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Comparison Dahua DH-SD49225T-HN vs Dahua DH-SD59220T-HN

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Dahua DH-SD49225T-HN
Dahua DH-SD59220T-HN
Dahua DH-SD49225T-HNDahua DH-SD59220T-HN
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Mountoutdooroutdoor
Body typedomedome
Connection
LAN
LAN
Camera features
Design and features
PTZ (managed)
PoE 802.3at
light sensor
motion detection
mobile app
alarm input/output /2 inputs, 1 output/
audio input / output /1 input, 1 output/
IR illumination
card reader /microSD before 128GB/
PTZ (managed)
PoE 802.3at
light sensor
motion detection
mobile app
alarm input/output /2 inputs, 1 output/
audio input / output /1 input, 1 output/
IR illumination
card reader /microSD before 128GB/
Number of LEDs6
Illumination range100 m100 m
Matrix
Matrix typeCMOSCMOS
Matrix size1/2.8"1/2.8"
Number of megapixels2 MP2 MP
Video resolution1920x1080 px1920x1080 px
Frame rate25 fps25 fps
Minimum illumination0.05 lux
Aperturef/1.6f/1.4
Signal to noise ratio50 dB55 dB
Backlight compensationWDR+BLCDWDR+BLC
Lens
Focal typevariablevariable
Focal length4.8 – 120 mm4.7 – 94 mm
Horizontal viewing angle59.2 °56.1 °
Optical zoom25 x20 x
General
Video compression formatH.264, H.265, MJPEG
Power source12 В24 B
Power consumption20 W23 W
Operating temperature-40 °C ~ +70 °С-40 °C ~ +70 °С
Maximum humidity90 %90 %
Protection levelIP66IP66
ONVIF
Materialmetalmetal
Dimensions160x160x295 mm186x186x309 mm
Weight3000 g3500 g
Added to E-Catalogjuly 2017april 2017

Number of LEDs

The number of backlight LEDs (see "Design and capabilities") provided in the camera design.

Theoretically, more LEDs provide more power and, accordingly, range (see below) and efficiency of IR illumination or LED illumination. However, in fact, such light sources can vary markedly in performance; in addition, a lot also depends on the features of the camera itself. Therefore, in fact, this indicator is a reference, and when choosing, it makes sense to pay attention to parameters that are closer to practice — in particular, the same backlight range (see below).

Minimum illumination

The lowest degree of illumination of the scene being shot, in which the camera is able to provide normal visibility. Usually, this item specifies the values for the daytime mode of operation (in the night mode, the minimum illumination in many models may be zero at all, because in such cases the IR illumination is turned on, see "Design and capabilities"). And if the camera is capable of shooting in colour, it usually means the lowest illumination necessary to obtain a colour image.

The lower this indicator, the better the camera works in low light, the brighter and more clearly visible image it is able to provide in such conditions. At the same time, note that in low light, night mode is often preferable, and in the presence of the aforementioned IR illumination, it is more likely to focus on the range of its operation (see above).

There are comparative tables that allow you to evaluate the degree of illumination indicated in the characteristics from a practical point of view: for example, an indicator of 0.2 lux corresponds to clear eyes on a full moon.

Aperture

Aperture of the lens installed in the camera.

Aperture characterizes the degree of attenuation of the light flux when passing from the front lens of the lens to the matrix. It is denoted as the ratio of the diameter of the active aperture of the lens to the focal length, while the size of the active aperture is designated as f and is taken as a unit — for example, f / 1.4 or f / 2.0. Moreover, the smaller the number in the designation, the higher the aperture (in our example, the second lens will be darker than the first). And for lenses with a variable focal length (see "Focal"), the actual aperture, usually, changes with a change in focal length; for such models, either the range of aperture values, or its maximum value, can be indicated.

By itself, this parameter characterizes, first of all, how light the image taken through the lens turns out, all other things being equal. High values are important, first of all, when shooting in low light conditions: a fast lens allows you to get a fairly high-quality image without increasing the sensitivity of the matrix, which is fraught with noise and “blurring” of the picture. On the other hand, the actual quality of camera operation (including in dark conditions) also depends on many other factors — the type and size of the matrix, signal processing features, etc. Therefore, aperture in most cases is more of a reference than a practically significant parameter.

Signal to noise ratio

The signal-to-noise ratio that the surveillance camera corresponds to.

This indicator describes the ratio of the level of the useful signal (the actual image produced by the camera to an external device) to the level of extraneous noise that inevitably arises during the operation of electronic circuits. Such noise appears in the image as characteristic noise (“snow”). The higher the signal-to-noise ratio, the less interference on the screen, the clearer and better the image is, and the smaller the volume of recorded video files. It is believed that visible noise practically disappears at a ratio of at least 45 dB. However, among modern cameras there are also higher rates.

Backlight compensation

WDR (Wide Dynamic Range) — extended dynamic range. WDR technology combines several frames with different exposures into one picture, as a result, dark areas are brightened, and overexposures are darkened, and the output is a picture with extremely uniform lighting. The true wide dynamic range technology is called True-WDR and it is implemented in the optical circuit at the hardware level, a special microprocessor is responsible for creating and mixing exposures. A more affordable alternative to wide dynamic range is Digital-WDR technology, which equalizes lighting through software algorithms.

DWDR (Digital Wide Dynamic Range) — extended dynamic range technology based on software brightening algorithms. DWDR brightens too dark areas of the frame, which can be completely blurred against the background of light areas. Digital brightening allows you to noticeably improve the quality of shooting in contrasting lighting conditions. Digital WDR cameras are noticeably cheaper than true True-WDR optics. Of course, the quality of digital brightening is inferior to True-WDR.

BLC (Back Light Compensation) — backlight compensation technology. This system is based on the work of digital signal processors DSP. So, the device, relatively speaking, "breaks" the frame into many segments, making its own adjustments to each of them. Backlight compensation brightens dark areas of...the frame well. The main disadvantage of the technology is the increase in the brightness of the already bright areas of the frame, due to which overexposure may appear in the picture.

WDR+BLC. The camcorder supports several lightening technologies at once, each of which is described in more detail above. Immediately, we note that the combination of WDR + BLC allows you to achieve an extremely clear and clear picture in almost any lighting conditions, from extreme contrast to insufficient and excessively bright.

DWDR+BLC. The device supports two popular clarification technologies at once, each of which is described in more detail above. The presence of DWDR + BLC technologies allows the camera to effectively brighten the dark areas of the frame. Such video cameras have proven themselves well when working in low light conditions.

Focal length

Focal length of the camera lens.

The focal length is such a distance from the lens to the matrix, at which a clear image is obtained on the matrix (when the lens is focused to infinity). The viewing angles of the lens primarily depend on this indicator (see below): the smaller it is, the wider the viewing angles and the smaller the objects in the frame (and vice versa). At the same time, it should be noted that the actual viewing angle is determined not only by the focal length, but also by the size of the matrix (see above). In fact, this means that with different sizes of matrices, lenses with the same focal length will have different working angles. Therefore, only cameras with the same matrix size can be compared with each other according to this indicator. Among CCTV cameras, lenses with a focal length of 2.8 mm, 3.6 mm, 4 mm and 6 mm are considered popular.

In models with a variable focal length (see above), in this case, the range from the minimum to the maximum distance is indicated. Also, using these data, you can derive the optical magnification factor of such a lens: for this, the maximum value must be divided by the maximum (for more details, see below).

Horizontal viewing angle

Horizontal viewing angle of the surveillance camera. For models with a variable value, the maximum value is indicated, since it is the width of the image that is important, and when zooming in, the zoom factor is more important than the angle. This paragraph also indicates the general angle of view for models with a circular field of view – in particular, cameras with a fisheye lens (see above)

The wider the viewing angle, the more space the camera captures and at the same time, the smaller the images of individual objects in the frame are obtained. Therefore, when choosing by this parameter, it is worth deciding what is more important – the ability to view a large scene or the visibility of small details in a relatively narrow field of view. Also note that with a wide field of view (100° or more), characteristic distortions can be observed at the edges of the frame, and the wider the angle, the more pronounced they are. This phenomenon can be eliminated by panoramic shooting (see "Design and features"), but this feature, in turn, complicates and increases the cost of the camera.

Optical zoom

Modern surveillance cameras can provide two types of magnification - optical and electronic. In the first case, the “approximation” of the image is carried out due to the operation of the lens; in the second, a separate area is selected on the matrix and the image from it is “stretched” across the entire frame, creating a magnification effect. Thus, optical zoom is more advanced: it allows you to use the entire sensor area even when zooming in.

Optical zoom is only available if the camera lens has a variable focal length (see “Focal”). And the degree of magnification will correspond to the ratio between the maximum and minimum focal length: for example, for a model with a range of 3 – 15 mm it will be 15/3 = 5x. Thus, we are not talking about how much the camera enlarges the “picture” relative to how it is visible to the naked eye, but about how much larger the image is at the maximum focal length than at the minimum.

The disadvantages of optical zoom systems are directly related to the disadvantages of variable focal length: the lenses are larger, more expensive and less reliable than with electronic ones. In addition, the capabilities of this operating format are limited: too high magnifications would require too bulky and expensive optical systems. Therefore, manufacturers often use a compromise option, supplementing optical magnification with electronic one: the first option is used at low magnifications, the secon...d is turned on when the capabilities of the optics are exhausted.

Video compression format

The video compression format used by the camera.

Compression is used to reduce the file sizes of captured video; different technologies can be used for this — the so-called codecs, their list is given in this paragraph. From a practical point of view, compatibility with external recording and playback devices primarily depends on the supported codecs. If you plan to use a computer as a recorder / player, you can ignore this list: modern PCs and laptops usually support a very extensive list of formats, and in extreme cases, the missing codecs can be installed separately. But if we are talking about specialized registrars, individual players (like home media centers), etc. — codec compatibility should be clarified further. So, if the advanced modern H.265 standard is very widely supported nowadays, then the more specific H.265+, originally created for surveillance systems, is much less common even in specialized equipment.
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