藤倉コンポジット Product Lineup

In the robotics industry, precise motion range control, such as that of robotic arms, is required. Particularly in situations that demand work in tight spaces or delicate movements, the friction resistance of cylinders significantly affects operational accuracy. High friction can lead to decreased positioning accuracy and may hinder smooth operation. Our ultra-compact double-acting air bearing cylinder minimizes sliding resistance to zero through a non-contact design between the rod and guide, achieving precise motion range control. 【Application Scenarios】 - Joints of robotic arms - Precision assembly robots - Compact transport robots 【Benefits of Implementation】 - High-precision positioning - Smooth operation - Increased lifespan

• Pneumatic Equipment

In the robotics industry, reducing the weight of components is essential to enhance the mobility and energy efficiency of robotic arms. Particularly in situations that require fast and precise movements, the weight of the cylinder significantly impacts performance. Traditional cylinders can cause delays in operation and a decrease in positional accuracy due to friction resistance. Fujikura Composite's ACS-4-5 addresses these challenges by achieving zero friction resistance through air bearing technology and enabling weight reduction. 【Application Scenarios】 - Robotic arms - Robotic hands requiring precise positioning - Small transport robots 【Benefits of Implementation】 - Improved range of motion and speed of robotic arms - Reduced running costs through energy savings - Enhanced work efficiency through high-precision positioning

• Pneumatic Equipment

In the FA industry, particularly in robot control, precise positioning of the arm affects quality. Even minor deviations can reduce the accuracy of the robot and lead to an increase in defects. Air bearing cylinders achieve smooth operation and high-precision positioning due to zero friction resistance. This contributes to quality improvement and enhancement in high-precision control. 【Application Scenes】 - Robot arms - Units requiring precise positioning - High-precision transport 【Effects of Implementation】 - Quality improvement through high-precision positioning - Reduction of wear due to friction - Decrease in maintenance frequency

• Pneumatic Equipment

In the power device manufacturing industry, precise movement and high durability are required. In particular, smooth operation during precise control is a crucial factor that affects work efficiency and product quality. Conventional cylinders can experience delays in operation and reduced positional accuracy due to friction resistance. Air bearing cylinders achieve zero friction resistance, enabling smooth operation. 【Application Scenarios】 - Robot arms - Precision positioning - Conveying systems - Load control 【Benefits of Implementation】 - Improved smoothness of operation - Enhanced positional accuracy - Increased product lifespan

• Pneumatic Equipment

In the power device manufacturing industry, precise movement and high durability are required. In particular, smooth operation during precise control is a crucial factor that affects work efficiency and product quality. Conventional cylinders can experience delays in operation and reduced positional accuracy due to friction resistance. Air bearing cylinders achieve zero friction resistance, enabling smooth operation. 【Application Scenarios】 - Robot arms - Precision positioning - Conveying systems - Load control 【Benefits of Implementation】 - Improved smoothness of operation - Enhanced positional accuracy - Increased product lifespan

• Pneumatic Equipment

In the power device manufacturing industry, precise movement and high durability are required. In particular, smooth operation during precise control is a crucial factor that affects work efficiency and product quality. Conventional cylinders can experience delays in operation and reduced positional accuracy due to friction resistance. Air bearing cylinders achieve zero friction resistance, enabling smooth operation. 【Application Scenarios】 - Robot arms - Precision positioning - Conveying systems - Load control 【Benefits of Implementation】 - Improved smoothness of operation - Enhanced positional accuracy - Increased product lifespan

• Pneumatic Equipment

In precision devices, measures to prevent foreign matter contamination, which can affect product quality, are extremely important. Especially in processes that handle fine components, even a slight foreign substance can lead to product defects. Air bearing cylinders achieve zero friction resistance and suppress dust generation, enabling the removal of foreign matter in a clean environment. This contributes to improved yield and stable quality. 【Application Scenarios】 - Removal of foreign matter in manufacturing processes - Precision control within clean rooms - Assembly processes for fine components 【Effects of Implementation】 - Reduction of defective products due to foreign matter contamination - Improvement in product quality - Maintenance of clean room environments

• Pneumatic Equipment

In precision devices, measures to prevent foreign matter contamination, which can affect product quality, are extremely important. Especially in processes that handle fine components, even a slight foreign substance can lead to product defects. Air bearing cylinders achieve zero friction resistance and suppress dust generation, enabling the removal of foreign matter in a clean environment. This contributes to improved yield and stable quality. 【Application Scenarios】 - Removal of foreign matter in manufacturing processes - Precision control within clean rooms - Assembly processes for fine components 【Effects of Implementation】 - Reduction of defective products due to foreign matter contamination - Improvement in product quality - Maintenance of clean room environments

• Pneumatic Equipment

In precision devices, measures to prevent foreign matter contamination, which can affect product quality, are extremely important. Especially in processes that handle fine components, even a slight foreign substance can lead to product defects. Air bearing cylinders achieve zero friction resistance and suppress dust generation, enabling the removal of foreign matter in a clean environment. This contributes to improved yield and stable quality. 【Application Scenarios】 - Removal of foreign matter in manufacturing processes - Precision control in clean rooms - Assembly processes for fine components 【Effects of Implementation】 - Reduction of defective products due to foreign matter contamination - Improvement in product quality - Maintenance of clean room environments

• Pneumatic Equipment

In implementation machines, precise mounting operations are required. In particular, delicate components are significantly affected by even slight misalignments or friction, which can greatly impact product quality. It is important to improve positioning accuracy in the process and minimize damage to the components. Fujikura Composite's ACS-4-5 addresses these challenges with its air bearing technology that offers zero friction resistance. [Usage Scenarios] - Precise assembly and mounting - Accurate positioning of small components [Benefits of Implementation] - Improved mounting accuracy - Reduced damage to components - Enhanced work efficiency

• Pneumatic Equipment

In implementation machines, precise mounting operations are required. In particular, delicate components are significantly affected by even slight misalignments or friction, which can greatly impact product quality. It is important to improve positioning accuracy in the process and minimize damage to the components. Fujikura Composite's ACS-4-5 addresses these challenges with air bearing technology that has zero friction resistance. [Usage Scenarios] - Precise assembly and mounting - Accurate positioning of small components [Benefits of Implementation] - Improved mounting accuracy - Reduced damage to components - Enhanced work efficiency

• Pneumatic Equipment

In the inspection and testing industry, precise load control and smooth operation are required to improve inspection accuracy. This is especially crucial for applications such as semiconductors and IC chips, where high precision and reliability are essential. Conventional cylinders may cause positional deviations and delays in operation due to friction resistance, which can compromise the accuracy of operations. Fujikura Composite's ACS-4-5 eliminates friction resistance through air bearing technology, achieving high-precision control. 【Application Scenarios】 - Load control in IC chip inspection - Precise positioning of wafers - Semiconductor inspection 【Benefits of Implementation】 - Improved quality of inspection and testing due to enhanced operational accuracy - Space-saving through miniaturization and lightweight design of equipment - Reduced strain on machinery due to smooth operation - Lower maintenance costs due to high durability

• Pneumatic Equipment

In precision devices, the smooth movement of the cylinder and high-precision positioning are crucial factors that determine the performance of the device. Particularly in situations that require work in confined spaces or delicate movements, a cylinder with low friction resistance and precise control is essential. Conventional cylinders have faced challenges such as delays in operation and reduced positional accuracy due to friction. Fujikura Composite's ACS-4-5 eliminates friction resistance to zero through air bearing technology, addressing these issues. 【Application Scenarios】 - Precise positioning - Weight cancellation - Pressure control 【Benefits of Implementation】 - Improved operational performance of the device - High-precision positioning - Miniaturization and lightweight design of the device

• Pneumatic Equipment

In precision machining, precise operations are required. Particularly in situations where fine movements are needed in precision machining machines, the friction resistance of the cylinder significantly affects operational accuracy. High friction can lead to positioning errors and vibrations, potentially hindering accurate operations. Air bearing cylinders achieve zero friction resistance and provide smooth movement, contributing to the performance improvement of precision machining machines. 【Application Scenarios】 - Machining head - Stage position control 【Benefits of Implementation】 - High-precision positioning - Smooth operation - Improved product quality

• Pneumatic Equipment

In precision machining, precise operations are required. Particularly in situations where fine movements are needed in precision machining machines, the friction resistance of the cylinder greatly affects operational accuracy. High friction can lead to positioning errors and vibrations, potentially hindering accurate operations. Air bearing cylinders achieve zero friction resistance and provide smooth movement, contributing to the performance improvement of precision machining machines. 【Application Scenes】 - Machining head - Stage position control 【Effects of Implementation】 - High-precision positioning - Smooth operation - Improved product quality

• Pneumatic Equipment

In precision machining, precise operations are required. Particularly in situations where fine movements are needed in precision machining machines, the friction resistance of the cylinder significantly affects operational accuracy. High friction can lead to positioning errors and vibrations, which may hinder accurate operations. Air bearing cylinders achieve zero friction resistance and provide smooth movement, contributing to the performance improvement of precision machining machines. 【Application Scenarios】 - Machining heads - Stage position control 【Benefits of Implementation】 - High-precision positioning - Smooth operation - Improved product quality

• Pneumatic Equipment

In the semiconductor manufacturing industry, high-precision positioning and a clean environment are essential. Particularly in the transportation of wafers and substrates, as well as in precise assembly processes, the generation of fine dust and positional shifts due to friction significantly affect product quality. Traditional cylinders have faced challenges with sliding resistance and dust generation. This product utilizes air bearing technology to achieve non-contact between the rod and guide, resulting in zero friction resistance. Furthermore, it is compatible with clean room environments, meeting the stringent requirements of semiconductor manufacturing. 【Usage Scenarios】 - Wafer transportation - Precision polishing equipment - Positioning of semiconductor manufacturing equipment 【Benefits of Implementation】 - Achieves high-precision positioning - Reduces dust generation, contributing to improved product quality - Compatible with clean room environments

• Pneumatic Equipment

In precision devices, the smooth movement of the cylinder and high-precision positioning are crucial elements that determine the performance of the device. Particularly in situations that require work in narrow spaces or delicate movements, a cylinder with low friction resistance and precise control is essential. Conventional cylinders have faced challenges such as delays in operation and reduced positional accuracy due to friction. Fujikura Composite's ACS-4-5 eliminates friction resistance to zero through air bearing technology, addressing these issues. 【Application Scenarios】 - Precise positioning - Weight cancellation - Pressure control 【Benefits of Implementation】 - Improved operational performance of the device - High-precision positioning - Miniaturization and lightweighting of the device

• Pneumatic Equipment

In the semiconductor manufacturing industry, high-precision positioning and a clean environment are essential. Particularly in the transportation of wafers and substrates, as well as in precise assembly processes, the generation of fine dust and positional shifts due to friction significantly affect product quality. Conventional cylinders have faced challenges with sliding resistance and dust generation. This product utilizes air bearing technology to achieve non-contact between the rod and guide, resulting in zero friction resistance. Furthermore, it is compatible with clean room environments, meeting the stringent requirements of semiconductor manufacturing. 【Application Scenarios】 - Wafer transportation - Precision polishing equipment - Positioning of semiconductor manufacturing equipment 【Benefits of Implementation】 - Achieves high-precision positioning - Reduces dust generation, contributing to improved product quality - Compatible with clean room environments

• Pneumatic Equipment

In the semiconductor manufacturing industry, high-precision positioning and a clean environment are essential. Particularly in the transportation of wafers and substrates, as well as in precise assembly processes, the generation of fine dust and positional shifts due to friction significantly affect product quality. Conventional cylinders have faced challenges with sliding resistance and dust generation. This product utilizes air bearing technology to achieve non-contact between the rod and guide, resulting in zero friction resistance. Furthermore, it is compatible with clean room environments, meeting the stringent requirements of semiconductor manufacturing. 【Application Scenarios】 - Wafer transportation - Precision polishing equipment - Positioning of semiconductor manufacturing equipment 【Benefits of Implementation】 - Achieves high-precision positioning - Reduces dust generation, contributing to improved product quality - Compatible with clean room environments

• Pneumatic Equipment

In the machine tool industry, high-speed and precise movements are required. Particularly in high-precision positioning and fine machining, the friction resistance of cylinders becomes a crucial factor that affects performance. High friction can lead to delays in movement and a decrease in positional accuracy, potentially resulting in defective products and reduced productivity. Our air bearing cylinders achieve zero friction resistance, enabling high-speed and high-precision operation. 【Application Scenarios】 - High-speed transport - Precision positioning - Polishing equipment 【Benefits of Implementation】 - Increased productivity through high-speed operation - Improved quality through high-precision positioning - Suppression of wear particles, maintaining a clean environment

• Pneumatic Equipment

In the machine tool industry, high-speed and precise movements are required. Particularly in high-precision positioning and fine machining, the friction resistance of cylinders becomes a crucial factor that influences performance. High friction can lead to delays in movement and a decrease in positional accuracy, potentially resulting in defective products and reduced productivity. Our air bearing cylinders achieve zero friction resistance, enabling high-speed and high-precision operation. 【Application Scenarios】 - High-speed transport - Precision positioning - Polishing equipment 【Benefits of Implementation】 - Increased productivity through high-speed operation - Improved quality through high-precision positioning - Suppression of wear particles, maintaining a clean environment

• Pneumatic Equipment

In the machine tool industry, high-speed and precise movements are required. Particularly in high-precision positioning and fine processing, the friction resistance of cylinders becomes a crucial factor that affects performance. High friction can lead to delays in movement and a decrease in positional accuracy, potentially resulting in defective products and reduced productivity. Our air bearing cylinders achieve zero friction resistance, enabling high-speed and high-precision operations. 【Usage Scenarios】 - High-speed transport - Precision positioning - Polishing equipment 【Benefits of Implementation】 - Increased productivity due to high-speed operations - Improved quality through high-precision positioning - Suppression of wear particles, maintaining a clean environment

• Pneumatic Equipment

In the optical equipment industry, very precise positioning is required for tasks such as adjusting the position of lenses and sensors. Even slight vibrations or friction can significantly impact measurement accuracy and image quality. Air bearing cylinders achieve smooth operation and high-precision positioning through a non-contact design between the rod and the guide. This contributes to the performance improvement of optical equipment. 【Application Scenarios】 - Adjusting the objective lens of a microscope - Adjusting the focus of a camera - Positioning in laser processing machines 【Effects of Implementation】 - Improved product quality through high-precision positioning - Reduction of dust generation due to friction - Increased work efficiency due to smooth operation

• Pneumatic Equipment

In the electronic equipment assembly industry, there is a demand for miniaturization of products and high-precision operation. Particularly, when arranging components in limited spaces or performing delicate tasks, the miniaturization of cylinders and smooth operation are crucial. Conventional cylinders can cause issues such as positional deviation and dust generation due to friction resistance, which may compromise product quality and reliability. Our ultra-compact double-acting air bearing cylinder achieves zero friction resistance, enabling precise drive for small electronic devices. 【Application Scenarios】 - Component arrangement for small electronic devices - Precision polishing equipment - Work in clean rooms 【Benefits of Implementation】 - Realization of high-precision positioning and operation - Improvement in product quality - Expansion into a wide range of applications due to clean room compatibility

• Pneumatic Equipment

In the precision measurement industry, high-accuracy positioning is required. Especially when measuring fine components or performing high-precision machining, the accuracy of the cylinder's movement significantly affects product quality. Conventional cylinders have sometimes been hindered by friction resistance and backlash, which can compromise precision. The ACS-13.5-5 adopts a non-contact structure using air bearings, achieving zero friction resistance. This enables high-precision positioning and enhances the reliability of measurement results. 【Application Scenarios】 - Precision measuring instruments - Semiconductor manufacturing equipment - Medical devices 【Benefits of Implementation】 - Improved measurement accuracy through high-precision positioning - Miniaturization and space-saving of equipment - Enhanced product quality

• Pneumatic Equipment

In the FPD manufacturing industry, there is a demand for high-precision positioning and minimizing damage to delicate products during the transport of thin and lightweight display panels. In particular, space-saving on the production line and fast, smooth transport are crucial factors that significantly affect production efficiency. The ACS-13.5-5 provides an optimal solution to these challenges. 【Usage Scenarios】 - Panel transport in FPD manufacturing lines - Pick and place of precision parts - Positioning in inspection equipment 【Benefits of Implementation】 - Contributes to miniaturization and weight reduction of equipment - High-precision positioning due to zero friction resistance - Minimizes damage to products, improving yield - Increases productivity through high-speed transport

• Pneumatic Equipment

In the optical equipment industry, high precision and stability are required for the positioning of precision components such as lenses and mirrors. Even slight vibrations or friction can significantly impact optical performance, making smooth and accurate movement essential. The ACS-13.5-5 addresses these challenges with its air bearing structure that has zero friction resistance. 【Application Scenarios】 * Adjustment of microscope objective lenses * Focus adjustment of cameras * Positioning of laser processing machines 【Benefits of Implementation】 * Enables high-precision positioning, contributing to improved product quality * Reduces wear on components due to friction, lowering maintenance costs * Contributes to miniaturization and weight reduction of devices

• Pneumatic Equipment

In the field of precision measurement, high-accuracy positioning and fine motion control are essential. They not only affect the accuracy of measurement results but also significantly impact the quality and reliability of products. In conventional cylinders, sliding resistance and dust generation have been factors that degrade measurement accuracy. This product addresses these challenges through air bearing technology. It achieves zero sliding resistance and zero dust generation, enabling high-precision measurements. 【Application Scenes】 - Precision grinding equipment - Semiconductor manufacturing equipment - Inspection equipment 【Benefits of Implementation】 - High-precision positioning and control - Realization of a clean environment - Improvement in product quality

• Pneumatic Equipment

In the semiconductor manufacturing industry, high-precision positioning and a clean environment are essential. Particularly in the transportation of wafers and substrates, as well as in precision assembly processes, the generation of fine dust and positional shifts due to friction significantly affect product quality. Conventional cylinders have faced challenges with sliding resistance and dust generation. This product utilizes air bearing technology to achieve non-contact between the rod and guide, resulting in zero friction resistance. Furthermore, it is compatible with clean room environments, meeting the stringent requirements of semiconductor manufacturing. 【Application Scenarios】 - Wafer transportation - Precision polishing equipment - Positioning of semiconductor manufacturing equipment 【Benefits of Implementation】 - Achieves high-precision positioning - Reduces dust generation, contributing to improved product quality - Compatible with clean room environments

• Pneumatic Equipment

In the inspection and testing industry, precise load control and smooth operation are required to improve inspection accuracy. This is especially critical in applications such as semiconductors and IC chips, where high precision and reliability are essential. Traditional cylinders may suffer from positional shifts and delays in operation due to friction resistance, which can compromise the accuracy of operations. Fujikura Composite's ACS-4-5 eliminates friction resistance through air bearing technology, achieving high-precision control. 【Application Scenarios】 - Load control in IC chip inspection - Precise positioning of wafers - Inspection of semiconductors 【Benefits of Implementation】 - Improved quality of inspection and testing due to enhanced operational accuracy - Space-saving through miniaturization and lightweight design of equipment - Reduced strain on machinery due to smooth operation - Lower maintenance costs due to high durability

• Pneumatic Equipment

In the semiconductor manufacturing industry, high-precision positioning is required. Especially in the processes of wafer transport and inspection, fine positional adjustments significantly affect product quality. Conventional cylinders often struggle to achieve precise movements due to friction resistance and size constraints. The ACS-13.5-5 realizes high-precision positioning through its zero-friction air bearing structure. 【Usage Scenarios】 - Wafer transport - Inspection equipment - Assembly of precision parts 【Benefits of Implementation】 - Quality improvement through high-precision positioning - Miniaturization and space-saving of equipment - Streamlining of manufacturing processes

• Pneumatic Equipment

In infrastructure-related fields, even minor vibrations can have a significant impact. Particularly in processes involving precise measurements and microfabrication, external vibrations can compromise the reliability of experimental data. Our passive vibration isolation table addresses vibration issues in experimental environments and supports accurate data acquisition. 【Application Scenarios】 - Exposure equipment - Scanning Electron Microscopes (SEM) - Atomic Force Microscopes (AFM) - Wafer probers 【Benefits of Implementation】 - Improved processing accuracy - Enhanced yield - Reduction of defective products - Assurance of stable productivity

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In the field of measurement, it is important to minimize external vibrations in order to accurately measure tiny structures and phenomena. Even slight vibrations can have a significant impact on measurement results and may compromise the reliability of the data. Our passive vibration isolation table addresses vibration issues in measurements and supports accurate data acquisition. 【Application Scenarios】 - Scanning Electron Microscopes (SEM) - Atomic Force Microscopes (AFM) 【Benefits of Implementation】 - Improved measurement accuracy - Enhanced data reliability - Ensured stable measurement environment

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In infrastructure-related fields, even minor vibrations can have a significant impact. Particularly in processes involving precise measurements and fine processing, external vibrations can compromise the reliability of experimental data. Our passive vibration isolation table addresses vibration issues in experimental environments and supports accurate data acquisition. 【Usage Scenarios】 - Exposure equipment - Scanning Electron Microscopes (SEM) - Atomic Force Microscopes (AFM) - Wafer probers 【Benefits of Implementation】 - Improved processing accuracy - Enhanced yield - Reduction of defective products - Ensured stable productivity

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In experiments conducted at research institutions, even minor vibrations can significantly affect measurement results. Particularly in experiments involving precise measurements or microfabrication, external vibrations can compromise the reliability of experimental data. Our passive vibration isolation table addresses the vibration issues in experimental environments and supports accurate data acquisition. 【Application Scenes】 - Exposure equipment - Scanning Electron Microscopes (SEM) - Atomic Force Microscopes (AFM) - Wafer probers 【Benefits of Implementation】 - Improved processing accuracy - Enhanced yield - Reduction of defective products - Ensured stable productivity

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In the field of electronics, minute vibrations can significantly impact test results. Particularly in the performance evaluation of precision instruments, it is crucial to suppress external vibrations to the utmost extent. Our passive vibration isolation table addresses vibration issues and enables accurate data acquisition. 【Usage Scenarios】 * Performance testing of precision instruments * Vibration testing * Precision measurements in clean room environments 【Benefits of Implementation】 * Improved reliability of equipment characteristics * Enhanced accuracy * Reduced processing time

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In the machining process of precision machinery, minute vibrations can affect product quality and negatively impact machining accuracy. Particularly for products that require high precision, misalignments and distortions caused by vibrations can lead to reduced yield and an increase in defective products, potentially resulting in significant losses. Our passive vibration isolation table addresses vibration issues in the machining process and supports a stable production system. 【Usage Scenarios】 - Assembly lines for precision machinery 【Benefits of Implementation】 - Improved machining accuracy - Enhanced yield - Reduction in defective products - Ensured stable productivity

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In the semiconductor manufacturing industry, especially in electronic devices, even minor external vibrations can significantly impact product quality. If precision is even slightly off, it can lead to reduced yield and an increase in defective products, potentially resulting in substantial losses. Our passive vibration isolation table addresses vibration issues in fine control and supports a stable production system. 【Application Scenes】 - Exposure equipment - Scanning Electron Microscope (SEM) - Atomic Force Microscope (AFM) - Wafer Prober 【Effects of Implementation】 - Improved processing accuracy - Enhanced yield - Reduction of defective products - Assurance of stable productivity

• Vibration isolation table
• Electron microscope
• Vibration Monitoring

In precision machinery, even minor vibrations can significantly affect accuracy. Precision stages and machining heads are extremely delicate, and even slight vibrations can lead to adverse effects on precision. Passive vibration isolation tables address these issues and provide a stable equipment environment. 【Usage Scenarios】 - Precision machining machines - Microscopes - Precision measurement 【Benefits of Implementation】 - Improved equipment accuracy - Miniaturization - Cost reduction

• Vibration isolation table

In devices that perform fine precision machining, external vibrations can significantly affect experimental results. In ultra-precision machining and manufacturing processes, high-accuracy measurements and machining are required, and even slight vibrations can lead to measurement errors and a decline in quality. Passive vibration isolation tables effectively suppress these issues and contribute to improving the accuracy of research and development by providing a stable environment. 【Usage Scenarios】 - Nano-level precision machining devices - Scanning Probe Microscopes (SPM) 【Benefits of Implementation】 - Improved reliability of process control - Enhanced reproducibility of machining - Increased high-quality nano-level machining precision

• Vibration isolation table

In the optical industry, it is essential to minimize external vibrations to maximize the performance of laser systems. Particularly in laser systems used for high-precision measurements and fine processing, even slight vibrations can lead to measurement errors and reduced processing accuracy. Our passive vibration isolation table is designed to support the stable operation of laser systems. 【Usage Scenarios】 - Laser oscillators - Optical experiments - Precision measurements 【Benefits of Implementation】 - Stabilization of laser systems - Improvement in measurement and processing accuracy - Enhanced reproducibility of experiments

• Vibration isolation table

In the precision measurement industry, it is essential to minimize external vibrations to obtain highly accurate measurement results. Especially when measuring fine structures or movements, even slight vibrations can significantly impact the measurement results, leading to reduced accuracy or incorrect outcomes. Our passive vibration isolation table provides optimal vibration isolation characteristics tailored to the load being supported, effectively suppressing vibrations in the measurement environment and contributing to a substantial improvement in measurement accuracy. 【Application Scenarios】 - Precision measurement instruments (electron microscopes, scanning probe microscopes, etc.) - Research and development facilities - Quality control departments - Semiconductor manufacturing processes 【Effects of Implementation】 - Improved measurement accuracy - Reduced measurement time - Decreased defective products - Enhanced research and development efficiency

• Vibration isolation table

Electron microscopes require high resolution to observe fine structures with high precision. To maximize this performance, it is essential to suppress external vibrations to the utmost extent. Vibrations can lead to degradation of the observed images and a decrease in measurement accuracy, hindering the acquisition of accurate data. Our passive vibration isolation table addresses the vibration issues in the installation environment of electron microscopes, enabling high-resolution observation. 【Usage Scenarios】 - Electron microscope installation environment - High-resolution observation - Observation of fine structures 【Benefits of Implementation】 - Stabilization of observed images - Improvement in measurement accuracy - Acquisition of accurate data

• Vibration isolation table
• Electron microscope
• Vibration Testing

In the semiconductor manufacturing industry, especially in fine processing, even minor external vibrations can significantly impact product quality. If the processing accuracy is even slightly off, it can lead to reduced yield and an increase in defective products, potentially resulting in substantial losses. Our passive vibration isolation table addresses vibration issues in fine processing and supports a stable production system. 【Usage Scenarios】 - Exposure equipment - Scanning Electron Microscope (SEM) - Atomic Force Microscope (AFM) - Wafer Prober 【Benefits of Implementation】 - Improved processing accuracy - Enhanced yield - Reduction in defective products - Assurance of stable productivity

• Vibration isolation table
• Electron microscope
• Vibration Monitoring