Nanophotonics focuses on the interaction of photons with nano-structures, such as carbon nano-tubes, nano metal particles, nano crystals, semiconductor nano dots, photonic crystals, tissue and DNA. It belongs to the top journals in the field. GENERAL NOTICE: Other product names used in this publication are for identification purposes only and may be trademarks of their respective holders.Nanophotonics covers recent international research results, specific developments in the field and novel applications and is published in partnership with Sciencewise. MIPI is a registered trademark owned by the MIPI Alliance. In March 2015, the Company acquired Silicon Image, which is a leader in setting industry standards including the highly successful HDMI®, DVI™, MHL® and WirelessHD® standards.įor more information, visit Lattice Semiconductor Corporation, Lattice Semiconductor (& design), L (& design), DVI, HDMI, MHL, WirelessHD, MachXO3, and specific product designations are either registered trademarks or trademarks of Lattice Semiconductor Corporation or its subsidiaries in the United States and/or other countries. Lattice was founded in 1983 and is headquartered in Portland, Oregon. The Company’s broad end-market exposure extends from consumer electronics to industrial equipment, communications infrastructure and licensing. Lattice Semiconductor (NASDAQ:LSCC) is the global leader in smart connectivity solutions, providing market leading intellectual property and low-power, small form-factor devices that enable more than 8,000 global customers to quickly deliver innovative and differentiated cost and power efficient products. More information about the MachXO3 family of FPGAs and the USB 3.0 sensor bridge reference design are available at The USB 3.0 camera modules can be purchased directly from Leopard Imaging. Reference designs are available for subLVDS, MIPI® CSI-2, HiSPi and USB3 FX3 controller interfacing and bridging and can be customized to match the applications. “Our MachXO3 FPGAs can deliver I/O speeds of up to 900 Mbps, so our customers can convert even high-quality video images into any desired format, without compromising overall video system performance.” “Camera image sensor interfacing is an increasingly popular feature in embedded applications,” said Deepak Boppana, director of product marketing at Lattice Semiconductor. “Lattice Semiconductor’s MachXO3 FPGA provided the programmability and bridging functionality in the small form factor our USB 3.0 camera module requires, and their sensor bridge reference design accelerated our ability to incorporate the Lattice technology into our final product.” “With the multitude of video standards being used in embedded applications, it’s vital that we are able to convert those signals into whatever formats a particular industrial system requires,” said Bill Pu, President, Leopard Imaging. The ability to convert the video signal to a format compatible with the USB controller allows the embedded camera module to be used in a wide variety of industrial systems. The MachXO3 FPGA and the USB 3.0 sensor bridge reference design work together to convert the subLVDS video signal from the image sensor used in the module to a parallel format that can interface with the camera’s USB 3.0 controller.
Lattice Semiconductor Corporation, the leading provider of customizable smart connectivity solutions, announced that its MachXO3 FPGA and USB 3.0 sensor bridge reference design are integrated in a new USB 3.0 camera module from Leopard Imaging, a leader in high-definition embedded cameras. #Industry News MachXO3 FPGA and the USB 3.0 sensor bridge reference design for Industrial Applications by Lattice Semiconductor Corporation
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