Frank’s a definite Alpha Male

We shall be sending Frank Doorhof one of our original and rare Alpha Male T-shirts, in black, though I’m not sure we have anything quite large enough to fit him – which goes for his personality too. He’s a great workshop presenter, overcoming technical problems by just cracking on with whatever will work best. At Edinburgh for The Flash Centre’s full day fashion seminar with Frank on May 24th, the last thing I expected was to be using the same camera as Frank. All workshop leaders use Canon, right?

Frank now uses Sony Alpha 99, and he had a lot to say about it. Since we already know the benefits of the Alpha system and the current Sony full frame 24MP sensor with its extreme 14-bit dynamic range, most of what he said was not new, but it’s rare to hear a course leader extol the virtues of a system which not one of his delegates (apart from me) was using. He did rather talk down the value of CZ lenses (while using a 24-70mm CZ) and praised the quality of his vintage Minolta 85mm f/1.4 and 35-200mm xi, but I can’t argue with that as I’ve made similar decisions. Indeed, the 35-200mm owes much of its reputation to results we published seven years ago. I was beating him at his own game by using my SAM 28-75mm f/2.8 – cheaper by half than the CZ 24-70mm, and extremely sharp.

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We had a rare sunny clear day in a run of mixed weather, though it was cold and windy on the roof terrace of the Glasshouse Hotel in central Edinburgh. The location provided strong backgrounds and details. Simon Burfoot and Chris Whittle from The Flash Centre brought along the Ranger (battery location) and Ranger Quadra (lightweight version) flash systems with Elinchrom Skyport wireless triggers. Of course, in the past if you turned up to a workshop with an Alpha body, you were unable to use the wireless flash connection unless you also remembered to bring a standard hotshoe adaptor. With the A99 (and NEX-6, RX1 and future models) the new Alpha multi function accessory shoe works directly with triggers.

Frank put everything into using just one light source, and used no reflectors, aiming instead for dramatic lighting by underexposing the main scene but lifting his model subject Nadine by local flash. This was achieved with the 44cm rigid square softbox, newly re-introduced to the Elinchrom system (I have used the original grey one for over 20 years – you only need to buy these expensive accessories once in a lifetime). Fitted with a honeycomb but no diffusing scrim, the single lighting head with this light shaper put a tightly controlled pool of light on to his subject. Though it’s easy to use digital SLRs as a pre-test light metering and flash balancing method, Frank works with a Sekonic flash and ambient light meter able to take incident, reflected and partial spot readings. It is very similar to the discontinued classic Minolta Flashmeter IV/V, with the same 1/10th stop accuracy and display of contrast and memorised values. If I was doing this type of work, I would use my Flashmeter IV, but I would also use its calibration function to match it to specific ISO settings on the A99.

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Frank’s wife Annewiek used multiple video cameras to film the workshop, as Frank provides his on-line tutorial material through Scott Kelby’s training site. Here you can see one set-up as he explains how he’s seeing the location, addressing the used of the glass window wall, avoiding unwanted reflections, placing Nadine in the shade then adding the flash to match an underexposed daylight scene. To achieve the required settings, he used ISO 100 at apertures around f/16 to f/22, with a 1/160th shutter speed, and mechanical first curtain shutter. I also followed these settings, which are not kind to sensor dust spots. Anyone using a Nikon D600 would have been in serious trouble! Even my ‘clean’ A99 which never needs any spot removal at my regular optimum working apertures between f/8 and f/13 showed a few visible spots at f/18. I would have used ISO 50, which I consider to be an advantage of the A99, and trusted shutter speeds to 1/250th with this camera for flash sync. But Frank was dealing with photographers some of whom had cameras incapable of shooting at less than ISO 200 or synchronising with studio flash at 1/250th without a slight second curtain crop to the frame. It would not have been fair to demonstrate using the advantages of the Alpha 99…

I did have in my bag, and normally carry, a 4X ND filter. With the Alpha 99, fitting an ND filter has absolutely zero effect on the viewfinder brightness, or the quality of view in sunlight. After all, sunshine with a 4X ND is just like a cloudy day in brightness, and you have no problems on a cloudy day. You can work with an ND just as ‘transparently’ as you can use an UV filter. An alternative would have been to use a polarising filter, which can also enhance the dramatic ‘dark sky – bright subject’ mix. However, Frank wisely kept clear of this. Polarisers have some pretty horrible effects on fabrics, skin and hair. Use them on portrait or fashion shots only with great care. Digital sensors are usually able to do deep blue skies without help.

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Here’s the Elinchrom Ranger head as used. Frank asked delegates to restrict themselves to three shots per situation, a request generally ignored. I took some before the flash had recycled, to show the effect of the scene without flash, and with flash.

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This was my ‘take’ on this setup and it’s probably different from most as I used a 12-24mm Sigma HSM lens at 12mm. Now Frank did not explain to the photographers how he was using his electronic viewfinder, and I didn’t ask, but I’m sure he had it set to over-ride manual setting gain, as he was shooting on manual (M) with a degree of underexposure that would have made the finder extremely dark. I didn’t change my setting and though for all the other situations I was able to compose well enough, for this set-up my EVF showed nothing but solid black where the model was. As a result, I did not see what an ungainly shape was made by the extreme angle of the 12mm lens for a couple of poses.

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The left hand side is very much how my finder looked. I don’t like this result, but I could not tell until after it was taken. Nadine was changing poses rapidly. This is one case where the optical viewfinder of my Alpha 900 would have been a better choice.

If you have a Sony/Minolta wireless flash set-up, you can overcome this whole problem. Your remote flash would perhaps need a softbox, or more realistically a small umbrella to match Frank’s localised soft flash and also receive the control signal from the on-camera flash. You would simply set the remote flash to Manual power not TTL, set the A99 (or other EVF DSLR) to Aperture Priority (A), set f/20, and rely on the flash’s auto communication with the camera body to set 1/160th flash sync and ignore the ambient light. You can also do the same with a slave cell triggered by a small camera top unit converted to invisible IR using a gel filter or old transparency unexposed film-end. You can not do this with the sync cable (PC socket) or flash triggers, as these connections do not tell the camera there is a charged flash fitted, and set the shutter speed.

Elinchrom! We need, for Sony and other EVF or LCD screen-only cameras, a flash trigger designed to provide a signal to the pin which the camera’s own flash system uses to auto-set flash sync speed when using Aperture priority. When this is live, the viewfinder brightness is set to auto gain regardless of the exposure mode (PASM) used.

For his first set-up, Frank was actually shooting full lengths from a distance with Nadine making a small element in a large view. I liked the structure she was posing under, and prefer in general to get pictures which are not a copy of the course leader’s work. Although this was also slightly underexposed for the background, I had no problem with the EVF when the subject was in a normally lit area.

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You may say, the subject was in sunlight anyway, so why use flash? The dual lighting gives a filmic look, like a movie set lit in Californian sunshine (and Scotland’s legendary blue skies complete the illusion). This essentially sidelight from the sun, with a frontal fill you can see most clearly on the fingers of the left hand glove.

For a further set-up, Frank moved to the roof terrace view over the north of Edinburgh towards Leith and the Forth (first image on this page). He had demonstrated sets suitable for normal to wide angle lenses, using the 24-70mm, and switched to the 70-200mm f/2.8 Sony SSM G for a different relationship between the model and the background.

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This was the view without flash – not a bad set-up as it stands. When processing my images, I found that the in-camera standard JPEGs of the A99 handled the red of the dress better than almost any setting or camera profile using Adobe Camera Raw. Colours like this are a good case for trying alternative raw converters, such as DxO Optics Pro or Capture One Pro. Their camera profiles are generally closer to the in-camera conversions than Adobe’s. Frank demonstrated how to use the MacBeth ColorChecker Passport colour patch target and its camera profiling software to create an on-the-spot profile for better ACR/LR conversions.

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This is the shot with flash, again, in-camera JPEG sRGB. AdobeRGB would retain more potential detail in the red, raw conversion to 16-bit using ProPhotoRGB the maximum. But for that you also need something like a Eizo 10-bit monitor with a matching video driver, and no Apple Mac made comes with that. Build yourself a tower system and it’s just about possible to get 10-bit colour… but not using Mac OSX! My monitor is a regular old 27 inch iMac and if it’s 8-bit it’s having a good day. The colour looks lovely, but accurate it certainly is not. I don’t mind as 99% of all the screens any of my images will ever be seen on are no better, and the printed page is far inferior. Putting the above pictures into print would almost guarantee the differences you see here are lost.

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Because the Glasshouse’s rooftop function suite has a white translucent fabric roof, the overhead projector could not be used. So, Frank sat down with his laptop and the photographers. Later on in the day, the group moved to an inside room, and he demonstrated a series of processing steps in Lightroom with special attention to the use of plugins producing Clarity, pseudo-HDR and ‘image look’ and to fashion and beauty retouching.

To read more about Frank’s work, visit his own website www.frankdoorhof.com or follow him via Kelby Training. He regularly does workshop tours. I’ll be reporting on some of his views and hints for professional photographers, specifically, in the June 2013 edition of Master Photography magazine (you can subscribe here for this 10X a year magazine which we also produce).

For more information on the Elinchrom flash system, Skyport wireless triggering and battery powered Ranger/Ranger Quadra location flash, see The Flash Centre website.

– David Kilpatrick

Colour and power benefits of Sony 20 megapixel sensor

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Sony has now released full details of the Alpha 58. Although I don’t think the camera is a game-changer or a vital upgrade for owners of Alpha 55 and 57 (the 55 will leave me only when it expires, with its useful GPS, 6fps/10fps and fully articulated reversible rear screen) there are hidden bonuses for anyone investing in the 58.

Firstly, the new OLED finder – probably a step better visually – is a league better in power consumption. The penalty for using the EVF instead of the rear LCD on the Alpha 77 and is siblings has been a sharp reduction in the battery stamina for shots, 470 versus 530 official figures for the 77 as an example. The new finder on the 58 gives a reduction for 700 to 690 – not just an overall improvement, but a minimal difference you can ignore. The smaller, non-reversile tilting rear 2.7″ LCD screen may also be less power-hungry than 3″ types.

Secondly, the camera supports an extended TriLuminos colour gamut. The colour gamut of existing Sony DSLRs and SLTs (and NEX) equipped with HDMI output does not need to exceed AdobeRGB (52.1% of the recognised visual gamut for a ‘Standard Observer’, CIE 1931 vintage). That’s because regular HDTV throws away a stack of this colour, showing only 35.9% of the gamut. That’s why it looks so colourful and bright. The less gamut you show, the brighter and more saturated colours look, for the capabilities of any given display. That may sound the reverse of what you would believe to be the case, until you apply a bit of thought to it.

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TriLuminos gamut is the larger triangle, regular HDTV is the smaller (similar to sRGB) while AdobeRGB falls between the two. One colour space you can use when processing raw files – ProPhotoRGB – is so large is exceeds part of the CIE 1931 colour space.

The TriLuminos gamut is massive. Unlike HDTV, it’s bigger than AdobeRGB and much bigger than regular sRGB (what most computer screens can show). It is 75.8% of the CIE 1931 colour space. That, by the way, is simply a standard based on what a bunch of test subjects could perceive back in 1931 and it’s been criticised for failing to include a wide enough range of genetic backgrounds and learned visual abilities. We all see colour differently (men notably with far less accuracy and discrimination than women, young better than old). If you’re a teenage girl you’ll love the TriLuminos displays. If you’re an old bloke you may not notice…

Sony claims that the A58 can output colours to the TriLuminos TV sets which show “a dramatically expanded palette of vivid, ultra-realistic colours when videos and still images (are played back)”. In theory since AdobeRGB (offered by all Sony models to date) would already show an expanded palette, this might not mean any big change in the sensor. But TriLuminos uses a colour space which requires 12-bit depth and it can’t be used effectively unless the sensor itself is going beyond the range of AdobeRGB. You can’t get out what you do not put in. Then again, if you’re using a normal printer or computer, you can’t get it out anyway. The camera captures colours you can’t see on its own rear screen, in its viewfinder, on your computer screen or in a print.

We can therefore deduce that the Bayer filter colours on the new 20 megapixel sensor may be changed, along with the BIONZ processing and the JPEG colour management and compression (after all, the JPEGs will still be 8-bit and going beyond AdobeRGB risks significant banding in smooth graded colours such as skyn blues). Sony say this is the first ever A-mount camera to offer this colour ability. Will DxO Mark have to change their colour measurements to cope with it?

It is possible the sensor has no colour gamut benefits and that all Sony is doing is expanding AdobeRGB (or the native gamut, which is close enough to AdobeRGB) to fill the wider space of the TriLuminos TV screens, making certain colours appear dramatic in the process, but not realistic. Obviously what we should all hope for is that this improvement starts with the sensor itself.

Since the NEX-3n (possibly not the camera rumoured by Nippon Camera as NEX-F3R) also offers TriLuminos extended gamut but has a regular 16 megapixel sensor, I’m going to have to wait to see what the real colour science experts at DxO, and our various friends in Russia with special knowledge of this field, find. We do have a resident colour scientist but sadly none of the gear needed to analyse this properly.

Whatever the case, we appear to be getting a camera whose new 20 megapixel sensor will have significantly better power consumption which almost certainly also means lower heat generation, in turn meaning lower noise and longer ‘safe’ durations for video. Sony is gearing up for the next phase of HDTV – 4K – and the UHDTV beyond this going to 8K. They will eventually need to produce 39 megapixel sensors for uninterpolated 8K, and this will be the target for both APS-C/Super35 and full-frame between now and 2015 when the industry expects to see the first 8K UHDTV retail sales (those in the UK, don’t hold your breath, we’re likely only to get 4K and may not see that become the standard until 2020).

Nikon has stolen an interesting march by enabling a 1.3X, 15 megapixel crop for 7fps shooting in the new 24 megapixel D7100 – a very useful size almost equal to a 2X crop from full frame. Sony has an unspecified ‘tele-zoom’ feature in the A58 to achieve 8fps. But no-one has so far been able to reveal what the tele-zoom crop is; Sony’s ‘technical specifications’ so far released for the A58 are minimal.

If the same 24.1 megapixel, AA-filter-less sensor is used in an A78 (as some rumour sites think likely) then perhaps sub-frame readout aka tele-zoom will be implemented on that too.

The A58 has a new 18-55mm SAM lens with improved build quality and a redesign to the rear element configuration. Sony says this is to avoid ghosting. We’d be surprised if it was not also to change the exit pupil geometry slightly, in order to work better with current and future phase-detection on sensor models.

– DK

 

 

Sony’s Alpha 99 – mastery wrapped in dilemma

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The launch of and initial reaction to Sony’s Alpha 99 has been spoiled, for many, by the overpricing of the camera generally and to a greater degree in some key markets. The promise of the SLT design, and Sony’s move away from flapping mirrors and optical prisms with their associated collimation and alignment, was one of reduced manufacturing cost and more competitive product.

Along with this, we should remember Sony’s 2006 statement that external mechanical controls, switches and buttons would be reduced on future models for the same reason. The Alpha 99 has as many external physical controls as any predecessor and will make traditional users happy.

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Compare the Alpha 900 and the Alpha 99 – despite apparently very different designs, they share many points and clearly come from the same gene pool. There is no longer any need for the largest glass prism of any modern DSLR, the power switch has moved to Nikon position round the shutter release, lines are rounded off. The construction is similar as the strap lugs fitted through the outer skin into the solid magnesium chassis indicate.

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From the rear, the 900 looks somehow more complex because of the left-hand button array. In fact the A99 has just as many buttons (it is only missing a SteadyShot switch and the selector round the AE lock button for metering method – this is no longer as important with the 99 doing its metering directly from the imaging sensor).

Out there we find Canon’s lightweight travel-friendly full frame 6D appearing at £900 lower launch street price (UK) with both that essential built-in GPS and the marketable function of WiFi, and Nikon’s almost comparable D600 officially at a £500 lower RRP, and a street price match for the Canon. In practice the UK Sony price of the A99 fell from £2499 to £2299 in the first two months on sale; the D600 fell from £1955 to £1495 in the same period (WEX dealer figures) and on that basis we can expect the see the Canon fall to £1395 in early 2013. By then the A99 may have fallen to £2195.

Sony lenses are not cheaper, nor wider in range of choice or sources of supply, than Nikon or Canon. There is no collateral benefit when you hand over as much as 50% extra to Sony for their innovative cost-saving technology. In my British Journal review, I concluded that the Alpha 99 was between 30 and 50% over-priced and combined with the cost and limited range of Sony lenses there would be little good reason for any new full-frame entrant to prefer Sony over Nikon or Canon.

At the same time, the Alpha 77 – so close a sister to the 99 that it shares exactly the same EVF and the same file size, with identifiable advantages in some respects – has been selling for £819 body only in the UK when the 99 in the same store was priced at £2299. That’s 64% less, 36% of the price or just over a third. You could almost buy three A77s for one A99. And it even has that very useful built-in flash.

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You may pause to work out which of these, photographed to exactly the same scale (one shot) and then moved so that their focal plane markings coincide horizontally, is the 99 and which the 77. The 99 is actually bigger but looks smaller.

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This will give you a better idea of the height of the A99, and also the improved eyepiece which puts your eye further away from the camera screen or back than the A77.

Assault and battery

In fact, there’s a hidden penalty in addition to the high price of the A99. The Nikon D600 with its single 1900mAh battery as supplied will keep on shooting into four figures where the A99 with GPS enabled manages a couple of hundred on a good day with the wind behind it from 1650mAh. Officially it does over 400 without GPS. That was not my experience, any more than it has been with the Alpha 77.

Perhaps this is because of the odd conditions Sony uses to measure battery life – only using a MemoryStick PRO Duo card not SD, no card in slot 2, ambient temperature 25°C, shooting Fine quality JPEG only, shooting one frame every 30 seconds and turning the camera on and off every ten shots, and not having GPS active. Needless to say I shoot raw, back up to a second card with JPEG, and have GPS active. That’s why I bought the camera…

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The economical Nikon D600 is a direct competitor, despite rabid claims on internet that the 99 is ‘professional’ and the 600 is ‘consumer’. They are both semi-pro models but the 99 probably has a better shutter mechanism and a higher precision body. The Nikon has better image quality and battery life. Both have similar dual card slots, manual adjustment of audio input for video recording, wireless flash options, grip and so on.

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GPS eats batteries. We’ve got a GPS module for the D600 which runs off the camera’s power, but so far have not had it switched on permanently for a week. Maybe it will reduce the D600 to the same ‘battery every day or two’ as the A99. The Canon 6D is the only other DSLR made with built-in GPS. Unlike the A99, the 6D does not turn off its GPS when you turn the camera off. Result? The 6D drains a battery in four days, flat – dead flat 0% – if you just switch the camera off and leave it in your bag with the GPS symbol showing. You have to go into a menu and turn off Enable. At least the A99 does not draw on its battery at all when switched off, regardless of settings.

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The EOS 6D compared with the D600 – it’s smaller, lighter, and built to a far more consumer-level standard with minimal controls. But like the 99, the 6D has GPS on board, and as a ‘first’ in this field it includes WiFi, which is not just file transfer. We used a free iPhone app to view, focus, adjust settings and shoot remotely and wirelessly with the 6D (EOS Remote). This is bound to win substantial sales.

You need deep pockets in two senses for two extra Sony batteries (£136) or the add-on vertical grip at £299 plus two batteries (not included). The first option will keep you going without GPS about as long as the Nikon on one charge. If you are travelling and using GPS, be prepared to change and charge one battery daily.

Another reason for this short battery life is the electronic viewfinder. Unlike any optical prism finder, it uses as much power as shooting video. Even if you turn the camera off every time it leaves your eye, the typical length of time needed to compose and follow subjects will add up. I do not have review enabled, and I rarely ‘chimp’ because one big plus side of the Alpha 99 – as you will learn – is the near 100 per cent success rate achieved by its metering and focus. If you use the rear screen for composition instead of the eye-level finder, you can extend battery life by 16%.

Sony must be commended for sticking to the same battery format used by all larger body models from the Alpha 700 onwards. I do have half a dozen spares but of course, many are now getting old and barely manage 150 shots in the 99. What Sony must do is to take the advances made in lith-ion production and create a higher capacity NP-FM500H. Third party makers have been able to boost their clone batteries to 2000mAh (I’ve bought two and they are non-compliant with the chargers and clearly don’t deliver what they claim…). Sony’s battery should match Nikon’s similar size at 1900mAh, even if the EVFs now standard across the Sony range will always eat twice as much power as a regular DSLR.

The EVF dividend

Would-be Alpha system professionals and advanced amateur users face a future of electronic viewfinders. The good news is that at photokina 2012 Epson showed a prototype with twice the resolution of the current 2.3 million pixel ceiling, and in five years most current complainers will accept that an EVF can be as accurate as any true groundglass screen ever was.

We tend to forget that after autofocus arrived focusing screens lost their visible granular or laser-cut structures unless you deliberately specified a type intended for manual focusing. Plain old groundglass has a ‘dot’ all of its own because it does break the image up. Minolta’s Acute Matte screen was like a superfine microprism field. The new Epson developments come so close to being as fine as this kind of screen, visually, that you might be able to fool someone into believing it was not an electronic finder.

While the A99 finder is excellent, it falls a touch short of this. It is absolutely identical to the Alpha 77 in every parameter including virtual window size (the magnification figure given by Sony of 0.71X compared to the A77 1.09X is all down to using a 50mm lens on both for measurement). Eyepoint is identical despite the slightly different overall design of the eyepieces and the size of the rubber surround. If there’s any improvement, it lies in the illumination range and contrast control of the OLED unit which has been given one additional user control, colour temperature. You can make the finder warmer or cooler in colour independent of any picture style or WB adjustment.

This is a good example of where the EVF’s great clarity in low light pays off – an ISO 3200 image taken hand-held where a tripod was not appropriate, using the Sigma 12-24mm which has fairly strong vignetting. To see and align the geometry of the shot (bottom cropped off) was much easier on the A99 than it would have been on an OVF camera. Click the image for a full size file.

In full sun, the finder appears very dim compared to any good optical finder. In overcast light, it’s a good match. As the light fails or you move indoors, the EVF shows substantial benefits over optical systems. After dark, it can make accurate composition easy instead of almost impossible.

Here, the A99 has the edge over the A77, NEX-7 and all predecessors even including the NEX-5n and presumably the 6 which I haven’t tried. The larger sensor’s better high ISO performance together with its pixel count keep the coloured noise at bay for another stop or two lower light levels. This coincides with an important transition. The kind of indoor artificial light level where the A99 remains very clean using an f/2.8 lens is typical domestic light – brighter than restaurants, not as bright as stores and malls.

Anyone using the A77 will confirm that the 16-50mm f/2.8 lens brought a real benefit in this sort of lighting despite its other failings, by improving the finder experience. Combine the A99 with a good fast lens like the 50mm f/1.4 and you get a relatively natural view of the world after dark.

The A99 returns the auto eye start sensor, which switches between rear screen and EVF if you have that function enabled, to below the ocular instead of above it as on the A77. This makes viewfinder attachments work without blackout glitches, including Sony’s 1.15X eyepiece magnifier, which for me enables a full view of the screen and a truly impressive finder size.

Ergonomics and control

One of the benefits of the EVF is that you don’t need to use the rear screen at all. The Quick Navi interface developed more or less from A700/900 Quick Navi has to cope with a bewildering number of pictograms and readouts, ranging from a full histogram to digital spirit level, and a complex AF setup. With the help of carefully repositioned buttons, it succeeds. I’d say that the A99 has the best user interface I’ve seen on an Alpha since the 900. The top LCD display panel is much richer than the basic one of the 900, and does not deserve some of the criticism levelled at it for duplicating stuff you can see on the rear screen. I work with the rear screen permanently turned to face the body, unless I am actually employing it for composition or image review. The top LCD provides vital at a glance info about manual or metered exposure settings, ISO, state of ± override, battery power, drive mode, WB, file type and image remaining count.

It is, however, blank when the camera is asleep. Later in this review I’ll be comparing the A99 with the Nikon D600, which we now also own and use alongside it. Nikon’s top LCD shows some basic info (shots remaining) all the time. But it’s interesting to note that Sony gives you the correct information when Nikon does not! Both cameras have two card slots. You can set both of them to work in overflow mode, fill one card, then the next. Nikon shows you only the shots remaining on the card in use. Sony shows you the total. The Canon 6D LCD also goes blank when the camera is turned off, except for showing a GPS symbol to warn you about leaving this battery-eating function Enabled.

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The Mode dial has three memory positions, a Tele 10fps (1.5X crop) position, panoramic, Scene selection, Intelligent Auto, PASM and a separate Movie position. You can opt to lock the Movie button out except when the dial is set to this.

Another similarity is the mode dial, locking on all three cameras. Here, Sony goes for a more purposeful central locking action making it a little harder to adjust the dial. They also cram more on to the dial, including the invaluable feature of Memory 1 2 3 positions (as on the 900). There’s a special movie mode which not only prevents accidental movie shooting, but when used allows shutter, aperture and ISO to be set. The range for this is exceptional, you can film at 1/8,000th shutter speed if you really want to break rules.

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The right hand buttons include Fn, your access to Quick Navi on the screen or in the EVF. There is a new AF Range button which I simply don’t seem to need – I wish this could be customised to become a SteadyShot On/Off button, something I need to do far more often when working with a tripod.

The A99 has a total of 19 operating buttons, some of which have only a single use such as LCD illumination or Playback. The manual identifies 18 primary default functions plus the Silent Controller, of which more later. One button, Fn or Function, accesses Quick Navi and its 23 adjustable settings many of which have multiple choices. Fn can direct access 18 functions outside Quick Navi.

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Here is where the Custom function button has been moved to – under your left index finger, where the flash pop-up button used to be. Slightly pointless wording on the bright orange anodised lens mount bezel lets you know this camera is not actually aimed at working professionals.

The Menu button accesses six main menu tabs. Still Shooting has four menus covering a total of 20 parameters. Movie Setting has two menus and eleven adjustments. The Custom menu has a huge depth, with six menus covering 33 functions some of which in themselves cover other buttons – five of the dedicated buttons on the body can be assigned any one of 35 functions or behaviours, including their native marked use. The Playback menu has two tabs, with ten parameters. The Memory Card Tool menu also has two tabs and nine functions, needed because you can choose where and how to save raw and JPEG images and movies.

Only the Clock Setup menu remains its usual two-entry basic form. The main Setup menu has four tabs covering 24 settings or actions. If you want to try adding all this lot up, before even investigating the complexity of settings within some aspects like Picture Style, you’ll realise there are thousands of different exact ways in which an Alpha 99 can be configured.

Canon has always had a secret weapon whenever anyone failed to get the expected good results from their camera – ‘ah, you didn’t set it up correctly…’. Now Sony has the same rather weak excuse. Not setting the camera up at all should result in successful images. No buyer should experience Default Setting shortcomings out the box. Setting it up expertly should lead to wonderful, perfectly tuned, almost-impossible-to-get-easily images.

And, I am glad to say, if you get an Alpha 99 out of the box and never touch a single one of these adjustments it is more than likely you will get perfect images. That is because unlike most DSLRs, the Alpha 99 actually works like your eye. It focuses and exposes as effortlessly as you do and you can see far more clearly, through the EVF, what is happening to exposure and focus as you prepare to shoot.

The EVF looks great in dark conditions – no coloured noise like the A55 and A77 generations, as the sensor is so noise-free. This is an in-camera ISO 1600 JPEG, click to go to the original full size file. It’s not bad at all.

Real-world performance

As I’ve said, we have been using the Alpha 99, Nikon D600 and Canon 6D side by side before I started writing this review. I did not have the 6D present when making colour-checker tests on the A99, A900 and D600.

Shirley has used Minolta/Sony since 1980, when we first took over the Minolta Club. Before that she used Praktica (as many students did), Pentax and then Olympus. The OM system was her preferred camera for its size and weight, and the exceptional viewfinder.

Well, after over 30 years using Minolta then Alpha, she’s finally departed from the system because of the change to EVF. Unlike me, she finds EVF view uncomfortable. The Alpha 700 was a great camera but sensor technology moves on, and she happens to be a regular abuser of long focal lengths and low light. The A580 has proved good but the very small optical finder has been an issue from the start. The Nikon D600 with 28-300mm VR lens may not be her ultimate ideal camera – we’re planning to try the Pentax K5IIs with 18-250mm, as that has a very good large optical prism finder. But Sony is now out of the picture and we suspect that she’s not alone. However good EVF technology becomes, some users will never feel comfortable with it.

One reason is the need for perfect accuracy in adjusting the dioptre. Optical finder cameras have a certain latitude, always best with exact adjustment, but remaining sharp over a small range of error. The A99 EVF does not have any latitude. The dioptre is set in clicks, and one click either way puts the OLED display visibly out of focus. If your eyesight changes a lot or you move between spectacles and the naked eye frequently, you will need to make constant adjustments to the dioptre.

The first thing we noticed when reviewing a few hundred raw files taken in  similar conditions with the two cameras is that Nikon’s auto-ISO implementation on the D600 behaves very differently from that on the A99. The Sony metering, especially in Program mode with Auto ISO and wide potential range set, prefers the lowest ISO acceptable for the focal length in use and the available light. Nikon’s system will select higher ISO settings, and smaller lens apertures, very readily.

The Nikon meter is also calibrated out of the box to be generous in exposure, possible because the separate metering system is more influenced by light sources or high contrast and prone to big shifts in auto exposure with minor adustments to composition. At any given ISO, the D600 was often giving double the actual exposure – half of this doubling due to overexposing a bit, half of it due to Nikon’s different calibration of ISO.

dynamicrange-a99

Not only does the A99 have strikingly accurate auto exposure when confronted with very difficult conditions (Sigma 12-24mm shot above covering from deep shade to a white waterfall in sun), it also has 14-bit raw files with generous shadow detail and highlight recovery headroom. Click image to open a larger (not 100%) view.

dynamicrange-histogram

Here is the histogram and totally neutral adjustment set shown in Adobe Camera Raw before fine tuning the shot above to improve the brightness and clarity of the shaded areas. Note the excellent shape of the histo without top or tail clipping.

The A99 meters exposure off the actual shooting sensor, using a 1200-zone colour sensitive matrix and intelligent bias towards single or multiple active AF points. In practice, it proved almost bullet-proof. Anyone who can remember the consistent off-sensor exposure of the old Konica Minolta A2 will appreciate the new Sony EVF and NEX models alike. They simply meter with far better consistency than any camera which uses a separate metering sensor. Of course this can also be said of Olympus, Panasonic and all mirrorless cameras. But they don’t all have the amazing 14-bit raw files and 12 EV normal ISO step dynamic range of the Alpha 99.

When we processed the raw files, Nikon’s ISO 6400 was less noisy than Sony’s despite the very similar (not identical) Sony manuactured 24 megapixel FF sensors. The difference is a little more than we would expect from the 2/3rds EV light loss caused by the trans-flective SLT mirror. The remaining difference seems to be down to Nikon treating a gain which Sony would call ISO 4000 as one labelled 6400, but giving exactly the same exposure Sony would give at 4000. This is not very accurate, as depending on the actual ISO setting the discrepancy ranged from less than 1/3rd of a stop to around 2/3rds, but seems to increase at higher ISO settings. Thus Sony has an apparently clear disadvantage at 6400 or 12,800, but the camera is actually giving half the exposure.

Here are some small samples which, when clicked on, will lead you to our full size set of JPEGs which can be pretty large. These files compare the A99, A77, A900 and D600 at two ISO settings only – 100 and 6400. All are auto exposed under identical conditions using matrix metering, so the cameras have been allowed to give whatever exposure and apparent ISO they would do in comparison. All have been processed using identical settings with Adobe Camera Raw 7.3 – Camera Standard profile (Sony Alpha 900 profile for A900), Linear, default sharpening 25/1/25/0 and no noise reduction at all.

A99 at 100

A99 at 6400

A900 at 100

A900 at 6400

D600 at 100

D600 at 6400

A77 at 100

A77 at 6400

anglescreen-85mm-100th6p3-640

The Minolta 24-85mm at 85mm and f/6.3, 1/100th at ISO 640. A perfectly clean file, critically sharp though only one third of a stop down from wide open. Click image to view a larger (not 100%) version. The quiet shutter and articulating live view screen enabled this natural study.

Although the Nikon lens used was a consumer grade optic the £800 28-300mm VR, when it managed not to misfocus or produce a strange reverse-VR blurring due to Shirley’s initial failure to delay shooting by a tiny amount to allow the lens to settle, often produced slightly sharper results than the 1999 Minolta 24-85mm I chose to use on the A99. Subsequent tests show that the Nikon sensor seems to have a slight fine detail advantage over the Sony at ISO settings around 200-800 with Adobe Camera Raw 7.3. While Canon’s 20 megapixel 6D sensor has a similar high ISO performance, detail sharpness was generally similar to the A99 rather than the D600. Cumulative issues with AF performance, lens field flatness and sensor planarity also led to some Canon images having zones of unexpected defocusing. The A99 has no such problems and I believe it has the same very high standards of sensor flatness and body precision as the A900.

Comparing the A99 with the A900, there is a clear one stop gain in ISO related performance above 1600. But at 100 to 400, the A900 from raw has a kind of fluid quality – the pixels seem to merge and give a luminous yet crisp image. The A99 never really produces this special quality at low ISO, though at the expanded 50 setting it’s impressive. Perhaps there’s an element of illusion in this, that the exceptional optical image through the A900 finder conditions me to see the final picture differently.

The A99 has the same generous 30-lens AF Micro Adjustment calibration as the A77, though I found no need to calibrate except a very small adjustment of -2 for my 28-75mm f/2.8 SAM. I’ve not yet used every lens I own. It also corrects geometry and CA in-camera unlike the A900, for JPEGs. One benefit over the Nikon D600 which does the same is that the EVF shows the true geometry and composition after the corrections are applied. Optical finders can’t do that. This does impose a small extra load on processing and if you are after the fastest overall response should be turned off.

The A99 has one of the best 1080/50(60)p HD video functions on the market. For the bitrate involved, it captures detail three times as good as you would expect. It tends towards a soft compression like the Canon 5D MkII, not a highly detailed frame level image like Nikon’s video. You can stream pure HD video to external recorders without compression, monitor live sound with headphones including provision for lip-sync or echoless real time latency, control the stereo mic/line input with manual gain, and use the Silent Controller during filming for various functions.

silentcontroller-a99

The Silent Controller is a free rotating dial with a push button in the centre allowing you to set its function before each use if you want. The default use is AF-C, AF-S, AF-A, MF, AF-D and there are no clicks. It is silent, for use during movie shooting to change exposure or audio volume (etc).

This controller is placed where the former C/A/S/M focus mode switch was on the 900. It has a central button you can press to reassign a function to it before use. The external knurled collar is turned with one finger, without click stops. By default it changes focus mode. A typical assignment for this during video would be audio volume.

The 99 can auto-crop to APS-C 10 megapixel files when DT lenses are fitted, or if this is set by menu (needed for non-Sony lenses like Sigma DC or Tamron DiII). It can do this for raw files, resulting in a smaller raw, for raw+JPEG, JPEG only and for video. The Smart Teleconverter works in JPEG-only or video modes, giving 1.4X or 2X (4.6 megapixel) stills. In conjunction with the rear controller you get a further continuous zoom range to 4X for movies (native resolution to 3X, interpolated between 3X and 4X, with a very smooth electronic zoom effect). The EVF remains pixel-sharp at 1.4 or 1.5X, but anything more and you can see that the sensor image is being enlarged and is softer.

The 1.5X crop is also enabled if you select the 8fps or 10fps higher speed continuous mode, using the mode dial, rather than the 6fps full resolution mode using Drive settings. The actual sequence burst rates are effectively identical to the A77 and not any better in practical terms than the 4-year-old A900, which unlike the 99 can shoot 5fps Fine JPEGs without a break until the card is full or the sensor overheats. The 99 can only manage 18 frames before slowing. The use of a single Bionz processor with SD storage in the A77 and 99 seems to have been a backwards step, the dual processor of the A900 was better able to sustain a data flow to the fast UDMA CF cards accepted by that camera.

a99-carddoor

The dual card slots – SD and MS Pro Duo upper, SD only lower. The lip surrounding the card slot area is an effective waterproofing channel and the metal spring plate gives the card door a firm, unstressed action.

The 99 does away with CF despite its 900-like body size. Instead, a dual SD drive very similar to that in the Nikon D600 is fitted. Even the spacing of the two slots, and the way the upper card sticks out a little more than the lower, is the same. But the Sony has the ability to accept Memory Stick PRO Duo cards in Slot 1 as well as SD. I find this convenient, as I use a classic Dynax camera strap with a card wallet fixed to it. This can hold spare MS Pro Duo cards, and by chance, the slots for these cards also fit the plastic cover for the new hot shoe exactly – there’s nowhere else to put it, and it matters. The latest MS Pro Duo HX cards offer maximum performance, better than SD UHS-1.

But in the end, despite all its problems, the Alpha 99 simply turns in a better success rate on my sort of subjects – landscapes, street scenes, people, events – than its rivals. The metering is more accurate, the AF is either as good or better, the image quality at high ISOs is a touch lower, the GPS works well, and of course the sensor-based stabilisation is a total winner. Sigma sent a 35mm f/1.4 in Canon fit to test. This lens is quite incredible, and transforms the Sigma offering. It’s so sharp even wide open that the smallest degree of camera shake makes a shot look inferior. I forgot that with the A99, there’s hardly any situation I can not tackle hand held and get pixel-sharp results. I used speeds like the 1/30th or 1/60th on the Canon 6D and lost the exquisite jewel-like edge sharpness of the Sigma. I’m just so used to getting every single shot usable and not thinking about whether a lens is stabilised or not.

This scene didn’t work well with the un-stabilised Canon 6D – I was too cold, and hanging on to a support with one hand while standing half way up a steep muddy slope, with two cameras. SteadyShot worked well on the A99. Click the image for a full size link. ISO 1600.

The new shoe

The new Sony Multi Function Accessory Shoe looks a bit like a rather crude old single contact hot shoe, and its central contact does indeed work to sync with any plain ISO unit. It can be used with Skyport and PocketWizard or generic flash wireless triggers, and I’ve also checked it with Wein infra-red. The three holes round the main contact are locking-pin holes, so beware third party generic adaptor makers. This is a good candidate for getting adaptors stuck.

alpha99-shoe

Under the leading edge of the ‘old’ shoe there is a recess, a horizontal slot not unlike the accessory slot fitted to the first generation NEX cameras. Its gold plated contact strips are very fine, and if this slot was left exposed by failing to replace the cover, it’s easy to see that dirt of moisture could get in. Unlike the NEX slot, there is no built-in spring loaded cover to shield it.

This interface provides the flash connection – duplicating the entire contact set for the iISO or Minolta i-shoe known as the Auto Lock Accessory Shoe by Sony, which is now gone. A small adaptor ADP-MAA is provided with the camera to convert from the new ‘old’ shoe to the Minolta standard. It is as slim and firmly fitting as they can make it, but still felt a little vulnerable with an HVL-F58AM mounted on top, especially when the camera was held vertically. A new flash unit, the HVL-F60AM, has been released for the A99 and in line with current trends it incorporates an LED video/modeling light. This aims forward to double as an AF illuminator, and can not be bounced.

flashadaptor-base

The adaptor ADP-MAA shown with its connectors and the small spring loaded pins and ‘ball bearing’ centre contact to fit the new Multi Function Accessory Shoe.

Audio input is also handled by the shoe for microphone units compatible with the Cyber-Shot/HandyCam/NEX models using the new shoe. Since this shoe also appears on the NEX-6 and the DSC RX1 where it is the only way to input audio, there is some hope for a line/mic module. It is not needed by the A99 as this has a 3.5mm phantom powered stereo jack input, under one cover with a similar headphone output. Both input and output volume levels can be controlled on screen.

alpha99interfaces

This change means that there are now three generations of hot shoe in the Alpha system, and five different shoe or accessory mounts in the Sony still camera systems of the last few years – there’s the Sony CyberShot shoe in two generations used by DSC F series and the R1, the inherited Minolta Auto Lock shoe, the NEX Smart Accessory Terminal and this new Multi Interface Shoe. To say this is unwelcome would be an understatement, but the shoe provides a long-term solution for future development and if you want to create a Christmas tree, it’s still backwardly compatible.

Its 24 contacts cover two different levels of power supply to accessories, audio in and out, flash or wireless flash control and connection, add-on GPS unit (the 99V includes an internal GPS, the plain 99 does not), add-on WiFi module, and EVF or HD monitor feed. We should expect to see a WiFi module and a monitor screen option, while the regular HDMI output can simultaneously send uncompressed video to a recorder. What we don’t know yet is whether the future WiFi module will be as clever as Canon’s built-in WiFi and do more than just send files from the camera. If it has an Android/iOS app for remote viewing and shooting it will be a winner.

The flash system remains with the original Minolta digital wireless TTL protocol as found from the HS(D) guns onwards. There is no built-in flash on the A99 and thus no built-in wireless control. The HVL-F20AM fold-down mini flash made for the A900 as a wireless trigger works perfectly on the 99 with the ADP-MAA but it’s no way as neat. The one benefit is that for direct use, it’s raised a little higher and casts less lens hood shadow while causing less risk of red-eye. We would guess that a new version will appear soon enough. I’ve tested it both directly and bounced, and as a wireless controller.

Flash exposure with the A99 has been exactly as expected – not a wildcard – but short of testing every flash in every configuration, I can’t guarantee against the kind of overexposure found in the A77. All I can say is that my tests, made within the expected range of units using appropriate ISO settings and apertures, have worked well. I do not use flash often outside the studio, and given the performance of the A99 at high ISO settings I doubt I will ever want to.

Any reverse adaptor for the shoe – to allow the HVL-F60AM to be used on Auto Lock shoe cameras – will not of course provide functions other than flash. The Auto Lock shoe doesn’t have any of the other contacts.

My reservations about the Multi Interface Shoe are only that its connector strip looks delicate and each contact has a very small physical contact area. Even the Auto Lock shoe has had its problems with occasional contact failure due to wear and tear or foreign matter.

a99-connectors

There is, of course, also a studio flash PC sync cord connector, threaded, under the same cover as the DC Power Supply connector. Below these is the Remote Cord connector, and between them, a GPS symbol marked next to the loudspeaker. Sony does not give advice which way up to hold the the camera for the best GPS reception. With the Canon 6D, lying on its back face up is the recommended position.

The focus system

Because of the Smart Teleconverter, APS-C auto crop and video crop/zoom functions the A99 needs an AF module perfectly suited to the APS-C or smaller areas. It gets exactly that – the same module as the A77 uses, and that one starts off with leeway to work in Smart Teleconverter mode.

It’s a rather staggeringly tiny 6 x 12mm AF array, one-ninth of the frame area. Imagine the frame divided into thirds both ways and the entire 19-point, 11-cross point phase detect array fits within that modest central rectangle, but forms more of a horizontal ellipse shape within it. No AF points reach into the corners of that central patch.

The manual is deceptive because it frequently shows the AF area and points out of true scale to the overall frame.

a77-AFarea-ona700

This is why you come to photoclubalpha – we do the stuff the others don’t notice! Above, though rather crudely taken due to needing to hold an A55 with 30mm macro up to the eyepiece of an A700 aimed at the rear screen of the A77, is the actual AF module of the 77 (faint squares) overlaid on the AF markings of the A700 finder. This may be out by enough to make the overall AF zones similar , but it looks to me as if the A77 doesn’t quite cover the same extent as the A700, even after allowing for the 96% A700 finder view.

a99-AFarea-ona700

This is the same technique applied to showing the AF zone of the A99. As you can see, it’s the same module as the A77, floating in the middle of full frame. It doesn’t come anywhere near to the extent of the old A700 module, or the A77 in its cropped format frame. It does not even reach the ‘rule of thirds’ favoured points for composition. Coindidentally, the Phase Detect AF-D zone with its 102 tiny sensor spots occupies almost exactly the same area as the square formed by the A700’s top and  bottom horizontal line sensors and triple vertical groups.

sonyafrepresentation

Here is how Sony generally represents the AF zone within manuals. This is not a graphic dealing with AF, and there is no need to show the AF zone larger than it actually is relative to the rest of the display. From the A99 manual.

Sony may have saved some money by using exactly the same module as the A77 but it’s just not adequate. You can compose shots where not a single part of the subject you want to have in focus touches an AF point, and moving subjects can move beyond the active zone all too easily. What was needed was twice the AF area – 1.4X the linear dimensions at least – even if that meant adding further non-cross points.

This module works with all Alpha lenses, from the earliest Minolta screw drive to the latest SSM and SAM. It works down the EV-1 (minus one), the same as Nikon’s 39-point D600 module and four times less sensitive than Pentax’s latest SAFOX design or Canon’s equally tiny central AF cluster in the 6D. It’s still better than AF used to be considering its ability to work optimally with relatively small apertures.

The marked AF-D area is a larger 12 x 12mm square, and when one of the compatible lenses is used and the appropriate AF-D mode invoked with subject tracking, a square array of 102 on-sensor PDAF focus assist points becomes active. I’ve described the result as a fireworks display, though that depends on the lens and subject. Groups of these points can light up, alongside the main focus points, in brief recognition of the subject.

As to whether it works, I can’t say. It turns on and become visible. Does it make any difference? I use both incompatible and compatible lenses. I can’t say that I have been able to spot any real difference in performance, certainly nothing I can observe or measure. All I see is the points light up after the focus has been acquired; they seem often enough just to confirm what area surrounding the chosen focus point is also within depth of field at focusing aperture.

300mm-500f9-iso800-APSC

To get this shot, the surfer had to be kept within the AF area of the A99. I was using a Sigma 70-300mm f/4-5.6 Apo Macro DG lens (which has replaced my Sony 70-300mm f/4.5-5.6 SSM G – reasons of superior sharpness, light weight, size and close focusing prevailed over the superior colour rendering and bokeh of the big G lens). Click picture for a larger, but not 100%, size.

surferfullframe300mm500thf9iso800

Here’s the full frame, 300mm, 1/500th at f/9, ISO 800. You can see I was keeping the central AF point on target because in this case, there was going to be plenty of spare megapixel estate to crop away. I took 115 shots of surfers, mostly single frames but some short maximum speed bursts between 2 and 5 frames, in nine minutes. Not one is out of focus even when the surfers came in closer to the camera at speed. But… they are all within that small one-ninth area of the frame which features the AF grid.

This 102-point zone is also too small, and the wrong shape. It’s a cut-cornered square. I am shooting 2:3 or 16:9 ratio stills or movies. I am not shooting square images. There is a reason, and it is also the reason more lenses do not work with this on-sensor phase detect focus assist. The pixel pairs on the sensor with their differentially angled microlenses use the image forming ray cone in a specific way to detect front or back focused phase shift. To do so, they demand a specific exit pupil geometry and need to be placed relatively close to the lens axis. This on-sensor array can not be extended to cover the entire sensor, or even to extend to a echo the image format more accurately.

In theory, on-sensor PDAF should be extremely accurate, and should be able to work with contrast detection (as it does on other sensors using this technology). But on the A99, they don’t have that function. You can not opt for hybrid contrast detection with on-sensor PDAF; the system is designed to augment the SLT-fed main PDAF module only.

I’ve already observed that the perceived maximum resolution (microcontrast and detail sharpness) of the A99 does seem to be lower than the D600, despite Sony’s zonally graded low-pass filter which I can confirm does improve the performance to the edges and corners for wider angle lenses. The on-sensor PDAF zone is sufficiently populated and large to have some effect.

In case you think I’m talking up Nikon’s AF module over Sony, don’t… the D600 certainly did not focus any more accurately, quickly or reliably than the A99. Both AF modules are small in coverage, and both cameras do have an APS-C crop function including raw file saving and faster burst capture. The thinking has been alike. Ditto for the Canon 6D. That’s got a pitiful APS-C area module with only 11 AF points, ten of them plain old linear f/5.6 the centre one a mere f/5.6 cross with vertical linear f/2.8 (slightly inferior to the Alpha 700 of 2007 in all respects except low-light sensitivity). Canon doesn’t even have the excuse of APS-C or 2X capture modes, you can’t fit any Canon APS-C (EF-S) lens to the body let alone get the optional crop functions enjoyed by the D600 and A99.

So, here’s a new bunch of full-frame choices, and all three turn out to have small-area AF modules. It is Hobson’s Choice.

The A99 can never be rescued from its tiny principal AF zone by firmware updates and owners will just have to live with it. Things could have been designed differently; they were not. The same module is just about right in the A77. It’s lost in the big image of the A99.

Shutter response

One of the more surprising things about comparing the humble Nikon D600/Canon 6D with the advanced Sony A99 is the sound and feel of the shutter action. Both rivals have a low 1/4,000th maximum speed shutter, but are still capable of flash sync similar to the A99 (1/200th for Canon, 1/250th for Nikon, 1/250th for A99) which means curtain travel speed is similar and they simply chose not to permit a narrow enough slot to achieve 1/8,000th.

The D600 with its complete mirror up and down, twin shutter blind and recock action feels and sounds sweeter than the A99 which has no mirror to move and no first shutter blind. In fact, it’s louder and the dB peak for a very brief spike is about twice the volume of the A99 or the A77. But some recording with sound analysis reveals that the A99 sounds ‘louder’ because the actual duration of the sound is almost twice as long, and divided into two distinct clunks.

d600-a77-a99-200th

The D600, like the A77, has a normal single-shot shutter sound of around one sixth of a second, as you would expect from cameras which can achieve 6fps or something close. The Alpha 99 has double that. I timed it at over 300ms, and if first curtain mechanical mode was used, well over 400ms.

It took me a few days and some digging to find out that the 14-bit readout on the A99 only applies one shooting mode – single shot. Any other mode you select, including Lo 2.5fps continuous and all multishot or JPEG only modes, uses 12-bit readout from the sensor. This was already documented in the literature about the A99, but what Sony omit to say is that the 14-bit mode causes a noticeable pause between the shot being captured and the restoration of EVF viewing. This pause is around 1/10th of a second longer in single shot mode than the blackout which happens during 2.5fps or the first frame of any faster sequence, and totals 200ms or 1/5th of a second.

single-versus-lo

single versus lo

Above is an .mp3 link of single frame 14-bit capture compared to 12-bit capture in a Lo sequence setting. The green rectangle on the graphic indicates the extra time used for 14-bit processing; the overall time of the longest sound is over 400 milliseconds – nearly half a second is a fairly long duration for the audible cycle of any modern camera’s shutter actuation.

Thanks to the detailed analysis of audio recording using Amadeus Pro, followed by frame by frame time analysis of an iMac movie clip showing the actual LCD screen blackout period, I have been able to see this ‘dead period’ of blackout and image processing is longer than the entire shutter action of the A77 or D600; indeed, the shutter actions of the A99 surround this hiatus. The card writing light comes on a millisecond or two after the live view blacks out. The action of the shutter curtain being recocked, which accounts for a substantial part of the overall shutter noise, only happens at the end of the 1/5th second pause.

Short of a firmware upgrade, there’s nothing you can do about the extremely slow single-shot shutter cycle or the interrupted finder view if you want the extra quality which comes from 14-bit raw capture. Nikon offer you a choice of 12 or 14 bit, compressed or uncompressed raws. Sony does not offer a choice and makes the bit depth specific to the way you shoot. There is no doubt at all that both raws in single-shot mode, and Extra Fine Quality JPEGs created in this mode, show less noise when adjusted to an extreme. 12-bit capture is fine for lower ISOs, in good light, with correct exposure.

a99-14bitprocessing

The 14-bit raw file has great flexibility for shadow and highlight adjustment from raw without losing colour values or subtle tones. I’d rate it as one of the best raw file formats I have worked with, at normal (100-800) ISO settings. No local dodging has been used above to enhance the backlit scene – just what amount to curve adjustments.

The 3fps Lo motordrive setting was easy to use for single frames, with a light touch. This caused half the finder blackout duration and no more than a 290ms total sound envelope (including all reverberation – the main sound is not unlike the 180ms of the D600 or A77). It didn’t matter what file size and type I recorded or what card was used. This setting always produced the shutter cycle, and sound, I would have expected the A99 to have.

Having observed the way the camera works, I’m afraid I am now rather too aware of it. It makes me appreciate the Alpha 77’s much faster, sweeter action and even consider the A900’s noisy clack with affection. One effect of the longer shutter cycle is to make the relatively quiet sound – 4dB quieter at peak than the Nikon D600 which also has a higher and more intrusive pitch – seem ‘louder’ than it actually is.

What is interesting to me is just how few users, when I asked for information or tests of their own cameras, were really able to hear the differences or see the blackout period. I can thank Gary Friedman for being able to confirm my findings – he could understand exactly what I was looking for. And thanks to several posters on Dyxum forums, whose concerns were with the image quality of 14-bit versus 12-bit, for providing the information I need to put the facts together and realise that no amount of adjusting settings was ever going to make the A99 share the brief blackout and sweet shutter sound of the 12-bit A77.

Gary uses wireless flash a lot. I don’t generally use flash at all except in the studio. Gary has observed delay in wireless flash triggering which is just as long as the entire shutter cycle, and made a great short video which explains this problem:

http://youtu.be/eHrBcT51oE8

I’m not sure if this is a definitive test – there are other trigger flashes which can be used and I’d like to see the times from the HVL-F60AM, F58AM, F42AM and so on. But it indicates that it’s not just me who does not use wireless flash. Nor do Sony’s systems designers and technical team!

The LV dilemma

Sony’s camera line is now totally committed to using the sensor as the viewfinder. This means that whatever performance they can pull from that sensor, it will always be a quantum drop lower than the same sensor used in an optical viewfinder camera. The level of read noise is heavily influenced by the sensor temperature, and continuous live view makes the sensor heat up.

Sorry, I can’t measure it. No doubt someone equipped with the right tools could measure the temperature of the silicon after 15 seconds, a minute, ten minutes or any other period and also allow for ambient conditions. Sony’s handbook reveals that most performance figures and presumably most pre-production tests assume an ambient temperature of 25°C. By my standards, that’s extremely warm, even as an indoor temperature.

There are warnings that the camera may shut down if video or continuous shooting result in an internal overheat. I’m just not going to be testing the A99 to that degree. The best I could do was to set it to ISO 6400 and the highest video bitrate, and leave the camera running in low light, to ensure the highest gain levels.

I’m fairly sure all of the Nikon D600 noise level advantage can be put down to not using full-time live view, and the effect of the SLT mirror. The Sony sensor is almost certainly just as good overall, give or take whatever effect the phase detection pixels may have.

a99-base

Battery – left hand as seen (right hand grip). To the other end, a narrow covered port allows connection of a vertical grip without cannibalising the battery already fitted. The resulting three-battery configuration is the only way to get real stamina for a busy day’s uninterrupted shoot, especially if you use GPS.

LV and EVF lead to very short battery life, and this may be exaggerated if you want to do very long exposures.

So there is the ultimate dilemma – the Alpha 99 is a master of all the functions and features you could want just so long as you want EVF with it. If you don’t, then the Nikon and Canon alternatives will not only be better choices for you, they will save you into the higher hundreds of pounds or into four figures in dollars.

My choice

The Alpha 99 is currently the full-frame camera I’m working with and will stick with until the next generation arrives.

I sold my Alpha 900 shortly after the Alpha 99 arrived. I regretted it straight away, but that is just down to an attachment after four years of familiarity, and a false reassurance that this is such a solid and simple camera it would have lasted me for life. I do not make videos often, but when I do in future I want full control over direct audio input as audio overdubbing from a separate recorder is something I have found very tricky to handle (at least in iMovie, which is what I use).

I didn’t sell my Alpha 77 despite the poor performance in low light, and the lack of the audio level control. It’s far too useful, having 24 megapixels in an APS-C crop, rather than the 11 produced by the A99 crop format. Also, the general colour and grading of video matches the A99 well enough for the 77 to be a second camera. After we bought the Nikon D600, I found the colour and contrast sufficiently different to mean mixing video from Alpha and Nikon was not an option. It also has manual audio input gain – but we can’t team them up. For much the same reasons I have kept my NEX-5n and my Alpha 55.

Could I work professionally with the Alpha 99? Yes. I’m confident it would not let me down in any situation I’m likely to encounter or set up – I do not shoot sports or hard news, events or conferences. Future professional use would be likely to be public relations, corporate brochure, annual report, advertising, industrial and environmental, executive portraiture, products, architectural, building works, stock travel and landscape. Frankly, anything I could once have shot on a Hasselblad can easily be tackled with an Alpha 99.

Despite this, I would be very happy if Sony revived the highest end optical prism DSLR in future. An Alpha 900 quality version of the D600 would have been perfect. And I do not think I am alone in showing some regret for the apparent end of the single-lens reflex Alpha.

– David Kilpatrick

Footnote: elsewhere, the usual comment has been made that I’m wrong to compare this with the 6D and D600 because the A99 is competing with the 5D MkIII and D800. We have a D800E and may acquire a second one. It’s not competing with that; the D800, and especially the 800E, appeal to a different market where using 36 megapixels counts more than several other factors. It is also not competing with the 5D MkIII, which is locked into a huge Canon professional userbase as the one undisputed mainstream body. Nikon has a fragmented position; the D600 isn’t on the right level, the D800 offers benefits many users do not need and loses advantages they want to keep, the D700 is low resolution, the D3s the same and the D3X is priced beyond its specification. Nikon professionals I know all say what they want is a D700 body (and shutter, etc) with a D600 sensor – they would then have a camera at precisely the same level as the 5D MkIII. They would have the one easy no-doubts choice to make the same way Canon users have.

Like it or not, the Alpha 99 is actually competing with the 6D and D600, and it does not matter to the market that some aspects of its construction and specification are closer to 5D MkIII ‘build’. Sony is doing something in enthusiast-level photography right now that it has done well in the past in television and audio, positioning its pricing as a premium consumer brand. The DSC-RX1 specification and pricing tells you everything you need to know about how Sony sees the market.

a99processor

 

This is why the A99 doesn’t even really compete with the older A900. Single Bionz processor (that word saying ‘Dual’ refers to the memory card slot) where the 900 had two – and 14-bit data to process. The SD cards, even Class 10 UHS-1, also represent a bottleneck in data transfer. Using the highest end MemoryStick PRO Duo overcomes this. Photographed on the Sony stand at photokina.

Sony links up with HP’s Snapfish

Unfortunately your editor really just wants to go and live somewhere else, preferably a different planet. ‘PlayMemories Home‘ was bad enough but now it’s linked to another truly naff name, HP’s Snapfish. At least they haven’t tied up to the website with the worst name in the world, SmugMug (why didn’t they call that Slightly Self Satisfied Idiot instead?).

Press release follows. Rant over (or not quite, see end).

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Sony has teamed up with Snapfish by HP to make online photo printing even easier for owners of Cyber-shot™, “α” A–mount and E-mount digital cameras and Handycam® camcorders.

The latest version of PlayMemories Home software now lets users* order great-looking prints from Snapfish, the online photo printing service from HP. With millions of users worldwide, Snapfish offers a wide range of high-quality personalised photo products – from individual prints and photo books to posters, mugs, greeting cards and more.

PlayMemories Home Version 2 will be available for free download for customers of new cameras and consumer camcorders from Sony and will allow you to upload images directly to Snapfish. Just click on the Snapfish icon: once you’ve registered for your free Snapfish account, it’s easy to upload selected images from PlayMemories Home for online printing and delivery to your home.

As an additional incentive for Sony camera owners, there’s a tempting offer to save 50% on your first photo book for newly-registered Snapfish users.

Included with all new digital cameras from Sony, PlayMemories Home software makes it easy to enjoy, share, manage, edit and print all those photo memories stored on your PC’s hard drive.

The latest version of PlayMemories Home PC software (Version 2) with Snapfish integration comes free of charge with all new digital cameras and consumer camcorders from Sony. Existing PlayMemories Home users can update to the latest version by visiting www.sony.net/pm

* Snapfish service is integrated with Sony PlayMemories Home Ver. 2 software in these countries: United States, Canada, China, Australia, New Zealand, United Kingdom, Germany, France, Italy, Austria, Belgium, Switzerland, and Ireland.

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I just wish all this stuff would go away and we could have honourable, sensible names for reliable and excellent services instead of stuff made up to appeal to infants. Fortunately the Sony software is PC-only. They must think Mac users are grown up. But they are not bright enough to identify what platform visitors to the weblink above are using. Although there a popup listing the (Windows only) platform versions applicable, Mac users can happily click a download button and get a completely useless .EXE file delivered. Most download pages prevent this because they know there are as many inexperienced Mac users as there are any other platform. Ditto iOS and Android. – DK

 

 

Sigma’s system revolution

Sigma Imaging, already one of our favourite lens makers, has announced upgrades and new functions for their entire system which will transform the way it works with all the major camera systems.

The new DC 17-70mm f/2.8-4 – DC (APS-C format) lenses have never been given the EX designation, even when they clearly matched the EX specifications. Now the EX name and its exterior finish are both going, replaced by one standard for all formats, and one finish.

The entire Sigma range is being restyled, with a new finish, and the old distinctions between EX DG and other lens ‘grades’ are disappearing. “All our lenses have become what we once called EX”, said Graham Armitage of Sigma UK, at photokina. “The demands made by digital systems with higher resolutions mean we have to produce perfect lenses for all the formats from MicroFourThirds to APS-C and full frame.

“Our greatest breakthrough is in MTF testing. We have designed new MTF equipment, which will be used on the production of new lenses from now on. The MTF testing system we use for development is too slow to be used in production, and we have had our own Bayer sensor based system for this purpose. But it was not proving high enough resolution for new camera sensors like the D800.

“Now we have built our own MTF testing system, based on the 46 megapixel Foveon Merrill sensor used in the latest cameras. This allows a much better MTF tests. It will be used to test the sharpness of every new lens that Sigma manufacturers.”

We asked Graham if this would only apply to expensive professional teles, zooms and specialist lenses. “No, it will apply to all lens types”, he said. “We have been able to use the data from the Foveon sensor based tests to improve the performance of all our lenses.” Because the sensor is true RGB not Bayer much better information about chromatic aberration has been gathered and Sigma is feeding this back into the design and manufacture process.

The new lenses have a robust feel, with machined metal barrel and mount components (a current trend for many lens makers) and a slightly soft-looking matt or silk finish. All Sigma lenses are assembled by hand, in Japan, using traditional construction methods.

But the most exceptional advance has been made inside the new lenses – sadly, it can’t be retro fitted to older ones.

The USB ‘dock in a cap’ has an LED activity indicator and we handled the real thing. This photo looks a bit over-retouched.

All new Sigma lenses will be compatible with a USB-connected dock allowing firmware updates to be made by the user. Sigma has honoured its relationship with users for decades by upgrading the chips inside lenses free of charge whenever the protocols used by camera makers created an incompatibility. Now they have developed a way in which users can do this themselves without the lens having to be returned or ‘operated on’ in a workshop.

“The USB dock will cost about the same as a filter”, Graham told us. I suggested this could mean £50. He indicated I was on the high side. This dock device, which resembles a thick rear lens cap, might be £30 or so.

“It does more than just upgrade the chip”, he continued. “With a PC program, you will be able to change the focusing speed of the lens. All AF systems are a compromise, a balance between speed and accuracy. You will be able to set the lens to suit your working style, increasing the focus speed if you shoot action or improving accuracy if you take subjects like landscapes and portraits.

“All DSLRs have problems with front and back focus. Some cameras offer AF calibration, but not all allow you to have different corrections for each focal length of the zoom lens and for different focusing distances. Using our program, you will be able to calibrate new Sigma lenses for the full range of settings so you don’t get front or back focus at any distance or focal length.

“Not only that, with new telephoto and macro lenses you will also be able to change the distance ranges used by focus limiter switches.”

The new-style 120-300mm f/2.8 – one of the first lenses compatible with the USB programming system, allowing perfect tuning of front and back focus corrections across the zoom and focus distance range.

This function sounds familiar, indeed it’s almost what the new Sony Alpha 99 offers with a restricted range of Sony lenses – on-camera setting of focus range limits. The difference with the Sigma option is that future lenses with a range setting switch can each have their individual far, middle and near limits set and there will be no need to go into camera menus to change the setting when shooting.

Along with Sigma’s recently introduction of nano-type hard coatings which resist water and dirt, their improvements in environmental and dust sealing of lenses, we look forward to testing Sigma products in future and finding them close to the blueprint for the optical design. These innovations draw a line between existing generations of Sigma lenses and the future, as they can’t be fitted to older models. They also take Sigma yet one more step ahead of the camera makers’ own aspirations.

Sigma has always shown the industry what can be done in terms of advanced optical design – often unmatched for many years, with such specifications as the 8-16mm and 12-24mm zooms, the 300mm-800mm and many others remaining unchallenged even by Nikon and Canon. Now they have set out to show what can be done by harnessing a simple standard interface and allowing communication to the lens IC through the contact-pin array.

Finally, Graham showed us the new 35mm f/1.4. “Nikon has done really well with their 35mm f/1.4”, he said. “We thought we would try to beat them with this one. We are hoping it turns out to be the best 35m f/1.4 on the market”. The new MTF testing may yet be proved! I mentioned that Samyang had also done pretty well with a 35mm f/1.4. To that there was no comment…

And then there’s the obligatory picture from any trade show – the man who can’t resist trying to find out what the butler saw, courtesy of the Sigmonster!

– David Kilpatrick

This post has been edited with Sigma’s help on October 3rd. The original reference to Zeiss MTF equipment was incorrect; this is used in design and prototype development, and will continue to be used. Sigma’s own production-line testing system is what’s been updated with new high speed Foveon-based MTF bench.

Swedish NEX from Hasselblad

Perhaps the strangest news from photokina, which I have not rushed to post here because I reckon every single website in the world will have treated it as urgent breaking unparalleled wonder – is that Sony and Hasselblad have signed a deal under which Hasselblad will make an APS-C (or perhaps full-frame NEX mount) mirrorless camera in Sweden.

Without any images other than a Hasselblad H logo to accompany the revelation, the world is left wondering what exactly Fujifilm has done wrong. A drawing of what might be an A-mount mopdel was shown at photokina but looks as if it could have been done by a teenager on the back of a school jotter; a prototype or mock-up NEX revision called the Lunar was little better. Clearly, Sony already announced its intention to allow approved partners to use the E-mount, and we can assume that the Hasselnex will come thus equipped. Carl Zeiss has announced a roadmap for E-mount lenses, and of course that would fit Hasselblad down to the ground. No need for a new lens range, their bodies (NEX-7/6 type?) would be sold with blueprinted Zeiss glass. Surely? Not just with relabelled Sony zooms?

And the bodies would be made in Sweden. That means less than you might assume, since all the internal component parts would presumably be sourced from Sony as a CKD kit. CKD is motor industry speak for ‘Completely Knocked Down’ – a car shipped as parts to a factory, to be assembled there. Hasselblad Sweden used once to be very good at assembling cameras, they recently moved all Danish production back to Gothenburg and re-established Swedish manufacture.

The BJP has been told the body would be aluminium. The NEX-7 is magnesium alloy. And the 7/6 body already looks really classy. The Lunar simply does not.

Image from the BJP

From the BJP report on this €5-6,000 version of the NEX-7 – click image to see their interview.

So, what of the H-series blads – made in Japan by Fuji, Hasselblad’s long-term partner in the H-range project?

And, when Hasselblad was quite willing to work with Rittreck/Norita/Fuji on rangefinder type cameras (the XPan was not their idea, it was a Rittreck/Norita concept) what has changed?

After all, Fuji’s XPro-1 and XF are staggeringly good cameras with a ridiculously ambitious and excellent range of lenses, not just superfast primes abut extending into popular zooms. They are built and styled to fit Hasselblad ambitions. Fuji optics have proved good enough for Hasselblad H.

Something has shifted. Maybe Hasselblad is no longer tied to Fujifilm and the announcement of manufacture returning to Gothenburg, made earlier this year, relates to a shift not from Denmark only but also from Japan. Perhaps Sony has demonstrated that superior medium-format size CMOS can be fabbed, saving costs for future generations of yet unimagined H-series bodies/backs where six 24 megapixel APS-C sensors will be stitched to create a 144 megapixel sensor measuring 47mm square!

Or perhaps Hasselblad realises that mirrorless need not mean hand-waved. They used to build waist-level cameras. How about a mirrorless waist-level, styled like a mini ‘blad and with the screen on top with a flip-up hood and magnifier?

Too much kölsch and imagination, I fear. But this certainly is strange news. A scoop for Sony – but exactly what for Hasselblad remains to be seen.

– DK

A divided path for Sony

Most Japanese camera companies have divisions, groups, and teams right down to the very last individual product. Even a single lens design may have its own small team, from R&D and design down to final assembly. What we are seeing happen in Sony right now is the result of complex competition and collaboration between several teams.

Take, for example, the new Sony 300mm f/2.8 G SSM II. You might assume this lens was mainly an Alpha division product from the former Minolta heritage, but in fact it’s been redesigned to work better with NEX and also with both consumer and professional HD video cameras from APS-C through Super-35 to full frame 35mm.

SLT/SLR system users gain with improvements like Nano AR coating (similar to new coatings introduced by Sigma, Nikon, Pentax and Canon), better MF control, and a better degree of weathersealing. It’s the complete update of the SSM motor (is it SSM II, or entire lens version II?) which provides compatibility with on-sensor PDAF and enhances CDAF, to offer the prospect of object-tracking AF during video. At £6,700 UK it needs to show major benefits to compete in the still field, but may have a market all to itself when fitted to the new NEX-VG900E full frame video camera.

It’s easy to think – ‘the first ever full frame video cam!’ but that is not the case. The Canon 5D MkII established the DSLR form as an acceptable professional video camera, and in the last three years a vast industry of shooting rigs, grips, follow focus devices, monitor screens and accessories has grown up all based on turning this video-unfriendly camera into something movie and TV crews are comfortable with.

Sony has implemented the sought-after 24 frames per second rate in all the new models just announced, not going for the European excuse of 25fps being close enough. This is to allow a so-called cinematic look, despite the fact that the movie industry has been trying to get away from 24fps just the same way as it threw off the shackles of 16 or 18fps many years before. Users want it, so they have at last provided it.

From the very start of reviewing HD capable cameras, we have emphasised the issues with audio – the *absolute* not optional need for audio fixed or adjustable manual gain control. I’ve done this for years in printed magazines. So has any other writer who ever had to use a camera with auto gain and nothing else. First Nikon (basic) then Canon (full control) and now Sony show they listened, if slowly and relunctantly, to something their own audio engineers would have told them was vital not a luxury.

End result – Sony enters the mainstream for HD video shooting with the Alpha and NEX systems.

The same technologies, in terms of sensor use and implementation of optical advances linked to Phase-Detection On Sensor (which I’ll call PDOS), now apply across the entire range of Sony digital imaging products from Handycam, through Cyber-Shot, through NEX, to Alpha. The Cyber-shot range is only missing an APS-C model.

What is particularly interesting is that this divided path is a parallel path now and not a divergent one. There’s no question of one straight and narrow path leading to heaven, one broad and easy road to hell, and winding ferny way to faery. Instead we get a four-lane highway joining Sony present to Sony future, with every option to change lane if you want to overtake.

Legacy and inheritance planning

Sony acquired a lot of old Minolta tech as a dowry in the 206 marriage to the Alpha system. Now having invested that legacy they have to make sure it still has value for future generations.

And example of what this really means can be found in the PDOS restrictions of the A99. The AF-D mode won’t work with some lenses, yet. For example – the 16mm f/2.8 fisheye, the 20mm f/2.8, the 16-35mm CZ f/2.8 zoom, any Konica Minolta zoom, any old Minolta AF system lens, the 35mm f/1.4, the 85mm f/1.4 CZ and G, the 135mm f/1.8 CZ and f/2.8 STF, the 200mm f/4 Apo G Macro, the 24-105mm D, any macro lens, the 400mm f/4.5, 600mm f/4, 200mm f/2.8 or the 300mm f/2.8 G SSM (pre-II). It is not even flagged as working with the 30mm f/2.8 SAM macro, 35mm f/1.8, 50mm f/1.8, 85mm f/1.8 or the 24mm f/2 Carl Zeiss SSM ZA. Or the 70-300mm G SSM, let alone the basic 75-300mm SAL.

It will only work with the 24-70mm f/2.8 CZ, the 28-75mm f/2.8 SAM, the 50mm f/1.4 current design, the 70-200mm f/2.8 SSM, the new 300mm f/2.8 G SSM II, 70-400mm f/4-5.6 G SSM and the new 500mm f/4 G SSM. Sony’s firmware requires that the user enter the focusing range involved. This is put forward as an advantage – making the system less likely to focus on a fence instead of the view through it – but in fact it’s an integral part of PDOS. Each of the 102 focus points spread across the sensor* is not a single pixel-pair, it’s a cluster of several pixel pairs tightly grouped. There may be the minimum of three differently pitched PDOS points per location, or perhaps more, to cope with the wide range of exit pupil conditions encountered when using Alpha-mount lenes.

For any one lens, the camera will need to know the broad focus range involved (hopefully the main PDAF array will normally provide this), the aperture at which focusing is taking place, and some further information about how the zoom or lens design influences the exit ray cone. From this, it will select the correct PDOS configuration and I think that for some lenses only a central zone will be active.

Sony states that firmware updates will add further lenses, but this technology only requires some relatively simple information based on the optical design. If they could have added more lenses from the start, they would have. Watch this space, because it may remain more of an empty space than you hope for.

* Sony imply that the PDOS area is large – actually it’s about 13mm square, within the APS-C zone, and does not extend towards the ends of the full frame much further than the cluster of regular PDAF points. These seem to be the same module as the A77, giving the A99 an AF ‘zone’ much smaller relative to its frame.

Zones and maps

The Alpha 99 also introduces something which almost has to happen if any of the above is going to work at all. Anti-aliasing filters do not have an even effect on sensors, especially full frame with wider angle lenses where the rear nodal point of the lens is relatively close. Geometry means that light passes through them at more of an angle towards the edges and corners, and there is therefore more distance between AA filter and sensor surface. With an AA filter having a single value diffraction-created diffusion of the image-forming light (aka blurring), the effect gets stronger as you move away from the centre (axis).

Since most lenses are also sharper in the centre and typical sensor microlenses are not ‘tuned’ from centre to edge, the overall result is to emphasise fall-off from centre to edge. Secondary results include a dramatic tendency for bright sources imaged in the extreme corners to have a strong, directional, surrounding glare. This is boosted by internal multiple reflection between the sensor surface and the inner face of the AA filter, especially if the incident rays are at 40° or less to the focal plane (where on-axis rays are described as being at 90°).

The best solution to this is the classic one – what Olympus called telecentric lens design, where you do your best to project the image on to the sensor from a relatively distant position keeping all rays, centre to edge, as close to 90° as possible. But that calls for new lens designs and also restricts the optical formulae, tending to produce much larger heavier lenses. It’s very practical on one-inch or smaller sensors, OK on MicroFourThirds, feasible for NEX but not much an option for a full-frame coverage.

So, Sony has introduced an AA filter which they describe as ‘multi-segment lo-pass’. It’s not one strength across the entire frame, but divided or graded to optimise performance towards the corners. At the same time, they have introduced a similar zoning to noise reduction, which we assume to mean the NR applies to the raw output before a raw file is saved. Combined with the usual sensor mapping, and lens profile based vignetting compensation, the overall effect of these refinements should be to:

  • Even out the apparent resolution and image acutance across the frame
  • Reduce the mapped peripheral gain effect, under which images appear to be noisier at the edges unless natural vignetting is allowed to be present
  • Remove artefacts such as corner streaking or softening, and fringes or flare from light sources towards the extremes

No doubt this is also combined with the detailed ‘repair’ function used to deal with PDOS. More on this later, as there’s an implication that the PDOS on the A99 is not the same as that on the NEX-5R or NEX-6, and may use a second layer of pixels leaving all 24.3 megapixels of the imaging layer untouched.

The area-specific NR is probably essential to achieve the high ISO range at 14-bit conversion, though it’s not unusual for cameras at this level which claim 14-bit conversion to have a variable true bit depth depending on ISO, image style and exposure conditions. We can assume that 14-bit will only be fully utilised under ideal conditions at ISO 100.

Exactly how Sony has managed to adjust AA values in ‘segments’ without visible transitions, we’ll have to find out. The same goes for NR.

The missing NEX-9

There is one camera absent from the September 12th launch – the 24 megapixel full frame NEX-9. The appearance of the HD video Handycam, NEX-VG900E, indicates that the model name for the full frame 24 megapixel NEX will be NEX-9. Images of the VG900 show it using an Alpha via the standard LA-EA2 adaptor, and we can be sure that this and not a special range of E-mount full frame lenses (almost pointless) will be how the NEX-9 takes A-mount glass.

In the meantime, the NEX-6 appears to be perfectly pitched in price, but see my comment below about GPS.

The missing GPS

While the A99 has GPS, we’re still left with no NEX model yet featuring GPS despite these being the ideal travel and walking companion. Nor is there a current SLT model with 16 megapixels and GPS, as the Alpha 55 replacement doesn’t have it and the ‘baby’ A77, the A65, is a 24 megapixel again. The Cyber-shot RX100 and RX1 models also don’t have GPS. Whether or not the new hot shoe will allow an add-on GPS remains to be seen.

The new 50mm f/1.4 SSM Carl Zeiss T* Planar

Whatever you think of Minolta glass, or new Sony glass, the Carl Zeiss name on a lens is a huge draw. Reactions to the otherwise rather pedestrian DSC-RX1 prove this. People will put up with being back in 1972 – the era of cameras like the Minolta Hi-Matics with fixed 40mm f/1.7 and similar Gauss design lenses of very high quality – if only it means getting rid of poor quality digital images. There was a time when you couldn’t sell a 50mm standard lens with a camera, and there was a time before that when every system was judged initially on the quality of its 50mm choices. We may be returning to that way of thinking.

Edit – at the 2006 launch of the Alpha 100, a 50mm f/1.4 CZ was briefly shown in Paul Genge’s presentation to UK/English language journalists. I did not report on this as none of the literature confirmed what we saw on the Powerpoint screen. I believe this lens has been planned for six years.

Flash

The new HVL-F60AM flash with rather weak video light and new hot shoe might seem an annoying departure, but remember, the A99 has no built-in flash and thus can not control wireless remotes without a commander. No HVL-F20AM style mini flash has been previewed, so the F60AM is the only commander. But your old flash will work fine off-camera controlled by your new one.

Parked on the hard shoulder

So, having looked at the four way road map for Sony, I must confess that I’m pulling into a rest area for a while. I did not sell my Alpha 900 or Alpha 77, and I’m glad I didn’t. Nor did I sell my 24mm f/2 even though it has been little used for a few months. It has been waiting for a 36 megapixel full-framer, which makes a 24mm a much better all-round lens because of the croppable image size.

I’m not one of those photographers obsessed by bokeh or the need to throw parts of my picture into extreme defocus. At 24 megapixels, APS-C is already seriously short of depth of field even at optimum apertures like f/9. I’m more likely to spend my money on a Samyang 24mm f/3.5 full frame tilt-shift lens to use with both the A900 and A77 than to invest in an A99. I have no use for a revised 300mm f/2.8, especially on full frame where it seems to me now to be a very conservative focal length, and though I’m sure a 50mm CZ will be wonderful I have no complaints about my Minolta-design Sony 50mm f/1.4. I do shoot video, but rarely in conditions which demand that I use full frame, and if Sony don’t put manual audio control into older models via a firmware fix, I’ll just buy a Canon 600D.

The price of the Alpha 99 is not as bad as people suggest, with UK stories launching it at £2082+VAT, or $3200. But I’ve got a very good quality pure still camera in the Alpha 900, with effectively noise-free imaging from ISO 100 to 320, excellent battery life and exactly the same maximum image size offered by the 99.

I think I’m in the market for the NEX-6 body but I do not care in the slightest about the WiFi aspect, or the downloadable apps. If the new remote control can actually trigger and end video shooting with the A77, NEX-5n (etc) I’ll definitely buy one. The RX1 is not for me either – had it been fitted with a 17mm, 20mm or even a conservative 24mm then it would have followed in the footsteps of the great wide-angle cameras I have worked with over the years from the Brooks Veriwide through the Plaubel 55W to Hasselblad SWC and Fujfilm G645SW. I would not even mind a separate optical finder for that, much; I was used to it!

Things we forget

The industry has put a huge effort into autofocus solutions ideal for interchangeable lenses and zooms, and apparently set aside the idea of external AF modules for good. With a fixed lens like the RX1, an AF module not working through the camera lens itself is a practical idea and could be far faster. We have also forgotten about those twin-lens compacts, with a switch to go from 35mm to 65mm (or whatever). Small sensor sizes, new lens design and ideas could make that concept work again.

The story of development for all types of camera is not over as there are old ideas to be revisited, and new ideas yet to come.

See B&H news on all the latest Sony stuff

– David Kilpatrick

No AA filter for future Sony models?

Pentax’s new K5 IIs – a 16 megapixel DSLR with a proper glass prism giving nearly 100% view and 92% scale – is a variant of the improved K5 announced overnight (British time) without an AA filter.

You might be interested in Pentax when you learn that their new SAFOX AF assembly goes down to EV -3 sensitivity, which is twice the low light sensitivity of any Sony AF unit so far made – and to date, no company has bettered the low light ability of Sony AF modules. You don’t get anything better than Sony even from Canon and Nikon, when it comes to operating in low light.

But now you do, you get Pentax at twice the sensitivity. You also get the entire SAFOX module offering f/2.8 accuracy, not just the centre spot. Bear in mind that the latest 15-zone and similar assemblies used by Nikon, Sony and others actually only offer a fixed f/5.6 accuracy. Pentax has just leapfrogged AF technology, moving (in theory) from a rather conservative SAFOX to a new design we’d say was more SAWOLF than mere FOX…

And then, from a company famous for softish images (the 645D is the softest medium format camera around) we get a Sony 16 megapixel sensor stripped of its AA filter.

Will there be a Nikon D7oooE or more likely D7100E? Will we get an A37E or – in our dreams – an Alpha 580E?

Got to say that if I was jumping ship Pentax would be the first rope this rat would look to be running up!

– DK

Sony aims for the sky – RX1?

According to Sonyalpharumours, on Wednesday Sony will not only announce the Alpha 99 full frame SLT, but will reveal a compact bodied full frame fixed lens model with the same 24 megapixel sensor, called the RX1 and taking the concept of the RX100 zoom ‘one inch’ format model to a new height (photo – from Sonyalpharumours).

It’s a retro-appeal camera, with a mode dial, an over-ride dial, lens apertures set round the lens, a conventional hot shoe and a a manual focus ring which doubles as a fast means to switch between two AF ranges, 20-35cm and 35cm to infinity. It has no viewfinder, just a fixed positon rear screen, but apparently will have EVF and optical finder attachments.

Inside Sony, I think there’s been some serious divisional competition between the former Minolta Alpha group and the more powerfully connected Cyber-shot team. All the indicators are that sometime earlier this year the two divisions were put into a competing situation and there may ultimately be one winner, one loser. That’s how Sony culture is structured, according to every insider view I have heard since Sony acquired the Minolta camera brand in 2006. Groups, departments, teams and individuals are weighed against each other as well as against their industry rivals. The winners are rewarded with promotion and bigger budgets, the losers have to survive with diminished resources. It’s a deliberately competitive environment.

I believe the Cyber-shot team got hold of this sensor to compete head-on with the NEX team. This is part of Sony’s internal camera design Olympics and only Gold counts. The RX100 has been a sell-out success and given the division the authority to take Cyber-shot models to places where the DSC-R1 was once heading before Alpha and NEX arrived on the scene and shut that line of development down. They kept the RX100 under wraps to spring it on the world – including other Sony camera teams – as a blockbuster surprise. Now they have done the same with the RX1. Where next?

But, will a camera like this sell? Did it ever sell in the era of film – and why should anything be different today, give or take temporary fashions for the limitations of retro-style specifications?

Konica Hexar 35

In fact there were plenty of cameras with lens specifications around 35mm f/2 over the years, but very few survived after zoom lens compacts arrived. The era of Hi-Matics, Canonets, Yashica or Ricoh 35s saw apertures up to f/1.7 and focal lengths ranging from 35mm to 45mm. By the time 20 years of zoom lens SLRs and 10 years of zoom compacts had destroyed that market, it had moved in favour of boutique level pocktables like the Contax T2, retro Rollei 35, Minox 35 and their copies. The 35mm focal length won the day in the smaller bodies, but f/2.8 replaced faster apertures to keep size and weight down.

Minolta broke away with the titanium-bodied TC-1, one of the most expensive such cameras ever made. It had a 28mm f/3.5 G-series lens designed with a large rear element and a concave front surface, using new aspherical technology. Instead of a variable aperture, it used perfectly round laser cut Waterhouse stops which eliminated diffraction effects. This proved a valuable precursor to digital camera lenses later on, needing the same technology for ultra-short focal lengths and small sensors.

But it was left to Konica reintroduce the rangefinder-style body with a fixed 35mm f/2 lens, in the form of the Hexar 35, another very expensive and beautifully made design. The Hexar was the fin-de-siècle failure that bad design detail ensured it would be. No-one wanted a leaf shutter camera – even one with a near-silent slow winding mode for filmset and concert shooting – that was limited to 1/250th top shutter speed. Leaf shutters were perfect for synchro-sun flash, but plenty of focal plane shutters could do 1/250th. If the camera had been equipped with a 1/500th or 1/1000th top speed its hybrid electronic control system and Aperture Priority basis would still have missed the mark. Konica went on to show a full Hexar RF Leica M mount system at photokina 2002, finishing it off with some revolutionary additions at the same event in 2004, by which time Minolta and Konica had merged.

Within days of the close of photokina, the Hexar 35 and the RF system were discontinued. Whatever feedback they had received, the merged Konica Minolta dropped the Konica brand and with it the highest end Konica cameras. The fact was they had not sold, and had not sold profitably.

Which could be why the Cyber-shot division is aiming for the sky with the RX1, and pricing it at a rumoured $2799.

That’s over £2,000 in British money with VAT, for a fixed lens camera – even though it will shoot 5fps, 24 megapixels, and has a Zeiss Sonnar lens. It may also be the first time a Sonnar has covered this angle at f/2, previous incarnations have either been f/2.8 at 63° coverage or been longer relative focal lengths at f/2 (I stand to be corrected on this – the Contax G system used a 35mm f/2 Planar).

To that $2799 you can add a viewfinder and possibly other accessories. This is one camera for which I would expect to see both 0.7X wide angle and 1.5X tele lens converters (24.5mm and 52.5mm equivalents). Combined with intelligent cropping and resampling, the 24 megapixel full frame should also offer 1.4 or 1.5X and 2X digital tele, or perhaps a variable digital zoom, and a likely 3X/2X/1.4X range of video crops. Then again, Sony may be playing very clean and avoiding these options even if they would improve the experience of a fixed 35mm lens for many users.

35mm logic

I have to say that at this point, Sony has left me behind. It’s neat focal length in the Leica system because it’s been around in optically acceptable form and fast maximum apertures since the 1960s.

The classic lens sets for 35mm full frame started with the 35/50/85-90mm trio. This was because so many rangefinder cameras used interlens shutters and interchangeable front groups rather than entire lens in front of focal plane shutters. Anything shorter than 35mm was expensive and huge, anything longer than 90mm couldn’t be focused very reliably. So we ended up with launches like the Leica CL – just a 40mm and 90mm lens pair. But Leica had moved on long before in the M-series, starting with the M2 (35mm widest lens) alongside the M3 (50mm, anything wider needing ‘spectacles’ or a separate finder), then the M4-P which for the first time put 28mm on board. So the Minolta CLE Leica-mount kit appeared with 28/40/90mm as its kit, and fifteen years later the Contax G system came with 28/45/90 as an alternative to the more affordable 35/90. Konica offered their RF straight out with a 28/50/90mm set.

Fuji’s XPro-1 has been a success, and its launch lens set is 27/52.5/90mm. Now there’s a big gap from 18mm to 35mm (actual focal lengths) and they will fill it with a 35mm-equivalent. But would you want that on its own? I know someone who has a Leica M9 with just a 35mm f/2. That was a budget decision. Given enough money they would have the 24mm, 28mm, 50mm, 75mm and 90mm too!

Well-mannered and perfect though it has every chance of being, a 35mm f/2 on full frame is as uninspiring for me as the Fujfilm X100’s fixed 23mm f/2 on APS-C was. It’s a good focal length for small groups indoors, general house and garden shots, and street candids. It’s too short for conventional portraiture and too long for environmental editorial people pix. It’s easy to use and fairly boring.

Most of all, it is extremely easy to MAKE. The history of photo gear is one where lenses with a 60-65° angle of view have been good. Unlike early 28mms, 35mms were OK. The same angle of view on any compact digital, of any sensor size, is still good and many are f/2, even if they don’t offer the same lazy solution to defining the centre of interest in a shot.

I do not need to spend $2799 to get what the RX1 appears to offer. I didn’t even want it in the NEX-7 and have never felt tempted to buy the 24mm f/2.

I think, perhaps, that after a long time of ignoring photographers Sony finally listened. They may have listened to the wrong ones. The lens enthusiasts of dPreview represent a tiny minority. Those who will spend nearly $3k on a fixed lens compact – even with full frame – are even fewer.

Now, when do I get to apply for a job selling it into China? There is one place with new buying habits to match this camera perfectly!

– David Kilpatrick

Canon USA – extreme price competition

You may well ask how any other maker can compete when Canon USA is offering – througn a reputable dealer like B&H – a bargain like this. Photoclubalpha has not covered other camera brands much in the past, but this is such an extreme price deal we feel obliged to let readers know, and also to speculate on exactly what Canon is up to.

First, it’s photokina next week (from the 18th for the public). The big Cologne biennial show is always a time when the old makes way for the new. And we know that just as Sony is about to be forced to revise many lenses to handle on-sensor PDAF, Canon is about to convert most of its basic lens range to ‘STM’ – a stepper motor silent focusing mechanism which is compatible with contrast-detect, PDAF-on-sensor, and live AF during video. The present micromotor and original USM lenses won’t cut it with the EOS-M and adaptor even if they ‘work’ just as Minolta and early Sony lenses will with tomorrow’s bodies. Both companies now need to update the focus mechanism, exit pupil geometry, and protocols of their lens ranges.

Secondly, if you see the number of Sony models now on sale in major stores in the UK, the displays are for the first time matching Canon. We don’t have the figures but by the end of the year Sony will be showing significant market share gains in various regional markets. Canon may still be riding way above Sony sales, but they must also be worried.

That’s why you can get – now – a Canon EOS Rebel T3i (known as the EOS 600D outside the USA) complete with an 18-55mm f/3.5-5.6 EF-S IS II kit lens, a 55-250mm f/4-5.6 EF-S IS II tele (correction to original post – B&H’s email gave the impression it was not stabilised), a spare third party Pearstone battery pack, a SanDisk 30Mb/s Ultra SDHC 16GB card, and the substantial PIXMA Pro9000 Mark II A3+ printer with 50 sheets of its biggest paper size – Canon’s own 13 x 19″ Photo Paper Plus semigloss…

For $599.

That’s ridiculous to anyone in Europe. The equivalent for the UK, bar the horrible taxes we have to discourage our economy here, of £375.99. This price depends on some sharp reductions, bundling, an instant in-store saving of $250 and a write-in cashback claim of $400. It’s a bit of hassle but this is a seriously good DSLR, even if it does have the name Canon on the front, with two useful stabilised lenses covering 18 to 250mm without a gap, plus a professional quality inkjet.

We’ve been testing the PIXMA Pro1 here, and it’s hard to fault, working well with Canon’s DPP software (take notice, Sony, that Canon users often actually USE their bundled software!) or Photoshop through two different printing methods, one of which offers full job management and lots of options for batches or runs or smaller prints on large paper. The Pro9000 MkII is a product at the end of life’s retail journey so you can consider this a kind of clearance offer, and the $400 payback is dependent on buying the printer. Guess that ink will make a big profit back over the next few years…

Here is the link to B&H’s offer with the rebate details. However long this lasts, whether you are a Canon user just visiting Photoclubalpha, an Alpha user looking for a complete second outfit to give to the dog to use with that new litter of puppies, or maybe a college student on a really strapped budget looking for a kit ideal to take you through to graduation – we would say grab it now.

And Sony, please do something like this for your user community and the unconverted yet-to-buy masses!

– DK

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