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Fixed-lens filmmaking: Panasonic Lumix DMC-FZ2500/FZ2000 Review

17 Jan

Key Features

  • 20MP 1″-type BSI-CMOS sensor
  • 24-480mm equiv. F2.8-4.5 lens
  • Depth from Defocus AF
  • Large electronic viewfinder
  • Fully articulating LCD
  • Built-in variable ND filter
  • 4K video capture (DCI/UHD)
  • 10-bit, 4:2:2 output over HDMI

At Photokina 2016, Panasonic released its high-end 1″-type superzoom, known as the DMC-FZ2500 (FZ2000 in some regions). It retains the same sensor as the excellent FZ1000 that came before it, while gaining a totally new lens, larger EVF, easy-to-adjust ND filter and even more customizable buttons.

While offering several new stills-related features (such as focus stacking), the FZ2500 is really all about video. It shoots both Cinema and UHD 4K, can output 4:2:2 10-bit video over its HDMI port, supports V-Log L recording (for an extra $ 99) and much, much more. In essence, the FZ2500 is the little brother to the DMC-GH4 ILC, which is one of the most capable video capture cameras on the market.

At this point in time, the only other fixed-lens cameras that truly competes with the FZ2500 is the Sony Cyber-shot RX10 III. The Sony has many features in common with the FZ2500, such as 4K capture, zebra pattern and a flat picture profile (S-Log2), but boasts a longer, faster lens and high speed recording at up to 960 fps.

Compared to Panasonic DMC-FZ1000 and Sony DSC-RX10 III

Speaking of specs, let’s take a look at how the FZ2500 compares to its predecessor as well as Sony’s Cyber-shot DSC-RX10 III, which we consider its closest competitor.

  Panasonic FZ2500 Panasonic FZ1000 Sony RX10 III
MSRP $ 1199 $ 799 $ 1599
Sensor 20MP 1″ BSI-CMOS 20MP 1″ BSI-CMOS 20MP 1″ Stacked CMOS
Lens focal range 24-480mm equiv. 25-400mm equiv. 24-600mm equiv.
Lens max aperture F2.8-4.5 F2.8-4.0 F2.4-4.0
ND filter Variable No No
ISO range (expanded) 80-25600 80-25600 64-25600
Top shutter speed
(mech/elec)
1/4000 sec, 1/16000 sec 1/4000 sec, 1/16000 sec 1/2000 sec, 1/32000 sec
LCD size/type 3″ 1.04M-dot fully articulating 3″ 921k-dot fully articulating 3″ 1.3M-dot tilting
LCD touchscreen Yes Yes No
EVF resolution/type 2.36M-dot OLED 2.36M-dot OLED 2.36M-dot OLED
EVF magnification 0.74x 0.7x 0.7x
Top burst speed (S-AF) 12 fps 12 fps 14 fps
4K video capture Cine/UHD 4K @ 30p/24p UHD 4K @ 30p/24p UHD 4K @ 30p/24p
High speed video 120 fps @ 1920 x 1080 120 fps @ 1920 x 1080 960 fps @ 800 x 270
480 fps @ 1136 x 384
240 fps @ 1824 x 1026
120 fps @ 1920 x 1080
Top bitrates 4K: 100MBps
Full HD: 200Mbps

4K: 100Mbps
Full HD: 28Mbps

4K: 100Mbps
Full HD: 50Mbps
Flat profile V-Log L ($ 99 extra) No S-Log2
Live HDMI output 4:2:2, 10-bit 4:2:2, 8-bit 4:2:2, 8-bit
Mic/phone jacks Yes / Yes Yes / No Yes / Yes
Wi-Fi Yes, without NFC Yes, with NFC Yes, with NFC
Battery life (CIPA) 350 shots 360 shots 420 shots
Dimensions 138 x 102 x 135 mm  137 x 99 x 131 mm 133 x 94 x 127 mm
Weight (CIPA) 966 g 831 g 1095 g

In most respects, the FZ2500 comes out on top – and that’s without including the myriad of video features that just don’t fit in the table.  The RX10 III does have a longer, faster lens and the ability to shoot at very fast frame rates, but it also costs a lot more. It’s battery life is also considerably better. That said, it costs $ 400 more than the FZ2500, which is nothing to sneeze at.

Lens Comparison

The chart below breaks down the equivalent aperture for each camera, as you work your way through the zoom range. Our article here explains the concept of equivalence, but at a high level all you need to know is that the lower the line is on the graph below, the blurrier the backgrounds you’ll be able to get and, typically, the better the overall low-light performance.

LensEquivalentApertures([“Equivalent focal length (mm)”,”Panasonic FZ1000″,”Sony RX10 II”,”Panasonic ZS100″,”Sony RX10 III”,”Panasonic FZ2500″], [[24,null,””,7.6363636363636367,”Sony RX10 II at 24mm: F7.6″,null,””,6.5454545454545459,”Sony RX10 III at 24mm: F6.5″,7.6363636363636367,”Panasonic FZ2500 at 24mm: F7.6″],[25,7.6363636363636367,”Panasonic FZ1000 at 25mm: F7.6″,null,””,7.6363636363636367,”Panasonic ZS100 at 25mm: F7.6″,6.8181818181818183,”Sony RX10 III at 25mm: F6.8″,7.9090909090909092,”Panasonic FZ2500 at 25mm: F7.9″],[26,7.9090909090909092,”Panasonic FZ1000 at 26mm: F7.9″,null,””,7.9090909090909092,”Panasonic ZS100 at 26mm: F7.9″,null,””,null,””],[27,null,””,null,””,8.1818181818181834,”Panasonic ZS100 at 27mm: F8.2″,null,””,null,””],[28,null,””,null,””,null,””,7.6363636363636367,”Sony RX10 III at 28mm: F7.6″,8.1818181818181834,”Panasonic FZ2500 at 28mm: F8.2″],[30,8.1818181818181834,”Panasonic FZ1000 at 30mm: F8.2″,null,””,8.7272727272727284,”Panasonic ZS100 at 30mm: F8.7″,null,””,8.454545454545455,”Panasonic FZ2500 at 30mm: F8.5″],[32,null,””,null,””,9.0,”Panasonic ZS100 at 32mm: F9.0″,null,””,8.7272727272727284,”Panasonic FZ2500 at 32mm: F8.7″],[34,8.454545454545455,”Panasonic FZ1000 at 34mm: F8.5″,null,””,9.2727272727272734,”Panasonic ZS100 at 34mm: F9.3″,null,””,null,””],[35,null,””,null,””,null,””,8.7272727272727284,”Sony RX10 III at 35mm: F8.7″,9.0,”Panasonic FZ2500 at 35mm: F9.0″],[36,null,””,null,””,9.5454545454545467,”Panasonic ZS100 at 36mm: F9.5″,null,””,null,””],[39,null,””,null,””,null,””,null,””,9.2727272727272734,”Panasonic FZ2500 at 39mm: F9.3″],[41,8.7272727272727284,”Panasonic FZ1000 at 41mm: F8.7″,null,””,null,””,null,””,null,””],[43,null,””,null,””,null,””,null,””,9.5454545454545467,”Panasonic FZ2500 at 43mm: F9.5″],[47,9.0,”Panasonic FZ1000 at 47mm: F9.0″,null,””,null,””,null,””,null,””],[49,null,””,null,””,null,””,null,””,9.81818181818182,”Panasonic FZ2500 at 49mm: F9.8″],[51,9.2727272727272734,”Panasonic FZ1000 at 51mm: F9.3″,null,””,null,””,null,””,null,””],[56,null,””,null,””,null,””,9.5454545454545467,”Sony RX10 III at 56mm: F9.5″,10.090909090909092,”Panasonic FZ2500 at 56mm: F10.1″],[58,9.5454545454545467,”Panasonic FZ1000 at 58mm: F9.5″,null,””,null,””,null,””,null,””],[63,9.81818181818182,”Panasonic FZ1000 at 63mm: F9.8″,null,””,null,””,null,””,null,””],[69,null,””,null,””,null,””,null,””,10.363636363636363,”Panasonic FZ2500 at 69mm: F10.4″],[70,10.090909090909092,”Panasonic FZ1000 at 70mm: F10.1″,null,””,null,””,null,””,10.636363636363637,”Panasonic FZ2500 at 70mm: F10.6″],[79,null,””,null,””,null,””,null,””,10.90909090909091,”Panasonic FZ2500 at 79mm: F10.9″],[84,10.363636363636363,”Panasonic FZ1000 at 84mm: F10.4″,null,””,null,””,null,””,null,””],[91,null,””,null,””,null,””,null,””,11.181818181818182,”Panasonic FZ2500 at 91mm: F11.2″],[100,null,””,null,””,null,””,10.90909090909091,”Sony RX10 III at 100mm: F10.9″,null,””],[102,null,””,null,””,null,””,null,””,11.454545454545457,”Panasonic FZ2500 at 102mm: F11.5″],[105,10.636363636363637,”Panasonic FZ1000 at 105mm: F10.6″,null,””,null,””,null,””,null,””],[144,null,””,null,””,15.818181818181818,”Panasonic ZS100 at 144mm: F15.8″,null,””,null,””],[151,null,””,null,””,null,””,null,””,11.727272727272728,”Panasonic FZ2500 at 151mm: F11.7″],[157,null,””,null,””,16.090909090909093,”Panasonic ZS100 at 157mm: F16.1″,null,””,null,””],[170,10.90909090909091,”Panasonic FZ1000 at 170mm: F10.9″,null,””,null,””,null,””,null,””],[200,null,””,7.6363636363636367,”Sony RX10 II at 200mm: F7.6″,null,””,null,””,null,””],[208,null,””,null,””,null,””,null,””,12.000000000000002,”Panasonic FZ2500 at 208mm: F12.0″],[250,null,””,null,””,16.090909090909093,”Panasonic ZS100 at 250mm: F16.1″,null,””,null,””],[262,null,””,null,””,null,””,null,””,12.272727272727273,”Panasonic FZ2500 at 262mm: F12.3″],[400,10.90909090909091,”Panasonic FZ1000 at 400mm: F10.9″,null,””,null,””,null,””,null,””],[480,null,””,null,””,null,””,null,””,12.272727272727273,”Panasonic FZ2500 at 480mm: F12.3″],[600,null,””,null,””,null,””,10.90909090909091,”Sony RX10 III at 600mm: F10.9″,null,””]])

Focusing just on the FZ2500 vs RX10 III, you’ll see that the latter gets a headstart, as its max aperture starts at F2.4, versus F2.8. The RX10 III is always a tiny bit ahead, until it levels off at F4 for the rest of its focal length. When the FZ2500 reaches its maximum telephoto position it’s equivalent aperture is about 1/3-stop slower than the Sony. The camera with the fastest equivalent aperture in the group is the Sony RX10 II, which has a constant F2.8 aperture throughout its focal range (which ends at 200mm.)

Articles: Digital Photography Review (dpreview.com)

 
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Lytro poised to forever change filmmaking: debuts Cinema prototype and short film at NAB

21 Apr
Lytro debuted its Cinema prototype to an eager crowd at NAB 2016 in Las Vegas, NV.

Lytro greeted a packed showroom at NAB 2016 in Las Vegas, Nevada to demo its prototype Lytro Cinema camera and platform, as well as debut footage shot on the system. To say we’re impressed from what we saw would be an understatement: Lytro may be poised to change the face of cinema forever.

The short film ‘Life’, containing footage shot both on Lytro Cinema as well as an Arri Alexa, demonstrated some of the exciting applications of light field in video. Directed by Academy Award winner Robert Stromberg and shot by VRC Chief Imaging Scientist David Stump, ‘Life’ showcased the ability of light field to obviate green screens, allowing for extraction of backgrounds or other scene elements based off of depth information, and seamless integration of CGI elements into scenes. Lytro calls it ‘depth screening’, and the effect looked realistic to us.

‘Life’ showcased the ability of Lytro Cinema to essentially kill off the green screen

Just as exciting was the demonstration of a movable virtual camera in post: since the light field contains multiple perspectives, a movie-maker can add in camera movement at the editing stage, despite using a static camera to shoot. And we’re not talking about a simple pan left/right, up/down, or a simple Ken Burns effect… we’re talking about actual perspective shifts. Up, down, left, right, back and forth, even short dolly movements – all simulated by moving a virtual camera in post, not by actually having to move the camera on set. To see the effect, have a look at our interview with Ariel Braunstein of Lytro, where he presents a camera fly-through from a single Lytro Illum shot (3:39 – 4:05):

The Lytro Cinema is capable of capturing these multiple perspectives because of ‘sub-aperture imaging’. Head of Light Field Video Jon Karafin explains that the system is made of multiple lenses (we see what appears to be two separate openings in the photo below), and behind each lens, in front of the sensor, is a microlens array consisting of millions of small lenses similar to what traditional cameras have. The difference, though, is that there is a 6×6 pixel array underneath each microlens, meaning that any one XY position of those 36 pixels under one microlens, when combined with the same position pixel under all other microlenses, represents the scene as seen through one portion, or ‘sub-aperture’ of the lens. These 36 sub-aperture images essentially provide 36 different perspectives, which then allow for computational reconstruction of the image with all the benefits of light field.

The 36 different perspectives affords you some freedom of movement in moving a virtual camera in post, but it is of course limited, affected by considerations like lens, focal length, and subject distance. It’s not clear yet what that range of freedom is with the Cinema, but what we saw in the short film was impressive, something cinematographers will undoubtedly welcome in place of setting up motion rigs for small camera movements. Even from a consumer perspective, consider what auto-curation of user-generated content could do with tools like these. Think Animoto on steroids.

Front of the Lytro Cinema, on display at NAB 2016. We see two openings, though it’s not clear how many main imaging lenses exist in the prototype yet.

We’ve focused on depth screening and perspective shift, but let’s not forget all the other benefits light field brings. The multiple perspectives captured mean you can generate 3D images or video from every shot at any desired parallax disparity (3D filmmakers often have to choose their disparity on-set, only able to optimize for one set of viewing conditions). You can focus your image after the fact, which saves critical focus and focus approach (its cadence) for post.* Selective depth-of-field is also available in post: choose whether you want shallow, or extended, depth-of-field, or even transition from selective to extensive depth-of-field in your timeline. You can even isolate shallow or extended depth-of-field to different objects in the scene using focus spread: say F5.6 for a face to get it all in focus, but F0.3 for the rest of the scene.

Speaking of F0.3 (yes, you read that right), light field allows you to simulate faster (and smaller) apertures previous thought impossible in post, which in turn places fewer demands on lens design. That’s what allowed the Illum camera to house a 30-250mm equiv. F2.0 constant aperture lens in relatively small and lightweight body. You could open that aperture up to F1.0 in post, and at the demo of Cinema at NAB, Lytro impressed its audience with – we kid you not – F0.3 depth-of-field footage.

The sensor housing appears to be over a foot wide. That huge light field sensor gets you unreal f-stops down to F0.3

But all this doesn’t come without a cost: the Lytro Cinema appears massive, and rightfully so. A 6×6 pixel array underneath each microlens means there are 36 pixels for every 1 pixel on a traditional camera; so to maintain spatial resolution, you need to grow your sensor, and your total number of pixels. Which is exactly what Lytro did – the sensor housing appeared to our eyes to be over a foot in width, sporting a whopping 755 million total pixels. The optics aren’t small either. The total unit lives on rails on wheels, so forget hand-held footage – for now. Bear in mind though, the original technicolor cinematic camera invented back in 1932 appeared similarly gargantuan, and Lytro specifically mentioned that different versions of Cinema are planned, some smaller in size.

The Lytro Cinema is massive. The sensor is housed in the black box behind the orange strut, which appears to be at least a foot wide. It comes with its own traveling server to deal with the 300GB/s data rates. Processing takes place in the cloud where Google spools up thousands of CPUs to compute each thing you do, while you work with real-time proxies.

So what does 755MP get you? A lot of data, for starters. We spoke to Lytro some time back about this, and were told that the massive sensor requires a bandwidth of around 300GB/s. That means Lytro Cinema comes with its own server on-set to capture that data. But processing that data isn’t easy either – in fact, no mortal laptop or desktop need apply. Lytro is partnering with Google to send footage to the cloud, where thousands of CPUs crunch the data and provide you real-time proxies for editing. One major concern with Lytro’s previous cameras was the resolution trade-off: recording angular information means that spatial resolution is sacrificed. The Illum had a roughly 40MP sensor, yet yielded only roughly 5MP images, a roughly 10-fold resolution cost. With 755MP though, even a 10x resolution cost would yield 76MP – well above the requirements for 4K video.**

Thousands of CPUs on Google’s servers crunch the data and provide you real-time proxies for editing

Speculation aside, the 4K footage from the Lytro Cinema that was mixed with Arri Alexa footage to create the short ‘Life’, viewed from our seating position, appeared comparable to what one might expect from professional cinema capture. Importantly, the footage appeared virtually noise free – which one might expect of such a large sensor area. Since image data from many pixels are used for any final image pixel, a significant amount of noise averaging occurs – yielding a clean image, and a claimed 16 stops of dynamic range.

That’s incredibly impressive, given all the advantages light field brings. This may be the start of something incredibly transformative for the industry. After all, who wouldn’t want the option for F0.3 depth-of-field with perfect focus in post, adjustable shutter angle, compellingly real 3D imagery when paired with a light field display, and more? With increased capabilities for handling large data bandwidths, larger sensors, and more pixels, we think some form of light field will exist perhaps in most cameras of the future. Particularly when it comes to virtual reality capture, which Lytro also intends to disrupt with Immerge.

It’s impressive to witness how far Lytro has come in such a short while, and we can’t wait to see what’s next. For more information, visit Lytro Cinema.


* If it’s anything like the Illum, though, some level of focusing will still be required on set, as there are optimal planes of refocus-ability.

** We don’t know what the actual trade-off is for the current Lytro Cinema. It’s correlated to the number of pixels underneath each microlens, and effective resolution can change at different focal planes.

Articles: Digital Photography Review (dpreview.com)

 
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Exposure: Jason van Genderen on ‘pocket filmmaking’

15 Aug

920.png

Sometimes, the best thing that you can do creatively is to give yourself limitations. For filmmaker Jason van Genderen, that meant putting down his camera and picking up his smartphone. Van Genderen prides himself on being a ‘pocket filmmaker.’ Living in Terrigal, Austrailia, van Genderen spends his days running a creative agency and whenever he gets a chance, he uses smartphones to create films. We spoke to van Genderen about his experience using the Lumia 920 for filmmaking. Click through to read the full interview on connect.dpreview.com.

News: Digital Photography Review (dpreview.com)

 
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The ultimate Introduction to DSLR Filmmaking | Basic Tutorial

11 Feb

A tutorial by Fenchel & Janisch Facebook: www.fb.com YouTube: www.youtube.com This introduction to DSLR video is divided into six parts. Learn how to set up your camera, shoot in daylight and at night. This tutorial shows you how to get the cinematic film look that so many people are talking about. In the fall of 2008 Vincent Laforet was the first one to use the Canon EOS 5D Mark II which was the first digital SLR capable of recording full HD video. The short film he shot mostly at night, called “Reverie”, become popular over night. Something that Canon never intended got more and more in focus of amateur filmmakers all over the world: Shooting films and commercials with a stills camera. It only took a few month and the first accessories were released. Since then a lot has happened and a lot of TV shows like “House MD” or “CSI Miami” used DSLRs on set. Philip Bloom, another pioneer in digital filmmaking, used cameras on the Lucas Film production “Red Tails”. The small body and the great image quality has fascinated international acclaimed cinematographers like Rodney Charters (“24”). In independent cinema those cameras became indispensable. Questions: www.fenchel-janisch.com ETHIC STATEMENT: Fenchel & Janisch GbR is not affiliated with any of the companies shown or named in this video. © 2012 by Fenchel & Janisch Filmproduktion GbR
Video Rating: 4 / 5

 
 

Essential DSLR filmmaking accessories review in 3D

23 Nov

Use anaglyph 3D glasses to watch it in 3D. For normal viewing, turn off the 3D from YouTube 3D menu at the bottom right corner of the video.

 
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DIY Homemade Light Stands – Photography Filmmaking – QUICK FX

08 Aug

Today we take a look at 2 versions of, what I think could possibly be the easiest, simplest light stands yet! This episode is an experiment using the Samsung camera’s pause feature to cut together the entire show all in camera. I’m hoping this will allow me to put out more tutorials!! … I have all kinds of stuff I want to share with you, and this may be the ‘quickest’ way to get it to you! Let me know what you think of this experimental episode in the comments section! List of items in this build: Painters Pole or PVC pipe Plunger or Bulb changer top Rubber chair tip or some duct tape Full Build List and More information available at www.knoptop.com For more PVC building projects check out www.thefrugalfilmmaker.com Find us on Facebook http Thanks again for taking time to watch my videos! I appreciate your feedback! This episode was recorded and cut together all in camera using the ‘smart pause feature’ on the SAMSUNG HMX-Q10, more info here: www.youtube.com Time-Lapse video using the iphone app imMotion HD – Watch that here: www.youtube.com Be sure to Rate, Comment, and Subscribe!! More great videos coming soon!!
Video Rating: 5 / 5

Connecticut River is known for its floods, but in this movie you see Connecticut River at the moment of peace. Connecticut River is the largest river in New England, flowing south from the Connecticut Lakes in northern New Hampshire and discharging into Long Island Sound . It has a total length of 407 miles (655 km), and a drainage basin extending over 11250 square miles (29100 km2). Music: Kevin MacLeod, At Rest
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Stereo 3D FIlmmaking Bootcamp

21 Dec

Stereographic filmmaking is the newest craze in Hollywood, in spite of the fact that 3D has been around almost as long as conventional cinema. Shooting a 3D film has become much more accessible in these days of digital video, miniature cameras and affordable digital editing systems. In this webinar, presented by award winning IMAX cinematographer James Neihouse, you will learn the basics of 3D/Stereo cinematography, beginning with the terminology then stepping though the process and methods of shooting in 3D. You will learn about 3D rigs, setting up the cameras, the effects of interaxial distance (the distance between the lenses), convergence of the cameras, screen size, and 3D editing techniques.

If you have any question, please contact me: yoichi@v3i.co.kr
Video Rating: 4 / 5