Particle Deposition and PSL Depostions Systems

MODEL 2300 XP1

MODEL 2300 XP1 supports KLA-Tencor SP1-TBI & SP2-TBI, TopCon, Hitachi and ADE Wafer Inspection Systems.

  • Standard 80nm to 1um PSL and Particle Wafer Deposition, manual load for 150mm, 200mm, 300mm;
  • Optional 30nm lower sensitivity, 2nd year warranty, Preventive Maintenance programs

MODEL 2300 XP2

MODEL 2300 XP2 supports all 200mm Open Cassette applications for wafer inspection systems and Wet Bench applications

  • Standard 30nm to 1um PSL and Particle Wafer Deposition
  • Optional 2nd year warranty, Preventive Maintenance programs

MODEL 2300 XP3

MODEL 2300 XP3 supports all 300mm FOUP applications for wafer inspection systems and Wet Bench applications

  • 30nm to 1um PSL and Particle Wafer Deposition
  • Optional 2nd year warranty, Preventive Maintenance programs

Particle Wafer Deposition SystemDETAILS

These high performance, particle deposition systems feature the most advanced particle atomization, electrostatic classification, and deposition technology for creating highly accurate PSL (polystyrene latex size standards for calibrating KLA-Tencor, Applied Materials, TopCon, Hitachi, and ADE wafer inspection systems.

They can also deposit mono-dispersed process particles on wafers to create WET Bench Particle Standards to challenge the cleaning efficiency of WET Clean benches.

Cleaning efficiency improvements of 3.0% to 10% are achievable for cleaning systems with these advanced particle deposition tools creating a superb ROI. Uniform sized process particles of SiO2, Al2O3, TiO2, Si3N4, Si, Ti, W, Ta, Cu, etc. can be deposited on wafers to provide particle on wafer adhesion so wafer cleaning tools can be realistically evaluated.

Both the 2300 XP1 and XP2 systems feature recipe control and automatic multi-spot and multi-size deposition.

Wafer loading and unloading is manual with the XP1.

The XP2 features fully automatic operation from 200mm open cassette. The 2300 XP3 is devoted to 300mm FOUP applications in support of metrology and Wet Bench applications with hands-off, fully automatic operation.

FEATURES & APPLICATIONS

  • High resolution, NIST (National
    Institute of Standards and Technology) traceable DMA sizing and
    classification exceed the new SEMI Standards M53 protocol for
    PSL size accuracy and size distribution width.
  • Advanced Differential Mobility Analyzer (DMA) technology
    featuring automatic temperature and pressure compensation for
    improved system stability and measurement accuracy.
  • Calendar PM alerts to flat-panel display (FPD)
    to remind operator that maintenance is required.
  • User-friendly recipe-controlled software
  • Automatic deposition process provides multiple-spot
    deposition on one wafer, followed by self-clean and purge.
  • Automatic nozzle positioning and wafer rotation
    allows a variety of deposition shapes to be created: multiple
    spot, ring-shaped, full-wafer deposition, and other custom-shapes.
  • Automatic wafer handling provides fast, hands-free,
    computer handling for 200 mm and 300 mm wafers.
  • CE Mark, SEMI S2, S8, S14 compliant, SEMI M52 standards
    compliant
  • Full Wafer Depositions and Spot Wafer Depositions at any location on the wafer.
  • Four sonicating atomizers keep PSL spheres and
    process particles suspended in solution for effective and rapid
    deposition of up to 8 different PSL sizes and four different process
    particle materials in a single setup
  • High sensitivity permitting PSL sphere and process
    particle deposition from 80nm to 1um, optionally from 30nm to 2um or 20nm to 2um.
  • Deposit process particle on wafers to provide realistic
    adhesion between particle and wafer surface for cleaning process
    development andcleaning system improvement to increase efficiency
    and through-put.
  • Deposit PSL spheres on wafers to create calibration
    standards for KLA-Tencor, Applied Materials, TopCon, Hitachi,
    and ADE wafer inspection systems.
  • Deposit PSL spheres and process particles on bare,
    film-layered, and patterned wafer to study influence of wafer
    surface, and particle refractive index on optical response of
    wafer inspection systems.
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