TeamGroup VULCAN Z QLC, 2TB, SATA III, 2.5"
- Delivery to Smartpost parcel locker 1.99 €: {delivery_2_txt_full}
- Delivery to Omniva parcel locker 1.99 €: 10.12.2024
- Courier delivery 3.99 €: 10.12.2024
- Capacity: 2 TB
- Type: SATA
- Read speed (sequential): 550 MB/s
- Write speed (sequential): 500 MB/s
- Form factor: 2.5"
- Interface: SATA III (6Gb/s)
We offer to purchase a TeamGroup 2.5" format SSD drive with a 2 TB capacity.
The disk is equipped with the traditional SATA port. It uses SATA data and power cables.
This is a SATA type SSD disk. It uses the SATA III protocol, which is older technology, however SATA is still a good option for everyday use and budget solutions.
550 MB/s – this is the data reading speed that this SSD disk is capable of reaching. However, we must remember one crucial nuance - "fast" disks may not show the performance promised by the manufacturer if adequate cooling is not provided.
500 MB/s - this SSD drive is capable of achieving such data writing speed. The speed parameters promised by the manufacturer may not be reached if the "fast" disk is not provided with an appropriate cooling system.
This is an SSD disk in the 2.5" format.
The SSD drive has a SATA III (6Gb/s) interface. If it is inserted into an older interface slot, the potential speed of the drive will not be fully utilized, as the older interface will not provide sufficient data transfer bandwidth.
Sequential read speed or the mean data reading speed is the most important criterion of the high-speed operation of the SSD. The data from the SSD will be read much more often than written to it because the operating system stores the processed data in the RAM in most cases.
If you want the reading speed of the purchased SSD to exceed the speed of the classic HDD considerably you should choose the SSD with the reading speed of 200 MB/s or above. The additional increase in the performance will be achieved on the account of the data search (SeekTime) which is of much higher level with SSDs than any HDD.
The writing speed is almost as important as the reading speed. Also this parameter determines the performance of the SSD, however, as the writing to the disc happens not as often as the data reading and average user will find it subjectively difficult to distinguish between any speed above 100 MB/s and higher indices, except the cases when the SSD is used in a server, for audio/video recording, etc.
Thanks to the small size provided by the SSD technology the standard size of the discs is 2.5", and it is suitable for an average portable computer. It is possible to install the 2.5" disc in the desktop computer if the transition 2.5" -> 3.5" is used, and this transition can be bought at a low cost at TopPC.ee section"Adapteri". The discs with the format 2.5" + 3.5" have this transition included.
1.8" discs are intended for the ultra-compact class portable computers.
PCI-Express SSDs are intended for desktop computers with a free PCI-Express plug available. This technology in most cases is used for ensuring the performance that exceeds the possibilities of other types of connections.
SSDs with SATAII and SATAIII connection are compatible with the connections of both types in the motherboard. Still, it has to be taken into account that the motherboard SATAII connection can provide maximum about 300 MB/s transmission capacity which can reduce the actual transmission capacity of the SSDs whose reading and/or writing speed exceeds this level to the capacity limits of the SATAII.
The situation is similar with the PCI-Express and SATAIII connection slots. Although the SATAIII standard can provide up to 600 MB/s data transmission capacity there are SSDs with the speed exceeding this limit, in this case the manufacturer chooses the PCI-Express connection slot with a higher transmission capacity. The PCI-Express discs cannot be connected to the portable computer.
Category_2 - Internal SSD
EAN_code - 0765441366039
Manufacturer - Team Group
Manufacturer_code - T253TY002T0C101
Name - Team Group VULCAN Z QLC 2 TB, SSD (black/grey, SATA 6 Gb/s, 2.5)
Weight - 0,05