Choosing the right gamma curve.

One of the most common questions I get asked is “which gamma curve should I use?”.

Well it’s not an easy one to answer because it will depend on many things. There is no one-fits-all gamma curve. Different gamma curves offer different contrast and dynamic ranges.

So why not just use the gamma curve with the greatest dynamic range, maybe log? Log and S-Log are also gamma curves but even if you have Log or S-Log it’s not always going to be the best gamma to use. You see the problem is this: You have a limited size recording bucket into which you must fit all your data. Your data bucket, codec or recording medium will also effect your gamma choice.

If your shooting and recording with an 8 bit camera, anything that uses AVCHD or Mpeg 2 (including XDCAM), then you have 235 bits of data to record your signal. A 10 bit camera or 10 bit external recorder does a bit better with around 940 bits of data, but even so, it’s a limited size data bucket. The more dynamic range you try to record, the less data you will be using to record each stop. Lets take an 8 bit camera for example, try to record 8 stops and that’s about 30 bits per stop. Try to extend that dynamic range out to 11 stops and now you only have about 21 bits per stop. It’s not quite as simple as this as the more advanced gamma curves like hypergammas, cinegammas and S-Log all allocate more data to the mid range and less to highlights, but the greater the dynamic range you try to capture, the less recorded information there will be for each stop.

In a perfect world you would choose the gamma you use to match each scene you shoot. If shooting in a studio where you can control the lighting then it makes a lot of sense to use a standard gamma (no knee or knee off) with a range of up to 7 stops and then light your scene to suit. That way you are maximising the data per stop. Not only will this look good straight out of the camera, but it will also grade well provided your not over exposed.

However the real world is not always contained in a 7 stop range, so you often need to use a gamma with a greater dynamic range. If your going direct to air or will not be grading then the first consideration will be a standard gamma (Rec709 for HD) with a knee. The knee adds compression to just the highlights and extends the over-exposure range by up to 2 or 3 stops depending on the dynamic range of the camera. The problem with the knee is that because it’s either on or off, compressed or not compressed it can look quite electronic and it’s one of the dead giveaways of video over film.

If you don’t like the look of the knee yet still need a greater dynamic range, then there are the various extended range gammas like Cinegamma, Hypergamma or Cinestyle. These extend the dynamic range by compressing highlights, but unlike the knee, the amount of compression starts gradually and get progressively greater. This tends to look more film like than the on/off knee as it tends to roll off highlights much more gently. But, to get this gentle roll-off the compression starts lower in the exposure range so you have to be very careful not to over expose your mid-range as this can push faces and skin tones etc into the compressed part of the curve and things won’t look good. Another consideration is that as you are now moving away from the gamma used for display in most TV’s and monitors the pictures will be a little flat so a slight grade often helps with these extended gammas.

Finally we come to log gammas like S-Log, C-Log etc. These are a long way from display gamma, so will need to be graded to like right. In addition they are adding a lot of compression (log compression) to the image so exposure becomes super critical. Normally you’ll find the specified recording levels for middle grey and white to be much lower with log gammas than conventional gammas. White with S-Log for example should only be exposed at 68%. The reason for this is the extreme amount of mid to highlight compression, so your mid range needs to be recorded lower to keep it out of the heavily compressed part of the log gamma curve. Skin tones with log are often in the 40 – 50% range compared to the 60-70% range commonly used with standard gammas.  Log curves do normally provide the very best dynamic range (apart from raw), but they will need grading and ideally you want to grade log footage in a dedicated grading package that supports log corrections. If you grade log in your edit suite using linear (normal gamma) effects your end results won’t be as good as they could be. The other thing with log is now your recording anything up to 13 or 14 stops of dynamic range. With an 8 bit codec that’s only 17 – 18 bits per stop, which really isn’t a lot, so for log really you want to be recording with a very high quality 10 bit codec and possibly an external recorder. Remember with a standard gamma your over 30 bits per stop, now were looking at almost half that with log!

Shooting flat: There is a lot of talk about shooting flat. Some of this comes from people that have seen high dynamic range images from cameras with S-Log or similar which do look very flat. You see, the bigger the captured dynamic range the flatter the images will look. Consider this: On a TV, with a camera with a 6 stop range, the brightest thing the camera can capture will appear as white and the darkest as black. There will be 5 stops between white and black. Now shoot the same scene with a camera with a 12 stop range and show it on the same TV. Again the brightest is white and black is black, but the original 6 stops that the first camera was able to capture are now only being shown using half of the available brightness range of the TV as the new camera is capturing 12 stops in total, so the first 6 stops will now have only half the maximum display contrast. The pictures would look flatter. If a camera truly has greater dynamic range then in general you will get a flatter looking image, but it’s also possible to get a flat looking picture by raising the black level or reducing the white level. In this case the picture looks flat, but in reality has no more dynamic range than the original. Be very careful of modified gammas said to give a flat look and greater dynamic range from cameras that otherwise don’t have great DR. Often these flat gammas don’t increase the true dynamic range, they just make a flat picture with raised blacks which results in less data being assigned to the mid range and as a result less pleasing finished images.

So the key points to consider are:

Where you can control your lighting, consider using standard gamma.

The bigger the dynamic range you try to capture, the less information per stop you will be recording.

The further you deviate from standard gamma, the more likely the need to grade the footage.

The bigger the dynamic range, the more compressed the gamma curve, the more critical accurate mid range exposure becomes.

Flat isn’t always better.

My Horizons Film Contest Winners.

Sorry folks for the delay in announcing this, work got in the way. The winners in the My Horizons film contest are:

1st Prize: Bob Wall FW Focus Productions and “Choices”

2nd Place: Anna Possberg “My Ice World”

3rd Place: Boris Watz “Bridge in Tunnel”.

I was particularly impressed by the use of real people to tell the story in “Choices”. The subject is not the most interesting of topics but the film is well shot and edited and this means it is enjoyable to watch.

New lens Adapter Concept/Prototype


So here’s a little something I have been working on. This was born out of necessity and the reality of shooting 4K ENG style with a large sensor camera. Like many I needed a zoom lens with a good zoom range. 10x zoom was my minimum. While you can get some very nice PL zoom lenses, for example the Fujinon Cabrio 19-90mm this is only a 4.7x zoom. There are higher ratio zooms like the beautiful Angenieux 24 to 290, but this is a massive lens requiring a massive tripod and not at all suitable for ENG or handheld shooting. Sony F3 and F5/F55 users do have the option of the Sony SCL-Z18X140 which is an 18mm to 240mm servo zoom. It’s a good lens, not fast (f3.5 – f6.3) but useful, but quite a lot of money for such slow lens that is clearly based on DSLR optics. So, what about a DSLR lens? Well that’s what I started to look at, there’s plenty of choice, including the Tamron 18-270 a nice and useful 15x zoom range (just be aware that the Tamron’s focus back to front compared to most broadcast and film lenses). There are also the Canon and Sigma 18-250mm lenses.

Anyway… I’m trying to standardise on one DSLR mount and that’s Canon, so that means I need electronic aperture control for many of my lenses. Why Canon and not Nikon with it’s manual iris? Well almost all Nikon lenses focus back to front which is a real PITA. I purchased an MTF Effect Canon mount and control box, this gives me a Canon mount and now I have electronic iris control plus optical image stabilisation if the lens has it. But the electronics engineer in me started to wonder if it was also possible to add a servo to the lens to create a power zoom. After several abortive attempts, lots of swearing and not an insignificant spend on motors and gearboxes I finally got it working, a servo motor to drive an off-the-shelf DSLR zoom lens, or a PL mount zoom lens. Then I wondered about combining the zoom rocker with an iris control. This is where things got really interesting as I was delving into new territory for me and that’s micro controllers. In addition Canon don’t publish details of the language and signals needed to control their lenses. Almost no-one has completely cracked all the codes needed to drive the lens, so I had to reveres engineer the protocol. After a few weeks of tinkering late into the evenings (sorry to my wife and daughter!) I finally had the major codes and could program a controller to drive the lens.

Now it’s all combined into a single box. A zoom rocker and servo motor to drive the zoom ring. A thumb wheel on the hand grip that operates the iris and a second small box with a knob to control focus, plus image stabilisation control. This means you can fit handles to the ring and have the focus control wherever you want. I have also developed a miniaturised lens control box without the zoom servo and rocker. This is the size of a match box and includes a thumbwheel/knob for iris and a port where you can plug in the remote focus control.

The next phase is to add Bluetooth control. This should be relatively straight forward now I know the lens protocols. I can already add bluetooth to the micro controller, so I just need an App to talk to it. Anyone out there good at writing iPhone Apps? I’d really like to get full remote control of zoom, iris and focus on an iPhone.

When will this become a product? Well I am working with a well known manufacturer in the UK at the moment to see if we can make this an affordable product. If that deal doesn’t work out then I’ll go the Kick-Starter route and do it myself. It will probably end up as two different products. An all-in-one box with zoom rocker and Canon lens controls and a second unit that just has the zoom rocker and servo for use on PL or Nikon lenses.

Zunow 16-28mm f2.8 FZ mount Group Buy Details.

Zunow 16-28mm wide angle f2.8 lens.
Zunow 16-28mm wide angle f2.8 lens.

I have been given the opportunity to place an order for a minimum of 5 Zunow 16-28mm f2.8 FZ mount lenses. The list price for this lens is EUR 7650 ($11K) but if we can order a minimum of 5 it will be EUR 3,800 ($5K approx). If as a group we buy 10 the price would be even lower at EUR 3,600 ($4.5K approx). Prices exclude any taxes or shipping (from the EU).

Sony FZ mount for PMW-F3, PMW-F5 and PMW-F55

• Focal Length: 16-28 mm
• Minimal optical distance: 1.1 ft/0.3m
• IRIS: F2.8-22
• Front Diameter: 98mm
• Filter Screw 95mm P1.0
• Weight: 1.9 Kg/4.19 lbs

The FZ mount Zunow 16-28mm on a PMW-F5
The FZ mount Zunow 16-28mm on a PMW-F5

Made in Japan by renown lens manufacturer Zunow the lens is a beautiful low distortion wide angle vary-focal lens. At 16mm the wide angle views this lens has to offer are beautiful. Designed for 4K it is sharp and clear out into the corners. Flare is minimal and contrast excellent. At f2.8 for a 16mm lens this is respectfully fast. At 24mm there is near zero geometric distortion making the lens particularly well suited to industrial and structural imagery where pin cushion or barrel distortion can be a significant problem. Even at 16mm the distortion is minimal. The iris is an 8 blade iris, the bokeh is very pleasing. It is not designed as a zoom lens, the focus shifts slightly as you change focal length. What it is, is a single wide angle lens that can provide a variety of focal lengths without the need to swap lenses while maintaining prime lens image quality.

Clear and easy to read focus marks.
Clear and easy to read focus marks.

The lens has large and easy to read markings for aperture, focal length and focus distance. The focus markings are in both metric and imperial. The rear element is baffled for 16:9 to reduce flare and reflections within the camera body. The construction is all metal, mostly black anodised aluminium alloy.

So how will the group buy work? First use the contact form to contact me if you are interested. I will have a sample lens available at some of the workshops I’m running in the UK and I hope to take one with me to Cinegear at the end of May. I wish to close the deal during the week commencing June 10th. Payment for the lenses will be made to the European Distributor who will then ship out the lenses. Buyers will be responsible for all taxes, duties and shipping charges. These are in addition to the group buy price.

Below are some frame grabs from the lens, shot using a PMW-F5 with the frame grabs pulled from the raw clips in Adobe Premier. Aperture was between f4 and f5.6. Click on the thumbnail to view a larger version and then click on the link above the image for the full 4K frame. Please consider this is a very wide angle lens when looking at the images.

Trees at 16mm
Trees at 16mm
Trees at 28mm
Trees at 28mm
Street at 28mm
Street at 28mm
Street 28mm
Street 28mm
Zero distortion 24mm
Zero distortion 24mm

 

Storm Chasing Workshop and Adventure May 23rd to May 30th. Come Join Me!!

Shooting a severe storm in Texas on a previous tour.
Shooting a severe storm in Texas on a previous tour.

Fancy something a bit different? Want a bit of excitement and adventure whilst learning new video and photography skills? Why not join me on this week long adventure workshop? Don’t forget as a training workshop this trip is tax deductable!

Departing early in the morning on the 23rd of May from Oklahoma City we will seek out some of the most breathtaking weather on the planet. Along the way I will share my skills and knowledge as I teach you to capture impressive images, whether video or stills. Late May is prime time tornado season in the USA.

SUPERCELLS: The most spectacular storms on the planet!

Dramatic Supercell Thunderstorm
Dramatic Supercell Thunderstorm

 

The storms that produce the Tornadoes are called “Supercells”. These are intense, long lived thunderstorms that can often look like scenes from sic-fi movies. We should see incredible landscapes and scenery, cloud formations that will amaze, incredible sunsets and if we are very lucky maybe a tornado or two.

Rainbow under a severe thunderstorm.
Rainbow under a severe thunderstorm.

Is it dangerous? Not as dangerous as it may appear on TV! These storms are incredibly powerful, but I am not out to get as close as possible to a tornado, nor am I interested in getting into any other un-necessarily dangerous situation. I have been chasing storms like these for over 12 years, I know how to stay out of trouble and the van will be equipped with both a satellite data system and a GPS and cellular data based storm tracking system. Using these I will know exactly where the most dangerous parts of the storms are and in fact tornadoes are actually quite predictable.

Equipment used for forecasting and storm tracking.
Equipment used for forecasting and storm tracking.

If a safe opportunity to approach a tornado presents itself then I will take advantage of this, but what I want is beautiful, jaw dropping images of the storms and storm structure. These take a couple of minutes to compose so I will often be hanging back a little to give us more time to get those once in a lifetime images. After dark I don’t like chasing barely visible tornadoes, instead I will find a good place a little way away from the storm to shoot the often incredible lightning that occurs.

What will you learn? As many of you may know I am an expert on camera setup and camera technology. I’m also a highly experienced documentary film shooter. I will happily pass on as much of that knowledge as you wish. I can teach good exposure, framing, picture profiles, log and raw shooting, editing, time-lapse and photography techniques. Why sit in a boring class room learning this stuff when you can have a real adventure at the same time. I find I always learn more about shooting techniques when the pressure is on!

A Supercell thunderstorm looking like a flying saucer.
A Supercell thunderstorm looking like a flying saucer.

Typically on day 1 I will teach basic framing and exposure with tips on how to prepare your camera for the scenes we are likely to encounter. Day 2 would be lesson on time-lapse techniques and methods. Day 3: We can look at raw and log formats and how to use them correctly. Day 4: Picture Profiles and advanced camera setups. Day 5: Documentary shooting tips, location sound and industry best practice. These are just some ideas, the tuition would be tailored to suit the needs of those in this small group.

Me, shooting a tornado for National Geographic.
Me, shooting a tornado for National Geographic.

Will we see storms? Well that is the big question. Unfortunately there is no guarantee that the weather will co-operate. However one reason this trip is being arranged and run last minute is because I have been keeping an eye on the weather trends and long term forecasts waiting for as best as I can see a good window of opportunity. Mid/Late May should be well into the storm and tornado season, this is the time of year when things are normally at their best. The global weather pattern that produced the surprisingly cold Spring is starting to break down and a much more typical late Spring pattern is on it’s way in the coming days. I would be very surprised if we don’t see storms on at least a couple of days, but I cannot guarantee anything. Typically for a storm chase in May I would expect to chase active strong to severe storms on 4 out of the 7 days. Down days are often needed to re-position for later active storm days and of course down days are days where we can have further tuition.

At night we shoot lightning!
At night we shoot lightning!

So what’s it going to cost? I try to make my courses and workshops as affordable as possible. This is no different, but there are many costs to be covered including vehicle hire, fuel, data and accommodation. The cost for this workshop is $1,900 USD per person. This includes a full week of tuition, motel accommodation between  check-in on May 22nd and departure on May 30th, and transport during the trip (starting and ending in Oklahoma City). It does NOT include any food or drink or your transport to the start and end point (Oklahoma City). Compare this to the cost of a typical Storm Chasing tour, that does not include video production tuition and you will see that this is remarkable value. If your coming to the US for this trip then do consider that the Cinegear Expo trade show at Paramount Studios takes place May 31st and June 1st.

If you wish to come please use the contact form to contact me ASAP. Places are very limited (5 places maximum) on this exclusive workshop. It will be fun, informative and an adventure.

 

Firmware Updates for Sony HDR-AS15 Action Cam.

Sony have released version 2.0 of the firmware for the Sony Action Cam along with updates for the Play Memories Software that is used to remotely connect to the camera via an iPad, iPhone or Android device. Click Here to go to the update page. Not a huge update by the looks of things. You get 1080p60 and new white balance settings for use underwater and the ability to turn the key press beeps off. No 25p or 24p sadly 🙁

More Details on the Convergent Design Odyssey Codecs and Pricing.

Convergent Design Odyssey7 Front.
Convergent Design Odyssey7 Front.

Following feedback from NAB Convergent Design decoded to make some changes to the pricing of the Odyssey7 and Odyssey 7Q. In case you haven’t already heard about these devices they are 7″ OLED monitors that also have the ability to record to onboard SSD’s. Originally the Odyssey units were not going to include any recording capability as standard. All the recording options were going to be paid for updates or available for short term rental. However Convergent Design have now decided to include the ability to record using Avid’s DNxHD codec within the original price of $1295 for the Odyssey 7 and  $2295 for the more advanced 7Q. There is however a small catch. In order to use the “free” codec options you must use a Convergent Design supplied SSD.

Waveform and measurement options on the Convergent Design Odyssey7Q
Waveform and measurement options on the Convergent Design Odyssey7Q

The Convergent Design SSD’s are more expensive than most off-the-shelf SSD’s but they are tested and certified to work with the Odyssey and some of the very fastest SSD’s available today.

Initially, this means that the Avid DNxHD codec, Avid DNxHD-36, -100, -145, -220 (8-Bit) and 220x (10-Bit) will be included). Advanced recording options such as Raw will now only be available on the 7Q.
Note: All prices are quoted as United States prices.
Prices around the world have to be different due to shipping, customs import fees, other taxes, and exchange rates.

Odyssey7 $1295 (US Price)

Avid DNxHD Recording Capabilities are enabled, for free,
upon insertion of a Convergent Design SSD.
No other recording options are offered at this time.
Initial Shipments of the Odyssey7 are planned for November 2013

Odyssey7Q $2295 (US Price)

Avid DNxHD Recording Capabilities are enabled, for free,
upon insertion of a Convergent Design SSD.
Additional recording options are available as described below.
Initial Shipments of the Odyssey7Q are planned for August 2013

High Performance Convergent Design SSD’s

240 GB $595 (US Price)
480 GB $1195 (US Price)
960 GB $2195 (US Price)

Odyssey 7Q Recording Options

FS700 Support: $1495, $75/day rental rate (US Prices)

HD/2K Raw up to 240fps (.dng format – Cinema DNG),
Quad HD/4K YCbCr Uncompressed up to 30 fps (.dpx format)
This option scheduled to be release in August, 2013.

Canon C500: $2495, $125/day rental rate (US Prices)

Quad HD/4K Raw 10-bit up to 60 fps,
Half QuadHD/Half 4K Raw 10-bit up to 120 fps (.rmf format);
Uncompressed HD/2K RGB 4:4:4 10/12-bit up to 60 fps (.dpx format);
DNxHD Compressed HD YCC 8/10-Bit up to 120 fps
(880 Mbps, .mov format).
Support for all C500 frame rates/modes for in one unit.
Some modes require two SSDs.
Simultaneous RAW and Proxy (DNxHD-36) up to 60 fps supported
(which is the limit of the camera’s monitor output)
This option scheduled to be release in August, 2013.

HD/2K High Frame Rate/RGB 4:4:4 $1495, $75/day rental rate (US Prices)

DNxHD Compressed HD YCbCr 8-Bit/10-Bit up to 120 fps
(up to 880 Mbps, .mov format)
Avid DNxHD-36, -100, -145, -220 (8-Bit), -220x (10-Bit)
Uncompressed HD/2K RGB 4:4:4 10/12-Bit up to 60 fps (.dpx format)
Also accepts 4:2:2 YCbCr and records in 4:4:4 RGB(.dpx format);

Quad HD/4K Support: $1495, $75/day rental rate (US Prices)

Uncompressed QHD/4K YCbCr 10-bit up to 30 fps (.dpx format).
For Sony F55 and other cameras that can output uncompressed 4K over four HD-SDI Single-Link Outputs.

HD/2K Raw: $2495, $125/day rental rate (US Prices)

HD and 2K Raw, up to 120 fps (.dng format – Cinema DNG).
Supports cameras from IO Industries, Lux Media Plan, Indiecam, Weisscam, P&S Technik X35

ALEXA ARRIRAW: $2995, $150/day rental rate (US Prices)

ARRIRAW (16:9 up to 60 fps, 4:3 up to 48 fps) with VariFrame and de-squeeze support (.ari format)
Simultaneous RAW and Proxy (DNxHD-36) up to 30 fps supported
(which is the limit of the camera’s monitor output)
This option scheduled to be released Q4 2013

Quad Stream HD Recording: $3995, $200/day rental rate (US Prices)

Supports recording up to four separate (Genlock not required)
video streams into four separate files using Avid DNxHD,
up to 1080p30/1080i60 or 720p60
(up to 220 Mbps/stream, .mov format).
The four HD streams may be displayed in separate quadrants on the OLED monitor and/or external monitor.
This option scheduled to be released Q4 2013.

Cine EI on the PMW-F5 and F55.

With the release of Firmware version 1.13 for the PMW-F5 and F55, Sony enabled the use of EI gain when shooting using the Cine EI mode. It’s a little unusual in that the EI gain only goes below the default/native gain and not above.

So what is EI gain and how do you use it?

EI or Exposure Index gain is a way of changing the gain of the monitoring outputs, but not the gain of the primary recordings. Currently with the F5 and F55 the signal seen on the HDSDI, HDMI output and viewfinder outputs are the same signals as recorded to the internal SxS cards, so EI gain is also added to the internal recordings. However EI gain is not added to the raw recordings recorded by the R5, these are always done at the native ISO of the camera, 1250ISO for the F55 and 2000ISO for the F5. The EI Gain is selected in the camera menu, it cannot be selected from the hot keys around the info LCD.

The F55 supports Exposure Index values (400EI/640EI/800EI/1250EI) in Cine-EI mode.

The F5 supports Exposure Index value (640EI/800EI/1250EI/2000EI) in Cine-EI mode.

So as we can see from above we can reduce the EI gain, not increase it (the F3 and most other cameras allow an increase in gain). What happens when we do this? Lets say we decrease the EI gain on an F5 to 800EI or 640EI on an F55, just a little over a one stop reduction. The image seen on the monitor or viewfinder screen gets darker. If your using a light meter to expose you would set your light meter to the new EI ISO.

If exposing according to that light meter, it would tell you to open the iris by a little over 1 stop. This would then return the brightness on the monitor or viewfinder back to where it was before you selected the new EI ISO. Now remember that the actual raw recording ISO does not change. So as you open up the iris (as that’s what the light meter or monitor image tells you to do) the raw recordings become brighter. With most conventional cameras this could be a problem as it might result in an overexposed image. But the F5 and F55 have so much dynamic range that for most typical scenes the exposure will still be OK. My experience with the F5 and F55 is that when shooting at the native ISO you normally have plenty of headroom. Raising the recording levels like this will allow more shadow and dark detail to be seen. So what you are doing is in effect shifting the cameras latitude down by just over one stop. Assuming your correctly exposed at the cameras native ISO you get +7 stops and -7stops, but now with the EI ISO set 1.25 stops lower, the dynamic range becomes +5.75 stops -8.25 stops. In addition as you will be bringing levels down in post production (compared to footage shot at the native ISO) you will end up this less noise in the final results.

So the current EI ISO settings on the F5 and F55 allows you to shift your exposure range down to produce a less noisy image with greater shadow latitude, but decreased highlight latitude.  Interestingly this is the opposite to the way EI ISO on the F3 works, the difference being due to the F5 and F55’s much higher dynamic ranges but more importantly the linear raw recording allowing for better use of the top end of the cameras dynamic range. A camera like the F3 that uses log recording cannot be significantly overexposed as the log compression of the highlights would cause problems with the brighter parts of the scene becoming excessively compressed. I would imagine that Sony will  include EI ISO settings that are higher than the native ISO in future firmware releases, but for the moment we can only go down.

 

New PMW-200 Firmware Release. V1.2.

The Sony firmware guy’s have been busy as they have also just released a firmware update for the PMW-200.

http://www.sony.co.uk/pro/support/software/SET_BPE-SS-1013/10

NEW FEATURES & IMPROVEMENTS:

1.) i.LINK DVCAM Input
Stream signal recording via i.LINK DVCAM input is available.
2.) Adjusting the Brightness of the EVF Screen
The default value of EVF has changed from ±0 to +30.
3.) Selecting AUDIO IN Reference Input Level
The default value of Audio Input has changed from -40 dB to -60 dB.
4.) External Device Connector
A message will be displayed if a USB device which is not supported by this unit has been connected.
5.) Auto Focus
Auto focus performance is improved. Focus instability near the focal point and with a high-luminance background has been reduced.
6.) Auto Knee
Auto Knee performance is improved. Emphasis of white for an object with a high-luminance background has been reduced.
7.) ATW
ATW performance is improved. When ATW mode is set to Natural, automatic adjustment for wider brightness range when shooting outdoors is available.
8.) Matrix Adjustment
Can be put on OFF in PICTURE PROFILE SET.

 

Cinematographer and film maker Alister Chapman's Personal Website