Sony launches A99II at photokina

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Sony has today released the details of the updated A99II, using a 42MP sensor and 5-axis stabilisation to match the A7RII. It does not appear to have retained GPS and the paragraph highlighted in red later on indicates a weasel-worded possible get out for this – it may not embed GPS in the image files, but instead store a mobile phone location data track on the camera’s memory card. We may guess that this choice could be partly down to cutting out fees payable to incorporate a GPS module. Not the same, guys, not the same:

From Sony’s site, the ambiguous word is highlighted here:

Use Location Information Link to make the most of your camera anywhere you go together. After the camera has been paired to the PlayMemories Mobile app installed on a compatible mobile phone or tablet device, it can acquire location data from the mobile device and record that data with still images. The acquired location data can also be used to correct the camera’s date/time and location settings. The PlayMemories Home application can then be utilised on a personal computer to organise still images imported into the computer on a map.

Edit: note that Sony’s later announcement for A6500 uses specific wording which says that its GPS Blueooth app embeds location data in the images as they are shot. This wording has not been used for A99II. We have not, though the A9II has now been released and bought by some users, been able to confirm how it works yet.

In the Sony release (used almost complete, slightly edited, to form this post) they appear to imply that dual SD card slots are new, which of course they are not, the original A99 has this already. No UHS-II, no USB 3 Not only that, the dual slots are apparently exactly the same spec as the original unless someone at Sony Towers has forgotten to edit their website:

Memory Stick PRO Duo, Memory Stick PRO-HG Duo, Memory Stick Micro (M2), SD memory card, SDHC memory card (UHS-I compliant), SDXC memory card (UHS-I compliant), Micro SD memory card, Micro SDHC memory card, Micro SDXC memory card

Some of the hidden, clever features of the A99 remain like the buttons which are coded to touch with concave or convex tops or a small raised dot, making it easy once you have learned their feel to find them by fingertip. In fact the entire interface remains constant (in the way that Canon did throughout the EOS 1D series) meaning you can pick this up and shoot immediately, coming fom the A99. Only the Silent Controller is significantly improved, and the badly placed Movie button remains exactly where it was.

  • Full-frame 4D Focus: Innovative Hybrid Phase Detection AF system with accurate 79 hybrid cross AF points[i] enabled by 79-point dedicated and 399-point focal-plane AF sensors and continuous shooting at up to 12fps[ii]
    There is no AF Illuminator, but please note that -4 EV is quoted with an f/2.8 lens at ISO 100. In the past, AF low limits were always quoted with an f/1.4 lens (although the sensor only works at f/2.8). This is very good.
  • 42.4 effective MP 35mm Full-frame Exmor R™ CMOS sensor so it’s essentially an A7RII
  • Newly developed optical 5-axis in-body image stabilisation system
  • Outstanding operability and reliability in newly designed downsized body
  • Internal 4K movie recording in XAVC-S format[iii] with host of pro-orientated movie features
    IMPORTANT: this appears to be a Super-35 4K mode if you want no pixel binning and the highest overall quality but near-full-frame is offered with the usual partial readout.We would add a few extras – this camera has the much-needed (almost essential) Copyright Info function, minimum shutter speed when using Auto ISO, 10/5/2 sec self-timer, Hi+ in addition to Hi, Med and Lo motordrive shooting (not just shifting three settings over a faster range but giving 12, 8, 6 or 4 fps); built-in WiFi wireless including WiFi remote control and NFC (but not, apparently, apps); there are new Highlight and Average metering modes, and for each metering mode, you can calibrate the standard exposure if you prefer your shots slightly lighter or darker than the camera’s default.The A99II can capture 54 uncompressed RAW+JPEG images at 12fps (Hi+) before the buffer is full. There’s no great advantage in capturing RAW only, or JPEG only, and even with Fine JPEG at Hi speed (8fps) the limit is still 71, not ‘until card full’.

    Omissions include no Multi Shot Noise reduction, no GPS, and the external DC power supply is no longer via a dedicated socket, instead it uses the dummy battery approach. The camera is still not officially recommended for use in temperatures below freezing or over 40°C/104°F, both of which can easily be achieved in Scotland in a single sunny winter day (even without the benefit of your car parcel shelf oven).

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The upgraded autofocus

The newly developed Phase Detection AF System is capable of ‘full-time AF’ and is the first implementation of 4D FOCUS in the full-frame ɑ series, bringing a supreme new level of AF performance to ɑ99 II users. The Hybrid Phase Detection AF System is enabled by combining a precision 79-point[iv] dedicated phase detection AF sensor with 399 focal plane phase detection AF points to produce a 79 hybrid cross AF point[v] array. These cross points deliver incredibly precise autofocus performance and advanced subject tracking of any moving objects right across the image, at high speed. In addition, as there is no moving mirror, TMT enables continuous AF operation and the finder image remains unaffected during any type of shooting, including live view and movie recording.

Low light conditions present no problem to the ɑ99 II. The precision AF system will function properly down to EV-4[vi] brightness levels where most other cameras struggle. Editor’s note: the A99 is poor in this respect and often can’t focus modest aperture lenses at all in low light.

Data flow through the ɑ99 II has been redesigned to allow for high resolution and continuous shooting at high frame rates. A new front-end LSI works with the image sensor and BIONZ X image processing engine, as well as a newly designed shutter unit, to enable continuous shooting at up to 12fps with AF/AE tracking[vii], all whilst harnessing the sensor’s 42.4MP capabilities. The result is an ultra-fast camera that will deliver incredibly detailed shots, even with fast moving objects in challenging light conditions. Thanks to a large buffer and sophisticated data processing, these shots can be viewed immediately after shooting even when in high speed continuous shooting mode and if shots are being taken indoors under artificial lighting, flicker is automatically detected and the shutter is timed to minimise its effect on the end image[viii].

Improvements to the EVF display algorithm now deliver continuous live-view shooting at up to 8 fps[ix] with AF/AE tracking with minimal display lag so that the viewing experience is essentially no different from that of an optical viewfinder. Exposure, white balance and other camera settings are displayed in real time in the viewfinder and continuous live view shooting can be set in 3 stages to match a variety of subjects: 8 fps, 6 fps and 4 fps.

Pixel Power

The back-illuminated full-frame 42.4MP[x] Exmor R CMOS sensor benefits from a gapless-on-chip design and allows for fast readout of large volumes of data as well as being extremely efficient in its light gathering ability. The net result is very high sensitivity with low noise, wide dynamic range and 42.4MP resolution across an ISO range of 100-25600, expandable to ISO 50 – 102,400[xi]. The ɑ99 II has been designed without an optical low-pass filter to allow the finest natural details and textures to be captured with unprecedented depth and realism and the photographer can select compressed or uncompressed RAW files, as required.

5-axis SteadyShot™ INSIDE Image Stabilisation

Having proved to be incredibly popular in the ɑ7 II series of cameras, Sony has designed a new in-body 5 axis image stabilisation system for A-mount cameras which debuts for the first time in the ɑ99 II. In addition to movement in the pitch and yaw axes that tend to occur at longer focal lengths, this system effectively detects and compensates for shift blur that can occur on the X and Y axes when shooting close-up, and roll blur that is often apparent in still images and movies that are shot at night. Newly implemented precision gyro sensors are capable of precisely detecting even tiny camera movements that can cause blurring, providing a 4.5 step[xii] shutter speed advantage that can help realise the full potential of the 42.4MP sensor, in both stills and movies. The effect of image stabilisation can be monitored in the viewfinder or on the LCD screen during live view when the shutter button is half pressed or the Focus Magnifier functions are used. This allows framing and focus to be accurately checked via live view when shooting at telephoto focal lengths or macro distances.

Improved design and operability

The design of the new ɑ99 II has noticeably evolved compared to its predecessor, based upon feedback from professional users. The new model is 8% smaller than the original ɑ99 and has a newly designed grip, magnesium alloy body, dual SD[xiii] card slot and other upgrades that improve both hold and operation. All major buttons and dials are provided with seals and the media jack cover and enclosure edges feature tongue and groove – the result is a body that is both dust and moisture resistant[xiv] and can be used in the toughest and most challenging shooting conditions.

In addition to being designed for faster response, the new shutter unit is also more durable and has passed endurance tests in excess of 300,000 shutter operations[xv].

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The XGA OLED Tru-finder has a ZEISS® T* Coating and has a 4 element lens group that includes a double sided aspherical element whilst offering a powerful 0.78x magnification, delivering outstanding clarity from corner to corner. It also has a fluorine coating on the outer lens to prevent fingerprints, dust, water, oil and dirt from sticking, thus ensuring a clear view. Editor’s note: the ocular of the original A99 is a weak point, and in the A7RII Sony finally produced a really good non-squiffy eyepiece optical train which shows a clear view with some leeway to move your eye. So this is a major upgrade as much of the experience of using the SLT models comes down to finder quality.

The silent Multi Controller introduced in the original ɑ99 has been improved so that in addition to allowing control of aperture, shutter speed, ISO, exposure compensation, AF area, AF mode and other settings, it now features a click-stop ON/OFF switch. When ON, the preferred setting for still image shooting, the control clicks, providing a tactile indication of the length of rotation. When OFF, the control turns smoothly and quietly, ideal for movie shooting. Location data acquisition has also been made possible via Bluetooth[xvi] connection to a compatible mobile device and it is now possible to select whether the storage location should just be on a tethered computer or also on camera for easy review without leaving the shooting position. Based upon feedback from a number of ɑ users, the menu structure of the ɑ99 II has also been updated to deliver a smoother navigational experience.

Internal 4K movie at 100 Mpbs

The ɑ99 II enables internal 4K movie recording[xvii] featuring full pixel readout, without pixel binning[xviii], for ultimate high resolution video in the pro friendly XAVC S format. It is capable of recording high quality footage at 100Mbps for 4K recording. A new ‘Slow and Quick’ mode[xix] (S&Q) supports both slow motion and quick motion. Frame rates from 1 fps to 120 fps (100 fps) can be selected in 8 steps for up to 60x (50x) quick motion and 5x (4x) slow motion recording.[xx] A number of features designed for a professional movie production workflow are included such as picture profiles, time code and HDMI clear output and the new ɑ99 II now also offers gamma assist for real time S-Log monitoring and a zebra mode for easier exposure adjustment. S-Log3 and S-Log2 gamma are now included, making wide dynamic range shooting possible with(out) – our edit, the press release says with! blown highlights or blocked shadows making the ɑ99 II easily integratable into a fully professional movie production workflow.

Editor’s note: there’s a problem with the A99II for movies, which also applies to the LA-EA4 and SSM/SAM or other A-mount lenses on the E-mount bodies – the lenses really don’t work well at all. Sony had pictures of this camera with the 24mm f/2 SSM, still a current lens. I sold mine because it could not handle the same AF and exposure control functions as the 25mm f/2 Batis or the 28mm f/2 Sony (which I use) during video shooting. The A-mount was never built for movies, the E-mount has been from the start. However, both are fine using purely manual focus, manual aperture ciné lenses which many professionals prefer.

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The new ɑ99 II will start shipping in November, priced at approximately €3600 and full technical details can be seen here.

Editing: David Kilpatrick

Further information can be found on the Sony Camera Channel: www.youtube.com/c/ImagingbySony/ and the

Sony Photo Gallery: www.sony.net/Product/di_photo_gallery/

Our Affiliate links, supporting photoclubalpha:

Check Amazon.co.uk for availability and price

Check B&H stock (pre-order live)

Check WEX (UK)

[i]The number of usable AF points may depend on the lens and shooting mode. Up to 323 focus points are selectable. Not available for movie recording

[ii]Continuous shooting mode set to ‘Hi+’

[iii] Class 10 or higher SDHC/SDXC memory card required for XAVC S format movie recording. UHS-I (U3) SDHC/SDXC card required for 100Mbps recording

[iv]The number of usable AF points may depend on the lens and shooting mode

[v]Hybrid Phase Detection AF active. The dedicated phase detection AF sensor or focal-plane phase detection AF sensor may be used independently in certain photographic situations.

[vi]Central focus point

[vii]The supported focus area will depend on the shooting mode and lens used. Furthermore, when“Continuous Shooting: Hi+” is selected, focus will be fixed at the first frame shot when Hybrid Phase Detection AF is active at aperture settings of F9 or higher, or when Hybrid Phase Detection AF is not active at aperture settings of F4 or higher

[viii]When Anti-flicker Shoot. is ON. Flicker detection at 100 Hz or 120 Hz only. Continuous shooting speed may decrease. Does not function during bulb exposure or movie recording

[ix]Continuous shooting mode set to ‘Hi’

[x] Approximate effective megapixels

[xi]Still images only

[xii]CIPA standards. Pitch/yaw shake only. SAL135F18Z lens. Long exposure NR off.

[xiii]One slot can hold an SD card or a Memory Stick.

[xiv]Not guaranteed to be 100% dust and moisture proof

[xv]Electronic front curtain shutter activated

[xvi]Requires pairing with compatible mobile devices running the PlayMemories Mobile app. Supported devices are Android smartphones running Android 5.0 or later and compatible with Bluetooth 4.0 or later. iPhone/iPad: iPhone 4S or later/iPad 3rd generation or later

[xvii]SDHC/SDXC memory card of Class 10 or higher is required for movie recording in XAVC S format. UHS-I (U3) SDHC/SDXC card is required for 100Mbps recording

[xviii] In Super 35mm recording mode

[xix]Sound cannot be recorded. SDHC/SDXC memory card of Class 10 or higher is required

[xx]In NTSC (PAL) system

Sony UK cashbacks end Sept 4th

Some worthwhile Sony lens cashbacks – some applying to in-stock lenses which may not have suffered the August price-hike yet – can be found from UK dealers such as WEX Photographic.

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Amazon.co.uk has a reasonably good list of lenses too and the 70-200mm f/4 FE OSS G can still be found for under £1k (don’t expect this to last).

B&H (worldwide, US-based, dollar pricing) has 4% ‘reward’ off many lenses but you won’t get it on the latest models like the 70-300mm FE G OSS for example. Prices are still attractive even with the current dollar/£ exchange rate.

The UK cashbacks, we can confirm, work very reliably and quickly. We’ve bought two or three items under this system, just make sure you get your receipt and also photograph or record serial numbers. The new system does check for scammers who order a lens, send in the claim and then try to return it for a refund to the dealer, which is good news as it limits the benefits of the promo to genuine buyers and means Sony doesn’t end up footing the bill for fraud and passing it on in higher prices or limits to future promotions.

Tamron’s super value 70-300mm USD on the A7RII

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If you want to get a 70-300mm which works on the Sony A7RII, the A7 series body with the best on-sensor phase detection/contrast detection mix, your first choice should be the new Sony FE 70-300mm f/4-5.6 G OSS. But that demands a wallet opened with £1,150 (UK SRP) in it. In return you get a rare specification mix including focusing down to under one metre and almost a one-third life size image scale, without needing any special macro range.

For those who own either an LA-EA3 or LA-EA4 Sony adaptor, there’s a choice of A-mount lenses. The older Sony 70-300mm f/4-5.6 SSM G will work OK, but the current SSM II version is tuned for the on-sensor focusing system. Both work on the LA-EA3 with its SLT-mirror free design, and focus to a decent 1.2m. The low-cost Sony body-drive AF f/4.5-5.6 75-300mm will only AF on the LA-EA4 and is probably best ruled out.

The same goes for Tamron’s body-drive focus Di Macro, about the lowest cost such lens you can buy, and Sigma’s standard and non-APO Macro designs. For the LA-EA4 only, the Sigma 70-300mm f/4-5.6 APO Macro DG is actually worth buying as a good example can usually out-resolve any other lens of this range, but it’s slow and clunky. It focuses to under 1m and half life size scale but like the Tamron Di Macro does this using a separate close-up range you have to switch in to, only usable between 200mm and 300mm zoom setting.

This leaves two 70-300mm independent lenses with in-lens focus motors. The Sigma 70-300mm f/4-5.6 OS DG is again very good optically (a fair match for the Sony G original) but it doesn’t use an HSM focus motor. Instead it has a motor more like a Sony SAM drive. As a result, it will only focus quickly on the LA-EA4. It can’t handle on-sensor PDAF.

The Tamron SP 70-300mm f/4-5.6 Di USD can. It has an Ultrasonic Silent Drive, and this is very close in design to the Sony G SSM. Because the lens dates from 2009, most test reports have been based on DSLRs and not many Sony A7 system owners have bothered to consider it. At the current price in the UK – even the official SRP is only £275 but normally discount to a pre-VAT price of under £200, or if you like, $280 – it’s an unprecedented bargain for an advanced lens using low and extra-low dispersion elements.

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You should not be surprised at its size, because it’s almost identical to the Sony G. Same weight (within 5g), same 62mm filter thread, same rear internal focus with plastic window for the scale, same forward zoom ring and single barrel extension. It has one more element, being a 17/12 design rather than 16/11 like the Sony, and it lacks the control buttons and focus range limiter controls. It’s also a quarter to a third of the price.

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For me its major shortcoming is the 1.5m close focus, just too far away (nearly fell down stairs trying to get far enough away to focus when testing it, I’m just not used to lenses which force you back this way).

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What counts I guess is the optical performance, and here the Tamron still does not let you down despite being a seven-year-old design. Like the Sigma OS, it is a step above any of the previous 70-300mms including Nikon’s VR and the Canon IS design and when I tested it back in 2009 it matched the Sony G SSM even wide open at 300m. What it did not do was focus accurately on my DSLR bodies, needing AF calibration adjustment on the A900 and missing the mark on the A700 and A580. It was fine on the A55.

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The lens coating is pretty effective and the lens front rim, like Sony’s G, has no lettering to reflect off filters. It also has an effectively black-out inner baffle and zoom mechanism. Combined with the super-deep lens hood (very much like the monster you get with the Sony G) the result is a flare-free optic you can use in almost any light.

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The rear mount is a high quality metal A-mount as expected, and on my LA-EA3 the whole assembly was firm and felt unstressed.

Tamron kindly sent me a lens to update my earlier testing when this design was new. I wanted to see one thing – did the USD drive allow PDAF on the A7RII with the LA-EA3? If it did, this bargain price but advanced lens would be a possible 300mm range solution (and also, though I can’t test this, on the A7II and A7SII – I’m pretty sure it will not play well with pure contrast detection on the A7R, as on my A7 it will focus at all focal lengths and in low light but can take several seconds of hunting and fine tuning in small steps).

Fitted to the A7RII+LA-EA3 I found it snaps into focus really fast, able to use either wide area or centre AF with much the same speed as native E-mount lenses, and activating the ‘green square’ focus point display. It was very poor using moveable Spot AF (unusable in low light), and the Zone AF option is greyed out. So, it can’t access all areas, but for regular shooting it’s good.

At focal lengths over 150mm, it can be spooked by starting completely out of focus. However, once the lens is not extremely defocused it acquires and tracks rapidly. The full time manual focus over-ride can help set it up before you use AF. In very low light with low contrast targets, at 200-300mm, even prefocusing manually may not prevent a long searching process or AF failure. However, in normal daylight with regular 3D subject matter it’s useable.

Since owners report that even Sony’s own lenses encounter similar issues – the 90mm f/2.8 G OSS Macro is known for hunting and taking time to lock on – it’s an issue more to do with the way the on-sensor focus works than anything else. It’s also much better than, for example, the Canon 70-300mm f/4-5.6 L used on the Sigma MC-11 or Commlite adaptors. That just gives up towards 300mm.

The Tamron has variable bokeh qualities. Foreground bokeh can be untidy and contours just beyond the plane of focus can be harsh. Totally defocused detail in both foreground and background can look very smooth. It has a nine-blade circular aperture, just like the Sony G A-mount, and I’d say overall image look was uncannily similar. The exact look depends on the focal length, working distance, aperture and placing of the foreground and background detail.

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Purple rhody at f/6.3 and 300mm – not too bad overall!

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Matching person in the distance – again, not bad, with a pleasant three-dimensional look. Maybe I should do a version in black and white…

As for this lens not having VC (Tamron’s OS/OSS) I can only say it doesn’t need it when Sony’s 5-axis sensor stabilisation does so well. Here you can see 1/30s wide open at 300mm indoors at ISO 3200. Note also what CA or fringe occurs. It’s pretty good.

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As for handling 42 megapixels, which didn’t exist when the Tamron was designed, there doesn’t seem to be a serious problem. Here’s a quick shot of Scotland’s relationship with the USA and Europe…

saltire-300mm

And here, frozen by 1/500s shutter speed at the realistic aperture of f/7.1 and ISO of 200, is a detail at 100% size. I’m generally happy with a 70-300mm lens if you can see the weave and the stitching on our town hall flags at 300m, 2/3rds of a stop down from full aperture, reproduced on a 1.5m wide print.

300mm-detail

I’ll test the lens further and add a gallery of images and any other comments, but I think that this is the only non-Sony lens of this range which really works well with the LA-EA3 (and of course, extremely well too with the LA-EA4 given AF calibration).

The only slight incompatibility is that the camera/adaptor gives the lens the identity of the Sony 70-300mm f/4-5.6 G SSM, this is what appears in the EXIF. This also means that the camera will invoke an auto profile for the Sony lens, and handle the focusing as if this was the Sony lens. It also loads the built-in profile for the SSM G lens in Lightroom/Adobe Camera Raw. This seems to work just fine. Without the profile enabled, the flag shot for example shows a stop or more of vignetting which is a relative weakness of the design – exactly as it is with the Sony. The new FE G lens with its 72mm front element as opposed to the 62mm of the Sony G, Sigma OS and Tamron SP designs can be expected to have much less full aperture vignetting.

Please note that this report refers specifically to the A7RII as a host body – as stated, it’s not useful on the A7 and I also found it’s not good enough to use on the A6000 with LA-EA3 (fine with LA-EA2 or LA-EA4). It will eventually focus but with too much hunting and missing.

– David Kilpatrick

If you’d like to check availability or order the lens, here are my affiliate links (may help pay for the site, don’t cost you anything):

Wex Photographic, UK – £239

B&H, USA & World – $449 ($100 rebate to June 30th)

Amazon UK – £239 at time of publication

Photoworld and Image – complete digital 28 issue archive!

issues-fan
We are able to offer, now, the complete 28-issue digital archive in page-turn format for the final eleven years of Minolta Image and Photoworld (as it became) from 2002 to 2011. For only £10, a one-off payment, you unlock the complete collection of digital versions of the printed quarterly magazine.

This collection forms a fascinating document, showing the transition from the last heyday of Minolta to the merger with Konica in 2004 and the launch of the Dynax 7D, through the takeover by Sony in 2006 and up to the launch of the NEX E-mount system in 2010 and beyond.

Click to view the full digital publication online
Read Minolta Photoworld 2002-2011
Publisher Software from YUDU

Sony launch UK PRO support

Sony today announced the expansion of its Imaging PRO Support programme to include the UK. The programme is scheduled to start in the UK in September 2016 and continues to gain momentum as an increasing amount of professional photographers are switching to Sony cameras.

Imaging PRO Support offers advice and help to members including a dedicated telephone help desk offering professional photographers support in using their α camera equipment. There’s a free collection and return service for units requiring repairs, plus a free back-up loan unit to keep professional photographers up and running. In addition, members can benefit from a free twice-yearly image sensor cleaning service with filter glass replacement if necessary and firmware check-up to keep their cameras in top condition.

There’s no membership fee for the service that’s offered to professional photographers who own at least two Sony α camera bodies and three Sony α lenses from the qualifying list detailed beneath.

The Sony Imaging PRO support programme is now live in Japan, South Korea, Hong Kong, Taiwan, Germany, Switzerland, Austria and the United States. Rollout in other European countries is currently under consideration.

Qualifying Cameras and Lenses

Your editor notes with pleasure that he’s not apparently a pro despite several qualifications and a working lifetime in the business covering 40 years, since he doesn’t own the right lenses, having sold several on the list as inappropriate or superceded, and preferring others for practical reasons (for example, using the 50mm SAL macro not the 100mm, and having found the 70-400mm SAL G and 70-300mm SAL G inferior to alternatives, selling the 24mm f/2 CZ SSM because the 28mm f/2 SEL proved far better). I appear to prefer third party glass, or lenses Sony doesn’t class as pro, like the excellent 24-240mm SEL, the little 28mm f/2, the SAL 28-75mm f/2.8 SAM, the SAL 85mm f/2.8 SAM, the 10-18mm SEL, 35mm f/1.8 and 50mm f/1.8 OSS primes for A6000 stabilised video (not listed, and nor is the A6300 which is remarkable when the old NEX-7 is included). Also, exactly why the original A77 – again not easy to use for pro work because of the noise levels, relative to newer ‘amateur’ offerings – is in Group A when the excellent A7 MkII is listed in Group B with the NEX-7 and original A7, who knows? Indeed, why have Group A or Group B?

However, the deal looks pretty good but it’s not for me despite my Sony system including two A7 series bodies one of them the top A7RII, two LA adaptors, two flashguns, one A6000, two A580 bodies, one A700, RX10, RX100MkIII and fourteen Sony lenses (not counting any Minolta A-mount lenses, and of course not counting Tamron, Sigma, Samyang, Canon, Voigtlander or others). I’d have to buy two more expensive heavy lenses, non-OSS lenses, or bulky lenses since Sony’s criterion seems to be the cost of the lenses and not their usefulness to the photographer.

Camera Bodies Group ‘A’

  • SLT-A99(V)
  • SLT-A77(V)
  • ILCA-77M2
  • ILCE-7R
  • ILCE-7RM2
  • ILCE-7S
  • ILCE-7SM2
  • DSC-RX1
  • DSC-RX1R
  • DSC-RX1RM2

Camera Bodies Group ‘B’

  • ILCE-7
  • ILCE-7M2
  • NEX-7

α A-mount lenses

  • SAL100M28
  • SAL135F18Z
  • SAL135F28
  • SAL1635Z
  • SAL1635Z2
  • SAL1680Z
  • SAL16F28
  • SAL2470Z
  • SAL2470Z2
  • SAL24F20Z
  • SAL300F28G
  • SAL300F28G2
  • SAL35F14G
  • SAL500F40G
  • SAL50F14Z
  • SAL70200G
  • SAL70200G2
  • SAL70300G
  • SAL70300G2
  • SAL70400G
  • SAL70400G2
  • SAL85F14Z

α E-mount

  • SEL1670Z
  • SEL2470Z
  • SEL24F18Z
  • SEL35F28Z
  • SEL55F18Z
  • SEL70200G
  • SELP18105G
  • SEL1635Z
  • SELP28135G
  • SEL35F14Z
  • SEL90F28G
  • SEL85F14GM
  • SEL2470GM
  • SEL70200GM
  • SEL70300G

    [i] The programme is designed for professional photographers and as such, applicants will need to provide proof of their revenue stream generated from their photography work. Sony reserves the right to judge individual cases on their merits.

Sony 28-75mm f/2.8 SAM on mirrorless FF

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With the 24-70mm f/2.8 new Sony GM FE lens selling for £1799 (UK) and the A-mount version two 24-70mm f/2.8 for a full £100 more, the cost of a basic mid-range zoom to use with a camera like the A7RII remains very high. There are good arguments to be happy with the 24-70mm f/4 FE zoom, or even the 28-70mm f/3.5-5.6 though that is best limited to use on the A7 (24 megapixel) and A7S (12 megapixel) bodies rather than the A7R (36 megapixel) or A7RII (42 megapixel).

Of course there are good lens adaptors out there and 24-70mm f/2.8 lenses from Canon, Tamron or Sigma with ultrasonic focus drive in Canon EF mount offer one solution. The original 24-70mm f/2.8 for A-mount with its SSM motor of this type can also be found for a fair price. But there’s one lens which I sold after my A7R arrived, mostly because I was parting company with my full-frame A-mount body survivors. It’s the Tamron-based but Sony revised SAL 28-75mm f/2.8 SAM.

Although I did have an LA-EA3 adaptor to use SSM and SAM drive A-mount lenses on the E-mount bodies, the 28-75mm didn’t really work very well on the A7R so it remained on my A99 or A900. I made a few tests and saw that it was certainly OK on 36 megapixels, though even on the 24 megapixel A99 where it played nicely with the AF system it had slightly soft corners when used wide open. They were not any softer than the 24-70mm f/2.8 Carl Zeiss of that time and in some ways the lens was better behaved.

SONY DSC

The first thing to do was to fix this lens to the LA-EA3 creating an FE lens unit. Imagine the adaptor is just part of the lens (that’s pretty much how Sony makes many lenses for E-mount anyway). The total unit measures up at 115mm long including the adaptor, and 75mm diameter taking 67mm filters. The lens itself weighs only 565g, the combo weighs 683g with adaptor and lens hood. That compares with the new GM lens at 136mm long and 88mm diameter using 82mm filters and weighing 886g. As I already have a 16-35mm f/4 CZ which covers the 24mm requirement well, the 28-75mm range is just as useful to me as 24-70mm.

While the 28-75mm SAM activates PDAF and multiple AF points, it’s not the full works with tracking and Eye-AF. But it’s also not as noisy as some reviews imply. It’s much quieter than the 85mm f/2.8 SAM, and silent compared to the grinding focus of the 30mm DT SAM macro. Startup is fast, with the lens initialising quicker than FE mount stabilised zooms. The aperture actuation is slicker than with body-drive SAL lenses on the LA-EA4, and quieter. Focus is fast and the only downside is the rotating focus ring which does not support DMF or over-ride on the fly, or auto manual focus magnification. Manual focus requires you to set it on the lens and the body, and whatever you are doing, you need to avoid either turning the focus ring when there is any resistance, or blocking it from turning during AF. It’s a bit vulnerable and the direction of focus is the opposite to normal Sony/Minolta design. The zoom ring which locks at 28mm only operates in the normal direction.

SONY DSC

So, what you get with the LA-EA3+28-75mm SAM is basic but fully controlled and communicating, EXIF accurate with profile correctly invoked. It will track with continuous focus and during movies, though slightly noisy for in-camera sound recording; it seems to do so when some SSM lenses, like the 24mm f/2 CZ, don’t play.

As for optical quality, it’s still a 14-year-old Tamron in disguise, but it can match up to 42 megapixels centrally across its full range. The performance over the APS-C image area is superb, even wide open at all focal lengths, with just a hint of misty aberrations slightly masking a super-sharp result on axis. On full frame, a marked ‘cap shape’ deviation from flat field towards the extremes causes strong softening on flat subjects and landscapes at 28mm and is not entirely removed at longer lengths. You would not want to use this at 50mm and f/2.8 if you had a faster 50mm you could fit and stop down to f/2.8. On real three-dimensional subjects at typical working apertures between f/4 and f/11 it can be extremely sharp. The respectable 38cm close focus and 0.22X subject scale (not as good as the new Sony GM 24-70mm) reveal microscopic detail on the A7RII at f/5.6. The shot below is at the closest AF on the large water drop in the centre, at 75mm and f/5.6 – you can see the bokeh is very acceptable, not complex or ‘nervous’ which it tends to be when used wide open for more distant subjects with a slightly defocused background.

28-75mm@f5p6-75minfoc

A 100% crop from th A7RII file (converted from raw ISO 500 14-bit, without any sharpening for web and with minimal NR) gives an idea how good this lens is and also just how little depth of field you’re ever going to see from a 42 megapixel full frame image used this way!

28-75mm@75-f5p6minfoc

It would hardly be worth buying an LA-EA3 and a new 28-75mm just to save about £1000 over the GM 24-70mm. If you already own an LA-EA3 and you can find a cut price or good used 28-75mm go for it. The way its aperture works means you’ll get very fast low light focus and minimal shutter lag (but you do need a mark II A7 series body to get the best functioning).

The zoom action is a real pleasure to use, very light but positive, and the overall build and feel of the lens will not disappoint. It also seems to get just the right response from the in-body stabilisation of the A7RII. Sure, 67mm filters may be smaller than many midrange zooms require, but I will either have to use a stepping ring or get a couple of new filters – not cheap, for the quality needed to maintain the lens performance. Also, it’s not weatherproofed.

Here’s a quick set of three hand held (with SSI) comparisons at 28mm – f/2.8, f/5.6 and f/9. I’ve loaded these up at full size so they should open the original Level 10 sRGB JPEG when clicked. The focus in on the foreground railing spike and the fine spider web gives the best idea of how the resolution and contrast of the lens improve from wide open. It’s clearly resolved at f/2.8 but with a gentle ‘glow’ at pixel level. First image – f/2.8.

28-75mm28wideopen

Second image – f/5.6. If you download all three images and load them into Photoshop, it’s interesting to switch between tabs and see the depth of field change.

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The third image is at f/9 and here the ISO is high at 2000. The A7RII can produce great results up to 3200 but I might not choose to have this at 2000. Even so, the sharpness can be judged without problems as the noise doesn’t have much effect on fine detail with current Sony sensors and processing. It always shows more in defocused, smooth areas.

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Because I use other lenses – such as the 24-105mm f/3.5-4.5 Sony and 50mm f/2.8 Macro Sony on LA-EA4, 40mm f/2.8 Canon STM, Sony FE 28mm f/2, 16-35mm CZ f/4 and also the unrivalled 24-240mm FE zoom I have many choices overlapping the range of this lens. I remember that for landscape work on the A900 it was hard to beat. Here’s one of my images from that combination, using a 6 second exposure at 40mm focal length, f/8 and ISO 100 with a variable ND filter. With the restrictions on tripod position given by the location, the zoom range of 28-75mm proved just right for a range of studies.

Roughting Linn, Northumberland - the waterfall.

With this lens arriving during a period (for my corner of the UK) of sustained white skies and drizzling rain, it’s not been out and about much. One thing it has done is to focus very well in dim room lighting on my sofa companions –

55mm-2p8-iso3200

And, for those who don’t think f/4 is wide enough and desperately want 55mm f/1.8 or f/0.95 lenses, this is at 55mm f/2.8 and of course when the iris of the eye is sharp the fur around it is not and Willow’s nose is blurred. Once again, despite correction for tungsten light at the extreme limit of Adobe Camera Raw, and using ISO 3200, it’s pretty amazing what the A7RII can do seen at 100% (below).

3200-iso-f2p8-55mm-100pc

But this super-shallow depth of field is what happens at 42 megapixels. Depth of field used to be worked out based on a 10 x 8″ print held in your hand, not a 6 x 4ft image viewed through the ‘window’ of a screen. Of course for social media you do indeed need very wide apertures because when your pictures are mostly viewed on smartphones, it’s like looking at a contact print from a Vest Pocket Kodak…

To support Photoclubalpha, subscribe to f2 Cameracraft (it’s probably the only photo mag edited by two long-standing Sony system users, myself and Gary Friedman).

– David Kilpatrick

You can find deals for the Sony SAL 28-75mm f/2.8 SAM A-mount lens at B&H Photographic, Wex Photographic for the UK, or Amazon Sony SAL2875 Alpha 28-75mm F2.8 Standard Zoom Lens

Bad science and dissing the Sony A7 FE concept

No doubt everyone’s seen the article on Petapixel which can best be described as successful clickbait – by Sator, essentially claiming that the whole idea of mirrorless full frame is flawed. Well, the good news is that this article is more flawed than the flaws it’s claiming to point out.

First of, let’s simply dismiss the groundless myth that a shorter mount to focal plane register (body thickness) cause any problems with lens design. It simply doesn’t. Nor does an empty space without any body at all. The only aspect of register which can ever cause problems is additional body thickness, as found on single-lens reflex (SLR and DSLR) designs. In the early days of SLRs, it caused so much trouble for the design of very wide-angle lenses that SLR mirrors had to be locked ‘up’ and a lens fitted with a rear assembly almost touching the shutter, sticking right back into the darkchamber.

The quote from Zeiss in the article about the ‘short flange distance’ being an engineering challenge for wide-angle lenses may well be a result of mistranslation as it’s hard to imagine any Zeiss engineer actually saying that and meaning it. This is the company which effectively built the Hasselblad SWC, not to mention the aerial and stereoscopic models based on the 38mm f/4.5 Biogon. And they made the Hologon camera. Flange distance? What flange distance?

Take a look at the optical design of one of the best Zeiss/Sony collaborations, the RX1 series with its 35mm fixed f/2 lens, and you’ll see that Tatsuo Kureishi, Sony product planner, was probably right to say this: “We eventually realised that only a camera with a non-interchangeable lens could significantly increase image quality, since it would allow us to optimise performance between the lens and image sensor.” And what did he mean? That by not even having a focal plane shutter, by having an even slimmer body than the E-mount, a lens which almost touched the sensor, they could engineer something better. And they could align it to perfection. The ghosted product view below says it all. As far as I have been able to work out, the actual body register of the RX1 would be around 12mm, or like the FE mount’s 18mm but with the lens sticking into the body even more than the 5mm depth of the E-mount bayonet.

Now if there’s any reason the A7 series can’t have the same 35mm f/2 as the RX1, it’s down to the shutter assembly and the filter/coverglass pack of the sensors used in A7 bodies. But it’s not to do with the mount, and as this lens proves perfectly, claims that you ‘can not get lens performance without size and weight’ are also made on a weak foundation.

Now the throat diameter can indeed cause problems. Sator quotes a set of throat diameters:

Minolta/Sony A: 49.7mm
Sony E: 46.1mm
Fuji X: 44mm
Canon EF: 54mm
Pentax K: 44mm
Nikon F: 44mm

However, all these are meaningless without reference to the register. Back on 2012, in Issue No 1 of Cameracraft (the quarterly I produced with the co-editing help of Gary Friedman for three years) I printed the register distances then applicable to a range of new and legacy systems:

Pentax Q: 9.2mm    Nikon 1: 12.29mm     C-mount: 17.52mm     Fujifilm X-Pro: 17.7mm
Canon EF-M: 18mm     Sony NEX: 18mm      MicroFourThirds: 19.25mm      Samsung NX: 25.50mm
Pentax 110: 27mm     Leica M: 27.8mm     Robot: 28.1mm     M39 Leica Screw: 28.8mm
Contax G: 29mm     Olympus Pen F: 28.95mm     Contax/Kiev: 34.85mm     FourThirds: 38.67mm
Konica AutoReflex: 40.7mm     Miranda: 41.5mm     Canon FL/FD: 42mm     Minolta SR/MD: 43.5mm
Canon EF: 44mm     Praktica B: 44.4mm     Minolta/Alpha: 44.5mm     Rollei SL35: 44.6mm
Pentax K: 45.46mm     M39 Zenith Screw: 45.46mm     M42 Pentax Screw: 45.46mm
Contax/Yashica: 45.5mm     Olympus OM: 46mm     Nikon F: 46.5mm     Leica R: 47mm

A 46.1mm throat placed 18mm from a 43mm diagonal image sensor clearly isn’t ideal, but it’s for ever better than Fuji’s 44mm throat at the same 18mm. Or is it? Measure the actual mount, and the 46.1mm turns out to be a generous figure including the bayonet recesses. The real circular size is only 43mm and the internal diameter once any mount is fitted is only 42mm. The electronic contact array removes a further 4mm but fortunately not in a bad place. On the Fuji X mount, the contacts are placed to prevent any real chance of a full frame body (the same applies to Canon’s EF-M mount).

sonyjune1526

Sony got in by the skin of their teeth, and it is this mount diameter which actually starts to impose design contraints on lenses and makes some of them larger. A good example is the 85mm f/1.4 GM. That, in its purest form, would be a lens normally positioned >85mm from the sensor with an aperture diameter 0f 60mm. However, many of image-forming rays from this would be obstructed by the E-mount. A complex telephoto construction is therefore needed which reduces the virtual size of the lens aperture as seen from the focal plane and simultaneously moves its apparent location closer (placing the rear nodal point of the lens somewhere between 18mm and 85mm). Most lenses longer and/or faster than 50mm f/1.2 will need some increased complexity of design to condense the exit pupil.

Telecentric design

But against this, there’s a fortuitous benefit. Digital sensors, with their optically active filter/low-cut/IR glass packs, don’t respond well to very oblique angles of ray incidence. If you can make a telecentric lens – one which produces an almost parallel bundle of image-forming rays from a greater register distance – you’ve overcome this issue. That is what Olympus did with the original FourThirds format, which if scaled up to full frame size would have had a 77mm register – and they made their lenses telecentric, which means they produce a relatively parallel ray bundle, with a long back focus. Although FourThirds is now almost obsolete, it did have this odd advantage (also a real challenge which Olympus overcame in the creation of a fully retrofocus 7-14mm zoom with a 38mm register).

The point I’m making is that large size, complexity and weight are not as so many state ‘laws of physics’ relating to making good lenses. They may simply be the most expedient solution. Remove all constraints – as Sony did with the RX1, Minolta did with the TC-1, and Ricoh did with the original film GR – and exceptional lenses can be made to be very compact, almost as compact as the theoretical physics will allow. Indeed it surprised many users to find large glass elements almost touching the film plane in some cameras.

Sorry to be so wordy but it needs explaining. Does it matter? Yes, if you still believe in a Sony A7/FE system which can be as compact as a Leica kit used to be. In fact the E-mount makes it possible to design slightly smaller medium to long zooms and very much smaller wide-angles, and normal sized standard lenses. To adjust your perception, it’s important to take Sator’s camera size comparison images and align the focal plane index marks, not the front or back of the camera body. It’s surprising how much of an A7RII is behind the sensor plane.

sony-wrongcomparison

The screen grab above is from Sator’s article. It purports to compare two 85mms. There’s just one small problem – it doesn’t. The lens shown fitted to the A99 on the right is the 24mm f/2 CZ SSM A-mount, not the 85mm CZ. The 85mm is 1mm shorter but 3mm fatter with a generally chunkier look, and if you align the focal plane index marks, its front would come almost exactly level with the GM lens. It’s still smaller than the GM but if comparisons are to be made this way, they really should be correct, not wrong.

Why other big lenses?

Blame Canon and Nikon. Both have had SLR mirror paths which are very generous, and there are some lenses you can adapt to Canon which will give you a damaged mirror and lens in return (those lenses can’t be adapted to Nikon at all). Makers like Sigma and Tamron have to design all their lenses to clear the Canon full-frame (EF) mirror swing, and if that means adding 5mm to the back focus and then adding even more in glass to the overall assembly to make this work, so be it.

sigma-20mmf1p4

Therefore, when a nice fast 20mm f/1.4 Sigma appears designed for a retrofocus with a 42mm physical clearance, it’s going to be the same size when remounted (if they ever do) for a skinny 18mm register. Actually, the same size plus 24mm of deadspace extension.

If you think that a fast superwide is bound to be huge, try a Voigtlander 21mm f/1.8 Ultron in Leica M fit. It’s not f/1.4, but it’s also the size of your palm not your forearm – and no doubt an autofocus lens could be made much the same. In fact you can buy an E-mount to Leica M autofocus adaptor and turn it into one. My point is that where Sony’s own lenses may sometimes be fairly large in order to deliver the best results from the existing sensors and the mount constraints, DSLR system lenses can be even larger. Where there is potential for Sony native lenses to be small, there’s very limited potential for this with DSLRs. I use a couple of rare examples, the 20mm f/3.5 Voigtlander Nikon fit wide and the Canon 40mm f/2.8 STM pancake. They are exceptions. Within the range from 28mm to 90mm, there have always been excellent and fairly compact lenses for all types of system – Contax G, Canon, Nikon, Pentax, Leica, Minolta CLE. Sony should look to these for inspiration for a core set of lenses, and seem to have done so with the 28mm, 35mm, 50mm, and 55mm. A neat 85mm f/2.8 next in line then?

Adaptors and focus calibration

The general comment that adaptors introduce error is very true, but Sator doesn’t explain why the E-mount is so prone to such errors. Let me do so. It was designed, from the ground up, to be self calibrating and not to require much precision. When the original 16mm f/2.8 pancake was launched with the NEX-3 and NEX-5, that lens had so much focus travel it could go well beyond infinity. Just 0.1mm makes a huge difference with a 16mm lens at f/2.8 – and the actual flange to sensor register of those first bodies was not even accurate to 0.1mm. Sony just made the lenses able to cover the manufacturing tolerance, because the on-sensor contrast detect focusing always got it right. You would never know if a body had 0.1mm or 0.2mm variation from spec, as the lens had more than this leeway.

SONY DSC

Why the A7 system still wins – though now old, a Voigtlander Leica screw original 12mm f/5.6 ultrawide works well using a $10 simple adaptor. A very much more expensive adaptor – $300 – turned out to have incorrect infinity focus.

Then along came awkward early buyers of adaptors and lenses like the Voigtlander 12mm, or for example the 40mm f/1.4 which was the lens that really alerted me to the problem. These lenses are calibrated to Leica focus register with the aim of a hard infinity stop. They are supposed to hit infinity just as the stars in your night sky snap into perfect focus. We found that whether this happened depended on the individual Sony body and also on any adaptors. Manual focus lenses were not self-calibrating! That’s why the Fotodiox Tough-E mount arrived, why Sony tightened up generally on tolerances after the A7 and A7R, and also why makers like Samyang wisely allow a generous over-run past infinity for manual focus lenses (their 12mm f/2 for E-mount is an example, with plenty of tolerance to handle different bodies).

Now all of Sony’s E and FE mount autofocus lenses have continued to be self-calibrating. They do not have hard infinity stops and many don’t form an image properly at all unless powered up (the power moves groups and elements into position, centres any stabilisation group, and finally performs AF). The start-up routines can also involve opening the lens aperture and closing it, often every time the shutter release is touched for first pressure. This is why expert users often prefer to AF using an assigned custom button, not the shutter release. It can save a wasted quarter-second and greatly speed your response time for action and grab shots. It’s also why manual lenses are popular, as these always shave the response time of the camera body down to an absolute minimum.

The mistake some make is to assume the Sony E-mount needs to be as precise and accurate as a 35mm SLR or DSLR. It does not. It may feel like a precision instrument but in fact it’s not. Where an SLR design requires micron precision in alignment of the lens mount and the focus plane, the principal mirror and the secondary AF mirror, the AF module, and the focusing screen – all at once – the E-mount mirrorless requires only two conditions to be met. The axis of the lens should be centred on the sensor, and should be perpendicular to the sensor (and any focus mechanism used should retain this). If this is achieved, all other degrees of precision can be covered by tolerance. Obviously the IBIS, 5-axis moving sensor, does require considerable engineering excellence to do what it does and keep everything right. But unlike the old DSLRs, it will never need you to adjust hidden screws just to get the focus working properly.

The IBIS question

Sator suggests that with such a small throat aperture, the 24 x 36mm stabilised sensor really can’t do its job. We all saw the first demonstrations of AS, or SSS, or SSI or whatever we call it – the sensor apparently gyrating over many millimetres. Those who bought the original Sony A100 and 16-80mm CZ lens also found that sometimes the sensor would be a little more off-centre for the shot and one corner would be sharply vignetted. Well, you might expect that from the A7RII with certain lenses but in fact I’ve never observed it.

The IBIS never allows the sensor to sit off-axis. It will constantly correct for your wavering hold, but always return to a centred position. It’s not trying to dive 5mm past the shadow of the lens throat or outside your lens image circle, even if it can do so in theory. The real stabilisation corrections made are within a millimetre or two, and even that is a considerable blur when there are over 200 pixels in one millimetre of travel! Consider what a 200 to 400 pixel blur looks like. What IBIS is doing often corrects shake producing blur in the region of 2 to 20 pixels.

So, the reply to the apparently valid point that the whole sensor size, stabilisation movement, lens throat size, and lens image circle combine to make Steady Shot Inside a guaranteed failure can only be this: it works. It’s like a bicycle – look at it, think about it, and it’s not promising… but in practice it works very well. It also works, however its firmware interfaces with lenses, to use OSS optically stabilised Sony lenses very successfully.

Conclusion

The Leica screw system was probably designed with its 39mm lens thread much smaller than the diagonal of the film gate because it was originally made for an 18 x 24mm ‘single frame’ (later called half-frame) format. When a fixed lens was replaced with the screw mount, the inherent problem of having this smaller than the film diagonal was missed. That gave later generations the vignetting Leica Visoflex and the limited range and performance of all lenses over 135mm focal length!

To some extent Sony has done the same thing and simple large aperture long lenses might in theory vignette. In practice they don’t. The limitations are nothing like the Leica or Contax rangefinder mounts were in the past. The argument against full frame mirrorless, or the specific design of the Sony FE/A7 series, ignores many things including simple points like volumetric heft (looks very different from overhead views of the camera footprint) and multi-body kits. I use A7RII, A7 and A6000 and all three bodies together barely take up the baggage space of a single pro DSLR.

So, just relax. The Petapixel article was not a very carefully constructed one or a balanced argument. You’re going to find many different form factors of digital camera in future. The Sony full frame mirrorless system is just one. Because Fujifilm, Olympus, Panasonic, Nikon, Pentax, Samsung and Canon have all made design decisions for their mirrorless offerings which rule out full frame it’s not going to have ‘competition’ right now, and all users of other systems will find reasons why it doesn’t work for them – or take the plunge.

David Kilpatrick

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The best 50mm for A7RII

After testing the Sony Carl Zeiss 55mm f/1.8 FE in 2014, I was less than impressed. I may have had a decentred example (it happened to dPreview and at least one photographer I trust to know his lens performance expectations). It was, certainly, pin-sharp on a test chart or a brick wall but the moment three-dimensional subjects were involved at wide aperture the defocused detail could be very untidy. The clip below from trees behind a building which was sharply focused is at f/1.8 and 1/2500th (a suggestion that it could be caused by camera shake is easily ruled out). See my additional notes at the end!

cz55mm1p8distance

It’s worth saying that when I had this lens I made some tests of the bokeh using very strong defocus which looked good. Many examples I’ve seen, which true believers put forward, show a figure (from full length to portrait) centre of a horizontal frame at f/1.8 with a pleasant enough looking distant background. My gripe has been with what happens when your subject is further away, or the background is not all very distant. This is an expensive lens but it seems to me to have fussy bokeh with too much CA fringe and also more focus-related colour shift than desirable.

Here is a full size example with EXIF. Honestly, the best standard lens around? //www.pbase.com/davidkilpatrick/image/162847304

Now I’ve got a fair collection of 50, 55 and 58mm lenses and also the little Canon 40mm f/2.8 STM which is my alternative to having a 35mm and a 55mm. No matter what the lens – Pentax, Minolta, Sony 50mm f/1.4, Helios, Zenitar, Nikon, CZ Jena – the full aperture between f/2 and f/1.4 always proves to be a touch soft. They all have residual aberrations that the CZ 55mm f/1.8 design has eliminated. While they can have a smoother bokeh, they also have marked colour shifts and uncorrected CA. Generally, they also all perform extremely well once stopped down to f/8 and most designs are great by f/4.

Despite the advantage of full AF functions, the CZ 55mm does not have a particularly good close focus or maximum image scale. In use I often found myself framing up closer than 50cm. That’s half a metre – it’s even further than the old 55 and 58mm lenses of the 1960s, which generally manage 45cm. I find this limitation hard to understand. 50 years ago CZ Jena started to put helicoids on their standard 50mm lenses which enabled focus down to 35cm. We have gone backwards since then.

And then I realised I’ve already got a lens which is free from all vices, gives me AF and manual focus options using adaptors I already own, which cost me about a third of the price of a CZ 55mm – and I was not being used on my A7RII. We bought a good used example of the Sony SAL 50mm f/2.8 Macro to use with our Alpha DSLR.

First of all, I compared this with the idea of buying a Zeiss Loxia 50mm f/2, by fitting it to the LA-EA3. Although the focusing ring does not communicate to the camera to invoke magnified manual focus, the lens has a Focus Hold button which can be set to this. The focusing throw is steep but in practice very accurate focus is easily set. At f/2.8, the lens is already perfectly sharp with some contrast improvement at f/4. The lack of vignetting and distortion, the flatness of field and generally very attractive smooth defocusing without CA issues make the lens better than typical fast standard designs.

On the LA-EA4 with autofocus, a limited set of AF functions ends up activated and there’s always the issue of the slight delay and sound caused by mechanical aperture operation. AF-C is of limited use, along with this video functions. However, I don’t generally use this type of lens for action or for video.

I made plenty of non-image tests by defocusing bright edges, both ways, and could find no hint of colour problems. I then set up a small food shot using the close focus – exactly the reason I find a lack of close focus restricting – and made tests at f/2.8, f/5.6, f/11 and f/22 to look at the bokeh. My conclusion is that I will be hard pressed to find anything technically better, or with a more pleasant character to the background defocus, in the c.50mm focal length. The series covers all four apertures.

I am aware that one comment will be that f/2.8 simply isn’t wide enough. There’s no significant differential focus and you’d need 50mm f/1.0 to get what many photographers want. However, this is all to do with viewing size. We all tend to see pictures on smartphone screens, on Facebook, or even on our own camera three-inch screens. In fact, at f/2.8 there isn’t enough depth of field for a typical real-world use of a full page reproduction and f/5.6 is just about right. For a poster, f/11 would be good. At f/22 the whole image is slightly softened as expected and it’s just there to complete the set.

For the moment – at least until a Batis version of the 50mm f/2 Makro Planar appears and answers all my demands perfectly – I think this Minolta-derived 50mm macro will do fine as my ‘standard’ lens.

David Kilpatrick, aka ‘some random blogger’ (©SAR comments March 2016)

Added August 30th 2016: Sony has announced an E-mount 50mm f/2.8 Macro focusing to 1:1 with a stated RRP of $500 – really, they must have read this article in March. In the meantime, during the Brexit fiasco I caved in and bought a 55mm f/1.8 CZ, suspecting the price would be 20% higher soon enough (and sure, it was). My new example is no better than those I originally tested but it has its uses and in a flat plane – no defocused image to screw the results up with an ugly mess – it’s the sharpest 50-55mm I have used. I’m still using the 50mm macro and recently spend a month using the Samyang 50mm f/1.4, which is not as sharp as the CZ but handles blur and bokeh more elegantly. Both lenses don’t really excel at suppressing Longitudinal CA, one of the strengths of the A-mount macro. Hopefully the new SEL FE 50mm macro will also give clean, colour-shift free foreground and background bokeh.

Added July 29th 2017: I have now bought the 50mm f/2.8 Sony FE Macro, and put my A-mount macro lenses up for sale. The E-mount focuses to 1:1 rather closer than I would like, at 16cm which indicates its internal focusing changes the focal length to something more like 37mm to 1:1 (16cm is a pure 40mm at 1:1 assuming no optical thickness to the lens). It’s an extremely sharp lens with bokeh as good as the A-mount 50mm and no trace of CA.

No FE or A mount for new Sigma 24-35mm f/2

We’ve had news of the new Sigma Art HSM high speed wide angle full frame zoom – 24-35mm f/2.

Sigma24-35f2

It will be available in Nikon, Canon and Sigma mounts only (release date not yet confirmed) according to Sigma in the UK.

Note that this will be a bit of monster with its 82mm filter thread, 117mm long barrel and substantial petal lens hood.

Sigma does not make a full frame DSLR. Sony is now a major market for high end full frame lenses. What’s going on here? We’ll just have to wait and see. Maybe Sigma just reckon every FF Sony mirrorless owner will have a Canon AF adaptor and maybe their HSM – which works pretty well on the A7II – will even allow fast AF on the new A7R II.

– David

Sony’s BIG system future at photokina

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I’m using my RX10 to report. This camera is my big Sony dilemma. It’s actually all I really need for 95% of my daily work.

Well, here we are reporting from photokina 2014, the major trade fair in Cologne. I’m only here for the day and a brief stop in tomorrow morning en route to the airport, and my first appointment was with Sony. To be frank, it doesn’t matter that much as everything has already been publicised on many web pages. My only request, to be allowed to take some test frames on my A7R using any of the new FE lenses, was turned down because the lenses were ‘pre-production’. I was not pleased to be standing within earshot when, ten minutes later, the very same 16-35mm f/4 was being made available to another UK journalist not only to use but to take outside the hall into the Messehallen surroundings for ten minutes (chaperoned).

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Of course you need a Canon sign over queues. It is after all the brand of herd!

I don’t need an outside scene to assess a 16-35mm – give me a room with vertical pillars (plenty) and some small very intense bare bright light sources (ditto) and I can pretty much do an optical test on such a lens in a couple of dozen frames. The good news is that Sony UK may be better placed to let photoclubalpha (and all the other media I write for) have loan lenses. In the last year, I’ve bought £10k worth and sold £5k worth of Sony and related third party gear to be able to keep up to speed with the rate of new products and their sheer cost.

If equipment had cost this much relative to earnings when I set out in photography, I would never have become a photographer – it would not have been possible. It would have been making a choice – a deposit on a house, a secondhand car, or a camera and three lenses?

And lenses are certainly being rolled out. The new roadmap concentrates entirely on the E-mount systems (FE and E, full frame and APS-C). The Alpha 99 may still be there as a flagship for the A-mount but there’s really nothing here, no news, for A-mount system users.

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Hands-on reports from photokina often mean nothing more… hands-on! No pictures allowed with the glass. It looks like a lens, it works like a lens, but it’s really only half a lens.

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Unless, of course, it is two times a lens. The ciné targeted 28-135mm f/4 power zoom for FE may have the ghost of a Minolta 28-135mm hiding inside its suit of armour. It’s huge.

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In a sealed but rather grubby fingermarked cabinet sat the new lenses – a Carl Zeiss Distagon T* FE 35mm f/1.4 ZA, a Sony FE 24-240mm f/3.5-6.3 OSS, and a Sony FE 90mm f/2.8 Macro G OSS. I wiped the drool marks off the glass with my secret weapon (a packet of tissues) and took some individual pictures.

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OK, the glass didn’t clean up all that well and there were many reflections to avoid.

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But here is what you need to see – a 90mm macro with an external OSS on-off switch so you do not have to menu dive to perform this function when tripod mounting, as well as a triple range focus limiter. But this len is a real monster. We have to assume it uses internal focusing with a design like this.

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And here is another surprise. Like Fujinon XF lenses, the forthcoming CZ 35mm f/1.4 has an RX-style third f-stop clicked aperture ring, with an A setting at the extreme beyond f/16. My guess is that there is also an RX-style click disengager round the back, making this a superior lens for ciné but almost certainly needing a firmware update for camera bodies as it is the first A or E mount (electronic aperture) lens to feature an on-lens aperture control.

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Then we have a neat 28mm f/2 AF for FE, joining the Carl Zeiss Loxia manual focus, electronic function 35mm and 50mm lenses shown elsewhere on the stand (one day I may feature these if we find them exciting enough).

This lens has two optional adaptors – very much like the adaptors for the 16mm E series pancake, a 0.75X wide angle (converts it to a 21mm f/2) and a fisheye (converts it to a 16mm f/2).

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I would say many of the size advantages of the A7 full frame camera series are completely negated by all of these new lenses and by the adaptors. What we actually need and want is a handful of properly compact sensor-matched lenses, smaller perhaps than the existing 35mm f/2.8 FE, and not a range of lenses which increases the overall size of a mirrorless kit to the point that you might as well have a DSLR. It’s not quite that bad, they are still a bit smaller overall, but here’s the 28mm converted to fisheye:

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I’ll leave you with the test set-up for the A6000 and lenses –

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I’m off for a meeting with Sigma. Just got ten minutes to find them!

– David KIlpatrick

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