Transcend 2TB MTE220S PCIe M.2 SSD
R4,963 Incl. Vat
Product code: TS2TMTE220S
Transcend’s PCIe SSD 220S aims at high-end applications, such as digital audio/video production, gaming, and enterprise use, which require constant processing heavy workloads with no system lags or slowdowns of any kind. Utilizing the PCI Express® Gen3 x4 interface supported by the latest NVMe™ standard, 3D NAND flash memory, an 8-channel controller, and a DRAM cache, the PCIe SSD 220S offers supreme transfer speeds that override others.
Dimensions: Double-sided 80 mm x 22 mm x 3.58 mm (3.15″ x 0.87″ x 0.14″)
Weight: 10 g (0.35 oz)
Type: M.2 2280
Bus Interface: NVMe PCIe Gen3 x4
Flash Type: 3D NAND flash
Capacity: 256 GB/512 GB/1 TB/2 TB
Operating Temperature: 0°C (32°F) ~ 70°C (158°F)
Operating Voltage: 3.3V±5%
Sequential Read/Write (CrystalDiskMark):
2 TB: up to 3,500/2,900 MB/s
1 TB: up to 3,500/3,200 MB/s
512 GB: up to 3,500/2,500 MB/s
256 GB: up to 3,300/1,250 MB/s
4K Random Read/Write (IOmeter):
2 TB: up to 340,000/360,000 IOPS
1 TB: up to 330,000/370,000 IOPS
512 GB: up to 190,000/360,000 IOPS
256 GB: up to 190,000/300,000 IOPS
Terabytes Written (TBW):
2 TB: 4,400 TBW
1 TB: 2,200 TBW
512 GB: 1,100 TBW
256 GB: 550 TBW
Mean Time Between Failures (MTBF): 2,000,000 hour(s)
Drive Writes Per Day (DWPD): 1.2 (5 yrs)
Note: Speed may vary due to host hardware, software, usage, and storage capacity.
The workload used to rate DWPD may be different from your actual workload, which may vary due to host hardware, software, usage, and storage capacity.
Terabytes Written (TBW) expresses the endurance under the highest capacity.
Some motherboards only provide PCIe x2 connections for the M.2 slot, creating a bottleneck on even the fastest drives.
Operating System: Microsoft Windows 7 (additional driver required), Microsoft Windows 8 (additional driver required), Microsoft Windows 10, Linux Kernel 2.6.31 or later
Note: Systems for use with the PCIe M.2 SSD must have an M.2 connector with only an M key. B-key connectors are not compatible. Improper insertion may lead to damage. Please click here for more information.