Year: 2011

Opal Kelly Shuttle LX1 – FMC Carrier for Semiconductor Evaluation

Small, Low-Cost FMC Carrier Includes Rich Development Environment Portland, Oregon – October 4, 2011 – Opal Kelly, a leading producer of powerful FPGA modules that provide essential device-to-computer interconnect using PCI Express or USB 2.0, today announced the Shuttle LX1 (XEM6006), the industry’s first low-cost, standards-based evaluation board platform with a rich evaluation environment. Based […]

Opal Kelly Releases Industrial Versions of XEM6010-Xilinx Spartan-6 FPGA USB Modules

Portland, Oregon – September 27, 2011 – Opal Kelly, a leading producer of powerful FPGA modules that provide essential device-to-computer interconnect using PCI Express or USB 2.0, today announced two industrial-temperature versions of its recently-released XEM6010 module. Based on the powerful Xilinx Spartan-6 FPGA, with high-speed USB 2.0 interface for downloading and communication, the new […]

Announcing the XEM6010 Xilinx Spartan-6 USB 2.0 FPGA Module

Portland, Oregon – April 7, 2011 – Opal Kelly, a leading producer of powerful FPGA modules that provide essential device-to-computer interconnect using PCI Express or USB 2.0, today announced the XEM6010, a refresh of its flagship products XEM3010 and XEM3050. Based on the powerful new Xilinx Spartan-6 FPGA, with high-speed USB 2.0 interface for downloading […]

Introducing the XEM6001 Entry-Level Xilinx Spartan-6 USB FPGA Module

Opal Kelly, a leading producer of powerful FPGA modules that provide essential device-to-computer interconnect using PCI Express or USB 2.0, today announced the XEM6001, an FPGA integration module based on the powerful Xilinx Spartan-6 FPGA with high-speed USB 2.0 interface for downloading and control.

EETimes Design Article – Optiphase Waveform and Timing Generator

This article describes how a PC-controlled Waveform and Timing Generator (WTG) Instrument was developed using the Opal Kelly XEM3001 FPGA-USB module mated with an Optiphase custom adapter PCB. The WTG Instrument was developed to support R&D instrument development where fully custom and fully embedded solutions are not practical.