IRDM UHS-I U3 A2 microCARD provides high performance and reliability for those who want to record 4K and slow motion videos or save high quality photos in JPEG and RAW format in quick response modes. The card is compatible with the Android* system, so it can be used as an internal memory of mobile devices, enabling smooth recording of multimedia and applications. Fast and reliable Modern media recording devices, such as drones, sports cameras, video recorders and monitoring cameras have become a common solution in business and everyday life. Their parameters allow you to save more and more high-quality data. The IRDM M2AA card will allow to take full advantage of the capabilities of your mobile device, video recorder or sports camera. Thanks to the A2 application performance class, the card may store multimedia and applications used in smartphone. Even more mobile The IRDM M2AA card can be successfully used as an extension of the internal memory of Android devices. Use the card freely not only for storing your data, such as photos or music, but also for smooth recording and using mobile applications. These, despite their low weight, often consist of hundreds of photos, sounds and animations. Therefore, for their proper recording and activation, a dedicated Flash memory card is required, which, thanks to its computing power, will be able to “support” the reading of many processes at the same time. The memory card performance class is defined by the IOPS value and in case of the A2 parameter it is respectively 4000 IOPS (read) and 2000 IOPS (write). Your data without limits Don’t limit your passions! The IRDM M2AA MICROcard guarantees above-average operating parameters up to 170 MB/s (read) and 120 MB/s (write) and a capacity up to 512GB, thanks to which it will save thousands of images and multimedia captured by you. The card meets the requirements of video class V30. Thanks to this, it ensures the highest efficiency and reliability of work, including movies recorded in slow motion modes and 4K resolution, as well as work in high response modes.