Acquired Electronics360

Product Watch


  • CFD Predictions of Internal Flow Pressure Losses

    Supplier: IHS ESDU
    ESDU’s Fluid Mechanics, Internal Flow group has for nearly 40 years been developing methods for calculating pressure losses in internal flow system components. These are industry-standard methods, and are based on the analysis of high-quality experimental data and analytical methods. However, there remain component geometries and regions of operation where no data exist. The...
  • New features available for ProNestĀ® software

    Supplier: Hypertherm, Inc.
    Hypertherm’s ProNest® advanced CAD/CAM nesting software for plasma, laser, waterjet and oxyfuel automated cutting contains numerous enhancements designed to enable customers to achieve more. New features include dynamic align, 3D CAD part bevel detection, and output for multiple machines.
  • Measuring Task Solutions from Mahr

    Supplier: Mahr Inc.
    The MarForm MMQ 100 offers superior accuracy in a rugged, shop floor hardened package. In combination with the EasyForm Software it represents the perfect solution for simple yet powerful measuring tasks.
  • XFdtd 3D Electromagnetic Simulation Software

    Supplier: Remcom (USA)
    Remcom's XFdtd® 3D electromagnetic simulation software provides engineers with powerful tools to shorten development time and release products to market sooner. A full-featured electromagnetic simulation solver, XF outpaces other methods in efficiency as the number of unknowns increases.
  • Rotman Lens Designer for Analyzing Rotman Lenses

    Supplier: Remcom (USA)
    Rotman Lens Designer (RLD) software package is a tool for the design, synthesis, and analysis of Rotman Lenses and their variants. It is based on Geometrical Optics combined with the classical Rotman Lens design equations.
  • XGtd EM Software for Electrically Large Platforms

    Supplier: Remcom (USA)
    XGtd is a general purpose ray-based electromagnetic analysis tool for assessing the effects of a vehicle or vessel on antenna radiation, predicting coupling between antennas, and predicting radar cross section (RCS). It is ideally suited for applications with higher frequencies or very large platforms where the requirements of a full physics method may exceed available computational reso...