Unparalleled Greatness ZEISS MMZ G
Measure large parts precisely with ZEISS MMZ G

Bridge-type CMM for large workpieces

Large bridge-type machines in the ZEISS MMZ G line meet the highest demands: they feature the largest measuring range of all measuring machines offered by ZEISS and offer you unparalleled accuracy. This makes the ZEISS MMZ G ideal for checking complex, extremely large workpieces, especially those with tight tolerances. 



ZEISS MMZ G measuring machines are used by manufacturers of printing machines, wind turbines, and in mechanical engineering.

Minimized subsequent costs

  • Durable thanks to the robust roller bearings
  • Minimal expenses for worn parts because of transverse force-free drives
  • Extremely sturdy because of its very stable mechanical design

Ergonomically-correct work

  • All-sided view of the measuring range
  • Walk-in measuring area for effective analysis directly on the workpiece
  • Mobile data station for direct programming on the workpiece

Exceptional scanning performance

  • ZEISS VAST navigator to quickly calibrate, scan and increase precision
  • ZEISS VAST performance to increase measuring throughput
  • REACH CFX 3 MMZ stylus extensions for measuring deep boreholes (1,200 mm)

ZEISS MMZ G at PMT Machines Limited

Checking extremely large workpieces

Measure extremely heavy workpieces dependably

  • Resistant to harsh environmental conditions for minimal demands on the measuring room
  • Large bearing clearances and a stable bridge design for an exceptional scanning performance
  • Workpiece weight limited only by the thickness of the foundation
ZEISS MMZ G at Three M Tool and Machine

Three-M Tool and the ZEISS MMZ G

large coordinate measuring machine

Having the ZEISS CMM made it possible to edge out the competition and keep our big vision alive

Michael Medwid, President at Three-M

Technical Data for ZEISS MMZ G

Length measurement error


from 2.2 + L/400 μm

Single stylus probing error


from 2.0 μ

Scanning probing error


from 2.8 μ / 62 s

Form measuring error


from 2.0 μm

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