KT325-AC
XY Stages

Compact precision axis | Travel 20 - 80 mm | Rep ± 0.4 µm | Load 36.7 kg | Speed 60 mm/s
KT325-AC

 

Compact Precision Axis

The KT325-AC was developed for precise positioning tasks with a compact design, high stiffness and controlled dynamics. The combination of AC servo, ball screw drive, profile rail guidance and feedback via motor encoder or linear scale enables stable motion sequences and precise positioning for demanding applications in metrology, optical systems and automation.

Flexible adaptation to manufacturing requirements

  • Ideal for precise positioning tasks with compact design and high stiffness
  • Travel ranges from 20 mm to 80 mm
  • Reliable and consistent quality through repeatability up to ± 0.3 µm unidirectional and ± 0.4 µm bidirectional in the L variant
  • Controlled dynamics with positioning speeds up to 40 mm/s and maximum speeds up to 60 mm/s
  • High load capacity up to 510 N in Fy and 420 N in Fz, as well as high moment capacity for precise integration tasks
  • Compact and rigid design with profile rail, ball screw drive and AC servo

Optionally expandable:

  • Measurement systems with motor encoder and linear scale, optional resolution up to 0.001 µm
  • Base plate made of granite or aluminum
  • Housing as well as preparation for custom integration
  • Versions for cleanroom class ISO 6
  • UV, DUV, EUV, X-ray and gamma on request
  • Magnetic and vacuum versions on request

Robust, precise and compact

The KT325-AC combines compact dimensions with precise positioning and high stiffness. Thanks to the ball screw drive, AC servo, profile rail guidance and the coordinated feedback system, the axis is suitable for permanently stable processes in measurement, alignment and automation tasks. The robust anodized aluminum construction supports flexible integration into demanding machine concepts.

Applications

Development of precise positioning and alignment systems for metrology, optical systems and automation. Typical applications include measuring and testing components, sensor and camera positioning, optical alignment, precise integration tasks as well as applications in research and development.

 

KT325-AC   -20-AC-L -80-AC-L -20-AC-R -80-AC-R
Travel [mm] 20 80 20 80
Repeatability unidirectional [µm] ± 0.3 ± 0.3 ± 1.6 ± 1.6
Repeatability bidirectional [µm] ± 0.4 ± 0.4 ± 2.1 ± 2.1
Accuracy [µm] ± 0.9 ± 1.4 ± 3.7 ± 6.7
Flatness [µm] ± 0.2 ± 0.8 ± 0.2 ± 0.8
Straightness [µm] ± 0.1 ± 0.4 ± 0.1 ± 0.4
Positioning speed [mm/s] 40 40 40 40
Max. speed [mm/s] 60 60 60 60
Max. acceleration [m/s2] 0.6 0.6 0.6 0.6
Max. load Fx [N] 360 360 360 360
Max. load Fy [N] 510 510 510 510
Max. load Fz [N] 420 420 420 420
Max. torque Mx [Nm] 20 20 20 20
Max. torque My [Nm] 30 30 30 30
Max. torque Mz [Nm] 35 35 35 35
Pitch [µrad] ± 13 ± 25 ± 13 ± 25
Yaw [µrad] ± 11 ± 20 ± 11 ± 20
Length [mm] 364 + motor protrusion 110
Width [mm] 325 + motor protrusion 185
Height [mm] 120
Weight [kg] 34
Screw type   Ball Screw 1412.xxx/4.16
Screw lead   4
Bearing   Profile Rail
Motor   AC Servo
Feedback   Motor encoder, linear scale
Resolution measuring system   0.1 µm standard, optional up to 0.001 µm / without
Material   Anodized aluminum
Optional features   Base plate (granite / aluminum), housing, preparation for custom integration
Variants cleanroom   up to clean room class ISO 6 (higher on request)
Variants beam   UV (DUV, EUV, X-ray, gamma on request)
Variants Magnetism   magnetic
Variants vacuum   on request

 

Changes and errors excepted. Values apply to single axes with our controllers. The values stated here are typical for a standard configuration. Significantly improved performance can be achieved through custom adaptations and with precise knowledge of your application. Please contact us.

Related Products

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1 PLT240-AC - Linear Stages

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1 PLT320-AC - Linear Stages

Heavy duty linear stage (ball screw), travel 300 - 1000 mm, rep ± 2 µm, load 106 kg, speed 260 mm/s

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Your customized system

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Almost all atmospheric standard stages are unanodized with UHV lubrication for residual pressures up to 10-6 mbar and min. cleanroom class ISO 6 - or even better - available. Further stages for more demanding environments up to cleanroom class ISO 2, vacuum up to 10E-11 mbar or hard radiation you will find here:

Overview Clean Room & Vacuum Stages    Get in touch with our technical consultant

Materials

Steinmeyer Mechatronik GmbH predominantly uses aluminum for the structure of multi-axis positioning systems.
In special cases, steel and titanium (e.g., for non-magnetic systems) are also possible.


The reason: aluminum efficiently dissipates localized heat, allowing the system to quickly reach a thermally stabilized state—an essential prerequisite for stable and highly accurate positioning systems.

The lower stiffness of aluminum compared to steel is compensated for by design measures, such as:

  • a slightly increased table height
  • the use of hollow profiles

Important: An aluminum beam and a steel beam with identical geometry exhibit the same deflection under their own weight. For special requirements—e.g., non-magnetic applications—titanium versions are also available.

Functional surfaces and coatings

In addition to standard surfaces, numerous customer-specific surface and coating concepts are available.
These are specifically designed to achieve very high cleanroom classes—up to ISO 1–2, depending on the application and process.

To meet demanding process requirements, we develop and qualify application-specific functional coatings, including:

  • Nickel coatings
  • PTFE & KEPLA® coatings
  • Fluorinated lubricants
  • Dicronite® / dry-film coatings
  • Application-specific coating combinations


In addition, the following options are available:

  • anodized (cleaned)
  • alternative color anodizing
  • bare aluminum, cleaned
  • Bilatal
  • Nickel

These surfaces are suitable, for example, for high purity requirements, chemical resistance (life science), or process-critical environments.

Why functional coatings are crucial (before → after)

  • Standard surface → EUV-compatible surface
  • Reflective → non-reflective, minimized stray light
  • Limited sliding capability → maximum sliding performance & reduced wear
  • Basic protection → chemical & corrosive resistance
  • One-size-fits-all → cost-optimized, application-specific performance

Special surfaces are often required for UV / DUV / EUV applications (X-ray or gamma applications on request).

Yes, linear stages can also be used as lifting stages (Z direction) and stacked (XY motions).

In this case, it is important that the maximum force in the drive direction is not exceeded. The force for vertical positioning is specified for linear stages under Fx in the specifications.

The selection is primarily based on force requirements, dynamics, and required precision. Additional relevant factors include installation space, energy efficiency, thermal boundary conditions, and integration effort. Depending on the application, different drive systems can be used. These are identifiable by abbreviations in the respective product designation:

  • Ground ball screws or lead screws with SM motor (stepper motor), DC motor (brushed DC motor), or AC servo (AC servo motor)
  • Electrodynamic linear motors (ironless or iron-core)
  • Piezo motors such as Piezo-Legs® or Nanomotion®


Systematic Decision Structure

If priority is on … Typical motor type
Cost & simple integration Stepper motor
Dynamics & control performance DC servo / BLDC
Maximum dynamics & zero backlash Linear motor
Nanopositioning & compact design Piezo / Nanomotion / Ultrasonic

 

1. Stepper Motor

Typical Application

Simple positioning tasks with moderate speeds and forces.

Advantages

  • Cost-effective
  • Simple control (often without complex feedback control)
  • High holding torque at standstill

Disadvantages

  • Step loss under overload (without feedback)
  • Reduced smoothness at low speeds

Recommended for

  • Standard axes
  • Laboratory automation
  • Simple adjustment tasks
  • Alignment units with low dynamic requirements
  • Vacuum applications

 

2. DC Servo or BLDC Motor

Typical Application

Dynamic positioning with closed-loop control and encoder feedback.

Advantages

  • Very smooth operation
  • High speed and acceleration
  • Precise control through feedback

Disadvantages

  • Higher system cost
  • Requires servo drive and parameterization

Recommended for

  • High-speed XY tables
  • Scanning axes
  • Automation systems with position and velocity control
  • Multi-axis systems with synchronization

 

3. Linear Motor

Typical Application

Direct drive without mechanical transmission for maximum dynamics.

Advantages

  • No backlash, no mechanical wear
  • Extremely smooth motion
  • Very high accelerations

Disadvantages

  • Higher investment cost
  • Increased energy consumption
  • Thermal management required

Recommended for

  • High-dynamic systems in semiconductor manufacturing
  • Inspection and metrology systems
  • Precision assembly
  • Applications with high cycle rates

 

4. Piezo, Nanomotion or Ultrasonic Motor

Typical Application

Nanometer-level motion or highly compact precision systems.

Advantages

  • No magnetic fields
  • Extremely fine step resolution
  • High holding force without power consumption

Disadvantages

  • Limited travel range
  • Low to moderate speed
  • Not designed for high continuous loads

Recommended for

  • Nanopositioning systems
  • Optical alignment and fine adjustment
  • Microscopy and laser alignment
  • Vacuum or magnetically sensitive applications
  • Compact systems with minimal installation space

Incremental scales made of steel or Zerodur® or Zeromet® are used as a feedback system in most cases. While this is sufficient for accuracy in the single-digit micrometer range, it makes sense to use interferometric position feedback for accuracy requirements below one micrometer. In systems with “open loop”, i.e. without a measuring system, only precision in the double-digit micrometer range can be achieved; however, due to the simpler controller and the lack of a measuring system, this is the more cost-effective solution.

Steinmeyer offers standard motion controllers, PLC integration, and custom embedded solutions. Depending on the application, the control system can be fully integrated into the positioning system.

Overview Motion Controllers & Control Concepts

System Architecture – Modular Design

Control solutions are selected application-specifically and matched to the drive system, measurement system, and environmental conditions.

Standard Motion Controllers

  • For single-axis or multi-axis systems
  • Configurable control loops (position / velocity / torque)
  • Fieldbus interfaces (e.g., EtherCAT, PROFINET)
  • Fast commissioning

Typical application: Precision axes with linear motors, torque motors, or ball screws.

PLC Integration

  • Integration into existing machine control systems
  • Centralized system logic via customer PLC
  • Reduced integration effort
  • Standardized industrial communication

Typical application: OEM machines, scalable production systems, and retrofit projects.

Custom Embedded Solutions

  • Compact, application-optimized controllers
  • Integrated power stages
  • Minimized installation space
  • Optimized for process-specific applications

Typical application: Highly integrated positioning systems with limited installation space or special environmental requirements.

Are you looking for a technical solution for your application?

Get your first 3D Design in a few days:

 

Katja Weißbach
Consulting

T +49 351 88585-64
E-Mail

Ronald Schulze
Consulting, Project Management & Engineering
T +49 351 88585-67
E-Mail

 

Francisco Samuel
Consulting &
Project Management
T +49 351 88585-85
E-Mail

 

Elger Matthes
Consulting, Concepts, Innovation & Engineering
T +49 351 88585-82
E-Mail

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