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Replay XD1080 mini-cam.

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Replay XD1080 minicam

I like the Go-Pro, I also like the Sony MC1P, different tools for different jobs. The Sony MC1P has a built in screen on the end of an umbilical cable, so you can position the camera where you want it while viewing the pictures on the monitor. The Go-Pro can have a postage stamp size display clipped on to it’s back for framing, but this is next to useless when the camera is mounted in a tight spot where you can view it’s rear end.

Enter the Replay XD1080. This new POV camera (shipping at the end of the month) is small and compact, but the best bit IMHO is that it has an integrated HDMI output. This make plugging in a monitor, or recording to an external device like a NanoFlash nice and easy and makes this unit sound particularly versatile. In addition it will take an external microphone making it well suited to use in race or rally cars.

Looks like this will be a strong contender in the POV camera market. Only a few years ago minicams were few and far between and very expensive. Now we have lots of choice at great prices.

lenses, Uncategorized

Playing with lenses: 2/3″ Broadcast lens on PMW-F3.

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OK folks. I wanted to see just how well a 2/3″ broadcast lens would work on an F3, but don’t have $5.5k to fork out on one of the Abel adapters. So with a bit of head scratching, a few, lowish cost lens purchases and a few hours in the workshop I cobbled together my own adapter. At first I tried a 2x magnifier but this didn’t quite give me full sensor coverage and was soft out in the corners. With a little more work I took the magnification up to 2.5x and I have clean corners. I’m really pleased with the performance, although one lens element needs changing for a higher quality element to combat some softness when the iris is fully open.

My old Canon J16x8 f1.8 becomes a 24 to 320mm f4(ish) par-focal lens which is actually quite handy. Next step is to make up a power cable for the lens so I can use the zoom servo.

I’m considering trying to find a manufacturer that can make these up for me properly, the converter should cost a lot less than $5.5k

lenses, Uncategorized

Playing with lenses: 2/3″ Broadcast lens on PMW-F3.

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OK folks. I wanted to see just how well a 2/3″ broadcast lens would work on an F3, but don’t have $5.5k to fork out on one of the Abel adapters. So with a bit of head scratching, a few, lowish cost lens purchases and a few hours in the workshop I cobbled together my own adapter. At first I tried a 2x magnifier but this didn’t quite give me full sensor coverage and was soft out in the corners. With a little more work I took the magnification up to 2.5x and I have clean corners. I’m really pleased with the performance, although one lens element needs changing for a higher quality element to combat some softness when the iris is fully open.

My old Canon J16x8 f1.8 becomes a 24 to 320mm f4(ish) par-focal lens which is actually quite handy. Next step is to make up a power cable for the lens so I can use the zoom servo.

I’m considering trying to find a manufacturer that can make these up for me properly, the converter should cost a lot less than $5.5k

lenses, Uncategorized

Playing with Lenses: Pentacon 4, 300mm F4, 19 blade iris.

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Pentacon 4, 300mm F4 on PMW-F3

UPDATED: SEE UPDATE AT END!

I won this lens on ebay for the grand total of £44.00. Now for that kind of money you don’t normally expect to get a great deal, but this time I got quite a lot. I certainly got a lot of weight and bulk, this is a big lens. It was designed to work with a Pentacon or Kiev medium format camera with a 6″x6″ frame size. The front element is about 3″ (80mm) in diameter, it’s over a foot long and weighs about 5lbs (2.5kg). One of the things that attracted me to it is the iris which has 19 blades giving a very round aperture, so the bokeh is very pleasant looking. The rear of the lens has a Pentacon to M42 mount onto which I screw a M42 to Nikon adapter ring. Due to it’s length and weight it is vital that the lens is supported. The lens comes with a 3/8″ mounting ring with a 3/8″ to 1/4″ insert.

19 Blade Iris.

For the moment I’m using the bracket from a Genus DSLR shoulder rig to support the lens until my new Genus lens support bracket arrives.
So… what are the pictures like? Well at F4 it’s a little soft, but stop it down to f5.6 and it sharpens up nicely. I also tried it with a 1.5x and 2x extender as these will soon show up any lens issues. With both the lens performed respectfully well with the iris at f5.6. Stop down to f8 and the lens really performs very well. Of course with the very small s35 sensor compared to the 6″x6″ that the lens was designed for you are only using the center part of the frame, which always tends to be the sharpest part. While it may not perform as well as the latest state of the art long focal length Canon’s or Nikons, this lens does do a pretty good job and if you only occasionally need a long lens, for the money it’s hard to beat.

Pentacon 4, 300mm, MTF adapter and F3

UPDATE: To get this lens to work on the F3 I was using a M42 to Nikon adapter. This has a corrective lens in it to enable infinity focus. After playing with this adapter on some other M42 lenses I found it’s performance to be less than satisfactory at large apertures. So I tried the Pentacon 4 again, but this time with a M42 to Canon adapter and one of Steve Shovlar’s new Adaptimax Canon to F3 adapters. The performance improvement was quite noticeable and now I can use the Pentacon fully open at f4 with great results. This really is a rather nice lens.

shoots, Uncategorized

Wimbledon 3D Cinema Commercial Shot using F3’s and Phantom HD Gold’s.

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Alister shooting blue screen tennis balls

I recently helped shoot a 3D cinema commercial for the Wimbledon Tennis Finals which will be shown in Cinemas and on TV in 3D. There were two 3D rigs used, an Element Technica rig with a pair of Phantom HD Gold’s, shooting at 1000 fps as well as one of my Genus Hurricane Rigs equipped with a pair of Sony PMW-F3’s with zeiss ultra primes recording onto a Nano3D as well as to the video village. The F3’s were used at both 1080P 25fps and 720P 50fps. We had a wide variety of Chapman grip (no relation) equipment including ride on dolly’s and sliders. The commercial was shot at a tennis club in Kent, dressed up with fake scoreboards, green backdrops and umpires in original wimbledon uniforms to make it look like Wimbledon over two days.

DoP Denzil Armour-Brown shooting with the Hurricane Rig

The weather was fantastic and the shoot went very well. The Zeiss Ultra primes worked very well on the 3D rig with each lens pair being very well matched and needing only minimal re-alignment each time we changed focal length. The F3’s were set up with no added detail correction and using cinegamma 1, S-Log not being available at the time of the shoot. My main role was as second unit camera operator/stereographer to shoot some of the main tennis player  3D shots at 25 and 50 fps as well as 3D blue screen effects shots including flying dirt and grass as well as various spinning tennis ball shots. For the 1000 fps shots with the Phantom HD Gold’s we used pairs of 18Kw lamps to light the players, and this on a bright sunny day!! In order to keep a similar look for the F3 shots we took full advantage of the cameras built in ND filters to keep the foregrounds bright with the background dark.

The "set" for the commercial

For some of the blue screen tennis ball shots we used some older Arri PL mount macro lenses. Below you’ll find a 2D version of the commercial. If I come across a 3D version I’ll post it here.

 

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Cinegear and Samy’s 3D workshop.

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Manfrotto Booth at Cinegear

Hello from Culver City, LA. I spent most of this week up in Hollywood showing of the Genus Hurricane 3D rig on the Manfrotto booth at Cinegear. It’s the first time I have ever gotten sun burnt at a trade show! Most of the show is outside on a back lot at Paramount Studios and the weather was just beautiful. The booth was swamped most of the time, sadly not because I was selling lots of 3D rigs but because we were giving away free ice cream! As usual there was good interest in the rig and it was good to meet some of the people already out there shooting stuff with it. I took a little bit of time out to go and mooch around the show… I’ve never seen so many sliders in one place, almost every booth appeared to have one! I also got a sneak peak at the new Cineroid EVF with HDSDi inputs. Looks promising and it’s made of metal rather than plastic so has a very robust feel.

 

Genus Elite Matte Box

Genus were also showing their new Elite matte box which can take 5.65 x 5.65 filters as well as 4 x 4 and 5 x 5. It comes with a nice folding top flag as well as side flags. If you need a matte box for bigger lenses and bigger filters you should definitely take a look. The build quality is very good. Another nifty Genus product is the new lens support bracket for 15mm rods. This can support long or heavy lenses and has a 1/4″ screw to bolt to the lens or a pair of rollers that will support a big lens allowing the focus ring to rotate even if the lens does not have a proper attachment point. Clever stuff! Hopefully I will be able to get one to review properly (and the matte box).

Genus Lens Support for 15mm rods.

Today I was at Samy’s Camera in Culver City running the first day of a 2 day 3D workshop. It was really busy with some well know DoP’s in attendance including Geoff Boyle, I think we had about 50 students in total. It was a fun day (apart from an LG 3D TV that refused to play ball), with some very intelligent questions being asked by the group. Tomorrow we have the second more advanced part of the course with a slightly smaller group. As soon as the class finishes I’m dashing off to the airport to fly to London to meet a courier with my  F3 camera kit and then on to Berlin to shoot the Duran Duran gig at the Tempodrom on Wednesday.

What do you think of the new look to the website? I was getting bored with the old look. This is a little more interesting. Any issues or problems do let me know. Coming soon I will have a review of the Vinten 100 tripod head (big thumbs up) and a SxS to SD adapter card from Sonnet, plus hopefully the full Duran Duran story.

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Details of free and paid firmware updates for PMW-F3

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From the Sony Cinealta Web Site

With respect to the PMW-F3 firmware updates which should be available any day now:

The following features are free of charge:

  • Dual Link HD-SDI output
  • 4:2:2 10bit 1080  23.98/ 25/ 29.97PsF*
    • *1080  59.94i and 50i are already available with V1.00.
    • SxS software key installation for CBK-RGB01 and CBK-3DL01.
    • Planning metadata functionality same as PMW-350 V1.30 except Wi-Fi.
    • Simultaneous HD-SDI and HDMI output (menu setting)
    • Ability to use the S & Q dial for menu setting (same as jog dial on the rear panel).
    • Display the signal format of the Dual Link output on the STATUS window.
    • In Thumbnail mode, vertical navigation of the cursor is now possible
    • TC output follows the internal Timecode Generator (TCG).
    • One-click adjustment of Peaking, Brightness and Contrast of the LCD/EVF.

The following features are activated with the CBK-RGB01 optional cost-based software key:

  • RGB4:4:4 10bit, 1080  23.98/ 25/ 29.97PsF output on the Dual Link HD-SDI or 3G-SDI.
  • S-LOG Gamma output on the Dual Link or 3G-SDI.
  • Switching HD-SDI Dual Link and 3G-SDI.
    • 3G-SDI is only available on the Link-A connector and Link-B is OFF.
    • LUTs (including x4 preset and x5 user-defined) for on-set video monitoring.
      • LUT On/Off is applied to both HD-SDI output and SxS recording at the same time.
      • LUT name information will be recorded to SxS as NRT metadata of the Clips and it can be seen by the XDCAM browser.
      • User-defined LUTs can be created by CVP file editor for free.
      • Wi-Fi function for Planning metadata (same as V1.30 for PMW-350).

 

I was not expecting to see Planning metadata on the F3, that’s certainly a nice surprise. No mention of how to get 1920/50p or 60P out of the camera. I had thought the F3 was supposed to support that. Nice to see 4 preset LUT’s along with 5 user LUT’s for S-Log along with the software to roll your own LUT.

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EX1 and EX3 Picture Profiles.

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These are the picture profiles that I am currently tending to favour for the EX1, EX1R and EX3. Please remember that picture profiles are entirely subjective. These settings work for me, that doesn’t mean they are perfect or for everyone. I like the images the cameras produce when I use these profiles. Please feel free to adapt them or modify them any way you choose. They work on any of the current EX cameras.

Vivid – Designed to help match the EX to a PDW-700. Gives vivid colours with a small shift away from yellow.

Matrix – Cinema, Matrix Level +60

R-G +8,  R-B +10,  G-R 0,  G-B +15,  B-R +5,  B-G +6

Detail Level -10 Frequency +20, Crispening -40 (if using gain use crispening +14)

Gamma Cinegamma 1

Black level -3, Black Gamma -35

Low Key Saturation -10

Natural C4 – Designed to give a neutral, natural looking image.

Matrix – Cinema, Matrix Level +35

Detail level -7, Frequency +30, Crispening -40 (if using gain use crispening +20)

Black Level -3, Low key Saturation -15

AC Punch – Gives a very high contrast, bold look.

Matric – Cinema, level +40

Gamma Standard 2, Knee level 80, Slope 0

R-G 0,  R-B +1,  G-R +12,  G-B +2,  B-R +11,  B-G 0

Detail Level -10, Frequency +30, Crispening -45

Black Level -4, Black Gamma -20.

AC Good to Grade – a general purpose setup to give good grading possibilities.

Matrix – Cinema, Level +25

Gamma Cinegamma 1 (Do not use -3db gain)

Detail Level -7, Frequency +45, Crispening -45 (use +35 if using gain)

Black Level -3.

AC-SD Camera look. To mimic an older SD camcorder based on a DSR400, good for HD to SD conversion.

Matrix – Cinema, Level +15

Detail Level +20, Detail Frequency -35, White Limit +35, Black limit +45

Knee, Manual, Level 90, Slope 0.

Gamma Standard 2, Gamma Level +5

Black Gamma -10

Black Level -10

 

 

Enjoy! Any feedback or suggestions welcome. Let me know of any profiles that you come up with that may be of interest to others.

 

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S-Log. A Further In Depth Look.

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Well I posted here a few days ago about how Data was distributed across the S-Log curve. David williams (thanks David) questioned some of the things in my post raising some valid questions over it’s accuracy, so I withdrew the post in order to review it further. While the general principles within the post were correct (to the best of my knowledge and research) and I stand by them, some of the numbers given were not quite right and the data/exposure chart was not quite right.

Before going further lets consider the differences between the a video sensor works and the way our eyes work. A video sensor is a linear device while our own visual system is a logarithmic system. Imagine you are in a room with 8  light fittings, each one with the same power and light output. You start with one lamp on, then turn on another. When you turn on the second lamp the room does not appear to get twice as bright even though the amount of light in the room has actually doubled. Now with two lamps on what happens when you turn on a third? Well you wouldn’t actually notice much of a change. To see a significant change you would need to turn on 2 more lamps. Now with 4 lamps on to see a significant difference you would need to turn on a further 4 lamps. Only adding one or two would make little visual difference. This is because our visual system is essentially a logarithmic system.

Now lets think about F-Stops. An f stop (or T-stop) is a doubling or halving of exposure. So again this is a logarithmic system. If with one light bulb your scene is one stop then to increase the scene brightness by one stop you must double the amount of light, so you would add another light bulb. Now to increase the scene brightness by a further stop you would have to take your existing two light bulbs and double it again to 4 light bulbs, and so on… 2, 4, 8, 16, 32, 64….

Now going back to a video sensor, take a look at the illustrative graph below. The horizontal scale is the number of lightbulbs in our hypothetical room and the vertical scale is the video output from an imaginary video sensor in percent. Please note that I am trying to illustrate a point, the numbers etc are not accurate, I’m just trying to explain something that is perhaps miss-understood by many, simply because it is difficult to understand or poorly explained elsewhere. The important thing to note is that the plotted blue line is a straight line, not a curve because the sensor is a linear device.

Linear Output from Camera Sensor

 

Now look at this very similar chart. The only difference now is that I have added an f-stop scale to the horizontal axis. Remember that one f-stop is a doubling of the amount of light, not simply one more lightbulb. I have also changed the vertical scale to data bits. To keep things simple I’m going to use something close 10 bit recording which actually has 956 data bits or steps (bits 64 to 1019 out of 1024 bits), but lets just round that up to 1000 data bits to keep life simple for this example.

Sensor data and f-stops

So we can see that this imaginary  video sensor uses bits 0-50 for the first stop, 50-100 for the second stop, 100-200 for the third stop, 200-400 for the fourth and 400-800 for the fifth. So it is easy to see that huge amounts of data are required to record each stop of over exposure. The brighter the image the more data that is required. Clearly if you want to record a wide dynamic range using a linear system you need massive numbers of data bits for the highlights, while the all important mid tones and shadow areas have relatively little data allocated to them. This is obviously not a desirable situation with current data limited recording systems, you really want to have sufficient data allocated to your mid-tones so that in post production you can grade them satisfactorily.

Now look what happens if we allocate the same amount of data to each stop of exposure. The green line is what you get if, in our imaginary camera we use 200 data bits to record each of our 5 stops of dynamic range. Does the shape of this curve look familiar to anyone? The important note here is that compared to the sensors linear output (the blue line) as the image brightness increases less and less data is being used to record the highlights. This mimics the way we see the world and helps ensure that in the mid ranges where skin tones normally reside there is lots of data to play with in post. Our visual system is most acute in the mid range. that’s because some of the most important things that we see are natural tones, plants, fauna and people. We tend to pay much less attention to highlights as these are rarely of interest to us. Because of this we can afford to reduce the amount of information in video highlights without the end user really noticing. This technique is used by most video cameras when the knee kicks in and compresses highlights. It’s also used by extended gamma curves such as cinegamma’s and hypergamma’s.

Log Curve, 200 bits for each stop.

Anyone that’s seen a hypergamma curve or cinegamma curve plot will have seen a similar shape of curve. Hypergammas and Cinegammas also use less and less data to record highlights (compared to a linear response) and in many ways achieve a similar improvement in the captured dynamic range.

Sony Hypergamma Curves

Hypergammas are not the same as S-Log however. Hypergammas are designed to be useable without grading, even if it’s not ideal. Because of this they stay close to standard gammas in the mid range and it’s only really the highlights that are compressed, this also helps with grading if recording using only an 8 bit codec as the amount of pushing and pulling required to get a natural image is less extreme. However because the Hypergammas allocate more data in the 60 to 90 percent exposure range to stay close to standard gamma the highlights have to be more highly compressed than S-Log so there is less highlight data to work with than with S-Log.  If we look at the plot below which now includes an approximate S-Log curve (pink line) you can see that log recording has a much larger difference from a standard gamma in the mid ranges, so heavy grading will be required to get a natural looking image.

Hypergammas and S-Log curves

Because of the amount of grading that will normally be done with S-Log, recording the output using a 10 bit recorder is all but essential.

When I wrote this article I spent a lot of time studying the Sony S-Log white paper and reading up on S-Log and gamma curves all over the place. One thing that I believe leads to some confusion is the way Sony presents the S-Log data curve in the document. The exposure is plotted against the data bits using stops as opposed to image brightness. This is a little confusing if you are used to seeing traditional plots of gamma curves like the ones I have presented above that plot output against percentage light input. It’s confusing as Sony forget that using stops as the horizontal scale means that the horizontal scale is a log scale and this makes the S-Log  “curve”  appear to be a near straight line.

I have not used S-Log on an F3 yet. It will be interesting to see how it compares to Hypergamma in the real world. I’m sure it will bring some advantages as it allows for an 800% exposure range. I welcome any comments or corrections to this article.