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Comparison Sony FX3 body vs Blackmagic Production Camera 4K EF

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Sony FX3 body
Blackmagic Production Camera 4K EF
Sony FX3 bodyBlackmagic Production Camera 4K EF
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Featuresprofessionalprofessional
Media typeflash (memory card)SSD
Sensor
Sensor type
CMOS /Exmor R/
CMOS
Sensor sizeAPS-CAPS-C
Number of megapixels12.96.13
Effective megapixels10.2
Camera lens
Interchangeable lens
Bayonet (mount)Sony ECanon EF
Image stabilizationoptical / electronic
Manual focus
Video shooting
Video resolution3840x2160 px3840x2160 px
Frame frequency120 fps30 fps
Recording formatsXAVC HS, XAVC SCinemaDNG RAW, Apple ProRes 422 (HQ, LT, Proxy)
Video recording speed
200 Mbps, 150 Mbps, 100 Mbps, 75 Mbps /45 Mbps, 16 Mbps/
110 Mbps, 73.6 Mbps, 51 Mbps, 22.4 Mbps
Shutter speed1/4 – 1/8000 с
White balance
Auto, Daylight, Shade, Cloudy, Incandescent /fluorescent lighting, flash, underwater, colour temperature (2500-9900 K) and colour filter / custom settings/
Sound recordingLPCM 4 channels 48 kHz, 24 bits48 kHz, 24 bit
Photo
Number of megapixels8.64
Max. photo size4000x2160 px
Screen
Screen size3 "5 "
Screen resolution1440 K pixels
Touch screen
Features
Features
hot shoe
 
Wi-Fi module /802.11a/b/g/n/ac/
NFC
 
built-in speaker
 
 
Memory and sockets
Memory card supportCFexpress Type-A, SDXC UHS-I and UHS-II
Memory card slots2
Connectors
USB /Type C/
HDMI
 
microphone input
headphone jack
USB
 
SDI
microphone input /x2/
headphone jack
Battery
USB charging
Battery typeNP-FZ100
Battery capacity2280 mAh
Battery life1.5 h
General
Dimensions (WxHxD)166x126x113 mm
Weight1700 g
Color
Added to E-Catalogseptember 2021july 2015

Media type

The type of primary media used by the camera to store captured video/photo.

Flash (memory card). One of the most popular types of storages in modern electronics, it is widely used in camcorders of all types (see above). The flash technology itself is notable for its high speed, economical power consumption, reliability and shock resistance (due to the absence of moving parts), as well as the small size and weight of storages with their high capacity. At the same time, such memory is quite expensive. Therefore, camcorders most often use removable flash media in the form of memory cards of various types (see “Memory card support”): this allows the user to choose the best option in terms of price/capacity ratio. Another advantage of plug-in modules is the ability to read data from a memory card on another device — for example, a laptop; this greatly simplifies the exchange of footage. And when the card is full, it is enough to replace it with another one — and you can continue shooting. Note that some cameras also have built-in flash-memory blocks (see "Built-in memory"), but the ability to work with cards is usually provided even in such cases.

HDD. Built-in hard disk drive — similar to those used for computers. Of course, the size and weight of such discs in camcorders is noticeably smaller, however, all the main features are the same. So, in terms of 1 GB of volume, they are much cheap...er than flash modules (see above), so they are well suited for creating devices with large volumes of internal memory. On the other hand, HDDs are noticeably heavier, they are sensitive to shocks and drops, they work a little slower, and they consume more energy — after all, during operation, the disk must rotate at a constant speed. In addition, such drives are built-in by definition and have all the corresponding disadvantages — in particular, when the memory is full, you will either have to sacrifice some materials or look for an opportunity to copy them somewhere. To compensate for this shortcoming, many "disk" cameras also provide slots for memory cards; but the HDD is still considered the main carrier .

— SSD. SSD solid state drives are similar to the memory cards described above in their main specifications: they are compact, reliable, resistant to shocks and drops, and have high speed. At the same time, the built-in storages usually works faster than a removable card, and its volume can be comparable to the HDD (see above). The main disadvantage of this option is the high price. In addition, all SSDs have a limit on the number of rewriting cycles, and when the resource is running out, the drive may become unwritable. On the other hand, this number can even now amount to tens of thousands of cycles, various tricks are used to increase the service life, and the technology is constantly being improved — there are promising designs in which this drawback has been completely eliminated.

— DVD. The DVD optical discs used in camcorders are smaller than standard discs — a full-size drive would simply not fit into a compact camera. The volume of such media is also reduced, for a conventional single-layer disc it is 1.4 GB. However, mini-DVDs can be read without problems in almost all DVD drives, which is one of the main advantages of such media: you can immediately view a disc from a camera on a computer or even a household DVD player. Also empty DVD are relatively inexpensive. On the other hand, they seriously lose to memory cards in terms of volume and dimensions, and an accidental scratch on the surface can make such a disc unreadable. In addition, most sold blank DVDs are for one time use, while rewritable ones are rarer and more expensive. As a result of all this, this media format is considered obsolete today and is gradually being replaced by more advanced technologies.

MiniDV (cassette). MiniDV cassettes work on the principle of recording information in digital format on magnetic tape. On the one hand, such media are more bulky than memory cards, and besides, they require the use of complex tape transport mechanisms, which affects the dimensions, price, and power consumption of the cameras themselves. Also working with recorded materials is more difficult — because of the need to rewind the tape to access each individual fragment. At the same time, the recording format provides both good video quality and some advanced features — in particular, it is convenient when rewriting to film. As a result of all this, miniDV cassettes are practically not found among amateur cameras (see "Features"), but they are quite popular in professional models.

Number of megapixels

The total number of individual photosensitive points (pixels) provided in the design of the sensor (1 megapixel corresponds to a million pixels). This parameter takes into account both those points on which the light falls, and service points that are not directly involved in the construction of the image. Therefore, in modern video cameras, it is more of a reference than practically significant; the actual image quality depends primarily on the number of effective megapixels (see below).

Effective megapixels

The number of light sensitive pixels directly involved in the construction of the image. These are the dots on which the “image” projected by the lens onto the matrix falls. In addition to them, there are also service pixels that are not illuminated during camera operation — they provide auxiliary information necessary for processing the resulting image. Also, when calculating effective megapixels, the reserve area required for electronic stabilization is usually not taken into account (see "Image Stabilization").

The value of the number of effective pixels for different modes of operation of the camcorder will also be different. For example, when recording video, many cameras use multiple pixels to build a single dot on the image; this is due to the fact that the sensor resolutions significantly exceed those required for video shooting (for example, the Full HD standard technically corresponds to only 2.07 megapixels). As a result, the image quality depends more on the sensor size (see above) than on the resolution. And among sensors of the same size, high resolution allows user to get better colour rendering and higher clarity (however, not always — a lot also depends on the peculiarities of image processing). If we are talking about photography, then more megapixels means a higher resolution of the resulting image, but the quality of such a picture can be relatively low due to the increased noise level and low sensitivity of each individual pixel.

Bayonet (mount)

Bayonet type — type of a mount for an interchangeable lens (see above) provided in the design of the camcorder. This paragraph specifies only standard mounts used in camera lenses; camcorders that are not compatible with such lenses usually use specialized mounts that have not gained wide popularity.

— Canon EF. Bayonet, originally designed for Canon EOS DSLR cameras; Recently, camcorders have also been produced under this brand. Optics for EF are also made by third-party manufacturers, but the mount itself is used exclusively in Canon technology, because. this standard is not open.

— Micro Four Thirds (4:3). This bayonet is part of a standard of the same name developed by Olympus and Panasonic primarily for mirrorless digital cameras. Used in Panasonic models because Olympus practically does not release "classic" camcorders.

— Sony E. Bayonet, created by Sony for branded devices; unlike all those described above, it was originally intended not only for cameras (mirrorless), but also for camcorders.

— PL-Mount. Mount used in professional video equipment. Its main feature is the ability to mount the lens in 4 different positions — straight, "upside down" and rotated 90° to the right or left. This expands the possibilities of using the camera. In addition, Pl-Mount is characterized by high connection reliability, which is important when working with massive high-end optics.

Image stabilization

An image stabilization method provided in the design of a video camera. The stabilization function itself is designed to compensate for small camera shakes so that they are not noticeable in the image. This is especially true when shooting handheld, and in fact most modern models are designed specifically for such usage. According to the method of work, there are such options:

Optical. A special mechanism with a system of gyroscopes and movable lenses, installed directly in the lens, is responsible for the operation of such stabilization systems. It introduces a correction for all tremors, vibrations, etc., and the “picture” falls on the already stabilized sensor. Optical systems are considered the most advanced and efficient, because. their work allows you to use the entire area of the sensor, fully exploit its capabilities and provide good image quality. Among the shortcomings, it is worth noting the increase in the cost and weight of the cameras, as well as a slight decrease in the reliability of the optics. At the same time, these moments are most often not critical, and stabilizers of this type can be used even in simple and inexpensive models.

— Electronic. Electronic stabilization is carried out due to the fact that not the entire area of the sensor, but only some of it, is involved in the formation of an image for a frame. Simply put, the camera electronics "takes into account" a certain area of the sensor and...transfers the image from it into the frame; and at small displacements, this "area of attention" is also displaced, due to which the visible image remains motionless. The advantages of electronic systems are simplicity of design, lightness, compactness and high reliability; they can be used with even the simplest lenses installed in pocket cameras (see “Features”). Their main disadvantage is the need to reserve a part of the sensor, which reduces the size and resolution of the actually involved area and adversely affects the image quality.

— Optical / electronic. In such systems, both the methods described above are used — both the mechanism in the lens and the reserve on the sensor. This provides extremely high vibration compensation efficiency — the image remains stable even in such conditions in which any single method would be useless. On the other hand, the disadvantages of both options also remain relevant, and the cost of cameras with this feature is quite high.

Frame frequency

The highest frame rate provided by the camera when shooting video. The minimum frequency for normal viewing is the classic 24 fps used in cinema. At the same time, most modern video cameras are capable of providing up to 50 – 60 fps, and even higher frequencies can be used for the slow motion effect.

In fact, this indicator is important primarily when shooting dynamic scenes. The higher the frame rate, the smoother the fast motion will look in the frame, the less jerky it will be and the more pleasant the overall impression of the image will be. The reverse side of this is an increase in the size of recorded files (all other things being equal). Therefore, the frame rate can be made adjustable so that the operator can choose the best option for a particular situation.

Recording formats

Video file formats that the camera can use to store recorded footage. If you want to view these materials using a separate device (player, media centre, etc.), you should make sure that this player supports the appropriate formats, otherwise conversion may be necessary.

Video recording speed

The data transfer speed provided by the camera when recording video. This parameter is also called bitrate (i.e., the number of bits per unit of time). For any file format used for recording, the general rule is that the higher the bitrate, the better the image quality (especially for formats that use lossy compression). On the other hand, high speed have appropriate requirements for the capabilities of the memory cards used — for more details, see "Memory card support"; and it increases the size of the file accordingly. Therefore, many modern camcorders are able to work with different bitrates; this allows you to choose the best option depending on what is more important for you at the moment — maximum quality or the ability to work with a slow card.

At the same time, we note that in terms of quality, this parameter is important mainly for professional video shooting. If you need a camera for amateur purposes, there is no need to look for the maximum bitrate: after all, such models (and memory cards for them) cost accordingly.

Shutter speed

The range of shutter speeds in which the camera is capable of operating during the shooting process.

Initially, shutter speed is the time during which light affects the photosensitive material (film) when shooting a single frame. For digital sensors, this is the period of time during which an image is read from the sensor to build a separate frame. When shooting video, this interval cannot be more than 1/n, where n is the frame rate (see above), but it can be less — for example, shooting at a frame rate of 30 fps and shutter speed of each frame 1/60 s. There are no such restrictions for the photo mode.

Long exposures are good because they allow the sensor to take in more light — accordingly, the “picture” is brighter, which is especially important in low light. At the same time, they increase the likelihood of getting a blurry image — due to the rapid movement of objects in the frame, the operator's hand shaking and other random camera movements that even the stabilization system is unable to compensate for. This effect can be useful for artistic motion blur, especially when shooting video, but in photo mode it is most often undesirable. Fast shutter speeds, on the other hand, allow you to get clear shots, but with less light, and in the case of video, even with the effect of sharp, jerky movements.

Accordingly, different exposure time options will be optimal for each situation, and the wider their range, the more opportunities the came...ra has to adjust to specific conditions.
Sony FX3 body often compared
Blackmagic Production Camera 4K EF often compared