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Comparison A4Tech Bloody P30 Pro vs A4Tech Bloody AL90

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A4Tech Bloody P30 Pro
A4Tech Bloody AL90
A4Tech Bloody P30 ProA4Tech Bloody AL90
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from $53.00
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Main
Advanced sensor from PixArt. Cheat buttons to switch shooting modes.
Product typemousemouse
Connectionwiredwired
InterfaceUSB AUSB A
Cable length1.8 m1.8 m
Sensoropticallaser
Typefor gamefor game
Sensor and control
SensorPixArt 3389
Sensor resolution16000 DPI8200 DPI
Max. acceleration50 G30 G
Max. speed400 ips150 ips
Number of buttons77
Side buttons
DPI-button
SwitchesLight Strike, opto-mechanical
Scroll wheels11
Features
Optimal grippalmar, fingerpalmar, finger
Programmable buttons
Built-in memory
LightingRGB+
Lighting effects+
Cable
braided
braided
General
Size (LxWxH)125x66x42 mm125x66x42 mm
Weight
106 g /without cable/
144 g
Weight adjustment
Color
Added to E-Catalogdecember 2018august 2015

Sensor

Optical. The working element of an optical mouse consists of an LED that illuminates the underlying surface and an optical sensor that photographs this surface at high frequency. On the basis of a number of received images, the mouse electronics concludes about the direction and speed of movement of the manipulator and outputs the corresponding data to the computer. Optical mice are inexpensive, reliable enough and not too demanding on the working surface. Initially, they were poorly compatible with certain types of surfaces — mirror, fur, leather, etc.; however, in most modern optical sensors, this drawback is eliminated, and mice of this type are often quite "omnivorous".

Laser. According to the principle of operation, laser mice are similar to optical ones (see above). The main difference is that they do not use an LED, but a laser, to illuminate the image. Thus, a narrower beam directivity is provided, and as a result, more accurate cursor positioning, which is especially important when working with complex detailed graphics, in games, etc. Theoretically, the laser is less versatile and not compatible with such an abundance of surfaces as optics, but this difference is noticeable only on specific surfaces like fur, polished metal, etc. But the unequivocal disadvantage of this technology is the higher cost.

— Optical, Bluetrack. Optical models (see a...bove) using a sensor with BlueTrack technology. This technology was originally developed by Microsoft, but nowadays it is also found in other manufacturers. The most noticeable difference between such sensors and conventional optical ones is the blue colour of the LED (hence the name). In addition, the design provides for a number of improvements: an increased area of illumination of the surface under the mouse, high resolution of the matrix, coated optics. Thanks to this, BlueTrack mice have high accuracy and are able to function even on “difficult” surfaces such as glass, polished stone, carpet pile, etc.

— Optical, V-Track. Optical sensor using V-Track technology. This technology was developed by A4Tech and is used primarily in mice of this brand. One of the key features of V-Track is that the beam of light in such sensors falls on the work surface vertically (rather than obliquely, as in conventional optics). In addition, the light spot size is very small, the light density is high, and the photodetector lens has a very narrow aperture, which gives a large depth of field. Thanks to these improvements, V-Track provides very high accuracy and (according to the creators) is able to work even on volumetric mechs, where other types of sensors are useless. However, mice with this feature are not cheap.

— Laser, V-Track. Laser sensor using V-Track technology. For more information about this technology, see above, but here we note that the use of V-Track in laser mice allows you to get rid of the main drawback of such devices — sensitivity to non-standard surfaces. At the same time, the positioning accuracy characteristic of laser sensors is further increased by V-Track. On the other hand, the price of such devices is high. Therefore, the combination of a laser sensor and V-Track is extremely rare, mainly in premium gaming mice from the same A4Tech.

— Hybrid. The combination of two sensors in the mouse at once — optical and laser. Such a combination allows you to combine the advantages of both technologies and partially compensate for the shortcomings: in terms of accuracy, hybrid mice are not inferior to laser ones, while they are not so sensitive to non-standard surfaces. At the same time, the presence of two sensors significantly affects the price of the device, while it is possible to achieve similar characteristics with one sensor — due to the BlueTrack or V-Track technologies described above. Therefore, hybrid systems have not received distribution.

Sensor

The model of the sensor installed in the mouse. This information is indicated mainly for models equipped with high-end sensors, which are significantly superior in their capabilities to simpler solutions. Such characteristics are important primarily for gaming mice, so most of the devices for which the sensor model is specified belong to this category.

Knowing the name, you can find detailed data on the sensor and evaluate its capabilities. Note that one of the most popular brands nowadays, under which advanced sensors are produced, is PixArt ; on the market are often found, in particular, sensors PixArt 3212, PixArt 3325, PixArt 3327, PixArt 3335, PixArt 3360, PixArt 3389, PixArt 3395. The second common brand is Avago (recently owned by the same PixArt); the most popular model of this brand is Avago 3050, the simplest and most affordable representative of gaming sensors.

Sensor resolution

Resolution of the sensor responsible for tracking mouse movements on the work surface. Specified in DPI — dots per inch.

The physical meaning of DPI as a whole is as follows. The sensor of a modern mouse works on the same principle as the camera matrix, and consists of pixels. And DPI is the number of pixels that fall on 1 inch of the underlying surface (length or width), "visible" by the sensor.

It is believed that more DPI means a more advanced sensor and mouse in general; nowadays, models for 3500 – 5000 DPI, 12000 DPI, 16000 DPI even more are not uncommon. In a way, it is — high resolution contributes to accuracy. However, the only thing that is directly determined by this indicator is the speed at which the cursor moves across the screen: the higher the resolution of the sensor, the greater the number of pixels that the cursor will move when the mouse itself moves a certain distance. At the same time, it is worth recalling that too high a speed is even more undesirable than too low. So the real need for high DPI ( 1000 and above) arises mainly when working on large screens (4K resolution and more); for more modest displays (HD and Full HD), smaller values are often enough.

Max. acceleration

The greatest acceleration during movement, at which the mouse maintains normal performance; if this indicator is exceeded, the cursor may “break down” (moving to an unexpected place due to incorrect processing of data from the sensor).

The faster the mouse moves, the greater the acceleration acting on it. Accordingly, this parameter determines the sensitivity to sudden movements, the extent to which this model is able to normally perceive and process such movements. High values of maximum acceleration ( 40 G, 50 G) are important first of all in dynamic games, especially for professional e-sportsmen and advanced enthusiasts. If the mouse is bought for relatively simple tasks (working with documents, surfing the web, etc.), you can ignore this indicator.

Max. speed

The ips (inches per second) parameter is the linear speed of mouse movement, expressed in inches per second, at which the manipulator's sensor is able to read the surface. In top models, the maximum mouse movement speed often reaches 400-600 ips, but devices with ips in the region of 200 are more common.

Switches

The brand of switches (switches) installed in the mouse. Also, these parts are often called "mikriki" — from the term "microswitches". Usually, the characteristics indicate the brand of switches used in the main buttons (left and right); additional buttons, usually, are equipped with other switches, often simpler and cheaper.

The mics are directly responsible for the operation of the keys when pressed. Accordingly, the quality of the mouse, as well as the feel and comfort of the user, depend on the quality of these parts: different switches can vary in stiffness, ease of operation and the sound of pressing. And the brand of switches is not specified for all mice, but only for models equipped with advanced elements. In other words, this parameter is indicated in cases where the brand of the microswitch is a sign of the high quality of the "rodent". Typical examples include mics under the brands Omron(considered premium) and Huano(Chinese counterparts of quite comparable quality). Light Strike and Razer switches are also pulled up to them.

We emphasize that in this case, not a specific model is indicated, but a general brand under which mikriks are released (sometimes also their type, opto-mechanical or mechanical). At the same time, the same brand may include different models of switche...s that differ in features: some are “quiet”, others with a normal sound, some with increased accuracy, others with an extended service life, etc. So the features of these parts should be clarified separately. However, the detailed characteristics of mikriks are important mainly for demanding users, in particular professional cybersportsmen.

Built-in memory

The presence in the mouse of its own built-in memory.

The main and, in fact, the only way to use such memory is to store various advanced settings (for example, the functions of programmable keys, or even entire user profiles for various games or other tasks). This feature is relevant mainly for gamers, so almost all models with this feature are gaming.

Lighting

The presence of illumination in the design of the mouse.

This illumination can be provided by the same LED that illuminates the surface below the sensor, or by separate light sources. It can have a different colour, and the most advanced systems — RGB backlighting — allow you to adjust the shade to your liking. Anyway, the backlight gives the mouse an unusual and stylish appearance, besides, it can also have special effects (see below). However, this function has not only an aesthetic, but also quite a practical meaning: for example, a colour change can be used as a DPI level indicator (see above) or as a low battery signal. On the other hand, the backlight affects the cost of the device, and the real need for it is not so often — moreover, in many cases (for example, in the office) an extra “illumination” is completely useless. Therefore, most modern mice still do not have a backlight.

Lighting effects

The mouse has additional lighting effects. For more information about the backlight itself, see above, and its effects can be different — ranging from a smooth change in brightness and/or colour to colour and light signals, as well as backlight synchronization(for models with synchronization, this paragraph indicates the supported synchronization technology).

The last function is worth dwelling on separately. Synchronization itself allows you to "match" the mouse backlight with the backlight of other system components — the case, graphics card, keyboard, monitor, etc. Thanks to this matching, you can create various unusual effects: synchronous colour and brightness changes, "colour waves", "running lights" etc. However, for such work, all components of the system must support the same synchronization technology — and such a technology, usually, each manufacturer has its own. So before buying it's ok to check compatibility. However, some mice are able to work with several options at once — for example, iCUE from Corsair and MLS (Mystic Light Sync) from MSI.
A4Tech Bloody P30 Pro often compared
A4Tech Bloody AL90 often compared