Zemax_2012_v12_for_64_bit

Zemax 12 Release 2 is the most capable optical and illumination design software ever published. Zemax 12 is the perfect tool to design, optimize, and tolerance optical systems. Your system may include refractive, reflective, diffractive, sequential, or non-sequential elements in any combination. Zemax 12 is available in three editions: Zemax IE, Zemax EE and Zemax SE. Compare them here. You can use Zemax for classical lens design, including powerful optimization and tolerancing illumination and stray light, using fully unconstrained non-sequential ray-tracing laser beam propagation, using powerful physical optics modelling All of these powerful features are integrated into an intuitive user interface. Zemax offers power, speed, flexibility, ease of use, and value in one comprehensive program. Zemax is the perfect tool to design, optimize, and tolerance optical systems. Your system may include refractive, reflective, diffractive, sequential, or non-sequential elements in any combination. You can use Zemax for classical lens design, including powerful optimization and tolerancing illumination and stray light, using fully unconstrained non-sequential ray-tracing laser beam propagation, using powerful physical optics modelling All of these powerful features are integrated into an intuitive user interface. Zemax offers power, speed, flexibility, ease of use, and value in one comprehensive program.

ucam_v10_crack_download

Ucamco have now released UCAM Version 10, making Visual HyperScripts more powerful and even easier to set up. New commands extend Visual HyperScripting to automate data preparation for electrical test. New functionality based on the feedback from users makes it easier to start scripting and to share scripts across a company. At the same time Ucamco have put a short training video on their website which shows how Visual HyperScripts cut CAM time and how to start to use it. Flexible circuitry and Tape Automatic Bonding (TAB) is the fastest growing area of PCB fabrication, but it brings special production challenges. Developments which brought high yields and high productivity for rigid boards need to be rethought. Increasingly complex and increasingly diverse build structures, new materials and new technologies impose new demands on CAM, design verification, yield optimization and tool generation. Many earlier automation technologies are now ineffective. The Solution Ucamco’s new UCAM UFLEX software has been launched in response these challenges. Powerful tool-sets help product engineers develop innovative and effective solutions for cutting-edge designs, while highly flexible automation routines take care of the repetitive and time-consuming manual tasks which hamper engineering creativity. DFR – Design for Reliability

Tebis_v3.5 _download_crack

Tebis (Technische Entwicklung Beratung und Individuelle Software) is a CAD/CAM program supplied by Tebis Technische Informationssysteme AG headquartered in Martinsried near Munich/Germany. Functionality Tebis v3.5 is a CAD/CAM software solution for applications such as die, mold or model making. The software is primarily used in the generation of toolpaths for chip-breaking manufacturing such as drilling and milling, but also in Wire EDM and Electrode EDM. These toolpaths control multi-axis CNC machines. Other applications include manufacturing planning, design, reverse engineering, quality assurance, CNC machining and assembly. The software features interfaces for neutral file formats as well as proprietary formats of third-party manufacturers (STEP 203/214, VDAFS, IGES, DXF, STL, Parasolid, Catia V4/V5, ProE, SolidWorks, NX). Tebis offers a number of different CAD upgrade options. Six different CAD modules can be added to the Tebis Base, already including wire frame model design: Surface Design Advanced Surface Design Digitized Data Processing Faro integration Qualifier – Evaluating surface models Surfacer – Improving surface models Reverser – Generating design surfaces Healer – Repairing design surfaces Optimizer – Class A level surfaces Morpher – Deforming surface models Electrode Design Feature Design

These options let you configure your CAD/CAM workstations to meet the needs of the application at hand. You can also choose from a number of geometry interfaces to meet your particular requirements and thus be compatible with everyone involved in the manufacturing process. Structure tree See at a glance whether a layer has subordinate layers and whether these contain elements. Thanks to the new symbols you will be able to recognize structures much faster. JT interface The new JT interface expands the spectrum of data that can be imported in Tebis. The import of this open data format which is proposed but not yet ISO standardized is now possible without work-arounds and loss of data. Splitting topologies We completely revised the TOP/REMOVE function. You can split topologies in the shortest time possible: simply drag selected objects from the topology and maintain the overview. Use colors or tangentiality to expand your selection, and, at the same time, lock it for flat or steep areas. You can use the same method to remove objects from your selection. Store your selected objects as a new topology. Regardless the size of the part, you can quickly split it for design or manufacturing. Closing cavities Filling holes or closing cavities – no problem with the new FILL function. Use neighboring surfaces to create fill surfaces for areas with four or more boundary curves. An analysis indicates in real time whether your selected strategy is suitable for these fill areas. And as a last resort, you can quickly add a few connecting curves. All of this within the same function. Deep-hole drilling features Create deep-hole drilling features: Select a blank, select features, and you are done. Features are extended, given a spot facing, a counterbore, or a pilot depth – everything happens automatically. Morpher Use the new deformation rule ROT (ROTatory deformation). With this function, you rotate the surfaces instead of shifting them, for example, when folding out a flange. Select the geometry to be deformed, specify the deformation target, check using the distance analysis, and you are done. There are just three steps to a deformation – and all of them without hassles. Overall tool set Are you used to programming several machining operations and the same number of tool sets? This is a thing of the past, because you can now specify a single