stage Product List and Ranking from 123 Manufacturers, Suppliers and Companies

High-load linear motor stage for laser microfabrication V-D07

Precision and smooth adjustment work for optical instruments. High-precision linear stage.

In laser microfabrication, even slight positional deviations of the workpiece significantly affect processing quality, necessitating high-precision and stable positioning. This is particularly important for microfabrication of semiconductor materials, glass, and films, where precise position control at the nanometer level is crucial. The V-D07 high-load linear motor stage achieves high-precision positioning at the nanometer level and high-speed operation through a high-precision linear encoder and direct drive linear motor. As a high-precision stage for laser microfabrication equipment, it supports a stable processing process. 【Application Scenarios】 - Precise positioning of laser microfabrication equipment - Laser processing of semiconductors and electronic components - Laser processing of glass and films - Alignment adjustment of optical components 【Benefits of Implementation】 - Enables precise positioning at the nanometer level - Smooth operation due to frictionless drive - Stable operation in high-load environments

Company：PI Japan
Price：Other

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High Rigidity and High Precision Z Stage for Semiconductor Inspection V-Z03

Improving the quality and efficiency of semiconductor inspection with high-speed, high-precision Z-axis control.

In the semiconductor field, high precision and stability are required for the positioning of wafers and masks. Especially in inspection processes and microfabrication, even slight positional deviations can lead to measurement errors and reduced yield, significantly impacting product quality. The V-Z03 adopts a direct drive system using a voice coil motor, achieving high-speed response and high-precision Z-axis control. Furthermore, with a high-rigidity cross roller guide and a non-contact linear encoder, it ensures stable positioning without backlash and high reproducibility. It is also optimal for precise positioning of heavy objects, supporting loads of up to 150 N and featuring a pneumatic counterbalance. 【Application Scenarios】 - Semiconductor inspection equipment - Wafer inspection and measurement equipment - Precision measurement instruments 【Benefits of Implementation】 - Improved measurement accuracy through high-precision positioning - Reduced takt time due to high-speed response - Stable operation due to high-rigidity guides - Expanded applications due to high load capacity - Enhanced safety through self-locking functionality

Company：PI Japan
Price：Other

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High-Precision Z-Axis Voice Coil Motor Stage V-Z03 for Research and Development

Achieves sub-micron level precision Z-axis control with high-speed response and high rigidity.

In experiments in the field of research and development, precise positioning and stable operation are essential. Particularly in the observation of fine structures and precision machining, accurate control in the Z-axis direction determines the success or failure of the experiment. Conventional stages have issues with positioning accuracy and response speed, which have been factors that reduce the efficiency of experiments. The V-Z03 adopts a direct drive system using a voice coil motor, achieving high-speed and high-precision Z-axis control. 【Application Scenarios】 - Precision positioning in industrial and research fields - Semiconductor inspection 【Benefits of Implementation】 - Precise positioning at the sub-micron level - Reduction in experiment time - Improvement in experimental accuracy - Adaptability to diverse experiments

Company：PI Japan
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Frictionless High-Precision XY Stage for Wafer Inspection V-P01

High-speed and high-precision wafer inspection is achieved by V-P01.

In the semiconductor industry, wafer inspection requires the detection of minute defects with high precision. The accuracy of the inspection is a crucial factor that influences product quality and yield. Especially as wafers become larger and more densely packed, faster and more accurate positioning becomes essential. The V-P01 achieves high-precision positioning and high-speed scanning through linear motor drive, contributing to the efficiency of wafer inspection. 【Usage Scenarios】 - Automated Optical Inspection (AOI) of wafers - Precision scanning of wafer surfaces - Positioning of fine patterns 【Benefits of Implementation】 - Reduction in inspection time - Improvement in inspection accuracy - Enhancement of yield

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Optical Use: Smooth Operation at Low Speeds - High Precision XY Stage V-P01

XY stage that improves the precision and efficiency of lens adjustment.

In the optical industry, lens adjustment requires high precision in positioning and stability. To maximize the performance of lenses, micron-level fine-tuning is essential. Misalignment can cause image distortion and a decrease in resolution, directly affecting product quality. The V-P01 addresses these challenges through linear motor drive. 【Application Scenes】 - Lens polishing and assembly processes - Optical measuring instruments - Inspection devices 【Benefits of Implementation】 - Quality improvement through high-precision positioning - Increased work efficiency due to high speed and acceleration - Improved yield through stable operation

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[V-P01] Smooth and Stable Control High-Precision XY Stage for Research and Development

XY stage supporting high-speed and high-precision experiments.

In experimental research and development, precise positioning and stable operation are essential. Particularly when observing fine structures or performing precise machining, a stage with high positional accuracy is required. A stage with low positional accuracy may compromise the reproducibility of experimental results or fail to provide accurate data. The V-P01 achieves high-precision positioning and stable operation through linear motor drive, enhancing the quality of experiments in research and development. 【Application Scenes】 - Microscopic observation - Precision machining - AOI inspection - Scanning 【Effects of Implementation】 - Improved experimental accuracy through high-precision positioning - Increased experimental efficiency due to high speed and acceleration - Assurance of reproducibility through stable operation

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High-load linear stage V-817 for optical adjustment, with a maximum load of 600N.

Smooth and high-speed response even under high load of 600N with linear motor × high-precision encoder.

In optical systems, high-precision positioning and stable operation are crucial. Especially in the alignment of optical components such as lenses and mirrors, even slight positional deviations can affect measurement results and image quality. The V-817 is a linear stage that combines direct drive via a linear motor with a high-precision incremental encoder. Its low-friction, smooth motion and high-speed response enable precise positioning and optical axis alignment of optical components with high accuracy. Additionally, it supports high loads of up to 600 N and achieves stable positioning through a highly rigid structure. It assists in high-precision adjustment tasks in optical devices and precision measurement systems. [Usage Scenarios] - Position adjustment of lenses and mirrors - Assembly of optical systems - Precision measurement [Benefits of Implementation] - Improved adjustment accuracy through high-precision positioning - Enhanced work efficiency due to stable operation - Dust suppression through non-contact drive

Company：PI Japan
Price：Other

Linear motor
Actuator
Cartesian Robot
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[For Research and Development] 800mm Linear Motor Stage V-855

High-speed 4 m/s × high resolution to enhance the precision of positioning in research and development.

In experimental research and development, high precision positioning and stable operation are required. Particularly in experiments such as observation of fine structures, precision machining, and material evaluation, positioning accuracy significantly affects measurement results and the reproducibility of experiments. The V-855 is a high-speed linear stage equipped with direct drive via linear motors and high-precision linear encoders. With a minimum incremental motion of 0.1 µm and a maximum speed of 4,000 mm/s (4 m/s), it achieves both precise positioning and high-speed transport. Additionally, with a maximum stroke of 800 mm, it accommodates a wide range of experimental applications in research and development equipment, such as measuring and scanning large samples. 【Usage Scenarios】 - Precision measurement - Fine machining - Optical experiments - Material testing 【Benefits of Implementation】 - Improved reproducibility of experiments - Enhanced measurement accuracy - Increased work efficiency - Reduced experimental time

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Chip tilt mirror stage with a maximum tilt of 8° for laser processing.

High-speed mirror stage for precise control of laser beams.

In laser processing, precise beam control is a crucial factor that influences processing accuracy and production efficiency. Especially in fine processing and high-precision cutting and welding, accurate positioning and stable control of the laser beam are essential. Even slight deviations or fluctuations in the beam can lead to a decline in processing quality and a deterioration in yield. This product is a voice coil-driven tip/tilt mirror stage capable of large-angle drive up to 8°. It enables high-precision and high-speed control of the laser beam's angle, achieving stable beam operation. [Application Scenarios] - Angle adjustment of the beam in laser processing - Laser applications requiring precise positioning - Laser systems requiring laser beam stabilization [Benefits of Implementation] - Realization of high-precision laser processing - Improvement in processing quality - Enhancement of yield

Company：PI Japan
Price：Other

Actuator
Solenoid Actuators
Optical Experimental Parts
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Optical 8° Chip Tilt Mirror Stage V-931

A large-angle drive stage optimal for beam control in optical communication and optical systems.

In optical communication and optical systems, the precise control and stability of light beams are crucial factors that influence system performance. In particular, even slight misalignments or fluctuations in the beam can lead to signal attenuation and increased noise, potentially affecting communication quality and measurement accuracy. The V-931 is a voice coil-driven tip/tilt mirror stage capable of driving large angles of up to 8°. It allows for high-precision and high-speed control of the light beam's angle, enabling beam deflection and stabilization in optical systems. [Application Scenarios] - Beam adjustment in optical communication systems - Optical fiber alignment - Optical fiber sensor systems [Benefits of Implementation] - Improved communication quality through beam stabilization - Enhanced alignment efficiency through high-precision positioning - Increased system reliability

Company：PI Japan
Price：Other

Actuator
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[For Research and Development] Compact Linear Stage - Vacuum Compatible M-11x

Compact linear stage compatible with XYZ axis, size 60mm square.

In experimental research and development, precise positioning is essential. In particular, when fine adjustments are required or setups in limited spaces are necessary, compact and high-precision linear stages are needed. The M-11x type linear stage achieves high precision and a variety of axis configurations while being compact, contributing to the efficiency and accuracy of research and development. There is also a type suitable for vacuum (10-6 hPa). 【Usage Scenarios】 - Optical experiments - Microscope observations - Precision measurements - Microfabrication 【Benefits of Implementation】 - Reduction in experimental setup time - Improvement in experimental accuracy - Space-saving - Adaptability to various experiments

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XY stage U-723 equipped with ultrasonic piezo motor for optical adjustment.

For high-precision positioning in optical applications. Compact size, 10 nm resolution, self-locking when powered off.

In the optical industry, precise positioning adjustments of lenses and mirrors significantly affect system performance. Particularly in situations requiring minute adjustments, high-precision positioning capability is essential. Low adjustment accuracy can lead to misalignment of the optical axis and focus, resulting in decreased system performance. The U-723 achieves a compact design with a 22mm range of motion and 10nm resolution, enabling precise positioning adjustments in optical systems. 【Application Scenarios】 - Adjustment of microscope objective lenses - Alignment of laser processing machine optical axes - Sample positioning in optical measurement instruments 【Benefits of Implementation】 - Improved optical performance through high-precision positioning - Space-saving design leading to overall equipment miniaturization - Enhanced safety through position retention when the power is off

Company：PI Japan
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Linear motor
Piezoelectric Devices
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Ultrasonic Motor Driven Compact Rotary Stage U-628 for Optical Adjustment

Size 50x50x19mm, infinite rotation, maximum 720°/s, self-locking when power is off.

In the optical industry, adjustment work requires precise angle adjustments. Especially in optical axis alignment and fine-tuning of lenses, high-precision positioning and stable operation are essential. Poorly executed adjustments can lead to a decrease in the performance of optical systems and measurement errors. The U-628 contributes to the efficiency and accuracy of optical adjustment work through its high-precision incremental angle sensor and self-locking mechanism. 【Usage Scenarios】 - Filter angle optimization - Polarizing element adjustment - Calibration of optical measurement systems 【Benefits of Implementation】 - Angle adjustment of filters with high wavelength dependence - Precise control of polarizer and wave plate angles - Angle optimization of interferometers and microscope optical paths

Company：PI Japan
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Thin High-Speed Rotating Stage U-651 with Piezo Motor Drive for Optical Measurement

Height 14 mm, φ36 mm opening, ideal for fine adjustment of optical systems.

In the optical industry, precise adjustments of laser light paths and lenses are required. In particular, angle adjustments in limited spaces and high-precision positioning are crucial. If the adjustment accuracy is low, it can lead to a decrease in the performance of the optical system, potentially adversely affecting experimental results and product quality. The U-651 facilitates fine-tuning of optical systems due to its slim design and high-precision positioning capabilities. 【Application Scenarios】 - Laser light path adjustment - Lens alignment - Angle adjustment of optical filters - Connection of optical fibers 【Benefits of Implementation】 - Improved optical performance through high-precision adjustments - Space-saving design - Increased work efficiency - Enhanced reproducibility of experiments For detailed product specifications, please refer to the catalog. If you have any questions, please feel free to contact us.

Company：PI Japan
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Thin Rotating Stage U-651 for Micromanipulation

Thin type with a height of 14 mm, an opening of φ36 mm, ideal for microscope scanning.

In the field of microscopy, it is essential to scan the observation target with high precision and obtain clear images. This is particularly important for observing fine structures and biological tissues, where accurate positioning and high-speed operation are crucial. Conventional stages may face challenges regarding size and operational speed. The U-651 addresses these issues in microscope scanning with its slim design and high-speed rotation performance. 【Application Scenes】 - Scanning of samples in microscopic observation - Laser scanning microscopy - Confocal microscopy 【Benefits of Introduction】 - Acquisition of clear images through high-precision positioning and high-speed operation - Ease of integration into microscopes due to its slim design - A φ36mm aperture allows for the passage of laser light paths and wiring *For detailed product specifications, please refer to the catalog. If you have any questions, please feel free to contact us.

Company：PI Japan
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Optical Use: Maximum Resolution 0.2nm Piezo Stage P-611.Z

A 44mm square housing that achieves optical system focus adjustment at the nanometer level.

In the optical industry, high-precision focus adjustment is required. Particularly in situations that demand fine manipulation, such as microscopes and laser processing machines, accurate positioning is essential. Even slight misalignments can lead to measurement errors or reduced processing accuracy. Our compact Z-axis piezo stage P-611.Z achieves precise focus adjustment with a resolution of 2nm, maximizing the performance of optical systems. 【Application Scenarios】 - Focus adjustment of microscope objective lenses - Focus adjustment of laser processing machines - Precision positioning of optical measuring instruments 【Benefits of Implementation】 - Improved measurement accuracy through high-precision focus adjustment - Increased yield in fine processing - Enhanced performance and stabilization of equipment

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Air Bearing Stage A-110 for High Precision Positioning in Optics

For precise adjustment of optical systems. Air bearing stage that achieves high-precision positioning.

In the field of optics, precise positioning of optical elements such as lenses and mirrors greatly influences system performance. Particularly in high-precision positioning and scanning applications, even slight vibrations or friction can affect measurement results and image quality. The PIglide direct drive air bearing stage "A-110" features non-contact air bearings, magnetic linear motors, and optical linear encoders. Its frictionless smooth operation achieves high positioning accuracy and excellent reproducibility. Additionally, it generates no particles, making it ideal for optical applications in cleanroom environments. Furthermore, it supports long strokes of up to 400 mm, accommodating a wide range of high-precision scanning. 【Application Scenes】 - Microscopes - Spectrometers - Laser processing machines - Optical measuring instruments 【Benefits of Implementation】 - Improved measurement accuracy through high-precision positioning - Reduced adjustment time - Enhanced product quality

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High-Precision Z Stage L-310 for Optical Adjustment and Optical Alignment

For optical alignment and focus adjustment. Precision Z stage featuring high-rigidity cross roller guides.

In optical devices, misalignment of lenses and sensors significantly affects optical performance. Particularly in optical axis adjustment and focus control, stable positioning at the sub-micron level is required. The L-310 is a high-precision Z stage that employs ball screw drive and cross roller guides. In addition to high guide precision and rigidity, high-precision position measurement using an incremental encoder enables precise Z-axis position control in optical equipment. 【Application Scenarios】 - Position adjustment of optical lenses - Optical alignment devices - Sensor position adjustment - Microscope focus control - Position adjustment of laser optical systems 【Benefits of Implementation】 - Improved optical performance through high-precision Z-axis positioning - Enhanced measurement accuracy due to stable operation - Increased work efficiency through smooth position adjustment - Improved yield due to enhanced stability of the equipment

Company：PI Japan
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High-Precision Z Stage L-310 for Research and Development

For positioning the Z-axis in microscopy, optical experiments, and precision measurements. A precision Z-stage featuring a high-rigidity cross roller guide.

In experimental research and development, positioning accuracy at the nano to micron level affects the reliability and reproducibility of experimental results. Particularly in fields such as microscopic observation, optical experiments, and material evaluation, stable precision positioning in the Z direction is essential. The L-310 is a high-precision Z stage that employs ball screw drive and cross roller guides. In addition to high guide precision and rigidity, it achieves stable Z-axis position control for research and development applications through high-precision position measurement using an incremental encoder. 【Application Scenes】 - Microscopic observation devices - Precision measurement devices - Material testing devices - Optical experiment devices - Experimental devices for research and development 【Benefits of Implementation】 - Improved experimental accuracy through high-precision Z-axis positioning - Enhanced reproducibility of experimental data due to stable operation - Easier fine adjustments due to smooth operation - High reliability for research applications You can check the detailed product specifications in the catalog. If you have any questions, please feel free to contact us.

Company：PI Japan
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encoder
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High-Precision Z Stage L-310 for Precision Measurement Devices, Load Capacity 10 kg

Adopts high-rigidity cross roller guide. Ideal for Z-axis positioning in precision measurement and research applications.

In precision measurement and analysis devices, even slight positional shifts in the Z direction can significantly impact measurement accuracy and reproducibility. This is especially true for measurements of fine structures and nanoscale analyses, where a high-precision and stable positioning mechanism is essential. The L-310 is a high-precision Z stage that employs ball screw drive and cross roller guides. It achieves high guide accuracy and rigidity, enabling stable Z-direction positioning in precision measurement devices and research applications. 【Usage Scenarios】 - Precision measurement instruments - Inspection devices - Research and development 【Benefits of Implementation】 - Improved measurement accuracy through high-precision positioning - Increased reliability due to stable operation - Enhanced work efficiency through smooth operation For detailed product specifications, please refer to the catalog. If you have any questions, please feel free to contact us.

Company：PI Japan
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encoder
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[For Electronic Component Mounting] Thin Design - Maximum Speed 5m/s High-Speed Linear Stage

A thin, high-precision linear motor stage that enables high-speed electronic component mounting.

In the electronic component assembly industry, there is a demand for improved productivity and quality. In particular, high-speed pick-and-place of components and high-precision positioning are critical factors that influence production efficiency. Conventional stages have limitations in speed and accuracy, which can become bottlenecks in productivity. Our 132 mm wide slim high-speed linear motor stage V-857 achieves high-speed and high-precision positioning, contributing to the acceleration of electronic component assembly. 【Usage Scenarios】 - High-speed component assembly - Processes requiring high-precision positioning - Equipment requiring miniaturization and lightweight design 【Benefits of Implementation】 - Increased productivity - Improved quality - Miniaturization of equipment

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Linear motor
Actuator
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Linear motor-driven stage for optical alignment V-731

Optimal for optical alignment! High-precision positioning linear motor XY axis stage.

In the optical industry, alignment work requires high-precision positioning. Particularly in the adjustment of optical components such as lenses and mirrors, even minor misalignments can significantly affect the system's performance. Low positioning accuracy can lead to optical axis deviations and variations in focal length, potentially compromising the quality of the final product. The V-731 achieves high-precision positioning, contributing to the efficiency and quality improvement of optical alignment work. 【Usage Scenarios】 - Position adjustment of optical components - Laser processing - Scanning 【Benefits of Implementation】 - Quality improvement through high-precision positioning - Reduction in work time - Increased yield

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Linear motor
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Ant groove stage for optical instruments

Positioning accuracy has dramatically improved! No need for a stopper, no micro-movement!

Introducing the "Self-Lock Stage SLX Series," ideal for precise positioning adjustments of optical instruments. Traditional stages often face challenges such as micro-movements and positional shifts due to stopper or clamp operations, making high-precision adjustments difficult. The SLX series addresses these issues by incorporating a patented self-locking mechanism, achieving high positioning accuracy. 【Usage Scenarios】 - Adjustments of precision equipment such as optical microscopes, image recognition systems, and laser processing machines - Inspection processes requiring high-precision positioning - Experiments and measurements that need stable positioning for extended periods - Situations where installation in limited spaces is necessary 【Benefits of Implementation】 The self-locking mechanism prevents micro-movements and positional shifts, enabling high-precision positioning. This contributes to improved product quality, reduced inspection time, and enhanced work efficiency. Additionally, the elimination of stoppers simplifies operations, reducing the burden on workers.

Company：ミラック光学
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Self-Lock Stage SLX Series for Electronic Component Manufacturing

High-precision self-locking stage to prevent positional displacement.

In the manufacturing of electronic components, precise positioning is required. Mirac Optical's "Self-Lock Stage SLX Series" achieves high positioning accuracy by incorporating a patented self-locking mechanism. 【Application Scenarios】 - Inspection and measurement of precision parts - Positioning in automated lines - High-precision machining processes - Applications requiring long-term fixation 【Benefits of Implementation】 - Prevention of product defects due to misalignment - Improved work efficiency - Enhanced machining accuracy through precise positioning - Increased accuracy in inspection and measurement

Company：ミラック光学
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High-Precision Motion Achieved with Ant-Groove Stage for Robotics

Achieve high-precision motion! A long-stroke self-locking stage that does not move slightly from the stopped position.

To achieve high-precision motion in robotics, positioning accuracy and stability are critical challenges. Mirac Optical's "Self-Lock Stage SLX Series" is equipped with a patented self-locking mechanism that prevents micro-movements after position adjustment, enabling stable high-precision operation. 【Usage Scenarios】 - Accurate position control in automated transport systems - High-precision stage movement in inspection devices - Handling of fine components in research and development 【Benefits of Implementation】 - Improved work efficiency through enhanced positioning accuracy - Prevention of malfunctions and defective products caused by micro-movements - Achieving stable operation over long periods, enhancing reliability - Effective use of installation space

Company：ミラック光学
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Ant-groove stage for measuring instruments

Do not move from the stopped position! Achieving high-precision measurement with a long stroke.

The new 'Self-Lock Stage SLX Series' has arrived, featuring a long stroke and no need for a stopper, making it essential for high-precision measurements. With its patented self-locking mechanism, it prevents micro-movements and positional shifts after adjustments, ensuring a stable measurement environment. 【Usage Scenarios】 - Situations requiring high-precision measurements or inspections - Situations needing stable positioning for extended periods - Situations where micro-movements or positional shifts are not permissible - Working in limited spaces - Measuring complex shapes 【Benefits of Implementation】 The self-locking mechanism enhances measurement accuracy by preventing micro-movements and positional shifts after adjustments. Additionally, the absence of a stopper simplifies operation and improves work efficiency. Furthermore, its slim design allows for use in confined spaces.

Company：ミラック光学
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High-precision inspection support stage with a groove type for automotive manufacturing

A long-stroke stage that supports high-precision component machining without the need for a stopper.

In the inspection process of automobile manufacturing, precise positioning and stable fixation are required. In conventional dovetail stages, micro-movements and positional shifts caused by manual stoppers or clamp operations could occur, potentially affecting inspection accuracy. The "Self-Lock Stage SLX Series" from Mirac Optical addresses these challenges by incorporating a patented self-locking mechanism, enabling high-precision inspections with a dovetail stage. 【Usage Scenarios】 - Dimensional inspection of automotive parts - Surface inspection of engine components - Precise positioning in the inspection process - Inspections requiring long-term fixation 【Benefits of Implementation】 - Improved inspection accuracy - Reduced inspection time - Enhanced work efficiency - Decreased human error - Increased reliability of inspection results

Company：ミラック光学
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Temperature control stage with stirrer for materials science

Research on phase transitions! Simultaneous control of temperature and stirring.

In the field of materials science, particularly in the study of phase transitions, it is crucial to precisely control temperature and stirring. Phase transition phenomena are sensitive to temperature changes, and a uniform temperature distribution along with appropriate stirring is essential for obtaining accurate experimental results. Improper temperature control or stirring can distort the phase transition process and lead to incorrect data. A temperature-controlled stage with stirring capability allows for stirring up to 1200 rpm within a temperature range of -10°C to 80°C, providing strong support for phase transition research. 【Application Scenarios】 - Research on phase transitions - Research on crystallization - Synthesis of materials 【Benefits of Implementation】 - Improved experimental efficiency through simultaneous control of temperature and stirring - Accurate data acquisition through uniform temperature distribution and stirring - Capability to conduct experiments over a wide temperature range

Company：Nippon Blower Co.,LTD.
Price：100,000 yen-500,000 yen

Stirrer
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Temperature-controlled stage with stirrer for cosmetics.

Optimize the emulsification process! Control temperature and stirring simultaneously.

In the cosmetics industry, temperature control and uniform stirring are crucial in the emulsification process, which affects product quality. Inadequate emulsification can lead to product separation and quality deterioration, potentially resulting in decreased customer satisfaction. The stirring temperature control stage can perform precise temperature control in the range of -10°C to 80°C while enabling stirring up to 1200 rpm (for water). This optimizes the emulsification process and supports the production of high-quality cosmetics. 【Usage Scenarios】 - Manufacturing of creams, lotions, serums, etc. - Experiments for optimizing emulsification states - Small-scale sample production in research and development 【Benefits of Implementation】 - Achieving uniform emulsification and improving product quality - Efficient production through simultaneous control of temperature and stirring - Establishing a highly reproducible emulsification process

Company：Nippon Blower Co.,LTD.
Price：100,000 yen-500,000 yen

Stirrer
stage

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Temperature control stage with stirrer for cell culture

Temperature control and stirring for cell culture in one device!

In the field of biotechnology, particularly in cell culture, temperature management of the culture medium and uniform stirring are crucial factors that influence cell growth and quality. Even slight fluctuations in temperature or inconsistencies in stirring can lead to a decrease in cell proliferation rates or induce differentiation into undesirable cell types. A temperature-controlled stage with a stirrer has been developed to achieve precise temperature control and uniform stirring, thereby improving the efficiency and reproducibility of cell culture. 【Application Scenarios】 - Cell culture - Microbial culture - Biochemical reactions 【Effects of Implementation】 - Increased efficiency of cell culture - Improved reproducibility of experiments - Stabilization of culture results

Company：Nippon Blower Co.,LTD.
Price：100,000 yen-500,000 yen

Stirrer
stage

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