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Renishaw TP200

The TP200 probe uses a sensor based on strain gauge technology, which ensures excellent reproducibility and high-precision 3D free-form measurements, even with long probe inserts.

The sensor technology produces excellent repeatability and eliminates the so-called "lobing" that occurs with kinematic probes. The strain gauge technology ensures measurements of several million probes with constant accuracy.

The TP200B is less sensitive to so-called "air contact". These are caused by vibrations in the CMM or at high probing speeds in connection with long stylus configurations.

  • The TP200 probe system was developed for workpieces with narrow tolerances developed and are particularly suitable for use for long periods styli and for applications where access to features lengthy and complex arrangement of the styli requires.
    Highly precise repeatability and 3D shape measurement with long Styli are replaced by the use of a new strain gauge Structure achieved thanks to which minimal deflections of the Stylus tip can be recognized. For standard probes where a mechanical switch Switching signal generated, the force varies at the tip of the stylus is required to trigger the probe, with the probing direction, which causes small form measurement errors, which are referred to as "lobing" .

    The TP200 probe system solves this problem with the Use of special electronic strain gauge technology (strain gauge = strain gauge). Here, minimal deflections of the stylus tip registered.

    The TP200 probe system includes the probe holder as well separate stylus modules and enables quick stylus changes and button overflow. In addition, it is with the probes and Renishaw extensions compatible.
  • Outstanding measurement performance with stylus lengths up to to 100 mm

    The TP200 probe system is recommended for workpieces with tight tolerances as well as for applications with many measuring points and high point density. It is suitable also for features that have long or complex stylus configurations require.

    Increase the measurement throughput
    Fast, automatic stylus change and one Lifetime of stylus modules of over 10 million Touching increases productivity and saves time and Money.

    Quick and easy replacement of styli without time-consuming recalibration optimization of stylus configurations, also complicated measuring tasks due to better accessibility on the characteristic and adaptation to the material properties can be solved with high accuracy at the same time.
  • Strain gauge technology In case of the the TP200 sensor technology, a switching accuracy achieved in fractions of μm it is called "Lobing", which is standard, "kinematic switching probes ”occurs.

    Solid state ASIC technology
    The Solid State ASIC technology enables measurements of several million probes with the same Accuracy guaranteed Quickly replaceable stylus modules
    They are stylus modules with standard contact force (SF) and low contact force (LF) available. The latter were for use with small spherical styli as well as for use on sensitive materials. The module can be exchanged using the SCR200- change magazine possible.
  • Spezifikationen

    TP200 TP200B

    Hauptanwendung

    CNC-gesteuerte KMGs, wenn hohe Genauigkeit erforderlich ist.

    Wie TP200, wenn „Luftantastungen“ auftreten.

    Antastrichtungen

    6 Achsen: ±X, ±Y, ±Z

    6 Achsen: ±X, ±Y, ±Z

    Wiederholgenauigkeit in eine Richtung (2s µm)

    Empfindlichkeit Stufe 1: 0,40 µm

    Empfindlichkeit Stufe 2: 0,50 µm

    Empfindlichkeit Stufe 1: 0,40 µm

    Empfindlichkeit Stufe 2: 0,50 µm

    2D-Antastunsicherheit in X/Y

    Empfindlichkeit Stufe 1: ±0,80 µm

    Empfindlichkeit Stufe 2: ±0,90 µm

    Empfindlichkeit Stufe 1: ±1 µm

    Empfindlichkeit Stufe 2: ±1,2 µm

    3D-Antastunsicherheit in X/Y/Z

    Empfindlichkeit Stufe 1: ±1 µm

    Empfindlichkeit Stufe 2: ±1,40 µm

    Empfindlichkeit Stufe 1: ±2,50 µm

    Empfindlichkeit Stufe 2: ±4 µm 

    Wiederholgenauigkeit beim Tastereinsatzwechsel

    Mit SCR200: max. ±0,50 µm

    Handbuch: max. ±1 µm

    Mit SCR200: max. ±0,50 µm

    Handbuch: max. ±1 µm

    Antastkraft (an der Tastereinsatzspitze)

    XY-Ebene (alle Module): 0,02 N

    Z-Achse (alle Module): 0,07 N

    XY-Ebene (alle Module): 0,02 N

    Z-Achse (alle Module): 0,07 N

    Überlaufkraft (bei 0,50 mm Verstellung)

    XY-Ebene (SF/EO Modul): 0,2 N bis 0,4 N

    XY-Ebene (LF Modul): 0,1 N bis 0,15 N

    Z-Achse (SF/EO Modul): 4,90 N

    Z-Achse (LF Modul): 1,60 N

    XY-Ebene (SF/EO Modul): 0,2 N bis 0,4 N

    XY-Ebene (LF Modul): 0,1 N bis 0,15 N

    Z-Achse (SF/EO Modul): 4,90 N

    Z-Achse (LF Modul): 1,60 N 

    Gewicht (Messtastersensor und Modul)

    22 g 

    22 g 

    Max. Verlängerung (in Verbindung mit PH10 PLUS Dreh-/Schwenkkopf)

    300 mm 

    300 mm 

    Max. empfohlene Tastereinsatzlänge (M2-Tastereinsätze)

    SF/EO Modul:  50 mm (Stahl) bis 100 mm (Kohlefaser)

    LF Modul:  20 mm (Stahl) bis 50 mm (Kohlefaser)

    SF/EO Modul:  50 mm (Stahl) bis 100 mm (Kohlefaser)

    LF Modul:  20 mm (Stahl) bis 50 mm (Kohlefaser)

    Montage

    M8 Gewinde

    M8-Gewinde 

    Interface

    PI 200-3UCC

    PI 200-3UCC

    Wechselmagazin für Tastermodule

    Automatisch:  SCR200

    Handbuch:  MSR1 

    Automatisch:  SCR200

    Handbuch:  MSR1 

    Tastereinsätze

    M2

    M2

Do you have any questions or are you interested in one of our products?

Please do not hesitate to contact us, we will be happy to help you in any matter!