SATA/SAS Multi-Lane Cables
High Performance SATA / SAS MultiLane Cable Assemblies
Our company offers SATA/SAS Multilane cables, in both standard and custom configurations. Request a Quote, or call us for latest deals.
Same Day Delivery for Stock Cables, Custom Length Cables, Cable Design & Engineering, and more... Please see below some of our SATA/SAS products:
Quality Cables for Less |
SFF 8470 to 4 SATA Cable
(4X Squeeze to 4 SATA Latch Type) 
SFF 8470 to 4 SATA Cable
(4X Latch to 4 SATA Latch Type) 
SFF 8470 to SFF 8482 Cable
(4X Screw to 2 SAS 29 Pin w/Power) 
SFF 8484 to SFF 8484 Cable 
SFF 8484 to SFF 8484 Cable 
SFF 8484 to SFF 8470 Cable 
SFF 8484 to SFF 8484 Cable
(Use SATA Cable w/o Sideboard) 
SFF 8484 to 4 SATA Cable
(32 Pin 180° to 4 SATA w/Latch) 
SFF 8484 to 4 SATA Cable
(32 Pin R/A to 4 SATA)
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SFF 8470 to SFF 8482 Cable
(4X Squeeze to 4 SAS 29 Pin w/Power) 
SFF 8470 to 4 SATA Cable
(4X Screw to 4 SATA Latch Type) 
SFF 8470 to SFF 8482 Cable
(4X Screw to 4 SAS 29 Pin w/Power) 
SFF 8484 to SFF 8484 Cable 
SFF 8484 to SFF 8484 Cable 
SAS Expander Cable 
SFF 8484 to SFF 8484 Cable
(w/Sideboard) 
SFF 8484 to 4 SATA Cable
(32 Pin 180° to 4 SATA w/ Sideboard)
SFF 8484 to SFF 8482 Cable
(32 Pin 180° to 4 SAS 29 Pin w/Power)
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Related: SFF-8088 to eSATA Cables, SFF-8088 to SATA Cable, SATA to eSATA Cable, eSATA to eSATA Cable, SFF-8482 to SATA Cable, SATA Latch
Type Cable, External SATA to eSATA Cable, External SATA to External SATA Cable, Internal 32 Pin Multilane to Right Angle, Internal 32 Pin Multilane
with Round Cable, SFF-8484 to SFF-8484 Internal 32 Pin Multilane to Right Angle, Internal 32 Pin Multilane with Round Cable, Internal 32 Pin Multilane to
4 X SATA w/Latch cable, (Internal 32 Pin Multilane Right Angle to 4 X SATA cable, SFF-8484 to SFF-8482 cable, Internal 32 Pin Multilane to 4 X SAS 29 Pin Cable w/Power connections, SAS to SATA Cable
What is SATA
SATA is a technology used to transfer data to and from I/O devices such as hard drives and CD/ DVD drives. It evolved from
PATA or Parallel Advance Technology Attachment Standard. Both technologies incorporate low level controls integrated into
the devices. IDE is usually a term that refers only to Parallel ATA devices. The SATA bus was released in 2003 and typically
has a transfer rate of 1.5 Gbps. This first generation is also know as SATA/150 or SATA 1. This technology uses 8B/10B
encoding at the physical layer which results in an actual data transfer rate of 1.2 Gbps. Because of the simplicity of this serial
link and the use of LVDS (Low voltage differential signaling), this allows for longer drive cables and provides for an easier
transition path to higher speeds. Following shortly after the introduction of SATA, an enhancement to the standard, increased
the signaling rate to 3 Gbps. This enhancement is called SATA/300, SATA 3.0 or SATA II. Future plans include the introduction of SATA 6.0 Gbps.
Even though this will essentially double the data throughput, conventional drives will be unable to deliver on this increase in data
transfer. The true benefit to this new standard lies in the technologies use of port multipliers which will allow a single port to
connect multiple drives as well as the future introduction of solid state drives such as RAM disks. One of the big differences
between SATA and the older PATA is in the cable specifications. Being an 40 or 80 conductor wire the older PATA cables were
limited to a maximum length of 18" (46 cm). SATA cables because the are only 7 conductors allow for a maximum length of 39"
(1 meter). The SATA standard also replaces the old Molex style power 4 pin connector and replaces it with a wafer based
connector. This relatively large power connector is necessary because three different voltages: 3.3 V, 5 V, and 12 V are required. |
