All posts by alisterchapman

PMW-F55 and F5 Viewfinder High Contrast Mode as a LUT for HFR.

Been playing a lot with HFR recently on my F5. One of the niggles with HFR on the PMW-F55 and F5 is that you don’t have LUT’s when shooting HFR. But, in firmware V4 Sony added a new high contrast mode for the viewfinder. I now have this allocated to one of my assignable buttons and it makes a pretty good LUT alternative for shooting in HFR.

I find that when shooting with S-Log3 HFR I can get a pretty good approximation of correct exposure using the VF High Contrast mode and as the image has decent contrast, focus is much easier than when trying to work without any kind of LUT. Sadly this is only available in the viewfinder, but I find that it is much more obvious if your exposure is off when you use the VF High Contrast mode.

The camera automatically turns this mode OFF when you power the camera down, so you must re-enable it when you power cycle the camera. This is probably a good thing as it means you shouldn’taccidentally.

Sadly zebras etc either measure the LUT output or the Slog, they are NOT effected by the viewfinder HC mode, so in HFR they will be measuring the SLog.

It’s very easy to check out this function for yourself. In regular, non HFR Cine EI,at the native ISO,  turn ON the 709(800) LUT and view the image in the viewfinder making a mental not of what it looks like. Now turn the VF LUT’s OFF and turn on the VF High Contrast mode. You will see that the VF image is as far as I can tell identical in both modes.

So at the native ISO: Cine EI + 709(800) LUT gives the same image in the VF as CineEI NO LUT + VF High Contrast mode.

I recommend that if you haven’t played with this in HFR you give it a try. It’s not a true LUT, but it looks just the same as the 709(800) LUT.

Do you really want or need 4K?

For the past 18 months almost everything I have shot has been shot at 4K. I have to say that I am addicted to the extra resolution and the quality of the images I am getting these days from my PMW-F5 and R5 raw recorder. In addition, the flexibility I get in post from shooting in 4K to crop and re-frame my shots is fantastic.

BUT: I have a Sony A7s on order. Us European buyers won’t get them until late July as the European model is different to the US model, in the US the cameras are based on the NTSC system, so do 24, 30 and 60fps while the European models are based on PAL, so do 25 and 50fps  but with the addition of 24fps as well. Right now there are no realistic portable 4K recording option for the A7s, these will come later. So this means that for a now if I want to shoot with the A7s it will have to be HD.

Is that really such a bad thing? Well, no not really. It’s a sideways step not a backwards one, as I’m getting the A7s for a very specific roll.

Image quality is a combination of factors. Resolution is just one part of the image quality equation. Dynamic range, contrast, noise, colour etc all contribute in more or less equal parts to getting a great image. The A7s delivers all of these very well. If I am delivering in HD then most of the time I don’t NEED 4K. 4K is nice to have and if I can have 4K then I will take advantage of it, but for an HD production it is definitely not essential in most cases.

The reason for getting the A7s is that I want a pocket sized camera that I can use for grab and go shooting. It offers amazing low light performance and great dynamic range thanks to it’s use of S-Log2. I’m really excited about the prospect of having a camera as sensitive as the A7s for next years Northern Lights trips. I should be able to get shots that have not been possible before, so even at “only” HD the A7s will get used along side my 4K F5/R5.

In the future there will of course be external 4K recording options for the A7s making it even more versatile. I probably won’t always use them with the A7s but the option will be there when I NEED 4K.

Given the choice, if I can shoot in 4K I almost always will. I want to shoot in 4K whenever I can. It really does give me much greater post production flexibility, for example I can shoot a wide shot of an interview in 4K and then crop in for a mid shot or close up if I’m delivering in HD. So 4K will always be very high on my priority list when choosing a camera. But if you can’t afford 4K and are still delivering in HD then worry not. It’s probably better to have a well optimised HD camera than a cheap, poor quality less than perfect 4K camera. Don’t let 4K trick you into buying a lesser camera just because the lesser camera has 4K.

Well shot HD still looks fantastic, even on a big screen. Most movies are shown at 2K and few people complain about the quality of most blockbusters. So, HD is still good enough, 4K has not made HD obsolete or degraded the quality of existing HD cameras.

But is good enough? Good enough for you and your clients? I am passionate about getting great images, so I don’t just want good enough, I want the best I can get, so I’m a 4K convert, as are some of my clients. I’m actually delivering content in 4K for many of my customers. But sometimes, 4K isn’t practical, so in these cases I’ll just get the very best HD I can (hence the A7s for very portable and ultra low light shooting).

The bottom line is that right now, maybe you don’t need 4K, but it’s OK to want 4K. You may need 4K very soon as it becomes more mainstream (some nice Samsung and LG 4K TV’s are now available in the $1.5K/£1K price range). 4K might bring you many benefits in post production, but that doesn’t mean you need it, not yet at least. But once you do start to shoot in 4K there is no going back and while you might still not need 4K, you’ll probably find that you do actually need 4K. 🙂

Hassled by police for shooting in the street.

Welcome home back to the UK, NOT!

I was in Windsor, Berkshire, close to the Castle, a major tourist attraction, shooting with a Sony AX100, a compact consumer handycam. I was using a small 3 stage tripod and I was standing on the public right of way pavement shooting the castle. I had arrived in Windsor early to avoid the worst of the crowds.

After a few minutes I am approached by a single Police officer and a council warden. After exchanging pleasant “good mornings” The first question I am asked is: “What are you doing, is it for professional or private purposes?”.

Now, I know that as I am not on private property I can shoot without restriction and it makes no difference whether I am an amateur or a professional, there is no differentiation between the two under UK law when it comes to taking photos or video both have the same rights.

So as I’m unsure quite how to respond as I am a professional cameraman, but I was not shooting for any particular production or client I respond: “Does it make a difference whether it’s professional or private?”, to which the warden tells me yes it does, it makes a difference (which is incorrect). Next I’m asked who I’m working for etc.

OK, OK, hands in the air, I could have handled this better. But, I don’t have to explain to the police what I am doing, who I work for etc. I am perfectly within my rights to shoot video from a public pavement and I don’t need to explain to all and sundry what I am doing and why. I get fed up with being stopped by the police in this country whenever I turn up on a street with a pro camera or tripod.

So next I get the whole, well we have to be vigilant, you might be a terrorist bit. Huh? Would a terrorist stand with a tripod in such an obvious manner, there were people all over the place with all kinds of cameras shooting all kinds of thing, but because I had a tripod, was on my own and taking my time I was singled out as a terrorist threat! For goodness sake, it was a consumer camcorder just like the hundreds of others in the hands of the thousands of tourists that visit Windsor every day. Do the police stop all of them, or are they just singling out those that look like they might be professionals? If they want to know who I am then they should have asked for ID, but they didn’t, they never asked who I was, where I lived, jus whether I was shooting for professional or private purposes.

So I asked to be left alone so I could get on with what I was lawfully doing. After a couple of minutes they gave up and stood behind me chatting into their radios and making snide remarks that I was obviously meant to hear about about my attitude. I continued to shoot shots of the castle.

Then I look up from the camera to find a police sargent standing right in front of me,  blocking my shot. “Excuse me sir can you tell me what your doing?”.  By now I’m getting pretty angry with this whole thing. “I’m trying to shoot some video of the castle, but you’re preventing me from doing it”. “Oh no, I’m not stopping you” say’s the policeman.

Prevent from shooting by the Police in Windsor. Althought not physical stopped, by standing in front of the camera this police office made it hard for me to shoot.
Prevent from shooting by the Police in Windsor. Although not physical stopped, by standing in front of the camera this police office made it hard for me to shoot.

Uh well actually, while perhaps not physically restraining me, the fact that the guy was standing in front of me along with the constant hassling meant I was prevented from shooting, so after a further “discussion” about my right to shoot and not being a terrorist I was in effect forced to move on simply to get away from the now 3 police officers and a warden making it very hard to do what I wanted to do.

Why is it I can travel around the world shooting this and that all over the place, but when I return to my home country I get prevented from going about my lawful business under the pathetic pretext of being some kind of terrorist threat. I don’t have to explain what I am doing, who I work for, whether I’m shooting for private or commercial purposes when I’m going about my business in a public area. Clearly the police didn’t like the fact that I knew my rights.

I admit that I could of handled the situation better, but when the first question you get asked is whether your shooting for private or commercial purposes you just can’t tell what’s coming next. Plus, frankly the situation should never have arisen in the first place. I wasn’t doing anything wrong, I shouldn’t have to explain to the police what I am doing just because I’m using a tripod. I am really fed up with this happening here in the UK. It’s crazy because whenever I want to go and shoot something, I don’t want this kind of hassle, so I have to try to figure out locations where I won’t be bothered by the police. I shouldn’t have to do this.

New compact XDCAM camcorder in development.

At last weeks Broadcast Asia trade show in Singapore, Sony revealed that they are working on a new highly compact XDCAM camcorder. They showed a prototype camera that was under a glass cover (which was a working unit).

Very few details are available at this time. The camera shown appears to be based on either the Sony AX100 4K camcorder or the similar CX900 HD camcorder. These both use a 1″, 20MP CMOS sensor that produces really rather good images (although it does suffer from a fair bit of skew/rolling shutter) and have 8 bit XAVC-S recording to SDXC or SDHC cards in 4K and HD in the AX100 and HD only in the CX900. This new camcorder will be able to record using 10 bit 422 XAVC long GoP, probably at 50Mb/s like the new PXW-X180. Whether it will also be able to record the XDCAM Mpeg2 codec is less clear, personally I suspect not.

This camera follows on from the Sony tradition of taking a top end compact consumer model, tweaking the recording codecs, adding a few more pro style features and adding an XLR input. So it’s no surprise to see this really. Given the great images from the CX900 and AX100 I would imagine that this new camcorder will pack quite a punch for such a small unit. The AX100/CX900 have a 12x optical zoom with image stabilisation and the ability to digitally increase the zoom range to 18x in 4K(AX100) and 24x in HD with very little loss of image quality.

EDIT: I Note that 1: There are no 4K badges on the camera body as the AX100 has. 2: The zoom range is noted as 24x on the camera body. This makes me suspect that this camera will be HD only.

Here are some pictures of the unit shown in Singapore.

IMG_1919

New, as yet un-named compact XDCAM camcorder. Left side
New, as yet un-named compact XDCAM camcorder. Left side
New, as yet un-named compact XDCAM camcorder. Right rear with SDI connector.
New, as yet un-named compact XDCAM camcorder. Right rear with SDI connector.
New, as yet un-named compact XDCAM camcorder. Right Side.
New, as yet un-named compact XDCAM camcorder. Right Side.
New, as yet un-named compact XDCAM camcorder. Top of the handle.
New, as yet un-named compact XDCAM camcorder. Top of the handle.
New, as yet un-named compact XDCAM camcorder. From the rear. Note that this unit actually works!
New, as yet un-named compact XDCAM camcorder. From the rear. Note that this unit actually works!

 

 

 

 

Sample Footage from PXW-X180 XAVC/XDCAM/AVCHD camcorder.

I was lucky enough to get to spend some time with a pre-production Sony PXW-X180 here in Singapore. I put it through it’s paces shooting around the botanical gardens, China town and Clarke Quay.

For a 1/3″ camcorder it produces a remarkably good image. Really low noise, very clean images, much better than anything I have seen from any other 1/3″ camcorder. The 25x zoom is impressive, the variable ND filter is very clever and it might seem trivial but the rear viewfinder was very nice. It’s a very high resolution OLED, much, much better than the LCOS EVF’s found on many other models.

The zoom lens has proper manual calibrated controls with end stops, much like a PMW-200. The ability to use a multitude of codecs is fantastic and perhaps better still is the fact that you can use SDXC cards for XDACM or XAVC at up to 50Mb/s, so even XDCAM HD422 can be recorded on this low cost media. This will be great for news or other situations where you need to hand off your media at the end of the shoot.

A more in depth review will follow soon, but for now here’s the video. Un-graded, un touched, straight from the camera footage. Looks very nice if you ask me.

How to create a user LUT for the PMW-F5 or F55 in Resolve (or other grading software).

It’s very easy to create your own 3D LUT for the Sony PMW-F5 or PMW-F55 using DaVinci Resolve or just about any grading software with LUT export capability. The LUT should be a 17x17x17 or 33x33x33 .cube LUT (this is what Resolve creates by default).

Simply shoot some test Slog2 or Slog3 clips at the native ISO. You must use the same Slog and color space as you will be using in the camera.

Import and grade the clips in Resolve as you wish the final image to look. Then once your happy with your look, right click on the clip in the timeline and “Export LUT”. Resolve will then create a .cube LUT.

Then place the .cube LUT file created by the grading software on an SD card in the PMWF55_F5 folder. You may need to create the following folder structure on the SD card, so first you have a PRIVATE folder, in that there is a SONY folder and so on.

PRIVATE   :   SONY   :    PRO   :   CAMERA   :    PMWF55_F5

Put the SD card in the camera, then go to the File menu and go to “Monitor 3D LUT” and select “Load SD Card”. The camera will offer you a 1 to 4 destination memory selection, choose 1,2,3 or 4, this is the location where the LUT will be saved. You should then be presented with a list of all the LUT’s on the SD card. Select your chosen LUT to save it from the SD card to the camera.

Once loaded in to the camera when you choose 3D User LUT’s you can select between user LUT memory 1,2,3 or 4. Your LUT will be in the memory you selected when you copied the LUT from the SD card to the camera.

LUT’s or LOOK’s when exposing via a LUT on the PMW-F5 or PMW-F55

First of all. You can use either, LUT’s or Looks. But there is a quite marked difference in the way they behave, especially if you use EI gain.

At the native ISO there is little to choose between them. But just to confirm my earlier suspicions about the way the 3D LOOK’s behave I ran a quick test.

I found that when you lower the EI gain, below native, the output level of the LOOK lowers, so that depending on the EI, the clipping, peak level and middle grey values are different. For example on my PMW-F5 at 500 EI the LC709TypeA LUT has a peak output (clipping) level of just 90% while at 2000 ISO it’s 98%. This also means that middle grey of the LOOK will shift down slightly as you lower the EI. This means that for consistent exposure at different low EI’s you may need to offset your exposure very slightly. It also means that at Native EI if the waveform shows peak levels at 90% you are not overexposed or clipped, but at low EI’s 90% will mean clipped Slog, so beware of this peak level offset.

When you raise the EI of the LOOKS, the input clipping point of the Look profile changes. For each stop of EI you add the LOOK will clip one stop earlier than the underlying Slog. For example set the LC709TypeA LUT to 8000 ISO (on my PMW-F5)  and the LOOK itself hard clips 2 stops before the actual SLog3 clips. So your LOOK will make it appear that your Slog is clipped up to 2 stops before it actually is and the dynamic range and contrast range of the LOOK varies depending on the EI, so again beware.

So, the Looks may give the impression that the Slog is clipped if you use a high ISO and will give the impression that you are not using your full available range at a low ISO. I suspect this is a limitation of 3D LUT tables which only work over a fixed 0 to1 input and output range.

What about the 1D LUT’s? Well the LUT’s don’t cover the full range of the Slog curves so you will never see all of your dynamic range at once. However I feel their behaviour at low and high EI’s is a little bit more intuitive than the level shifts and early clipping of the LOOKs.

The 1D LUT’s will always go to 109%. So there are no middle grey shifts for the LUT, no need to compensate at any ISO. In addition if you see any clipping below 109% then it means your SLog is clipping, for example if you set the camera to 500 ISO (on an F5), when you see the 709(800) LUT clipping at 105% it’s because the Slog is also clipping.

At High ISO’s you won’t see the top end of the SLog’s exposure range anyway because the LUT’s range is less than Slog’s range, but the LUT itself does not clip, instead highlights just go up above 109% and this is in my opinion more intuitive behaviour than the clipped LOOK’s that don’t ever quite reach 100% and clip at lower than 100% even when the Slog itself isn’t clipped.

At the end of the day use the ones that work best for you, just be aware of the limitations of both and that the LUT’s and LOOKs behave very differently. I suggest you test and try both before making any firm decisions.

Personally I prefer to use the 709(800) LUT for exposure as the restricted range matches that of most consumer TV’s etc so I feel this gives me a better idea of how the image may end up looking on a consumers TV. Also I find my Slog exposure more accurate as the LUT’s restricted range means you are more likely to expose within finer limits. In addition as noted above I fell the LUT’s behaviour is more predictable and intuitive at high and low EI’s than the LOOK’s.

In addition the higher contrast makes focus easier. I will often switch in and out of the LUT to look at how the Log is coping with any over exposure. This is my personal preference, but I do also use other LUT’s and Looks in particular the 709TypeA from time to time.

Exposing via LUT’s with the PMW-F5 and PMW-F55.

There is an ongoing and much heated debate on another forum about the practicalities of using the LUT’s or Looks built in to the PMW-F5 and PMW-F55 for setting the correct exposure of your SLog or Raw footage. In response to this I put together a very rough video demonstrating how this actually works.

Before watching the video, do please understand the following notes:

Correct exposure is normally determined by the level at which middle grey is recorded. This is true of both video and film production. Light meters are calibrated using middle grey. Expose with a light meter and you will find middle grey at the levels indicated below.

Different gamma curves may use different middle grey levels depending on the contrast required and the dynamic range of the gamma curve. Generally speaking, the greater the dynamic range, the lower middle grey must be set in order to leave room above middle grey for the extra dynamic range. This means that the relationship between middle grey and white will be different from curve to curve. Don’t always expect white to be some fixed value above middle grey. Some of the Sony looks for example LC709TypeA are very low contrast and while middle grey still sits at around 42% (The ITU standard for Rec-709 is 41.7%), because it is a low contrast, high dynamic range curve white is at a lower level, around 70%. The Hypergamma LUT grey points are given by the “G40″ or G33” number – G40 meaning middle grey at 40%.

When you take Slog or raw in to post production it is expected that the middle grey of the recordings will be at the correct nominal level (see chart below). If it is not, when you apply a post production Slog or raw LUT then the footage may appear incorrectly exposed. If you try to bring Slog or raw into an ACES workflow then ACES expects middle grey to be at the correct values. So it is important that your Slog or raw is exposed correctly if you want it to work as expected in post.

Correct exposure levels for Sony's Slog.
Correct exposure levels for Sony’s Slog.

Having said all of the above… If you are using CineEI and lowering or raising the EI gain from the native ISO then your Slog or raw will be exposed brighter or darker than the levels above. But I must assume that this is what you want as you are probably looking to adjust the levels in post to reduce noise or cope with an over exposure issue. You may need to use a correction LUT to bring your Slog levels back to the nominal correct levels prior to adding a post production LUT.

Anyway, here’s the video.

Matte Boxes and Lens Hoods can make your pictures sharper, also a look at the Alphatron Matte Box.

Alphatron Matte Box.
Alphatron Matte Box.

So we all like to dress our cameras up with all kinds of accessories. One of the most common being a Matte Box. So, what’s a matte box for? Well the obvious thing is to hold filters for creating an artistic look, for colour correction or light level reduction. But the other very important role is to block unwanted light. I’ll take a brief look at filters later in the article.

We all know that if you shoot into the sun or a bright light source you might get a lens flare in the shot. You know, those sometimes pretty rings of light that can look cool on a good day or ruin a shot on another. But the other thing you can get is lens flare. So whats the difference between “a lens flare” and “lens flare”.

Well, lens flare is when light bounces around inside the lens between the glass elements in an uncontrolled way, some of this unfocussed light making it’s way to the sensor where it spills and bleeds into darker parts of the image reducing contrast and raising the black level. Whenever you reduce the contrast in an image it will appear softer, so to get the sharpest and highest resolution images, we really want to keep as much unwanted light out of the lens as possible. In addition some cameras can suffer from other image artefacts when off-axis light finds it’s way to the edges of the sensor. So anything we can do to stop this happening is obviously a good thing.

Higher end cameras will often have an electronic flare adjustment that pulls down the cameras black level when the overall scene light level gets high. The idea is that this helps compensate for the almost inevitable flare that will occur in the lens when a lot of light enters the lens. This flare setting is normally adjusted on a lens by lens basis as different lenses will flare by different amounts. As lenses get older, very often vapour from the oils and materials used in the construction of the lens will coat the internal glass surfaces with a very fine haze that increases flare. This can make an older lens more prone to flare and is one reason why getting an older but expensive lenses professionally cleaned is often worth the expense. The other thing you can do is to make be sure to use a good matte box or lens shade to prevent excess light from entering the lens.

A flexible donut or "nun's Knikers" on the rear of the Matte Box keeps out light from the rear of the Matte Box.
A flexible donut or “nun’s Knikers” on the rear of the Matte Box keeps out light from the rear of the Matte Box.

Don’t use a matte box that is excessively large. You want a Matte Box big enough to fit your lenses and hold the size of filters you need. It also needs to be wide enough to allow you to use the aspect ratios you want to shoot in, but no larger. If it’s too big, the shade/hood will be less effective. Make use of an adjustable top flag and side flags to keep out as much light as possible. Looking through the cameras viewfinder bring the flags in close to the lens until they start to creep into the edges of your shot, then back them off just a little bit.

A quick release catch on the Alphatron Matte Box allows you to quickly and easily change the donut or nun's knickers.
A quick release catch on the Alphatron Matte Box allows you to quickly and easily change the donut or nun’s knickers.

Also make sure your rear donut or other light seal is doing it’s job and keeping out the light. A flexible bellows or “nun’s knickers” can be used to allow you to move the matte box forwards so that the lens sits deeper in the nice dark recess of the matte box. Light entering the Matte box from the rear will cause reflections off the back of any filters used, especially any ND filters or glimmer glass filters and this can easily spoil a shot.

A Matte Box can be attached to the lens directly via a clamp ring that clamps around the end of the lens or more commonly attached to rods or bars connected to the bottom of the camera. If you only ever use one lens then a lens clamp might work well for you, but if you swap and change lenses regularly then a rod or rail mount is often easier as a flexible donut will fit a multitude of lenses. The donut on the Alphatron Matte Box will fit a wide range of lenses and the neoprene insert can easily be exchanged or replaced simply by unscrewing the two halves of the donut holder. The neoprene is sandwiched between the two halves and just drops out once released.

Eyebrows on the Alphatron Matte box keeping the sun out of the lens.
Eyebrows on the Alphatron Matte box keeping the sun out of the lens.

Some Matte Boxes like the Alphatron one shown here have small extra “eyebrows”. These are like mini flags that can be adjusted to provide extra shade for the lens. In the picture you can see how the shadow from the top eyebrow is keeping stray and unwanted light from falling on the lens. This will help minimise flare and preserve contrast in the images. It’s a small thing but it can make a big difference. Eyebrows and flags also keep light out of the matte box itself and help prevent reflections between any filters that you might use and the lens itself.

The Alphatron Matte Box can be fitted with a quick release swing away adapter to make lens changes quick and easy.
The Alphatron Matte Box can be fitted with a quick release swing away adapter to make lens changes quick and easy.

If you’re using prime lenses then you will probably need to change lenses regularly. A great time saver is the use of a swing-away adapter. The Alphatron Matte Box that I use has an optional quick release swing away mount option. By twisting a single lever the Matte Box opens up and swings away from the lens. This gives you easy access to the lens for cleaning or for a quick lens change without having to remove the Matte Box. When shooting out on location this is a big deal as there’s never anywhere clean to put your Matte Box when you want to do a lens swap.

The Alphatron Matte Box has one fixed filter tray and one rotating tray.
The Alphatron Matte Box has one fixed filter tray and one rotating tray.

Matte boxes can have both fixed and rotating filter trays or a combination of the two. Fixed trays are fine for ND filters and most diffusion filters. For graduated filters a rotating tray is preferable and for polarising filters a rotating tray is essential. The Alphatron Matte Box here has one fixed tray and one rotating tray. So I can use the fixed tray for any ND filters and then the rotating tray for grads or polarisers. I very nice feature of the Alphatron is a little recess in the very front of the sun shade and a little locking tab that allows you to put a safety glass in place in front of any filters to protect you filters and lens. This is very handy especially if your shooting something that could possibly splash on your expensive filters and damage the coatings.

So what filters should you get for your nice new Matte Box? First of all do be prepared to spend a little bit of money to get good quality filters. Filters can be plastic, resin or glass. Optical grade plastics and resins can make very good filters, but they tend to be prone to collecting dust through static electricity and they scratch easily. In addition if left in a hot car they can distort and warp. But, plastic and resin filters are light weight and normally a lot cheaper than the glass equivalent. Better quality filters will have anti-reflective coatings. A good quick test of the quality of any filter is to use a long focal length lens or zoomed-in zoom lens to check for distortions or focus issues introduced by the filter. You might not notice this at wide angles or zoomed out. So do check at longer focal lengths.

Good brands include Tiffen, Formatt and Schneider. These won’t be the cheapest on the market, but the quality is consistently good.  Filters come in different sizes, the most common is the 4×4 or 4″ by 4″. For longer focal lengths these are fine, but if you want to shoot at wider angles you may find that 4×4’s are not wide enough. The next size up is the 4″x 5″ but the next commonly used size is the 4″ x 5.65″ which is close to the old 4:3 TV aspect ratio. The extra width really helps when shooting wider shots in 16:9.

My most commonly used filters are ND filters. These help manage light when it’s too bright allowing you to use a smaller aperture to gain a shallower depth of field. If your using a CMOS camera you should use IR ND filters that cut not only the visible light but also infra red light that most CMOS cameras are sensitive to.

Next is a polarising filter. A circular polariser is great for reducing or controlling reflections from windows, cars etc, it’s also good for enhancing the contrast in clouds and the sky making the sky a richer, deeper blue. When using a polariser it needs to go in a rotating tray so you can turn it when composing your shot to alter the polarising effect.

Graduated ND filters are also useful to help deal with excessively bright sky. The top of the filter is a ND filter or coloured filter and the bottom is normally clear. By sliding the filter up and down within the matte box you can alter level where the brightness reduction takes place. A tobacco or orange coloured graduated filter can be used to create or enhance a sunset type look. Just watch for the graduation crossing through foreground objects in the scene which can give the game away and look odd.

PMW-300 and PMW-400 XAVC Firmware Updates Released.

Sony have released firmware updates for the PMW-300 and PMW-400 that include the 10 bit 4:2:2 I frame XAVC codec at 100MB/s. Now you can have great quality 10 bit recordings on these cameras for no extra charge.  To comply with the XAVC standard the cameras also gain the ability to format the recording media using ExFat.

Click here for the PMW-300 firmware.

Click here for the PMW-400 firmware.