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OMRON Industrial Automation works as a partner to help innovate worldwide manufacturing.
Through their expertise in sensing and control technology, they enable manufacturers to operate with greater productivity and streamlined efficiency.

Since it was established in 1933, OMRON has supported industry with innovative solutions and advanced technologies and continues to grow today.

OMRON manufactures several high precision Nano-level measurement resolution sensors with a lineup of ultra-compact, white light confocal sensors and long-range-detection laser sensors.

ZW-7000 SERIES 

Reliable measurements for any material and surface types.

Strict quality control, demands for appearance inspection and production speed are constantly increasing. To meet these demands, stable measurements during movement for quality inspection without compromising manufacturing speed is required. Harnessing the benefits of the white light confocal principle, the ZW-7000 can provide stable measurements for different material types (glass, metal, plastic, etc.) and shapes (round, flat, uneven, etc).

ZW SERIES 

Ultra-compact and Ultra-lightweight. Stable Measurements for Any Material. Robust Sensor Head Structure.

  • Utilize Narrow Spaces in Machines

  • Mounting area Reduced to 1/7

  • Installation in Tight Spaces

  • Stable measurments

  • Superior Angle Characteristic

  • Robust Sensor Head Structure

  • No Noise

  • No Heat Generation

  • No Electronic Parts (Reduced Maintenance Costs)

  • EtherCAT Machine Control Network

  • P/N INFO

ZS SERIES 

High-precision Displacement Measurement Sensors Bringing Smart Sensors into New Fields.

  • Very High-performance Sensors that Support Core Quality from Very Long-range to Extremely Precise Measurements

  • Range of models with measuring center distance of 20 to 1,500 mm

  • Achieves maximum resolution of 0.25 μm

  • Maximum response speed of 110 μs

  • Parallel output supported

  • Ideal Size and Stability
    Head Size

  • P/N INFO

 

Schneeberger is a global supplier of linear bearings and systems based in Roggwil, Switzerland with additional manufacturing plants in Germany and Czech Republic.  

 

SCHNEEBERGER is world renown for producing high precision bearings and linear motion systems.  Their Monorail ball and roller linear guideway bearings were introduced to the market over 20 years ago.  Soon thereafter, Schneeberger embarqed on a plan to expand the limits of linear technology by combining functionaly, specifically position feedback.  As such, the AMS (Advanced Measurement System) was born and has been on the market for over 15 years with over 3000+ axes in the field.  AMS is available on all sizes of Ball and Roller bearings (sizes 15-100).  A long version was introduced 5 years ago which can join multiple sections together up to 30m+.

MINISCALE PLUS

  • Miniature guideway with integrated measuring system “all in one“

  • The range includes eight rail widths which can be combined with up to four carriage sizes.

  • P/N INFO

AMSA 3B ANALOG WITH ROLLERS

SCHNEEBERGER’s AMSA 3B MONORAIL is an integrated measuring system for distance measurement for use on all protected machine tool axes with high demands on system precision. Mechanically the AMSA 3B is based on SCHNEEBERGER’s MR MONORAIL roller guide with lengths up to 6 metres. The integration of the measurement system allows very compact axes to be put together.

AMSD 3B DIGITAL WITH ROLLERS

MONORAIL AMSD 3B is an integrated magneto-resistive measuring system for distance measurement based on the MONORAIL MR profile guideway with an incremental, digital interface. The AMSA 3B is the starting point for this product. The profile rails are thus identical and are compatible with both AMSA 3B and AMSD 3B. 

AMSA 4B ANALOG WITH ROLLERS

MONORAIL AMSA 4B is an integrated magneto-resistive measuring system for distance measurement based on the MONORAIL BM profile ball guideway with an analog voltage interface. These products are preferred for use in applications that make major demands on travelling speed and accuracy. No additional assembly or adjustment of the measuring system is required, which is reflected by cost savings in machine design, manufacture and servicing. 

AMSD 4B DIGITAL WITH ROLLERS

The MONORAIL AMSD 4B is an integrated magneto-resistive measuring system for distance measurement based on the MONORAIL BM profile guideway with an incremental, digital interface. The AMSA 4B is the starting point for this product. The section rails are thus identical and are compatible with both AMSA 4B and AMSD 4B. 

AMSABS 3B FOR ROLLERS & BALLS

The product AMSABS 3B for roller guideways now combines proven magneto-resistive measuring technology with an absolute digital interface.

  • Absolute digital interface 

  • Display of operating conditions 

  • Configuration and diagnosis options via a serial link 

  • Increased operational reliability attained by processing valid information

AMSABS 3B FOR ROLLERS & BALLS

With the MONORAIL AMSABS 4B, SCHNEEBERGER provides an integrated measuring system for absoulte distance measurement for use in automation engineering, mechanical handling technology and machine tool engineering, whereby high force absorption and precise distance measurements are required in small assembly spaces. From a mechanical point of view, the AMSABS 4B is based on the MONORAIL BM roller guide up to a length of 6m. The distance measurement system’s compact housing facilitates the construction of highly compact axes.

  • Absolute digital interface 

  • Display of operating conditions 

  • Configuration and diagnosis options via a serial link 

  • Increased operational reliability attained by processing valid information

  • P/N INFO

AMSA 3L LONG ANGLOG WITH ROLLERS

AMSA 3L "The product for all lengths" is now made possible by highly accurate machining and measurement of the rails. A special design of the rail ends for butt joints, when used in combination with the AMSA 3L reading head, allows the carriage to run over the butt joint, so that measuring axes of any desired length can be constructed.   

  • Absolute digital interface 

  • Display of operating conditions 

  • Configuration and diagnosis options via a serial link 

  • Increased operational reliability attained by processing valid information