The Mini SAS SFF-8643 to SFF-8611 Oculink Cable is a high-performance cable that is designed to connect your Mini SAS devices to your Oculink devices. With a length of 20 inches, this cable is perfect for use in a wide range of applications, including data centres, storage systems, and other high-performance computing environments.
● Product origin: China
● Delivery time: 7 -10 working days
We are a manufacturer that could support you with good quality at an aggressive price. Believe that we are the best choice for you among many traders and resellers.
Accepted OEM/ ODM
Feel free to send us any of your questions and inquiries, we would be more than pleased to send you more information
This cable features a Mini SAS SFF-8643 connector on one end and an SFF-8611 Oculink connector on the other end, allowing you to connect your Mini SAS devices to your Oculink devices easily. The cable is designed to provide fast and reliable data transfer, ensuring your devices always work at their best. The cable is constructed with high-quality materials, ensuring that it is durable and long-lasting. It also complies with the latest industry standards, ensuring it is compatible with a wide range of devices. If you’re looking for a high-performance cable that will help you connect your Mini SAS devices to your Oculink devices, then the Mini SAS SFF-8643 to SFF-8611 Oculink Cable is a perfect choice.
1. Servers
2. Data Storage
3. Desktops
4. Workstation
1. Dell:0YCYN2
2. Lenovo/IBM: CBL-0165L
3. Supermicro:CBL-0164L (0.5m), CBL-0165L (1m)
1. Data speed: 8GT/s
2. Meet the OcuLink specification
1. Mating Force (w/out latch): 2~20N.
Connector W/Passive latch: 10~40N
2. Un-mating Force (w/out latch): 1~16N.
Connector W/Passive latch: 8~25N
3. Rated durability cycles: 50 cycles MIN.
1. Voltage: 30VDC per contact
30mohm max. initial, 15mohm maximum after stress test.
2. Dielectric Withstanding Voltage: 250 VDC minimum for 100 ms
3. Insulation Resistance: 100 MΩ minimum between adjacent terminals
1. Mated Connector Impedance: 85 ohm±15%
2. Common Mode Impedance: meet PCIe Gen3 specification
3. Insertion loss: meet PCIe Gen3 specification
4. Maximum Crosstalk: meet PCIe Gen3 specification
RoHS2.0: Compliant
