Comparison Razer DeathAdder V4 Pro vs Razer DeathAdder V3 Pro
Add to comparison | ![]() | ![]() |
|---|---|---|
| Razer DeathAdder V4 Pro | Razer DeathAdder V3 Pro | |
| Compare prices 16 | Compare prices 27 | |
| TOP sellers | ||
| Product type | mouse | mouse |
| Connection | radio / wired | radio / wired |
| Sensor | optical | optical |
| Type | for game | for game |
Sensor and control | ||
| Sensor | Razer Focus Pro | Razer Focus Pro |
| Sensor resolution | 400 – 45000 DPI | 400 – 30000 DPI |
| Max. acceleration | 85 G | 70 G |
| Max. speed | 900 ips | 750 ips |
| Max. polling rate | 8000 Hz (0.125 ms) | 1000 Hz (1 ms) |
| Number of buttons | 4 | 4 |
| Side buttons | ||
| DPI-button | ||
| Switch type | optical | optical |
| Switches | Razer Gen-4 | Razer Gen-3 |
| Switch resource | 100 mln | 90 mln |
| Scroll wheels | 1 | 1 |
Additional features | ||
| Optimal grip | finger, claw | finger, claw |
| Programmable buttons | ||
| Built-in memory | ||
| Feet material | teflon (PTFE) | teflon (PTFE) |
Connection and power supply | ||
| Cable | USB-A removable braided | USB-A removable braided |
| Cable length | 2.1 m | 2.1 m |
| Power source | battery | battery |
| Battery life | 150 h | 90 h |
| Port on the device | USB-C | USB-C |
General | ||
| In box | USB-A dongle | USB-A dongle |
| Size (LxWxH) | 128x68x44 mm | 128x68x44 mm |
| Weight | 57 g | 63 g |
| Color | ||
| Added to E-Catalog | august 2025 | october 2022 |
Compare Razer DeathAdder V4 Pro and DeathAdder V3 Pro
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Glossary
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.
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.
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.
Max. polling rate
The polling rate shows how often the mouse sensor exchanges data with the computer about cursor movement. This parameter is measured in hertz (Hz), with one second being taken as the unit of time for its assessment. The smoothness and speed of cursor movement directly depend on the polling rate of the sensor. Directly connected to it is the mouse response time — this is the time interval required for the signal about the manipulator's movement to reach the display of the cursor position change on the screen. Response time is measured in milliseconds (ms). The higher the mouse's "hertz rate," the lesser the response time it demonstrates. The most common value can be considered 1000 Hz with a response time of 1 millisecond. For competitive games, attention should be paid to faster mice, including 2000 Hz, 4000 Hz, and 8000 Hz. Values below might negatively manifest just in gaming scenarios.
Switches
The switches in a mouse indicate which specific switches are installed under the main buttons, such as Omron, Huano, Kailh, TTC, or proprietary solutions from the manufacturer. These determine the click characteristics, actuation force, click volume, lifespan, and the likelihood of double-clicking over time.
Unlike the general switch type, which refers to the working principle—mechanical or optical—the brand and model provide a more precise understanding of the performance level. For example, two mice with mechanical switches might feel different when clicked: some may be softer and quieter, while others could be stiffer, louder, and feel more "gaming-like."
Unlike the general switch type, which refers to the working principle—mechanical or optical—the brand and model provide a more precise understanding of the performance level. For example, two mice with mechanical switches might feel different when clicked: some may be softer and quieter, while others could be stiffer, louder, and feel more "gaming-like."
Switch resource
The durability of mouse switches is measured by the number of clicks the keys can withstand before they begin to show signs of wear or malfunction. Switches can have a lifespan of several million to tens of millions of clicks. In laboratory conditions, this parameter is checked using special testing machines, which diligently press the keys the required number of times, on the basis of which a verdict is made regarding the approximate service life of the switches.
Battery life
Battery life of the mouse (see “Power”) on a single charge.
The battery life in this case is rather approximate: it is given for an average usage scenario, and the actual autonomy may turn out to be less or more than stated, depending on the usage patterns. Nevertheless, it is a fairly reliable indicator, allowing different battery models to be evaluated and compared with each other: the difference in the stated battery life usually correlates well with the actual autonomy difference.
The battery life in this case is rather approximate: it is given for an average usage scenario, and the actual autonomy may turn out to be less or more than stated, depending on the usage patterns. Nevertheless, it is a fairly reliable indicator, allowing different battery models to be evaluated and compared with each other: the difference in the stated battery life usually correlates well with the actual autonomy difference.
Weight
The total weight of the mouse. For models with a wired connection, usually, it is indicated without cable, and for devices with weight adjustment (see above) — without weights.
This parameter is important primarily for professional gaming applications, although it is often relevant for ordinary users. Theoretically, less weight promotes speed and reduces fatigue. At the same time, in fact, much depends on the personal habits and preferences of the user: a mouse that is too light may “not be felt in the hands” and not give familiar feedback. Therefore, although most mice have a lower weight limit of 60 – 80 g, however, even among professional gaming models there are much more massive devices — 120 – 140 g or more. The lightest variety of "rodents" is laptop (see "In the direction"), among them devices come across and less than 60 g.
Also note that the weight to some extent depends on the size and “tricked out” of the device, but there is no unambiguous dependence here: models similar in size and functionality can differ markedly in weight.
This parameter is important primarily for professional gaming applications, although it is often relevant for ordinary users. Theoretically, less weight promotes speed and reduces fatigue. At the same time, in fact, much depends on the personal habits and preferences of the user: a mouse that is too light may “not be felt in the hands” and not give familiar feedback. Therefore, although most mice have a lower weight limit of 60 – 80 g, however, even among professional gaming models there are much more massive devices — 120 – 140 g or more. The lightest variety of "rodents" is laptop (see "In the direction"), among them devices come across and less than 60 g.
Also note that the weight to some extent depends on the size and “tricked out” of the device, but there is no unambiguous dependence here: models similar in size and functionality can differ markedly in weight.















