Thread 1/4" (for tripod)
The presence of a
1/4" threaded socket on the camera body. It is this size that is standard for modern
tripods and is used in most of these devices. So this feature allows you to mount the camera on a tripod without using adapters and other additional equipment.
WVGA (480p)
Camera ability for recording WVGA (480p) video.
The most popular resolution options provided by this standard are 640x480 and 848x480; there may be other options, for example, 736x480 or 720x576, but the resolution of such a video is very low by modern standards.
Another important parameter indicated in the specs of the video is the frame rate. The higher it is, the smoother the picture looks, and the less moving objects are blurred in the frame. Accordingly, the higher the frame rate, the better the dynamic scenes will look on the video. A value of 120 fps or more usually indicates that the camera can shoot video in slow-motion format (although it should be specified separately). At the same time, many models with high fps allow you to set a lower frame rate than stated in the specifications — for example, a camera for 120 fps can also support 30 and 60 fps. This feature is useful in cases where you need to save memory — the higher the frame rate, the more space the video takes (at the same resolution), and by reducing the number of frames per second, you can fit more material in the same amount of memory.
Quad HD
The ability of the camera to shoot QuadHD video.
This standard includes an extensive set of resolutions — from 1440 to 3456 pixels horizontally and from 1440 to 2160 pixels vertically, with almost two dozen intermediate options. It is a rather specific transitional option between the relatively inexpensive FullHD 1080p and the demanding UltraHD 4K, allowing you to shoot higher resolution video than 1080p without significantly increasing the cost of equipment. Note that pure QuadHD resolutions are rare in TVs and monitors, but modern technologies make it possible to comfortably watch videos of this format on any high-resolution screen.
Another important parameter given in this paragraph is the frame rate. The higher it is, the smoother the movement in the frame will be, and the details in dynamic scenes will be visible clearly. For example, a filming speed of
25 fps or
30 fps approximates the standard frame rate in film and television; such an image is quite viewable, but fast-moving objects in the frame will look blurry. With an increase in speed to
60 fps, this effect becomes almost imperceptible. The highest QuadHD frame rate found in modern action cameras is
120 fps; this frequency is used when shooting slow-motion video (as well as models with a frequency of
100 fps) because at a n
...ormal playback speed, 60 fps is enough.Ultra HD (4K)
The ability of the camera to shoot Ultra HD 4K video.
This format covers several resolutions in which the horizontal frame size is approximately 4K pixels. The most popular in action cameras is 3840x2160 (twice the FullHD frame on each side), but there are other options — for example, 3840x1920, corresponding to an aspect ratio of 2:1. In general, 4K is a kind of successor to Full HD: among HD standards that surpass Full HD, UltraHD is the most popular, in particular, many advanced TVs are produced with 3840x2160 screens. On the other hand, this format is quite demanding in terms of processing power and memory, so it is relatively rare in action cameras, mainly among premium models.
Another important parameter given in this paragraph is the frame rate. The higher it is, the smoother the movement in the frame will be, and the details in dynamic scenes will be visible clearly. However, in UltraHD mode, most modern action cameras produce a very low frame rate — most often
30 fps, and in some models
24 fps or even
15 fps. This video is quite viewable, but fast movement in the frame may look blurry. There are cameras capable of shooting UltraHD at a solid speed of
60 fps — the blurring effect during such shooting is almost imperceptible. However, such a model cost is high.
Slow motion
Frame rate supported by the camera when
shooting in slow motion.
In general, such shooting is called “high-speed” because it is carried out at an increased frame rate (more than 60 fps). As a result, when played back at normal speed (60 fps and below), the video looks slow hence the name. This kind of slow-motion can be used just for fun, as an artistic technique, and even for scientific purposes — to capture movement that is too fast for the human eye. In any case, the higher the slow-mo frame rate, the more you can slow down the video and the more advanced the camera is in this regard. On the other hand, the higher the frame rate, the more performant the graphics part should be; and this, in turn, affects the price of the device, sometimes quite noticeably.
We also note that slow-mo shooting may be available only at certain resolutions, not always at maximum. These points can be directly specified in the specs of the action camera.
Optical stabilization
The presence of an optical stabilization system in the design of the camera.
Any stabilization is intended to compensate for small juddering of the image that occurs due to the instability of the hold in the hands, vibrations from the motor or road roughness (when used in transport), etc.
Optical stabilization is carried out by a system of movable lenses and gyroscopes in the camera lens; such a system monitors the vibrations of the device and adjusts the optics in such a way that the image falling on the sensor remains motionless.
The optical method is considered more advanced than the electronic method described above: it allows you to use the entire area of the image sensor, which contributes to good image quality. At the same time, the stabilization mechanism turns out to be quite complex and expensive, and often quite fragile. In addition, it increases the weight and dimensions of the entire device — not by much, but sometimes this may be important. And the miniaturization of such systems further affects the price. As a result, the presence of an optical stabilizer is most often a sign of a fairly advanced camera.
Megapixels
The number of megapixels in the action camera sensor, in other words, the resolution of this sensor(1 megapixel is 1 million photosensitive points).
There is an opinion that the higher the resolution, the better the image quality. It is true from the point of view that manufacturers are trying to install high-resolution sensors in advanced cameras. At the same time, there are no strict dependencies here, and from the technical point of view, the number of megapixels determines only the maximum image resolution that can be captured using this sensor. The quality of this picture will depend both on several features of the sensor itself (size, type, special design solutions), and the specs of the camera. So when choosing, you should focus not so much on the resolution of the image sensor, but on the general class of the camera and reviews with examples of footage.
Sensor
Additional information regarding the sensor installed in the lens. This item can specify both the diagonal size (in inches) and the sensor model, and sometimes both parameters at once. Anyway, such data is provided only if the device is equipped with a high-class image sensor. With the model, everything is quite simple: knowing the name of the sensor, you can find detailed data on it.
The diagonal of the image sensor is traditionally indicated in fractions of an inch — accordingly, for example, a 1/2.3" sensor will be larger than 1/2.6". Larger sensors are considered more advanced, as they allow for better image quality at the same resolution. This is because due to the larger sensor area, each pixel is also larger and receives more light, which improves sensitivity and reduces noise. Of course, the actual image quality will also depend on several other parameters, but in general, a larger sensor size usually means a more advanced camera.
Photo resolution
The maximum resolution at which the action camera can take photos. Specified in pixels horizontally and vertically.
This parameter is directly related to the resolution of the image sensor(see above): the total number of pixels in the photo, usually, corresponds to the number of pixels in the sensor. For example, a photo resolution of 4608x3456 corresponds to a sensor of 15925248 pixels, or approximately 16 megapixels. If the number of pixels in the photo is greater than the claimed resolution of the sensor, then the manufacturer uses software tricks that allow you to improve the photo resolution to a higher one than originally. This reduces the cost of devices but also affects the quality of images.
Theoretically, high-resolution images can provide good detail, but in fact, much depends on the specs of the sensor (primarily physical size) and image processing features.