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Datasheet

  • PowerPC 750GX processor running at up to 1GHz
  • cPSB Node (PICMG 2.16, Dual 1000 BaseT)
  • cPCI peripheral functionality
  • Dual PMC / PTMC expansion sites
  • System Management Bus (PICMG 2.9) with IPMI peripheral controller
  • Up to 2 GByte DDR ECC SDRAM in SODIMM package
  • Up to 128MB Linear Flash
  • Real-Time Clock with supercap backup
  • Dual 10/100/1000 BaseT Ethernet with front bezel access
  • VxWorks and CG Linux support
  • RoHS/WEEE compliant configuration available
  • Quality assured by over 30 years of design experience and a TL-9000 and ISO 9001:2000 certified quality management system. (FM 26789)

Katana752i_med

Emerson’s Katana752i is a real-time processing blade in a standard sing-slot CompactPCI Packet Switching Backplane (cPSB) formfactor. It’s powered by a PowerPC 750GX processor and a full complement of I/O for communications applications. The combination of this powerful on-card functionality with the flexibility of dual PMC/PTMC sites makes the board ideal for a variety of functions including signaling blade, media gateway blade, real-time control blade, traffic processor, or line-card.

Communications applications are rapidly converging on packet-based switch fabric system architectures. Katana752i’s design is ideally suited to the packet paradigm. To support this paradigm, the blade is fully compliant with the PICMG 2.16 cPSB specification. While technology is rapidly converging on packet networks for the majority of data transport, many applications require systems to link more traditional TDM-based networks to the packet networks. To help facilitate this, the Katana752i supports an optional timeslot interchanger to interconnect the PTMC expansion sites with a local CTbus as well as provide an interface to the H.110 system backplane CTbus.

As systems designs become more complex, system management becomes more important. Katana752i implements a System Management Bus (SMB). It also fully supports the Intelligent Platform Management Interface (IPMI or PICMG 2.9) for standards-based system management.

Using an off-the-shelf processor blade saves you time-to-market by allowing you to focus your engineering efforts on the key value-add portions of the system without spending time and effort on the processor design and testing. A processor subsystem blade also lowers you lifetime cost of ownership by providing an easy upgrade path, and protecting you from obsolescence issues.