NGFF M2 NVME To SATA3.0 Adapter M.2 Key-M Card Adapter PCIE NVME To Dual SATA 3.0 Expansion Card JMB582 Chip Riser Card PCIE 3.0
Feature:
1. Compact Size: The NGFF M2 NVME to SATA3.0 adapter is incredibly compact, making it suitable for installation in limited spaces.
2. Controller Chip: This card adapter utilizes the JMB582 controller chip, enabling high-performance and reliable data transfer.
3. Expansion Interfaces: The riser card features two SATA 3.0 interfaces, with each interface supporting a transfer speed of 6Gbps. This allows you to connect two SATA hard drives or solid-state drives.
4. Slot Support: The M.2 A+E to 2-port SATA expansion card supports M.2 slots, including KEY-A and KEY-E types. Please note that it does not support CNV interface. The M.2 NVME to 2-port SATA expansion card also supports M.2 slots, including KEY-M and KEY-B types. However, it only supports NVME or PCI-E protocol and does not support SATA protocol interface usage.
5. Compatibility: This converter is compatible with various operating systems, including Windows XP, Windows 7/8/10/11, and Linux. It does not require any additional drivers for use.
Specification:
Origin: Mainland China
Type: Cable Adapter
Package size: 100.00x50.00x20.00mm/3.94x1.97x0.79inch
M.2 A+E to 2-port sata.
Size: 3x2.4x1cm/1.18x0.94x0.39inch
Main Control Chip:JMB582
Interface Speed: PCI-E3.0
Expansion Connection: 2 SATA3.06Gbps
Support Slot: M.2KEY-A or KEY-E
Input Interface:
M,2 NGFF KEY A or E (CNV interface not supported)
Support system: WINXP/WIN7/8/10/11/LINUX
M.2 NVME to 2-port sata:
Size: 8x2.4x1cm/3.15x0.94x0.39inch
Main control chip: JMB582
Interface Speed: PCI-E3.0
Expansion Interface: 2 SATA3.06Gbps
Support Slot: M.2KEY-M or KEY-B
Input Interface:
Support NVME or PC-E protocol only
Does not support SATA protocol interface use
Supported Systems: WINXP/WIN7/8/10/11/LINUX
Note:
Due to the different monitor and light effect, the actual color of the item might be slightly different from the color showed on the pictures. Thank you!
Please allow 1-2cm measuring deviation due to manual measurement.
