MTE662T & MTE662T-I

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SKU:
MTE662T & MTE662T-I
Brand: Transcend

M.2 PCIe SSD in std and wide temp is sizes 512GB and 1TB. 


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Transcend's MTE662T M.2 SSD features the PCI Express (PCIe) Gen 3 x4 interface and is compatible with NVM Express (NVMe) 1.3 specifications to achieve never-before-seen transfer speeds. The MTE662T features state-of-the-art 3D NAND technology, which allows 96 layers of 3D NAND flash chips to be vertically stacked. Compared to 3D NAND at 64 layers, this density breakthrough greatly improves storage efficiency. The MTE662T is built with DRAM cache for fast access, and is fully tested in-house to guarantee reliability in mission-critical applications, boasting an endurance rating of 3K Program/Erase cycles.


This product is listed in Digital Signage, Industrial Automation, Gaming, Mining, Medical, Transport
Dimensions 80 mm x 22 mm x 3.58 mm (3.15" x 0.87" x 0.14")
Weight 9 g (0.32 oz)
Form Factor
  • M.2
M.2 Type
  • 2280-D2-M

Interface

Bus Interface
  • NVMe PCIe Gen3 x4

Storage

Flash Type
  • 3D TLC NAND flash
Capacity
  • 512 GB/
  • 1 TB

Operating Environment

Operating Voltage
  • 3.3V±5%
Operating Temperature
  • Standard
    0°C (32°F) ~ 70°C (158°F)
  • Wide Temp.
    -40°C (-40°F) ~ 85°C (185°F)
Storage Temperature -40°C (-40°F) ~ 85°C (185°F)
Humidity 5% ~ 95%
Shock
  • 1500 G, 0.5 ms, 3 axis
Vibration (Operating) 2.17 G (peak-to-peak), 10 Hz ~ 700 Hz (frequency)
Vibration (Non-operating) 5 G (peak-to-peak), 10 Hz ~ 2000 Hz (frequency)

Power

Power Consumption (Operation) 3.3 watt(s)
Power Consumption (Sleep) 1.0 watt(s)

Performance

Sequential Read/Write (CrystalDiskMark, max.) Read: 3,400 MB/s
Write: 2,300 MB/s
4K Random Read/Write (IOmeter, max.) Read: 340,000 IOPS
Write: 355,000 IOPS
Mean Time Between Failures (MTBF) 3,000,000 hour(s)
Terabytes Written (Max.) 2,200 TB
Drive Writes Per Day (DWPD) 2 (3 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.