sony-asia.com/support/download/478884

SLT-A77V Firmware Upgrade v1.04

Windows
http://www.sony-asia.com/support/download/478891

Apple Macintosh
http://www.sony-asia.com/support/download/478893

Features:
Adds auto-correction of JPEGs for two lenses:
Vario-Sonnar T * DT 16-80mm F3.5-4.5 ZA (SAL1680Z)
Sony DT 16-105mm F3.5-5.6 (SAL16105)
Improved ‘usability’ – remains to be discovered what that means
Improved image quality (presumed to be JPEG quality and noise levels)
Faster command/menu/setting response (less time lag between control wheel and updated screen info)

Example: correcting the 16-80mm CZ lens wide open at 16mm – focused on an A2 target, a very close distance which exaggerates the distortion level of the lens:

Above: uncorrected image

Above: in-camera correction. For full size versions which allow you to examine the CA (very prominent at f/3.5) and the degree to which it is corrected in the Fine JPEG, click the images. As you can see the image is enlarged by correction, so not quite as much coverage is achieved. But it’s less than you imagine; a fully corrected 16mm shot ends up being similar to a 16.35mm lens on the vertical and horizonal axes, or a 16.55mm lens on the diagonal. That’s still wider than a rectilinear perfect 17mm, so it’s better to use a bendy 16mm than lay out for a Zeiss MF 18mm, if you want coverage. And even Zeiss 18mms show some curvature.

We’ve tested the 16-50mm as well and BOY does that lens distort at 16mm – far worse than the CZ – which makes it clear that the in-camera lens correction goes hand in hand with this lens. To get any kind of straight line image, it’s going to be necessary to use the correction or a profile for raw conversion in a program like Adobe Camera Raw which accepts lens profiles.

The responsiveness of control wheels changing settings is greatly improved – altering +/- EV compensation for example now responds almost in real time as you shift the control. No significant improvement can be detected so far in image quality despite the claims, at least with the 100 or so test shots we’ve taken at different ISOs using a Color Checker, and other spot checks for Low/Normal/High NR. But there are so many modes on the A77 including panoramas, multishot, DRO, that the improvement may well be specific functions which Sony will explain in more detail.

Canon kyboshes the competition – full cinema system

Canon has launched, out of the blue as far as we were concerned, a complete fully featured Cinema HD production system including full-frame digital video camcorder and EF-fit lenses designed to compete head-on with the top offerings from Zeiss/Arri and Red.

The Cinema EOS system also competes with Sony right in the heart of Sony prime territory. It looks like nothing so much as an acknowledgement that Sony has attacked Canon’s primary still imaging market effectively, and Canon, instead of competing in that arena, has decided to hit their rival where it really hurts. Their announcement feels like ‘right, we’ll show them – this will be the best HD movie production system in the world’.

Porn film makers will be rubbing their hands with glee – or something, not sure if you call it glee…

At the heart of this is optical excellence. They have created a 4K (the higher resolution than 1080p HD, full large screen cinema format) lens system. Imagine these – they come in the ciné PL mount, but also in the full frame EF camera mount. You could use these on a regular Canon. And they will not have the shortcomings of lenses such as the 24-105mm f/4 L – these will be better than CZ quality if Canon is to secure a market share.

CN-E 14.5-60mm f/2.6 L S (Super-35 or APS-C is what the S stands for, like EF-S)

CN-E 30-300mm f/2.95-3.7 L S

CN-E 24mm f/1.5 L F (the F stands for Full Frame)

CN-E 50mm f/1.3 L F

CN-E 85mm f/1.3 L F

Look at those apertures – they are like Angenieux apertures! Bet you they are also true T-stop figures. Here’s their wording:

Wide-Angle and Telephoto Cinema Zoom Lenses for EF and PL Mounts
CN-E14.5–60mm T2.6 L S / CN-E14.5–60mm T2.6 L SP
CN-E30–300mm T2.95–3.7 L S / CN-E30–300mm T2.95–3.7 L SP

The four new Canon zoom cinema lenses comprise the CN-E14.5–60mm T2.6 L S (for EF mounts) and CN-E14.5–60mm T2.6 L SP (for PL mounts) wide-angle cinema zoom lenses, and the CN-E30–300mm T2.95–3.7 L S (for EF mounts) and CN-E30–300mm T2.95–3.7 L SP (for PL mounts) telephoto cinema zoom lenses. Each lens supports 4K (4096 x 2160 pixels) resolution, which delivers a pixel count four times that of Full HD (1920 x 1080 pixels), and offers compatibility with industry-standard Super 35 mm-equivalent cameras as well as APS-C cameras (Not compatible with 35mm full-frame or APS-H camera sensors).

Employing anomalous dispersion glass, effective in eliminating chromatic aberration, and large-diameter aspherical lenses, the zoom lenses achieve high-resolution imaging from the centre of the frame to the outer edges. Each lens is equipped with a newly designed 11-blade aperture diaphragm for soft, attractive blur characteristics, making them ideally suited for cinematographic applications.

The focal length range of 14.5–300 mm covered by the new zoom lenses represents the most frequently used focal lengths in theatrical motion picture production, a range that often requires a combination of three or more separate zoom lenses. Canon’s new wide-angle and telephoto cinema zoom lenses, however, offer a wider angle and powerful zooming to provide complete coverage across this range with just two lenses. The new wide-angle cinema zoom lenses will offer the industry’s widest angle of view among 35 mm digital cinema lenses with a wide-angle-end focal length of 14.5 mm (as of November 3rd 2011, according to published competitive data).

Zoom, focus and iris markings are all engraved on angled surfaces for improved readability from behind the camera. With a focus rotation angle of approximately 300 degrees and a zoom rotation angle of approximately 160 degrees, the lenses facilitate precise focusing performance while making possible smooth and subtle zoom operation.

The new top-end cinema zoom lens line-up can be used with standard manual and electronic movie industry accessories, as well as matte boxes. Featuring a unified front lens diameter and uniform gear positions, the lenses do away with the need to adjust or reposition accessory gear when switching between other lenses in the series.

Single-Focal-Length Cinema Lenses for EF Mounts
CN-E24mm T1.5 L F / CN-E50mm T1.3 L F / CN-E85mm T1.3 L F

Like their wide-angle and telephoto cinema zoom lens co-stars, Canon’s new CN-E24mm T1.5 L F, CN-E50mm T1.3 L F and CN-E85mm T1.3 L F cinema lenses deliver 4K optical performance. The three lenses, designed for use with EF mounts, are compatible with not only industry-standard Super 35 mm-equivalent cameras, but also 35 mm full-frame, APS-H and APS-C sensor sizes. The trio incorporates anomalous dispersion glass and large-diameter aspherical lenses for high resolution imaging throughout the frame, and features a newly designed 11-blade aperture diaphragm for gentle, attractive blurring.

With focus and iris markings that are easily visible from behind the camera, Canon’s three new fixed-focal-length lenses support convenient film-style operation and, offering a focus rotation angle of approximately 300 degrees, facilitate precise focusing performance.

The CN-E24mm T1.5 L F, CN-E50mm T1.3 L F and CN-E85mm T1.3 L F support standard manual and electronic industry accessories and matte boxes, and have a unified front lens diameter and uniform gear positions, eliminating the need for adjustments when switching lenses.

Costs

Is there a snag? Maybe. The cheapest of the prime lenses will be over £4000/$6,300 and the zooms will cost a cool… $47,000 each. That is not a misprint. That is not even my income. But it shows you how big the stakes are in movie making gear PROPER.

The movie camcorder

Then there’s the camera to go with them – the EOS C300/C300PL interchangeable lens digital video camcorder. It may only have an 8.29 megapixel Super-35mm CMOS sensor. It’s only 1080p but it claims to read coincident or complete RGB pixels for each pixel location, using 4:2:2 sampling, and to record at 50 Mbps (almost twice the data rate of the best DSLR video). It has twin CF card slots. It has many other features including things like metadata coding for better identification of lenses in edit work, and the capacity to be controlled remotely from an iPad or iPhone (with accessory WFT-E6B wireless transmitter).

A new DSLR

Canon is developing a new-concept EOS-series digital single-lens reflex (SLR) camera. Incorporating an enhanced version of the video-capture capability offered in the current EOS-series line-up, the new camera will be ideally suited for cinematographic and other digital high-resolution production applications. The model will be equipped with a 35 mm full-frame CMOS sensor and, enabling the recording of 4K video* (at a frame rate of 24P, with Motion-JPEG compression), will make possible the type of exceptional image quality and sublime imaging expression to be expected from the next generation of “EOS Movies.”

So why have I posted this on Photoclubalpha? Easy. I was still up and around at 1am when the news had come in by email. And it matters, because Sony will react to this. Canon has just moved in on their home territory, where they were already getting a foothold through EOS-movies and existing Canon video offerings, in a much bigger way. This could be the best thing Alpha owners could see happen because it will force Sony to update their lens range quickly and to improve the overall offering their DSLR division makes to their camcorder division (via adaptors).

– DK

Image Data Converter v4 – download now

Sony’s Image Data Converter latest version – 4.0 – will handle all Alpha raw files from A100 to A77, and all NEX raw files. It offers improvements in performance and stability, but it also eliminates the need for the Lightbox application (found in v3) as a separate item. You simply browse for a folder of images, and IDC now shows a regular thumbnail browser with image information not unlike Adobe Bridge.

Double-clicking the thumb opens the image as expected in the raw editor. This has all the features of v3 are a bit more, but at least on a latest MacBook Pro with 2GB memory it seemed to crash and quit (normally after processing the file) rather too often.

One new feature, found when you save the file and not in the main processing controls, is a crop with Inclination Control and a grid:

Testing Alpha 77 raw files on the new software, the Bayer conversion seemed to be incredibly noisy and the noise reduction left fine detail heavily smeared much the same as for in-camera JPEGs, but the colour styles, DRO settings and some other aspects read from camera EXIF data are retained. It can not be recommended as a main choice for raw conversion, and certainly not for high ISO images, but it’s available and is a fairly small application to install on laptops or less powerful machines.

Download links:

Mac OSX .dmg installer

PC/Windows .exe installer

– DK

Does Canon EOS-1D X point the way?

Rhetorical question. Actually, if you read the information carefully, it’s pretty clear that the 1D X is more or less a 1D MkIV (16 megapixels,1.3X frame factor) with the sensor area increased to full frame. The pixels are actually larger than the MkIV so for any given telephoto lens, the true resolution of a sports/news/wildlife subject will be lower.

The 1D MkIV has a 27.9mm x 18.6mm sensor capturing 4896 x 3264 pixels or 175 pixels per millimetre.The 1D X has a 24 x 36mm sensor capturing 5184 x 3456 pixels or just 144 pixels per millimetre. The photon-capturing area, all other things being equal which they probably are not, is approximately 50% greater for every 1D X sensel compared to every 1D MkIV sensel.

That, if you like, can account for half of the one-stop maximum senstivity gain in the new camera; improved microlenses and filters, manufacturing and design will account for the rest. Canon, however, claims that the new Twin Digic 5+ processors are actually responsible for the noise reduction (as well as moiré reduction in video – a related function).

This is from the press info:

“Offering performance up to three times faster than standard DIGIC 5, each processor is designed to manage huge levels of image data while simultaneously reducing image noise”.

So there is no specific claim that the CMOS itself is lower noise, mostly that the Digic 5+ dual processing does this. That is something fairly new in a world which complains about raw file noise reduction. Does it matter whether the final image quality is a result of processing, or the result of a clean readout from a good signal to noise ratio CMOS?

The claim is that the X is two stops better for noise. Having used the 1D MkIV, I can confirm that this is already pretty amazing even at ISO 25,600 and perfectly usable at 6400. If Canon’s claim is correct, the X will be as good at 25,600 and then has a usable 51,200. Beyond this, 102k and 204k EI – the highest ISO equivalent ever in a DSLR – could be usable for extreme conditions in news, military, surveillance. It’s hard to think why else you would be shooting in the dark.

The processors also allow continuous (no limit) 14-bit raw shooting using twin UDMA CF card slots, at 12fps. There’s a huge gulf between the 11 to 18 shot bursts which the Alpha 77 can handle, and never slowing down at all. By swtiching to JPEG, the capture speed can be increased to 14fps and again it never slows down.

The camera itself is very much a 1D but with improvements to the ergonomics and interface which are long overdue. Canon has stuck with a 1990s design because familiarity from generation to generation has been a key point when persuading professionals to buy the new models. Most pros don’t want to see a single button moved a single millimetre, or any change in the way the camera responds. News agencies have actually hired tech support companies to sit down with batches of new cameras and spend an hour making sure all the deeply-hidden custom settings match those on the outgoing gear.

Here’s what Canon says about the X: “The menu system also features a comprehensively redesigned user interface, incorporating Help functions to make camera operation faster, clearer and easier. Additionally, a new dedicated AF tab allows photographers to access and customise AF pre-sets for common shooting situations or subjects, allowing users to concentrate on capturing the moment without the need to constantly adjust camera settings.”

About time too! I have almost been lynched by Canon and Nikon owners alike for taking a new camera out of the box, setting it to P, and shooting everyday scenes only to find half my intended subjects out of focus. But then, I’m testing the camera, not my own ability to configure it. This has been a major problem for all advanced AF models with complex sensors (the X has a 61-point wide AF sensor with 41 cross-type, 5 double-cross and an integrated 100,000 pixel RGB metering sensor which links to AF also provides face and horizon/vertical line detection). Sony does seem to have avoided issues by keeping the A77 AF fairly simple. Anyone who has used a Canon 7D with the wrong focus behaviour set, and seen their chosen subject suddenly zap out of focus just before pressing the shutter, will know that responsiveness and auto selection of focus points can lose pictures.

So I for one am happy to see that Canon has addressed an issue often denied and brought some key AF behaviour control up front instead of buried in obscure custom settings.

Are Canon owners really gearheads? Maybe not. Canon also announced they just passed the 50 million EOS cameras mark, and the 70 million EOS lenses, the same time as the 1D X launch. That’s just 1.4 lenses for each Canon EOS body. Sigma must be doing well. But, as upgrading Alpha owners know well enough, body-only sales are very common these days. And Canon lenses just keep going the same way those old Minolta lenses do. There will be plenty of 1980s glass still in use on this 2011 camera.

Back to the rhetorical question – yes and no. Sony has never had a 1.3X sensor size, so could not do something like apparently increasing the pixel count while actually lowering the resolution (and thus the telephoto true reach). All Sony could do would be to backtrack from 24 megapixels towards 16, on either full frame or APS-C – or keep full frame at 24, and transform the performance and speed of the 9xx series.

For those who feel a bit peeved than Canon’s $7000 camera has just stolen the high-speed crown from Sony’s $1300 Alpha by offering 12fps and a boosted 14fps, just remember that with 255 pixels per millimetre the Alpha 77 captures subjects at a 77% higher magnification (100% pixel view) than the new 1D X and that means your humble A77 user with a 70-400mm SSM G is punching at the same weight as a 1D X user with a 125-700mm zoom.

And that 14fps is achieved with the mirror locked up and the focus and exposure locked on the first frame – strictly a tripod job or one for a steady hand, with no ability to see the subject once the shutter is pressed. And, even though the Canon offers sixteen times the senstivity for low light shootings, the Alpha can actually meter the light in conditions four times darker than the Canon at EV-2 rather than EV0.

These cameras are not competing, obviously, so my comments are not to be taken seriously. It’s just interesting to see how high end consumer SLT technology and specifications compare to fifth-generation heavy duty professional SLR.

– David Kilpatrick

Sony Alpha 77 review – tomorrow today

It must be two years ago, at least, that an Australian sports photographer confided he had seen a Sony prototype which would blow away everything – an Alpha which could shoot at incredible frame rates (he mentioned 15fps) and follow focus. It may have been something unlike the Alpha 77, which follows focus 12fps with locked preset exposure, or in any appropriate exposure mode at 8fps. Or it may have been an early experiment. Whatever it was, the 77 is close to this rumoured prototype .

The Alpha 77 is a successor to the Alpha 700. Here is beside my old and well-worn 700.

The viewfinder

The Alpha 77 is a camera that points the way for future development, whether of DSLT (Sony ‘Translucent’ mirror technology) or entirely mirrorless SLR-mount bodies. It’s the OLED viewfinder with 2.4 megapixels of self-illuminating RGB which changes the game. It makes the transition from optical to electronic viewfinders likely for everything except a limited choice of professional optical viewfinder DSLRs. EVFs will not be unique to Sony and it will continue to develop in resolution, colour fidelity and refresh rate.

But this type of viewfinder has a specific limitation. Unlike earlier EVFs, the Sony OLED has a threshold below which it simply turns the pixel illumination off entirely. To save battery power, this is set to a relatively high black level and clips the three-quarter tones straight to d-Max. All EVFs are slightly unsatisfactory to the human eye because there’s no real shadow detail to see if you switch your glance away from well-illuminated parts of the view. The new OLED has dead black shadows and it doesn’t matter how much your brighten it, the cutoff is based on exposure level in the image.

If you own an A55/33/35 then the new finder is so far removed it might as well be an entirely different era, not just a generation. The area surrounding the huge visual image is dead black, not milky and luminescent like the A55. The shooting information is set neatly outside the image, not overlaid at the edge overlapping picture detail. The colours are bright and the information text, though smaller to the eye, is crisper and far more legible.

One comment (added after this was first published) – the A55/33/35 may be considered better in very low light. In good light, the OLED/24 megapixel combination is excellent. In low light, it shows noise until focus and exposure are confirmed by shutter pressure, at which point the view clarifies and the noise reduces. In near darkness, its shows very strong noise, mainly red, which largely obscures any visible detail. In conditions where exposure was 15 seconds at f/2.8, ISO 100, using the A55 and A77 side by side the A55 was better. It looked grey and flat, but surprisingly detailed and bright into shadows which were too dark to penetrate by eye. The A77 gave a contrasty screen or finder image with little useful detail, nothing in the shadows, and very strong noise. Clearly the CMOS sensors are responsible for whatever level of detail is visible, and the A55 sensor seems to me have a couple of stops more lift to tones on the threshold of its sensitivity. The EVF types differ in the A55 showing more shadow detail with lower contrast, and lower colour saturation so the noise does not look bad. Bottom line, the A55 is half way to night vision; the A77 is like turning on an old UHF analogue colour TV, no signal, just noise.

There will be users who complain that having vital information just above and below the image area means they don’t see it because of their specs. But the A77 has the best eyepoint and visibility for this info of any model to date. All I can say is that if you ensure you are using the EVF correctly, you will always be in touch with what the camera is doing.

This shows a ‘busy’ finder display – in fact, everything overlaid on the photo here can be turned off leaving just the active focus point (a single one, if you use centre spot focus) and the neat information bars above and below the image area. The rest of the field is dead black too, not milky grey like the Alpha 55, and the contrast is high. This image is dropped in and has no connection to the information displayed!

The result is a very graphic view of your composition. Despite the impressive size of the apparent viewfinder image, it is not as large visually as the Alpha 900. The A700 for example is 95% field at 0.90X of a 1.5X sensor coverage, a viewfinder ‘size index’ of 0.57X (0.95X0.9/1.5). The A900 is 100% of full frame at 0.74X, index 0.74X. The A77 is 100% of 1.5X format at 1.09X, index 0.726X. It’s therefore closer to the A900 than the A700.

The A77 eyepiece glass is much closer to the eye than the A55 or previous SLR models, and the upper positioned eye-sensor turns the finder on and off with precision saving power but causing no delays.

But has Sony got the figures right? The A55 claims to be 1.1X and 100% view. Each camera has a different eyepoint – 27mm for the A77 compared to a mere 19mm for the A55 – but this should not be allowed to influence the stated apparent magnification. Placing one camera to each eye, the A77 has an almost 20% larger apparent viewfinder field (linear) than the A55 and about 30% larger than the A700. It is just a fraction smaller than the A900 as the calculations indicate.

It looks to me as if the A55/35 manual misrepresents the EVF size in that camera, it very clearly is not larger than the A77. Perhaps they include the dead space not used for the image but for data. In the A77, the data display is tight and efficient and it can show everything you ever want including the ISO in use when you select Auto ISO.

All the other figures agree. It also makes the A77 finder view an almost perfect match for Nikon’s full frame DSLRs, which have a slightly smaller apparent screen size than the A900.

The less-shadow-detailed aspect of EVF works for composition much the same way early Leica viewfinders did. The scene is simplified, and this tends to concentrate the eye on impact and simple compositions. Using the A900 alongside the A77, I was struck by the way the A900 puts you in touch with texture, colour, subtle light, and fine details. The A77 reduces the world to simpler tones and connects you to shapes, composition and impact.

As for flicker, shearing when panning, clarity of focused detail – well, these are all limitations, but much reduced in this new finder. What is not so limiting as the A55 or the earlier NEX models is the speed of startup from sleep. The A77 finder really does go to sleep (the A55 is very good at failing to switch off) and wakes up so rapidly, as your eye approaches the finder, you don’t miss the shot. Combined with the mere 1/20th second shutter lag, this SLT gets back to the responsiveness of classic non-AF SLRs.

You can cycle through these displays or choose to skip one or more when pressing the Display button (there’s a menu item to configure exactly what information each press shows you, with separate settings for the EVF and the rear screen). These diagrams from the manual do not represent the finder very well. Our colour version, using a finder overlay file supplied by Sony, gives an accurate view of what looking through an A77 finder is like.

Here I am, I’ve written stacks about the viewfinder and not even begun to describe it fully. Tell you what – go and find one, try it. I can’t photograph it adequately (I have tried) and it would be exhaustive to go through the deep menu settings of the A77 which let you decide for example how many different information-display setups you scroll through when you press the Display button. Don’t want EVER to see the horizon level guage? Then set the camera to skip it. Hate the graphic display of f-number and shutter speed scales against each other? Deselect that too.

 

From the Alpha 77 Karma Sutra – left, position for portrait photography; right, position for those who like to video themselves and still look as if they are in eye contact with the viewer.

And then there’s the rear screen. It has a double hinge and rotate action, of which more later. It is a top grade screen, 3 inches and nearly a megapixel. If you plug an HDMI monitor in to the camera, that will take over providing a better solution for studio or video previewing. Even a 20 inch or larger HDTV set looks sharp when fed from the Alpha 77.

The menus of the A77 require the attention to website presentation detail best reserved for the galley-slaves* of dPreview. Trust me, if there’s anything which can be set on any other Alpha, it’s probably settable on the 77 or not there at all. I’m sad to see that I can only control my auto ISO range minimum between 100 and 12800, and my maximum between… 100 and 12800! Of course this is great. I can have auto ISO over any possible sensible range but not ISO 50.

*Queried on dPreview forums – I’m an ex-newspaperman. Galleys are proofs of type (or the metal itself) and if you’ve ever worked on the TV listings or the Sports pages, you’ll know what it means to be a galley-slave in editorial terms – form before function, and function before fun! Well, I can have fun. I do not have to reproduce every single screen and menu because there’s no big boss saying that’s how it is done! It’s great work that dPreview undertake. But as someone else has already done it, I prefer to spend my energy doing the stuff they haven’t done. Then you can read both.

ISO 50? What use is that, with less dynamic range than 100?* It’s a great deal of use. In my studio with powerful flash – which this camera can cope with perfectly, having a setting to over-ride exposure simulation in the EVF/screen and do auto gain for modelling lights – it gives me an extra stop instead of being forced to work at a setting like f/13 or get overexposure. Outdoors in bright light it combines with the 1/8,000th top shutter speed to remove the need for a 4X ND filter to get superwide apertures, but due to reduced dynamic range, it’ll still clip whatever highlight would have been clipped with an overexposed ISO 100 shot. In the studio I can control my contrast to use it well.

*This is Sony’s own statement in the manual, page 139: “The recordable range of the brightness of a subject (dynamic range) is slightly narrower for areas where ISO is less than 100.”. DxO Labs tests actually say that colour depth, tone depth, dynamic range and signal to noise ratio are all at their best if you set ISO 50, but they also show that ISO 50 is really ISO 63 overexposed a bit and ISO 100 is really ISO 80 underexposed a bit. Where that leaves the intermediate 64 and 80 settings on the camera we can only guess.

As well as all the info in the finder and on the back LCD, you get this top plate LCD which means you can close the back one. Even when the camera is asleep (power save mode) the sensor must still be receiving and handling the image, as the exposure display will change when you move the camera around. I’d guess this is a low power mode which also enables the system to continue to monitor exposure between frames during sequence shooting.

At first I did not fall in love with the Alpha 77 – when my purchased firmware 1.02 version body locked up on me in front of one Canon and one Nikon user I was just a little angry with it. It could have done this somewhere quiet, on its own, without spectators. Even now with firmware 1.03 I am not sure it won’t repeat the cataleptic fit, but it shows no signs of doing so. See my section on the Movie mode later on, though…

The SLT mirror and ghosting

I’ve tested the Alpha 77 in the most demanding lighting conditions. Sony says the SLT mirror (a very thin film of plastic stretched on a frame) has new mirror and antireflection coatings. They have also paid extra attention to the design of the AF module and the interior of the darkchamber, to avoid reflections.

Though some colour fringes on the bright water definitely hit this 16-80mm CZ shot (along with a colour bokeh issue making those in the foreground magenta and those to the rear greenish) there was no hint of any ghosts or flare in dozens of shots taken in conditions like this.

This light is extreme, and the patches of sun and reflection are placed exactly where the Alpha 55 tended to produce flare. The Alpha 77 shows no sign of it, and has not in any of our photographs so far.

As far as loss of sharpness goes, I do not believe there is any more significant sharpness loss from the SLT pellicle than there is from, for example, the rear filter permanently fitted into a 300mm f/2.8 Apo G tele. Both are between the lens and the sensor and both are plane clear optical elements. If anything the glass thickness and distinct double air to glass surfaces of a rear mounted filter make it far more likely to degrade an image than the SLT. Almost any filter you fit in front of the lens is going to have a greater effect (unless you spend a stack of money, a really bad effect on 24 megapixels – we’ve replaced our older Minolta, pre-digital Hoya and other filters with the latest Sigma EX DG after testing them).

This is just a routine test I ran at all ISO settings to check colour and tonal response. Not noise. I already knew before doing this that the noise thing was a non-issue for the simple reason that this sensor beats anything else out there; I’ll start pixel-peeping for noise when another maker comes along and shows they can do this pixel density better. The colour is also very consistent indeed across the ISO range and the feathers in the mask retain the expected detail up to ISO 3200.

This picture was taken using a setting I quickly discovered is just perfect for news, PR, presentations and images needed quickly from events – the Small JPEG in camera, with DRO enabled, at ISO 3200. Sampling down to one quarter of the file size (still large enough for an A4 print) creates a dead sharp, low noise image. Photographers do some good, occasionally – this is a cheque for £3000 being presented to DJ Dave Lee Travis for the PACE Centre charity, by the Master Photographers Association. Their annual dinner happened just a week after I got my Alpha 77. I was confident enough to risk taking all my press and PR shots on the new camera.

And this is a 100% pixel level view of that shot without any post processing.

Input and feedback

Then again, having to set up the camera and realising the full extent of the customisation possible through the Menu and Fn buttons, I felt depressed. This was almost like handling a Canon 7D – one of those cameras where, if someone passes it to you, you can never be sure if it has been configured only for photographing flocks of ibis flying behind bare poplar trees. Would its 19 AF points and 11 cross type sensors do the 7D trick of locking on to a sweet wrapper someone dropped on the lawn instead of the wedding group a yard further away?

Well, yes. The A77 can do that sort of wrong stuff if left on wide area focus – but it doesn’t light up the wrong AF points in the finder to fool you, and it does not require programming of AF preferences to avoid proximity or response speed errors (both Canon and Nikon pro models can disappoint if used ‘out of the box’, and need their defaults changing depending on your typical photo situations). Instead, if provides very accurate feedback about which sensors are being used. And it has Face Detection which really works, because this is a live view camera 100%. I have never liked Face Detection much until the SLT EVF generation arrived. Even then, not much.

Face detection kept the focus on photographer Paul Cooper (right) accepting the president’s ribbon of the MPA from Henk van Kooten (left) despite Henk’s focus-target jacket moving into the foreground of the AF zones. Taken by stage lights at ISO 3200

I had to take a few shots where a person receiving a presentation was facing the camera, and the presenter often stepped into shot with back of head to the lens. With Face Detection on, the A77 never once switched focus to the nearer person, and always stayed locked on to the subject facing me. This is a situation where the above-mentioned makes, if allowed to use wide area or multi point AF, tend to shift focus to the foreground intruder because as conventional DSLRs they don’t have Face Detection in optical viewfinder mode.

The auto exposure of the A77 seems to be more closely linked to active AF points than any previous model. It may have 1,200 metering zones on the CMOS sensor but it will bias strongly towards correct exposure at the point or points of focus, especially if the central point coincides with a very bright are. I do not mean it is literally spot metering. I mean that, for example, in my office with medium lighting and a very bright computer screen if the camera is aimed at the screen the exposure in matrix mode, with centre spot focus, becomes correct for the screen and the rest dark. When the screen is moved away from the centre zone, exposure increases by two stops even though the overall image contains about the same brightness.

What I’m seeing may not be the same sort of meter-linking-to-AF that is found in the Canon EOS 400D, as an example. This will give you over or under exposure if the focus point hits a dark or light area. The A77 biases towards avoiding overexposure. A dark subject at the central focus point does not seem to brighten the image the same way a very light subject, like a screen, darkens it.

This is not like separate metering cell TTL, the classic Minolta honeycomb. It isn’t even like a camera with centre weighted or spot optically fed meter cells. Every point on the sensor is a spot meter even though you can only ‘spot meter’ from the centre. Every point is equally sensitive down to EV–2 (ISO 100 with f/1.4 lens) and up to EV17. It is four times more sensitive as a matrix/centre-weighted meter than the Alpha 900 and a staggering 16 times more sensitive than A900 spot metering mode. It also has +5 to -5 EV exposure compensation compared to the A700’s+/-3EV (A900 – 3EV, expanded to 5EV by later firmware, but the 700 was never improved – see comments, originally I referred to A900 as 3EV either way, as that’s in the manual). And whatever things the SLT mirror does, it seems to feed the new AF module plenty of light – it’s able to focus in conditions half as bright as the A900. Added comment: the A77 metering is four times as sensitive as the new Canon D1 X, so although that camera has amazing sensitivity up to ISO 204,800 the A77 will actually meter exposure in lower light.

So, after a couple of weeks, I began to realise that the A77 was giving an even lower failure-rate than the A55. I had learned which settings to prefer – three zone focus for example is far better than old-style wide area and almost makes single centre spot focus redundant. I was finding that exposure is generous but never highlight-clipped, because it’s read from the actual imaging sensor; you can trust the simulation given by the EVF, too, and adust the +/- over-ride with confidence.

The camera stopped being complex and started to suit my declining mental powers. Life is a curve. You start just learning to set shutter, aperture and focus. In your prime, you want to set twenty different things for every shot and switch from P to A to S to M with C or S or A and -2 sharpness and ten stop HDR then portrait look for the next one. Ultimately as the brain cells sneak off for a nap you find good old shutter speed, aperture and focus do you just fine.

If you need reminding in big print, let the rear LCD see the light of day, and you get this big clear information pane on demand.

Now some cameras have fooled me, there are no dials and they just hid this stuff from me so I’d end up with bad things like the optically soft set of landscape pix I shot at 1/2000th and f/5.6 (wide open) on the NEX-5 last month. But the Alpha 77 with its top plate LCD info display, its ‘come to life’ burst of finder shooting information when you take first shutter pressure and confirm focus – well, it is constantly reminding me what I am doing. I know other cameras and other Alphas have finder displays, even the NEX was probably telling my longsighted eyes what it was up to, but the Alpha 77 presents working information better than any camera I’ve used. It is simply a very clear and well designed display both in-camera and on the rear screen.

If you enable image review, the SLT cameras slow down. I fold the rear screen to face the camera back. I have turned off image review. I shoot with confidence just as I would once have done on film and sometimes I do not check a single image until I’ve copied the card contents to my computer.

Button pushing

The Alpha 77 has loads of buttons despite Sony’s one-time insistence that they planned to have fewer mechanical components in future. There are nine push buttons, one rocker button and one control wheel on the back of the camera alone; five push buttons, one collar switch, one shutter and control wheel on the RH top. Then there’s the stray stop-down button, the lens change release and the AF-mode switch living round the mount.

Rear screen folded away and protected – that’s how I use the camera all the time. Plenty of buttons to push – and you can have fun swapping their functions round to confuse your friends!

Several of these buttons can have their functions modified so they no longer do what it says on the silkscreened white or blue print (white for shooting mode, blue for playback). If you are particularly odd you can even swap round functions and confuse people who borrow your camera (shades of Canon!). If you are relatively normal you can leave this well alone. You may customise the stop-down preview button to show the final picture effect instead (stop-down plus picture style and shutter speed result) and through the menus you can change the behaviour of lens-resident Focus Hold. The instruction manual omits to mention these are on the lens, and not on all lenses – some owners have spent ages looking for the Focus Hold button which does not exist on the camera.

What’s most odd about the A77 is that three of the main dedicated-function buttons are completely interchangeable. ISO (next to the shutter) AEL and AF/MF (under your thumb) can all be changed to do anything from the following long list of functions:

AEL Hold*
AEL Toggle*
Spot Meter with AEL Hold*
Spot Meter with AEL Toggle*
AF/MF Control Hold*
AF/MF Control Toggle*
Object Tracking
AF Lock*
Aperture Preview (stop down)*
Shot Result Preview (final picture simulation)*
Smart Teleconverter*
Focus Magnifier*
Memory
Exposure Compensation*
Drive Mode*
Flash Mode
AF Area
Face Detection
Smile Shutter
ISO*
Metering Mode
Flash Compensation
White Balance*
DRO/Auto HDR
Creative Style
Picture Effect
Image Size
Quality

*The entries I’ve marked with an asterisk already have their own dedicated buttons for which these are normal function choices (AEL button, for example, covers all the first four but can only do one function, preset in menus).

There is one button you may want to modify if you own lenses with a Focus Hold button. The AF/MF button, by default, performs this function with most lenses (it switches to MF when pressed, the same effect as holding focus). So it’s almost a spare button, given that there’s also an AF/MF switch on SSM/SAM lenses and a body AF/MF/S/A/C switch too. Since it sits right next to the AEL button and closest to the rear control wheel, it a natural choice for any function you might want to use in a hurry.

You can not change the function of the Finder/LCD manual switch button, the Drive Mode, the White Balance or the Exposure Override. You can switch the Preview and Smart Teleconverter buttons between two functions each only. The Fn button accesses all the parameters you can’t reach directly through any custom button (like setting the Auto ISO range) and most that you can (like Face Detection). Its full function list is:

Memory Recall (only present when mode dial set to MR)
Scene Selection (only present when mode dial set to SCN)
Movie (only present when mode dial set to Movie)
Drive Mode
Flash Mode
AF Area
Object Tracking
Face Detection
Smile Shutter
ISO and ISO Auto setup
Metering Mode
Flash Compensation
White Balance
DRO/Auto HDR
Creative Style
Picture Effect (only active for JPEG-only shooting)

The Display button can not be customised and only serves to cycle through Display setups – but you can customise those, and thus what the button does for you (above, Menu to set which finder display states you wish to cycle through, ticked). The Help (?) button can also not be customised, which if you don’t want potted hints and tips makes it redundant in shooting mode, though it serves as the Trash button when reviewing images. The Playback also can’t be customised, nor can the Menu button (which can return to Last Used or Top by setting a preference), nor the top LCD illuminator button. This one is interesting because it toggles – the panel light remains on until the camera goes to sleep, or it’s pressed again to turn off.

In use, I found there was one button missing which would make a huge difference to this camera. The 12fps ultra high speed shooting mode is only accessible through the mode dial. Because of the way the camera handles bursts of frames and buffering, it would be useful to be able to shoot normally in any mode (single frame, or other continuous speed) and switch to 12fps by holding down or toggling a button (preferably holding down, say, the AF/MF lock reassigned for this purpose).

Here’s a neat touch – as long as you have a lens with no MF/AF switch on it, you can set M focus on the body selector, and pressing the AF/MF button will do autofocus for you, letting it go will lock the focus back to manual. That’s another reason to like my 16-80mm CZ on the A77 – ideal for studio products or architecture, or indeed for landscape. It does not work with the 18-55mm SAM. There is in fact a bit of an overall mess with SAM, SSM, and standard lens focus types including the assignable DMF (direct manual focus) to the AF-A mode. There are some lenses where you are warned never to use body MF setting always only to use the lens switch. What you will find is that some menu items are greyed out, and some buttons don’t work, if a mismatched combination is set.

Lens compatibility

The new 16-50mm f/2.8 is enabled for in-camera lens corrections

This leads to the general question of lenses and the A77 generation. It seems there’s some additional information chipped into some but not all lenses which enables the Lens Correction function (Vignetting, Chromatic Aberration and Distortion) for in-camera JPEGs. Raw files are unaffected, and I don’t know if this information is used to enable better panoramas but that would be a practical fringe benefit. But since the 18-55mm SAM, 55-200mm mk2 SAM, and 18-250mm (an old design relatively) are in the release firmware along with the 16-50mm SSM maybe there’s no info in the lenses themselves, and future firmware will add more.

The oddest incompatibility is the manual’s statement that Front Curtain Shutter should not be set on ON for ‘Konica Minolta’ lenses (added note – see Comments at the end of this article, some discussion of this). First of all, the description of Front Curtain Shutter is misleading. When this is set to ON, it means NO front curtain shutter – electronic gating instead. When it is off, you are using the physical Front Curtain, the blades uncover the sensor to start the exposure. The manual does make it clear that by Front Curtain Shutter Sony means No Front Curtain Shutter.

But what is a Konica Minolta lens? There are very few, nearly all were made by Tamron. Konica Minolta never even got round to rebranding the Apo G lenses, they just changed the box and the lens cap and left Minolta as the name on the lens. I have a 28-75mm Konica Minolta, a 17-35mm Konica Minolta and at one point I had an 18-200mm, and of course, the kit 18-70mm and various horrible full frame plastic lenses like the 28-100mm. I think there are 75-300mms in KM guise.

Everything else prior to Sony was Minolta because KM simply never made any, or if they did, it amounted to no more than a box label change. To confuse things, some of these Konica Minolta like the 18-70mm, 18-200mm and 75-300mm became Sony lenses without a single substantial change. And many Minolta lenses became Sony lenses while retaining a heritage right back to pre-D days or the origins of the AF system itself. The 28mm f/2.8 is the most obvious example, the 50mm f/1.4 another.

Why would an electronic front curtain produce overexposure or inconsistent exposure only with Konica Minolta lenses? Given the very fast response time (1/20th of a second) and high speed of the system (1/250th flash sync, 1/8,000th shutter) the only thing I can think of would be the speed of aperture closing action. It is also something which would be invisible in revised lenses; maybe the Sony 18-70mm kit lens actually has aperture blades which close 50 milliseconds sooner than the KM equivalent.

This would also mean earlier Minolta lenses, not just KM, might produce overexposure (aperture still not fully closed when exposure commences) or uneven exposure (aperture continues to close down during part of the electronic progressive gate-opening). The same would apply to many third party lenses.

I’m pretty sure this is why the warning is made, and that singling out Konica Minolta lenses is an error. Any one individual lens may have sluggish diaphragm, indeed a common cause of overexposure in all A-mount lenses is incomplete stop-down. So the advice should be don’t use ‘Front Curtain Shutter’ set to ON with anything except Sony A-mount lenses – or test your independent lens before use.

A warning about not setting Micro AF adjustment with third party lenses is given, as usual. This is because the makers borrow lens identity codes. The Sigma 12-24mm f/4.5-5.6 Mk1 has the same code as the Minolta/KM 28-80mm kit lens. This issue will also affect the behaviour of the Auto Lens Correction register, which in our body does not have any effect on the CZ 16-80mm for example but does correct the new 16-50mm. I would guess ‘correctable’ lenses have extra information, older and third party lens won’t. So don’t bank on this function fixing JPEGs from your ‘heritage’ of early Sony glass!

Sigma has issued a list of lenses which are known to have AF problems with the Alpha 77/65, and will upgrade them free of charge. You can read the list here: http://www.sigma-photo.co.jp/english/news/info_111014.htm. It includes the 18-250mm HSM OS, which we have. Ours does not seem to have any issues at all on our A77 with firmware 1.03. I’ve also tested the 8-16mm and 100-300mm OS, 70mm macro and 70-200mm f/2.8 HSM Macro MkII. These are not in the warning list and all seem to work well, even though they do not work reliably with the Alpha 55.

The A77 has Fast/Slow AF options and I’ve used Fast. The accuracy of the AF is much better than any previous Alpha model.

Autofocus and exposure

The 19-sensor, 11-cross AF module is not most densely populated – the A900 has 10 extra hidden ‘tracking assist’ line sensors bringing it up the same total (they are there, they just don’t have screen markings) and its central double cross sensor is technically the best type around. But having eleven cross sensors does more good in practice.

AF has a new mode, Zone. This creates three groups of sensors left centre and right which act like mini wide zones. Wide Area focus can, of course, locate widely spaced details which are concurrently in focus. Zone identifies the zone with the most focused points, then works within this area. It can use information about the change in confirmed focus within one zone to help track the subject into the next zone. It also gets the exposure right more of the time.

Because the sensor is feeding image data to an analysing computer, Face Recognition and Object Tracking can be linked to the AF. There must be some theoretical speed penalty – something must be slowed down by microseconds if you enable these functions. I can’t detect it. The only slowdown is the time you take to press the central controller button to register an subject for tracking. Smile Shutter is also possible. My subjects normally scowl so I don’t use this.

The focus point – here, centre focus spot aimed first at the family and then held using the shutter release to recompose the scene – helps determine exposure. The 1200-zone metering has correctly placed the baby’s white clothes in the value range 250 to 254 RGB.

The most reliable and accurate focusing method remains central single spot focus, or local selectable single spot. Now that all of these are cross-type, there is no compulsion to stick with the centre and recompose, but it’s a habit hard to lose. I have already observed that the metering in spot mode is 16 times more sensitive than spot metering in the 900, and I would guess that when the system biases matrix metering values to the centre focus point, there’s a related gain if not that much. There is a proper near-IR AF illuminator in the camera body – Minolta tradition lives on! Without flash, it really is possble to focus in the dark and the EVF does a very grainy but usable job as a night vision viewer too. The illuminator also enables focusing on plain surfaces as it projects a pattern.

The SLT mirror of the 77 diverts 30% of light to the AF module, but this is actually more than the old semisilvered patch and double mirror system used to let through in SLRs. The AF sensor itself may not be any more sensitive, it’s simply getting a much better image feed. This 30%, by the way, means the light reaching the sensor is reduced not by the 1/3rd to 1/2 a stop sometimes mentioned, but by .6 of a stop or nearly 2/3rds of a stop. 50% would be one stop. (See comments at the end of the article for some more precise figures on the mirror split provided by Dr Daniel Oi).

My experience so far with the camera indicates that exposure is very reliable over the entire EV range. I simply leave it on the matrix multi-zone setting. The EVF warns me if it’s going to bias too much to the focus point.

High speed shooting

This brings me to the aspect of high speed sequences. No cameras in this class has ever achieved 12fps, let alone at 24 megapixels. In theory you get 13 raw or 11 RAW+JPEG frames before the camera slows down, and it looks as if the buffer must hold about 320MB. The camera does not have a dual processor like the Alpha 900, and it does not benefit from the robust performance of fast CF cards.

Autofocus is provided in Hi drive mode, along with AE (8fps, accessed via the Drive function button, in any shooting mode). Using this shooting speed you have full control.

In Speed Priority AE mode (the 12fps setting on the mode dial) the focus is locked before frame 1 if you have the camera set to Single (S) AF, but in exchange for this, you can set both the ISO and the aperture. You can also set these if you use Manual focus.

If you set the focus mode to C (Continuous) then both AE and AF continue during shooting. You can set the ISO, but not the aperture, so the ISO is your only way control the shutter speed. Added note: the Canon 1D X has now bettered this record high speed shooting by providing 14fps. This mode in the Canon locks both AE and Focus with the first frame, locks the mirror up, and you must use Live View on the rear screen to compose the shot. For focus tracking with viewfinder, the 1D X is limited to 12fps.

12fps is very impressive. It makes a huge difference in action work. I often test sequence shooting on the local races, and I quickly found that even tracking a horse (necessary to keep it in the frame at all for more than one shot at 3fps) certain frame rates just produced two stages in its stride, repeated. The horse was galloping at 2.5 clops per second and I was shooting at 5fps. With 7fps it gets better, 8fps or 10fps still better and with 12 fps you reach the point where four different positions of the legs are recorded.

Also, it becomes possible to aim the camera at a fixed spot like a hurdle, and fire, capturing several positions of the horse before it leaves the field of view. It is not as necessary to pan with the subject every time to get more than one shot.

Animation of three hand-held frames, cropped from a Sigma 70-200mm shot taken at 70mm, showing how 12fps captures very fast action in relatively small steps. At 5fps, the second frame would have the horse leaving the right-hand edge.

In practice, you certainly get your 13 raw or 11 R+J shots at 12fps or the slower AF-capable Hi 8fps setting – or indeed at the slower 3fps rate. But you don’t get anything like the same continuous shooting capability as past models even if you knock the JPEG size right down. You’ll get around 18 Normal Small JPEGs (6 megapixels, lowest quality) at 10 to 12fps before the rate slows down to an erratic 3fps with occasional half to one second pauses. For raw files, after your 13-ish burst is up, you may get between 0.5 and 1 frame per second with occasional one to two second pauses. With an average SD card (20MB/s write) you will wait 15-20 seconds after the last shot before being able to shoot fast bursts again.

Here’s another sequence, this time as stills without the annoying animation you can’t turn off 🙂

And here, below, is a 100% crop from the original ISO 800 raw file processed using Adobe Camera Raw 6.5 (Sharpness 50, Radius 0.5, Detail 0, Masking 0; Luminance NR 25, Luminance Detail 50, same from Chroma NR)

Sharpness? The 12fps C-AF setting forced the Sigma 70-200mm to be at f/3.5, two thirds of a stop down from full aperture, but also gave a shutter speed of 1/6400th. I could have perhaps picked another detail with slightly more punch, and looking at all the shots, my prefocused point was actually about 1 metre behind the horse (if the AF refocused during this sequence, I can’t see any evidence in the images). The 8fps or Single-Shot AF 12fps settings allow control of aperture, and I know that f/5.6 would have cleaned up. Just remember you are looking at a section of an image something between 6ft and 8ft wide, it’s very easy to view a tiny clip like this as if it was just another digital image.

I tried one technique, shoot 2, 3, 4, 6 frames with brief pauses – as if catching different moments of an event, in bursts. Even though I spread the 10fps bursts over a ten second interval, by the time I had totalled 20 raw frames I was down to the single shot per second or worse situation.

To follow up, I shot a burst then allowed the buffer to write for about 8 seconds before firing again. I got seven frames at 12fps, which fits in with the card in use taking about 15 seconds to finish writing from a 13-frame burst.

For one of the horse racing tests, I shot one burst of frames and as the camera slowed down, two horses fell and two jockeys were injured, one requiring a stretcher. I was unable to get ANY pictures of the incident as it happened, and by the time the Alpha 77 was able to shoot again, the ambulance crew was on the track. Each race gave me just two chances to shoot a burst so I’m afraid that testing every single setting combination on the camera was not possible.

Panorama speed mystery

There’s something I don’t understand about the raw, file and buffer handling of the Alpha 77. Shooting panoramas – which have to start with exactly the same frame by frame 24 megapixel data readout – I counted 42 frames apparently firing at something close to the 12fps maximum, then creating a panoramic JPEG, and the finished 6.7MB JPEG file was written to card and the buffer cleared before I had time to see if the light was still on.

What exactly is happening here? How could the processor and the buffer somehow handle the throughput of the wide panorama with at least double the number of continuous burst frames I could get with even the smallest JPEG – and then do all the computing to assemble the panorama and write it to card, leaving me ready to shoot immediately?

I ask this because when shooting panoramas with the Alpha 55, my 15MB/s SanDisk Ultra II SD card failed – it was not fast enough, could not handle the data and became corrupted. Clearly panorama shooting is data intensive one way or another. But in the Alpha 77 it appears to be allocated buffer and processing power which is denied to more useful motordrive sequence shooting.

Movie shooting does not enjoy the same fast buffer clearing. Shoot any higher quality movie beyond a mere blip on the button, and you can’t fire a still frame for some seconds. With some HD-movie systems, you actually shot a still frame during the movie and lose nothing except a couple of movie frames; with others, you can end the movie by pressing the shutter and capturing a still. In yet other makes, you can shoot a still but lose two seconds during the movie. All these solutions are valuable when still shots could be important. The A77 movie function does not permit any such choice and may block all shooting by occupying the buffer to card writing process for many seconds.

And, in reverse, you can not initiate a movie while the card write light is on. I tried this with one of my horse race test subjects. I decided I would shoot the front runners going over a hurdle, get my 12fps burst, then do a few seconds of movie of the stragglers who reach the spot a few seconds later. Although I could have shot further (faltering) still frames, movie shooting was blocked out with a warning message telling me ‘Writing to Memory Card – Unable to Operate’. When raw shooting was set, this lasted many seconds, but interestingly with the small JPEG option only two or three seconds were blocked out.

After my tests of the high speed shooting functions, I conclude that to cover some sports events well you would need a pair of Alpha 77s, or the 77 and some other camera – and you would need to keep a close eye on the card writing light. As a result of the performance with my SD cards giving write speeds around 20-30MB/s I ordered a SanDisk 45MB/s Extreme Pro, and plan to get a 95MB/s card when they are available.

Added after receiving the SanDisk Extreme Pro 16GB 45MB/s card: burst shooting is not extended, using raw it varies from capturing 10 to 12 raw frames at maximum rate, sometimes with a single frame jumped (two groups of 5-6 frames) which never happens with my ordinary Transcend 20MB/s card. Buffer to card writing is reduced to around 10 seconds from around 20, but at least with this extra card speed, there is no way to extend the approximate 1 second unbroken raw shooting burst.

The Alpha 65 and 77 are the only DSLR/T cameras so far made which use the USH-1 SDXC specifiction to allow writing data at this kind of rate. They are ahead of the card game. But they need to have this capability. Anyone expecting to make full use of the high speed drive functions and best video quality of the 77 with cards like the faithful wallet full of Transcend 16GB Class 10s we have been using will be disappointed.

The dedicated Movie mode

On the mode dial of the A77 there is a movie position. This does not mean it has changed, like some Canon models, to be incapable of shooting unplanned movie clips – you can do this at the press of a button, like other Sony models. What the Movie icon means is that you gain access to manual control of ISO, shutter and aperture. As a penalty, you lose AF.

Why? That is easy to answer. The AF sensors in the 77 are rated for f/5.6 aperture use. Default movie apertures range between f/3.5 (typically set on fast lenses) and f/6.3 (well, with an f/6.3 zoom lens there is little choice). AF works best in this range. If you really want to shoot AF movies at f/2.8 on a 200mm lens, try by all means. I have tried at f/3.5 and for every clip which has a smooth focus transition, there will be another where the SSM, SAM, HSM or plain old screw drive makes a sudden shift.

So if you want to work at f/1.4, leaving focus to AF would be a disaster. Apart from making constant shifts, there’s a big chance of hunting. I worked with the 24mm f/2 SSM Carl Zeiss for a while, and this lens does not find focus easily in low light with any camera. On the A77 for video it was auto-set to between f/2.8 and f/4 in low light. Video AF happens at the actual working aperture, not wide open like still AF. Being stopped down a little improved the 24mm’s accuracy.

And if you want to work at a smaller aperture than f/6.3 – say f/16 for a deep focus effect with a superwide lens – then AF simply would not work at all. The Manual Focus restriction placed by using the Manual Movie mode is necessary despite the howls of protest it’s produced from those who don’t understand the technology involved. A side benefit of setting Movie mode on the dial is that your view through the finder is cropped correctly to the HD area before you start filming, which makes composition easier – see below.

In the Movie position on the Mode dial you might believe you can use the self-timer. The manual ticks that box. We had to check it, but although you can set the Drive state, including self-timer, doing so has no effect on Movie shooting. Nor can you shoot stills with the Mode dial in this position. Various other manual details, such as indicating flash can be usedin this mode, are also incorrect or there’s a small firmware glitch with the camera. I would expect the shutter release to be operational with the mode dial set to Movie, so that stills could be captured. It is disabled and you can’t take still shots at all if the dial is in this position. Be warned!

Not only that, but after I had pressed the Self Timer 10 second setting when in Movie mode, the LCD top display showed a single frame symbol plus the 10 from the self-timer mode, and the shutter release was disabled even after returning the mode dial to Program or other settings. The Drive mode had to be reset to get it out of this tangle.

As for the instant Movie button, it’s not in the best place – a long thumb reach for on and off actions to start and end clips and the placing tends to make me tilt or move the camera needlessly. When adjusting the viewfinder dioptre to switch from working with spectacles to working without, it’s so close to the dioptre control I push it occasionally by mistake. I would like the Movie mode to switch operation to the main shutter release OR the movie button.

It’s worth noting that picture effects (see later pages) can be applied to movies, as can all other image adjustments, and will be seen in the finder as you shoot.

But what you won’t see until the moment you press the movie button is the working HD movie area. It is a surprisingly fierce crop from the full sensor, not just a top and bottom slice to HD 16:9 format. This is required for the Steady Shot digital, pixel-shift based movie stabilization which does not move the sensor like regular SS. It reduces the 1.5X area to something like a 1.8X area, not as much ‘zoom in’ as using the 1.4X smart converter but enough to cut heads and feet off subjects you have pre-composed using the full finder. There are indicator marks on the display, that’s true, but you will find them hard to see in many conditions even if you remember to use them.

Shot with the 24mm f/2 lens – no way to move back or zoom out for the movie, but plenty of space you would think for the 16:9 HD crop.

This is what the HD movie viewfinder field switches to when the Movie button is pressed (slightly re-composed horizontally but not cropped at all). The movie stabilization need the surrounding pixels. It highly effective, both through the live viewfinder and when viewing the results, and totally silent unlike sensor-shift SS. It also does not warm the sensor assembly up as much.

A caveat to movie shooters. Select the highest quality AVCHD 2.0 formats (the camera will warn you) and you may not be able to play them, burn them to disc other than Blu-Ray, or import them into HD movie editing with programs like Apple iMovie. No doubt this will change with updates, but right now apart from Sony’s PC-only Picture Motion Browser (they have now had half a decade to port it to Mac) there are few programs which can recognise the 1080/50 or 60p 28Mbps format and even fewer which edit it. You will need to buy software to do so. On my system, Toast Titanium 11 includes Roxio HD viewer and because it is a Blu-Ray compatible disc authoring package, this was able to handle the .MTS files in all formats, and convert them to formats editable using iMovie. Roxio offers similar PC utilities.

Sony PMB is also very useful for GPS data handling, map viewing and correcting GPS data. While Adobe Bridge with the GPS Panel (download from Adobe) installed allows viewing and editing of co-ordinates, it still has no link to Google Maps, Microsoft Virtual Earth, or any other useful location display.

Sound

There is no provision for audio notes or audio only recording, which is a bit of a waste of built-in functions as this would be possible and can be useful. Audio notations attached to images are popular with travellers and journalists.

The stereo sound is not much different to the NEX or Alpha 55 despite being capable of 48kHz (better than CD) sampling. The microphone under its unusual top grille seems less prone to wind noise than most DSLRs; the wind noise reduction feature, a bass cut filter, is additionally effective. Body handling noise is present, so is lens focus noise.

The external mic socket provides 5v phantom power for popular condensor mics, and is stereo too. No provision for fixed gain is made – auto level or gain is always on. The camera needs an option to disable auto gain so that a preamp or mic with dB cut choices can be used to control a fixed sound level; better would be three levels, like Nikon; even better still a proper sound level monitor display and full control in fine steps like Canon. Without at least one of these options the Alpha 77 can not considered for semi-pro or professional live sound video work.

GPS Data

While I think that the GPS on the A77 has so far proved faster in locking and more accurate in positioning than the A55, it’s hard to quantify as I have not used both together for long enough in difficult locations. To improve your GPS, download this file:

http://control.d-imaging.sony.co.jp/GPS/assistme.dat

Create a folder on your SD card inside the PRIVATE/SONY directory and call it GPS. Copy this file into it, put the card in your camera, switch on. Go to GPS in the main menus and make sure it’s turned on, then look at the GPS ASSIST entry and you will find the assist data starts on the day you download and lasts a month. Visit the assist.dat download once a month or more often to keep your GPS working with the fastest and most accurate lockon and co-ordinates. Do not worry if you format or change cards, once in the camera the assist.dat file is copied to internal GPS memory. Your original card does not have to be present.

Sony state 15 seconds or more to acquire or change position, and variable accuracy due to GPS being a US military provision which can be subject to deliberate degrading. In this model, when no GPS signal can be detected on power up, the camera simply turns off GPS embedding (on the A55, it uses the last co-ordinate). But if you are out and about, the last position may be shown on some pictures. I don’t think I move that far in 15 seconds

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An example of GPS map location from Media Pro and Google Maps – click on the image for a full size screen shot.

Adobe gripe – it’s long overdue for Bridge to have a GPS map function when Lightroom does. As it happens I use Media Pro for all my digital asset management. When this was Microsoft Expression Media 2 it has its own Virtual Earth window, but now it’s been taken over by Phase One, that has been replaced by auto-opening a web browser Google Earth window. I don’t really need to see maps at raw file stage, but it could help with filenames. I like my filenames to be a ‘catchline’ format – an alphanumeric string which contains a key word about the subject. That could be simple like venice2011-15.jpg or a bit more precise like guideccasangiorgiovenice2011-15.jpg.

Mouthful? Not ISO compliant? Not ancient PC friendly? Sure. But very useful indeed many years later when searching for stuff. And access to GPS map location helps me decide filenames, then later on input metadata for caption, keywords, description, and much more. With 15,000 finished images stored on my system everything which helps me identify them is valuable.

Image formats and styling

The Alpha 77 has a stack of great functions and features I will never use. That’s because they are not available if you shoot either RAW or RAW+JPEG. They include multi-shot modes (combining tonal range for HDR, or reducing noise for low light and high ISO) and in-camera post processing effects.

There are some of these JPEG-only modes I feel comfortable with. Panoramas, as an example, don’t provide a raw file and you can’t bracket exposures. You have to trust the camera despite the huge range of tones and light a wide panorama can cover. If you choose your start position well (including the brightest highlight area of importance) exposure is very reliable, and at low ISO with Fine quality, the JPEG is of a professional standard.

Standard JPEG (click images for 1000 pixel wide version)

Three-shot HDR using 3EV spread

Three-shot HDR also works well, especially at low ISO settings of 50 or 100 and in Extra Fine JPEG. The 24 megapixel file gives plenty of scope for reducing to a smaller final result. There is also a special HDR Painting mode, which processes the file with a masking effect to create what is currently a popular ‘look’. Unlike the standard range of HDR settings, this is far from being a straight image and the lack of a raw file or normal JPEG to back it up means it’s only for fun.

Over the top with HDR Painting style, High strength – it actually works best on dull, wet days with grungy subjects!

More ‘only for fun’ stuff includes soft focus, selective colour against mono (called ‘Partial Color’), toy camera, miniature effect, two monochrome looks including one which uses three exposures, ‘pop color’, posterization, retro photo, soft high key. All of these are irreversible real time post processing. You have no normal backup when shooting.

The post-processing method offered by Nikon and others, where you can apply similar effects to raw or JPEG files already stored on your memory card and create a new version, is preferable. For standard HDR shots on Sony’s current models, a normal JPEG is saved along with the three-shot HDR and that’s good. For any of the Picture Effect post-processes, even multishot, no standard result is saved – all you get is the processed file, after a wait of 10 seconds or considerably less.

Selective yellow on monochrome – but that’s the only shot I have. No raw, no standard JPEG…

You do get a pretty accurate preview of the result in the EVF. If the stop-down preview button is set to ‘Shot Preview’ mode instead of ‘Aperture Preview’, you also get a simulation of the effect of your shutter speed – so flowing water brief time exposures (up to 30 seconds) can be previewed to see exactly which shutter speed suits the water movement best. Along with exposure simulation, there should be no reason why your shot ever goes wrong.

The Auto ISO Multi-Shot mode, Multi-Frame Noise Reduction, captures six frames and creates one JPEG. The pixel alignment seems very accurate and shots at settings like ISO 3200 show an improvement in detail which would be hard to obtain even by good raw processing. It’s not so much the noise that is reduced, it’s the overall quality of the image which improves. Using the high 25,600 ISO setting which can only be accessed in this mode shows that it’s slightly inferior to a straight 16,000 ISO shot despite the six-frame synthesis.

For all these multi-shot modes, the 12fps function of the Alpha 77, SSS, and the quiet, mirrorless shutter action combine well. They are all usable without much effort or worry, hand-held. The one ‘tonal range’ adjustment which does operate in RAW+JPEG mode, though only the JPEG is changed, is the DRO or DRO+ setting which uses a single shot.

High speed shooting also benefits exposure, DRO and white balance bracketing. Early information and the use manual state that you can define the number of exposures for bracketing, and the range covered, with the Alpha 65. In fact it is limited to three shots. The Alpha 77 gives you a choice of 3 shots at +/-3EV, the same at 2EV, then 3 or 5 shots at 0.7, 0.5 or 0.3 EV intervals. It is missing the obvious 1 EV step choices and that will baffle many, especially HDR raw users who would like 5 shots at 1 EV intervals.

Flash

The Alpha 77 has a proper, threaded, high grade studio flash sync terminal as well as the usual Minolta i-type hot shoe. Like the Alpha 700 and 900 (and unlike the consumer level cameras, including the Alpha 580) it can have the HVL-F58AM or 43AM wireless control capable flash mounted on the camera to control group/channel wireless strobes with power ratio. It can also use HSS (burst flash with shutter speeds up to 1/8,000th and corresponding power attenuation). It can not officially use the HVL-F20AM as a wireless controller, but owners have found it works – with a slightly longer than normal delay in flash firing, according to Gary Friedman, who has compared it with the pop-up flash wireless control.

The flash sync Prontor-Compur coaxial connector (PC flash socket) is sealed behind a cover shared with the Remote Release socket. This cover was so tightly sealed it threateed to break a fingernail opening it the first time, a small screwdriver was needed.

The most important change for professional and enthusiast owners is the long-overdue addition of a menu item which prevents the EVF or LCD live view from showing actual exposure when Manual aperture and shutter are set.  This item is under Live View Display, and is called ‘Setting Effect’ – off or on. While this nomenclature is not exactly transparent, it describes the function well as all picture styles and creative effects normally shown in the finder are also bypassed. The important thing for studio flash users is that you can set 1/125 at f/16 with modelling lights, and see a normal finder view not a black hole. You still must remember to set white balance to Flash or Daylight, otherwise the camera will set it from the modelling light K.

It is best to use one of the three Memory registers (accessible through Menu screen after turning the Mode dial to MR, Memory Recall or Register) to store a manual exposure, fixed WB, low ISO, Setting Effect OFF preset for studio work. Then you can return to any other setting and get your accurate exposure and ‘look’ preview back again.

The internal pop-up flash (GN12) has the usual range of first, second curtain, fill-in, off, auto options; TTL Pre-Flash, ADI, and also manual power control down to 1/16th which can be useful for triggering slave flashes if you don’t have a cable or a wireless trigger (and Minolta shoe adaptor). Because the body is weatherproofed, the flash shoe cover is a softer plastic type which seals tightly. Don’t lose this shoe cover or swap it for one of your others.

And the rest

By the time I’ve written this single review article, it will be one-third the length of the complete camera guide books we used to do for Hove twenty years ago. The Alpha 77 has so much more to discuss.

You will be concerned about high ISO quality, diffraction, resolution, having good enough lenses. I would question whether the new 16-50mm, used wide open, is a ‘good enough’ lens – let alone the 18-55mm SAM also being offered as a kit lens. Just don’t worry. Whatever your existing lenses are capable of doing, the 24 megapixel sensor will give you more of it. Let’s say your favourite lens is really only good up to 12 megapixels. It will be just as good if you use the 12 megapixel Medium size JPEG option on the Alpha 77, and if you do that, the 1.4X Smart Teleconverter function will also deliver a 12 megapixel drawn from the centre of the field only – so most likely just as good.

Rather too distant heron, shot using the 2X Smart Converter for JPEGs (this is actually a clip from a raw file processed in aCR to match). ISO 3200, 70-300mm SSM G lens. Click image for 1000 pixel version

Click image for 1000 pixel 100% size clip from ACR processed version (my density choice)

Click image for Capture One Pro 100% clip from raw (ditto)

Click image for in-camera processed (JPEG Fine, Low level of NR) 100% clip (camera’s density)

I am now shooting with auto ISO set to go from 100 to 3200 instead of 1600, I have started using Medium and Small JPEGs with DRO+ to ensure exposure correction for events type shots, I’ve tried all the lenses I have and the only thought is that I need to stick around f/8 to f/11 for safety. Balancing extra depth of field with a hint of diffraction loss. I’m using the manual focus ‘peaking’ function to check the accuracy of my AF (this shows a coloured line on correctly focused details, when the AF/MF button is pressed in). I am not so worried about low light, high ISO as I first thought. It’s actually as good as the 16 megapixel sensor when needed, and when it’s not, the extra resolution repays careful low ISO technique.

The new tilt, hinge, flip, swivel and cartwheel rear screen is just great for the few times I need to use it. The EVF may consume more power (470 images versus 530 per battery official rating) than the big rear screen but I no longer need to switch between the two for menu and function operations. Because of the new design, all positions found on other cameras from hanging-under to almost flat on top (R-1 style) are possible except facing forwards and positioned to the side. There are firmware or orientation sensor errors, as the imager can appear upside down in more than twisted position. The hinge design makes a vertical grip possible and also allows a wider range of tripods or quickmount plates.

The A77 has all the focus and AE hold and lock, slow sync, focus point shift, exposure over-ride and other key functions I need. It claims to be weatherproof, and having nearly broken that thumnbnail off opening the flash sync cover  I do believe the seal is tight. The card slot door is not so reassuring and I see no trace of any proper sealing, not even a labyrinth design.

I am baffled by Sony’s indecision about ON/OFF switch design, the camera labelling is the reverse of the Alpha 55/33/35 or 580/560 etc, though the action is the same. The direction is the reverse of the NEX-5. But there is one consistency, to turn any camera on the movement is always from left to right – whether Alpha 100, 700, 900 and whether the switch is rotary or a slider. Maybe this is the rule they stick to.

You can not configure the directionality of the two control wheels, as you can with Nikon, and for some reason I have always tried to open or close the aperture by taking the wrong directione. That is because the wheel directions go against the old Minolta protocol that turning the aperture ring to the right opens up, turn to the left stops down.

Like the Alpha 700, the Alpha 77 has magnesium alloy body shell combined with other metal and plastic components. It has the proper strap-lug fixed into the mag alloy casting, like the 700 and 900. This lug and triangle-ring design, as opposed to the slot-type strap fixing of the lesser camera bodies, is always a clue that the structure is based on a good solid metal skeleton. The overall design and balance of the Alpha 77 are as good as any Alpha I’ve used. There are hints of the 700 and also some memories of the Dynax 7xi present in the sculpturing of the body. To those who say it looks a bit like a Canon, yes, it’s true that Canon design has caught up with 1990s Minolta style in the last couple of years…

Conclusion

From the initial press meeting with Sony, where cameras were prototypes and the images were not allowed to be shown, I decided that if I could work for a year with the Alpha 55 and have no problems then the Alpha 77 was a safe investment. The viewfinder is a pleasure to use, though EVFs differ from optical screens in one important respect, that the eye can not compensate for small errors in the dioptre setting. With an OVF like the Alpha 900, I can set the dioptre midway between what’s needed for my sight with and without glasses, and get along fine with either. That can not be done with the EVF and it demands a precise dioptre setting for each. I have found it more comfortable to use without specs, so they spend too much time perched on my head, hanging from my collar or stuffed into a pocket.

It will be another year before I know just how wise the decision to go with EVF SLT models has been. And maybe another ten thousand words.

– David KiIpatrick

Please read the comments for some notes on corrections, which I will continue to make.

 

 

 

 

 

Alpha 77/65 Firmware Update to 1.03

After a little over a week of using the the Alpha 77 in firmware version 1.02 (as delivered in UK in late September), our Alpha 77 body locked up during a concert gig shoot when using the SAM 28-75mm lens which had been fitted for the first time that day. It is not possible to say whether the lock-up was caused by the lens, but after resetting the camera using the recommended button press and switch off/on procedure, no settings were lost and it returned to normal operation.

The reset procedure has now been officially published by Sony, at the end of the instructions for installing Firmware Version 1.03. At the time of writing this upgrade only appears to be found on Sony Asia websites. It is an international upgrade and not specific to the region. Here is the reset or recovery procedure to use if your A77/65 locks up and its screen menus disappear. Typical symptoms include loss of the lens aperture display (A77 top screen, blank dashes appear as if a lens is not fitted), the ability to view some menus but not change parameters, input from most buttons not working, and a visible faint light appearing in the EVF after the camera is turned off (unless the battery is removed entirely).

We recommend, before doing this procedure, that you turn the camera off and remove the battery for a few seconds.

  1. Turn ON the camera.
  2. Press MENU, Play, MOVIE buttons simultaneously.
  3. While Pressing these buttons, turn OFF the camera.
  4. Release your fingers, and wait over 30 seconds.
  5. Press MENU, Play, MOVIE buttons simultaneously again.
  6. While Pressing these buttons, now turn ON the camera.
  7. Release your fingers.

Please try again to perform updating procedure after camera is rebooted.

The download process is not a load-to-card firmware, it is an update performed by either a Mac or PC with the camera connected by USB cable. It is necessary to have the camera either AC adaptor powered or with a fully charged battery, and the computer should ideally be running a clean state without other processes (i.e., not rendering, downloading, exporting, playing Flash or other media, performing backups). Sony recommends closing all programs but for many users this will not be a practical option. As long as all I/O and processor intensive tasks are shut down you should be able to keep essential programs, such as Sony’s web page on your browser, running. If in doubt follow Sony instructions and close all programs, do a restart, then run the firmware updater. We had so many programs running on the Mac it proved necessary to do a clean restart before running the updater.

Please note that the downloaded updater program is over 68MB and the updating process for the camera takes over 5 minutes.

The Alpha 77 firmware updater page for Mac OS is:

Europe/UK link – just change the camera name box for A65, this link gives access to all upgrades associated with each model:

http://support.sony-europe.com/dime/crl/slt/slt.aspx?site=odw_en_GB&m=SLT-A77

Asia link (works with all regions):

http://www.sony-asia.com/support/download/474605

For Windows PC:

http://www.sony-asia.com/support/download/474591

The A65 update is here:

Mac OS:

http://www.sony-asia.com/support/download/474599

Windows PC:

http://www.sony-asia.com/support/download/474564

 

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