USD

U10 Series SlimSAS™ Connectors

Amphenol ICC’s proven, high-speed, next-generation SAS-4 interface

Image of Amphenol ICC's U10 Series SlimSAS™ ConnectorsAmphenol ICC's SlimSAS connectors address issues in next-generation storage devices, such as bulk cable form factor restrictions and the introduction of multi-lane storage devices. The SlimSAS connector is a 0.60 mm pitch interconnect system which offers superior signal integrity performance over standard Mini-SAS solutions.

  • Designed for unshielded, internal, or external I/O connectors
  • Compliant with T10/serial attached SCSI (SAS-4) standard
  • Supports many assembly options

SlimSAS™ Connectors - U10 Series Brochure

Features Benefits
  • High density connector
  • 0.60 mm pitch, 4x, 6x, 8x, 12x configurations
  • 8x SlimSAS solution consumes the same area as 4x Mini-SAS HD
  • Supports internal and external I/O applications
  • Small form factor
  • High data rate
  • Low profile packaging
  • Meets SAS 4.0, 24 Gb/s specification
  • Resonance dampening feature
  • Supports many assembly options
  • Low profile connector saves space
  • Complete interconnect solution for different applications
  • Performance targeted for next-gen SAS 4.0 and PCIe Gen 4
  • Receptacle mates pluggable modules
  • Supports desired high speed design
  • Meets next-generation industry standards
  • Customized signal integrity specification and support NVLink 25G
  • Supports blade and mainstream server designs

U10 Series SlimSAS™ Connectors

ImageManufacturer Part NumberDescriptionAvailable QuantityView Details
CONN MIN HD SAS RCPT 38P SLD SMDU10-D038-300TCONN MIN HD SAS RCPT 38P SLD SMD0View Details
CONN MIN HD SAS RCPT 74P SLD SMDU10-B074-301TCONN MIN HD SAS RCPT 74P SLD SMD0View Details
CONN MIN HD SAS RCPT 74P SLD SMDU10-B074-300TCONN MIN HD SAS RCPT 74P SLD SMD0View Details
CONN MINI HD SAS RCPT 74P RA SMDU10-A074-300TCONN MINI HD SAS RCPT 74P RA SMD0View Details
CONN MINI HD SAS RCPT 74P RA SMDU10-A074-301TCONN MINI HD SAS RCPT 74P RA SMD0View Details
Published: 2016-05-25