Lenovo
LENOVO SR650 V3 2ND CPU GEN5 RISER3 CBL
Out of Stock
Lenovo SR650 V3 2nd CPU Gen5 Riser3 Cable | Server Interconnect
Lenovo
MPN: 4X97A82946
$349.00
Free shipping on orders over $500
Authorized Dealer — Full manufacturer warranty
Key Features
- Lenovo OEM internal cable assembly
- Designed for SR650 V3 server platforms
- Supports second CPU to Gen5 Riser3 connectivity
- Intended for PCIe riser interconnect use
- Built for internal server service replacement
- Matches platform-specific routing requirements
- Supports validated expansion configurations
- Restore internal riser connectivity with a Lenovo SR650 V3 2nd CPU Gen5 Riser3 cable
Keep the SR650 V3 expansion architecture intact with this Lenovo 2nd CPU Gen5 Riser3 cable. It is designed for the internal connection path between the second processor area and the Gen5 Riser3 assembly, supporting the server’s intended PCIe expansion layout.
In enterprise systems, internal cabling is not a commodity detail. The right cable preserves signal path consistency, mechanical fit, and serviceability across the chassis. That matters when the server is carrying storage, networking, or accelerator cards that depend on stable riser connectivity.
This Lenovo OEM part is appropriate for replacement during repair, refurbishment, or platform maintenance where the original cable must be restored. For teams managing uptime and configuration control, using the correct server-specific interconnect helps avoid compatibility issues and keeps the system aligned with its validated hardware design.
Ideal For
- Replacing a damaged internal riser cable in an SR650 V3 server
- Restoring second CPU expansion connectivity after chassis service
- Maintaining PCIe riser alignment in a configured enterprise server
- Supporting refurbishment of SR650 V3 systems before redeployment
Why This Product
- 1OEM cable for SR650 V3 internal connectivity
- 2Supports second CPU to riser path specifically
- 3Better fit for validated server builds than generic cabling
- 4Helps preserve PCIe expansion reliability
