The device automatically changes to data-over-cable mode

Logitech G700 vs G602 A 2.4GHz wireless gaming mouse with a lot of practical features to enhance your gaming experience is the Logitech G602 Wireless Gaming Mouse. The mouse has 11 customizable options that let you adjust the sensitivity for gaming. There are also two functioning modes. The G602's design prioritizes comfort and includes six uniquely carved side buttons as well as slip-resistant grips on the sides. The low-friction feet also offer long-lasting durability. The mouse is compatible with additional Logitech software, enabling greater customizability.

USB charging/data cable with quick connector:

The device automatically changes to data-over-cable mode while charging for continuous gaming. Onboard memory: It is possible to save up to five ready-to-play profiles. For Windows 10, Windows 8, Windows 7, Windows Vista, and Windows XP, laser accuracy offers gaming-grade precision. The proper operation of several profile features necessitates the optional software download. Whether wifi or cable, USB performance at maximum speed: It can execute commands up to eight times faster than a typical USB mouse.

I've been using the Logitech G700 on glass for seven years, and it's great. It's an earlier, virtually identical version of the G700S. On the other hand, the glass functions as a mouse pad and seems to be intended for use with a laser mouse. The pad is called "Corepad," and it is produced in Europe. It differs from a smooth sheet of glass in that it has a matrix of tiny, rather rough dots on the working surface in contrast to a smooth bottom. It is completely impossible to operate the mouse on the "Corepad" while the smooth side is up. It's the best pad I've ever used; it works well and offers good tracking response. The pad also includes a little rubber sheet underneath it. This mouse functions properly on OSX without the need for additional software. As simple as plugging on a light bulb, it is. I use it every day between my Macbook Pro at home and the PCs at work. Connect the receiver, and I can adjust the button configurations for each OS with a single button press.

Some people get it backwards when it comes to what higher DPI accomplishes. The accuracy decreases with increasing DPI. The ability to exert greater control over detail is referred to as precision. A LOWER DPI will offer greater precision in this situation. For example, if you enter "sniping" mode when gaming, you want your mouse to be more precise so that even if you move it a little bit farther, the "cursor" won't move as far. For the same reason, a lower DPI will offer greater precision when working with graphics or photographs when greater accuracy is needed to handle pixels. High DPI enables you to utilize a smaller amount of mouse movement to move the pointer farther. On televisions with incredibly high resolutions, like 1920 x 1080, this is especially helpful. If your mouse has a DPI of 2000 dots per inch, it will complete the task in about a second "Move the mouse to move the cursor from the far left to the far right. If you have a mouse with a DPI of 1000 pixels per inch, it will take around 2 minutes." Move the mouse left to right to move from left to right. As one might anticipate, greater precision is possible with a lower DPI since it permits less cursor movement, even while your hand moves more. On higher-resolution screens, a higher DPI results in faster pointer movement for every inch the mouse is moved. A lower DPI indicates that for every inch the mouse moves, the pointer moves more slowly. Precision is measured in DPI (dots per inch). the DPI, the lower