May 15, 2015 – Rigel Engineering Announces Dual 10GbE port PCIe/104

Feature rich state of the art high-speed Dual 10GbE PCI/104-Express card.

Merritt Island, FL. – May 15, 2015 – Rigel Engineering introduces the PC5002 Dual 10GbE card.  A powerful, high-speed, dual-port, 10 Gigabit Ethernet interconnect solution for any PCIe/104 and PCI/104-Express platform. The model PC5002 provides two full-speed and fully independent 10GbE ports. Each port supports 10GBASE-LR, 10GBASE-SR or 10GSFP+Cu connectivity using universal SFP+ cages on the front panel or optional XAUI, CX4 or KX4 to the backplane.

pc5002 Dual 10GbE PCIe/104

“The PC5002s flexibility and state of the art design make it ideal for PCIe/104 systems that require high-speed peer-to-peer communication”, says Craig DeHaan, CTO of Rigel Engineering.  “It is an enabling product for the PCIe/104 form factor community that is continually striving to reduce size, weight and power, yet increase capability.”

The PC5002 features Intel’s 3rd generation Dual-port 10GbE controller, the 82599ES.  The PC5002 utilizes the 82599ES controller interfaced to the processor through a single x8 lane PCI Express port.  It will auto-negotiate to a reduced number of PCIe lanes if necessary.  The 82599ES controller is capable of negotiating the PCIe lanes down to x4, x2 or x1.  The 82599ES employs the latest in Intel’s Virtualization Technology for Connectivity (VT-c) to streamline intelligent offloads and storage over Ethernet applications.

For more information, please download the PC5002 Datasheet or contact

About Rigel Engineering, LLC
Rigel Engineering is an embedded computing company that provides custom electronics, small form factor systems and carrier cards for military and commercial applications. We have a proven track record of designing and manufacturing custom cards quickly and reliably with little to no NRE. We are your Commercial Off The Shelf (COTS) development house. Building cards to your specification all the while leveraging the benefits of the COTS life cycle model.

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