The MiSTAR has an accuracy guaranteed temperature range of 10 to 40ºC by incorporating a combination of technologies such as a symmetric structure, uniform material, and temperature compensation.
The MiSTAR achieves a contamination resistance more than 2 times better than conventional CMM's by implementing the newly developed Mitutoyo absolute scale* that is highly resistant to the challenging production line environment. * A scale that provides an absolute value for each measurement point. This eliminates the need for a machine initialization operation.
The MiSTAR features a single support moving bridge and a storage cabinet for all machine controllers under the measuring table to save installation space. This has reduced the footprint to about 70% compared with that of the conventional moving bridge model.
User-friendly Design Reduces Operator's Workload
The adoption of single support moving bridge provides a three-sided open architecture, significantly easing the task of moving workpieces on and off the measuring table.
With Mitutoyo clamping tools and pallet receiver designed for the MiSTAR enables quick setup and measurement of like workpieces.
The use of clamping tools and pallet receiver enables quick measurement of similar workpieces.
New Functionality has the "Smart Factory" in View
From status control to preventive maintenance. Smart Factory starts with "visualization".
MiSTAR 555 is compatible with the following three applications that consolidate information management of the manufacturing process through a network.
MiSTAR 555 + PH20
Coordinate Measuring Machine with 5-axis measuring, allowing throughput with reduced calibration time.
PH20's unique "head touches" allow measurement points to be taken by moving on the head rather than the CMM Structure. Using only the rapid rotary motion of the head, points can be taken faster, and will improved accuracy and repeatability.
The PH20 calibration determines the head orientation and probe position in a single operation, allowing subsequent measurement at any head angle.