Motorized Linear Translation Stage is a device that can achieve high-precision and adjustable displacement in the linear direction. It is widely used in scientific research, industrial manufacturing, medical and other fields, providing critical position control support for various precision operations.
Motorized Linear Translation Stage uses a motor as its core power source, and common types of motors include stepper motors, servo motors, and DC motors. The motor generates rotational motion, which is converted into linear motion through transmission devices such as screws and synchronous belts. Taking screw drive as an example, the motor drives the screw to rotate, and the nut on the screw is connected to the slider of the displacement table. The movement of the nut on the screw drives the slider to move in a straight line along the guide rail. At the same time, the equipment is equipped with position feedback components such as grating rulers, encoders, etc. They monitor the position of the slider in real time and provide feedback to the control system. The control system compares the feedback signal with the preset target position and automatically adjusts the motor operation status to achieve precise position control.
Motorized Linear Translation Stage is an advanced motion platform that deeply integrates precision mechanical structures with motor drive and control units, enabling remote control, automated programming, and ultra-high precision linear positioning. It represents the ultimate evolution of manual adjustment tables, completely freeing humans from tedious, repetitive, and highly demanding fine-tuning operations. It is a core key component for achieving automation and intelligence in modern scientific research experiments, industrial testing, and high-end manufacturing.
The core value of Motorized Linear Translation Stage lies in its "electric" and "controllable" characteristics. It integrates high-precision transmission mechanisms (such as ball screws, planetary roller screws, or linear motors), high rigidity guidance systems (such as linear guides or cross roller bearings), high-performance drive motors (usually servo motors or stepper motors), and integrated controllers and interfaces. Users can send instructions through computer software, handheld controllers, or external PLCs without touching the platform itself, accurately controlling the platform's motion position, speed, acceleration, and even achieving complex multi axis linkage and sequential motion.

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Model No |
TMK150-CM /TMK150-CR |
TMK200-CM /TMK200-CR |
TMK300-CM/ TMK300-CR |
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Drive solution |
Ball screw |
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Sealed or not |
Semi closed /Fully closed |
Semi closed /Fully closed |
Semi closed /Fully closed |
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Motor power |
400W |
750W |
750W |
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Repeatability |
P7: ±0.01/P5: ±0.005 |
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lead |
5/10/16/20 |
5/10/20 |
5/10/20/32 |
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Fastest speed/Motor speed 3000 (rpm) |
250/500/800/1000 |
250/500/1000 |
250/500/1000/1600 |
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Max load(kg) |
Horizontal |
120/58/35/27 |
280/150/75 |
385/220/105/63 |
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Vertical |
53/24/12/- |
95/43/16 |
92142/13/- |
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Rate Thrust (N) |
12761638/398/319 |
2100/1190/603 |
2100/1190/603/375 |
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Effective Stroke |
0-1204 |
0-1244 |
0-1664 |
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Remark: |
If you exceed the valid itinerary, please consult the company's technical staff first. Clean room rating: ISO Class 5 to 6 (100 to 1000) |
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Application Fields of Motorized Linear Translation Stage:
Semiconductor manufacturing: used in equipment such as lithography machines, etching machines, chip bonding machines, etc., to achieve high-precision alignment of wafers, photoresist coating, chip packaging and other process steps, ensuring high precision and high yield in chip manufacturing.
Biomedical: In microscope autofocus systems, cell microscopy operators, and gene sequencing equipment, precise movement and positioning of samples are achieved to assist in cell level observation, manipulation, and gene analysis in scientific research and medical work.
Optical Engineering: Accurately adjusting the position of optical components in optical detection equipment, fiber alignment systems, and laser processing equipment to ensure accurate and error free optical paths, achieving high-quality optical detection, optical communication component connections, and laser precision processing.
Research experiments: In the fields of materials science, nanotechnology, and other scientific research areas, provide precise displacement for scanning probe microscopes, atomic force microscopes, and other equipment to assist researchers in conducting cutting-edge research such as material property analysis and nanostructure preparation at the microscale.
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