• 3D Surface Profiler
    [NEW VK-X3000]

    • Non-contact profile, roughness, and film thickness measurements
    • Measure over a 50 mm area with nanometer resolution
    • Material and shape independent
    • Fully automated measurement & analysis
  • What is a 3D Surface Profiler?

    A 3D Surface Profiler performs non-contact profile, roughness, and film thickness measurements with nanometer-level resolution on any material or shape. Unlike other 3D measurement systems, objects with steep angles or low-reflectivity can be accurately measured.

  • How does a 3D Surface Profiler work?

    The VK-X3000 Series 3D Surface Profiler uses a triple scan approach, where laser confocal, focus variation, and white light interferometry scanning methods are used depending on the situation, so that high-accuracy measurement and analysis can be performed on any target.

  • Why choose a 3D Surface Profiler?

    Conventional 3D measurement systems can damage the material being measured or are unable to provide data on certain materials and surfaces. These devices can also be costly, time-consuming to operate, and difficult to use.

  • How easy-to-use is the VK-X3000?

    Simply place your sample on the stage, click measure, and the VK-X3000 will automatically scan and measure your sample. Our advanced analysis software will automatically analyze the data and recommend key roughness parameters to evaluate.

  • No Material or Shape Restrictions

  • High-Resolution Imaging

  • Automatically Compare and Analyze Multiple Surfaces

  • Easy and Accurate Measurements Over a Wide Area

  • WHY KEYENCE?

    KEYENCE has been an industry leader in sensing technology since 1974. KEYENCE's direct sales team visits customers with live demo equipment to find the best possible solution for all applications.

Learn more about the VK-X Series 3D Surface Profiler!

Sign In or Register

* required

Register

Step 1/

We could not find an existing KEYENCE site account with the email address you entered. Please complete the registration form below in order to proceed. You will not need to complete this form again in the future.

* required

* required

* required