Double-Convex Lens, also named Bi-Convex Lens,composing of two convex surfaces, has a positive focal length. DCX Lens is most suitable where the object and image are on opposite sides of the lens and the ratio of the image and object (conjugate ratio) distances is between 0.2 to 5. It is used in beam expanders,projection optics systems, optical viewers applications etc. We also supply kinds of plano-convex spherical lenses,plano-concave spherical lenses,bi-convex spherical lenses,bi-concave spherical lenses,meniscus spherical lenses,special spherical lenses,achromatic spherical lenses,ball lenses,sphere lenses etc.. Specification of our Spherical Lens as follow: Custom Wide Variety of Diameters and Focal Lengths. Double-Convex Spherical Lens,Double-Convex Lenses,Double-Convex Ar Coated Spheric Lenses,Double-Convex Spheric Lens China Star Optics Technology Co.,Ltd. , https://www.csoptlens.com
*Material: BK7,fused silica,MgF2,BaF2,CaF2,ZnSe,ZnS,Ge or other optical crystals
*Dimension Tolerance +0.0 -- -0.1mmÂ
*Center Thickness +/-0.1mmÂ
*Focal Length Tolerance+/-1%
*Surface Quality:60/40Â
*Surface Figure: lambda/2 at 633nm on plano sideÂ
*Clear Aperture >90%
*Chamfer 0.25mm at 45 degree typicalÂ
*Coating : AR coating options available :MgF2, VIS 0°, VIS-NIR, NIR I, and NIR II
On the eve of the Gartner Data Center Conference in Las Vegas, scheduled from December 9th to 12th, the Fibre Channel Industry Association (FCIA) announced that its INCITS T11 Standards Committee has finalized the sixth generation of the 32Gbps Fibre Channel physical interface standard, known as FC-PI-6. This milestone will be submitted to the American National Standards Institute (ANSI) in the first quarter of next year. The release of this standard marks a significant advancement in storage connectivity, pushing the boundaries of speed and performance.
Skip Jones, chairman of the FCIA, emphasized that the organization is driving the adoption of the Fibre Channel protocol across various industries. He noted that many new applications are emerging based on end-user requirements for faster and more reliable data transfer. The 32Gbps Fibre Channel standard represents the fastest single-channel serial transmission rate ever achieved in the history of storage connectivity, setting a new benchmark for high-performance computing environments.
Currently, the maximum speed available in Fibre Channel is 16Gbps. With the introduction of the 32Gbps standard, the bandwidth is effectively doubled, offering a substantial improvement in data throughput. Equipment supporting this new standard is expected to hit the market in 2015 and 2016, enabling data centers and enterprises to handle larger workloads with greater efficiency. As organizations continue to seek faster and more scalable infrastructure, the 32Gbps Fibre Channel standard is poised to play a critical role in shaping the future of high-speed storage networks.