三協インタナショナル Product Lineup

In the printing industry, quality control of ink is crucial. The electrical properties of ink affect the final output of prints and the operation of inkjet printers. In particular, the electrical conductivity and dielectric constant of ink are important factors that influence the stability of the ink and the quality of printing. EPSILON+ supports quality control of ink by accurately measuring these properties. [Usage Scenarios] - Quality control in ink manufacturing - Development of ink for inkjet printers - Optimization of the printing process [Effects of Implementation] - Improvement in ink quality - Reduction of printing defects - Shortening of development time

• Other measurement, recording and measuring instruments

In the chemical industry, a precise understanding of dielectric properties that influence reaction rates and efficiency is essential in reaction processes. In particular, accurate measurements of dielectric constant and electrical conductivity are crucial for managing the degree of reaction progress and the quality of products. Inaccurate measurements can hinder the optimization of reaction conditions and negatively impact the quality of the final product. EPSILON+ can measure electrical conductivity, relative permittivity/dielectric constant εr, and dielectric loss tangent (DDF tanδ) with approximately 8ml of a small sample. This enables efficient monitoring and control of the reaction process, contributing to quality improvement. 【Application Scenarios】 - Monitoring of chemical reaction processes - Evaluation of reaction rates - Quality control of products - Research on catalytic reactions 【Benefits of Implementation】 - Optimization of reaction processes - Improvement of quality control - Increased efficiency in research and development - Cost reduction

• Other measurement, recording and measuring instruments

In the automotive electrical and electronic field, the miniaturization and high performance of electronic components are progressing, making the evaluation of the properties of dielectric fluids used increasingly important. In particular, to ensure the reliability of electrical components, it is essential to accurately understand the electrical characteristics of dielectric fluids and assess their effects under temperature changes and vibrations. EPSILON+ was developed to meet these needs. 【Usage Scenarios】 - Design and development of in-vehicle electronic devices - Quality control of electrical components - Research and development of products using dielectric fluids 【Effects of Implementation】 - Measurement of various parameters with a small amount of samples - Data collection and analysis through PC integration - Accurate data acquisition through measurements under temperature control

• Other measurement, recording and measuring instruments

In the precision machinery industry, the alignment accuracy of components is crucial for maintaining product quality and performance. Even slight misalignments can affect the overall precision of the product, potentially leading to defects and performance degradation. digiVIT offers high-precision measurements and easy operability, contributing to the efficiency of alignment tasks and quality improvement. 【Usage Scenarios】 - Alignment adjustment of components in precision machinery manufacturing - Positioning in inspection equipment - Position control of robotic arms 【Benefits of Implementation】 - Improved product quality through high-precision alignment adjustments - Reduced work time and increased efficiency - Cost reduction through the decrease of defective products

• Testing Equipment and Devices

In the robotics industry, precise position control is required. In particular, the accuracy of movements of arms and the arrangement of parts, measured in millimeters, greatly affects product quality and work efficiency. Misalignment can lead to assembly defects and operational failures. digiVIT supports accurate position control of robots with high-precision measurements and ease of operation. 【Application Scenarios】 - Position detection of robotic arms - Confirmation of parts arrangement - Measurement of workpiece displacement 【Effects of Implementation】 - Quality improvement through high-precision position control - Reduction of adjustment man-hours - Compatibility with a variety of measurement targets

• Testing Equipment and Devices

In the machine tool industry, it is important to accurately understand the wear state of tools in order to maintain processing accuracy. Tool wear can lead to a decrease in processing accuracy and the occurrence of defective products, potentially reducing production efficiency. digiVIT solves these challenges by measuring tool displacement non-contactly and with high precision, allowing for early detection of wear progression. 【Usage Scenarios】 - Monitoring tool wear in machine tools - Detecting abnormalities in cutting tools - Monitoring grinding wheel wear in grinders 【Benefits of Implementation】 - Cost reduction through optimization of tool replacement - Improvement in processing accuracy - Reduction of defective products

• Testing Equipment and Devices

In the aerospace industry, vibration monitoring is essential to maintain the safety and performance of aircraft. It is particularly important to accurately measure the minute vibrations of engines and structural components to detect anomalies early. digiVIT contributes to solving the challenges of vibration monitoring in the aerospace field with its high-precision measurement capabilities and ease of operation. 【Application Scenarios】 - Monitoring engine vibrations in aircraft - Monitoring vibrations of structural components - Vibration measurement in testing and research 【Benefits of Implementation】 - Acquisition of high-precision vibration data - Improved safety through early anomaly detection - Increased efficiency in testing and research

• Testing Equipment and Devices

In the semiconductor manufacturing industry, high-precision measurements are required for the positioning of wafers and substrates. Particularly in fine processing and assembly processes, accurate position control at sub-millimeter levels significantly affects product quality and yield. Inaccurate positioning can lead to the occurrence of defective products and a decrease in manufacturing efficiency. digiVIT balances high-precision measurement with ease of operation, addressing the positioning needs in semiconductor manufacturing. 【Usage Scenarios】 - Position detection for wafer transport robots - Precision position control for semiconductor manufacturing equipment - Position adjustment for substrate mounting machines 【Benefits of Implementation】 - Quality improvement through high-precision positioning - Improved work efficiency through easy operation - Flexible system construction with various output options

• Testing Equipment and Devices

In the automotive industry, high-precision measurement and ease of operation are required for gap measurement between parts. In the manufacturing and maintenance of vehicle bodies, even slight differences in gaps can affect quality and performance, making accurate measurement essential. digiVIT allows for immediate calibration with button operation on the amplifier side, achieving high-precision measurements. 【Usage Scenarios】 - Gap measurement between body panels - Alignment of doors and hoods - Fitting confirmation of interior components 【Benefits of Implementation】 - Quality improvement through high-precision measurements - Improved work efficiency through easy operation - Flexible response with various output options

• Testing Equipment and Devices

In aircraft hydraulic systems, the gas content in the hydraulic fluid affects the system's performance and safety. An excessive presence of gas can lead to component damage due to cavitation and cause delays in system response. These issues can have serious implications for the safe operation of the aircraft, making it crucial to accurately monitor the gas content in the hydraulic fluid. Our gas content measurement system, Model CGS, installs sensors in the flow path to continuously measure gas content inline, enabling early detection of abnormalities in the hydraulic system and supporting safe operations. 【Usage Scenarios】 - Maintenance of aircraft hydraulic systems - Quality control of hydraulic fluid - Abnormality detection in systems 【Benefits of Implementation】 - Improved reliability of hydraulic systems - Extended lifespan of components - Enhanced safety

• Testing Equipment and Devices

In the automotive industry's durability testing, the gas content in lubricants and hydraulic oils is a crucial factor that affects component wear and performance degradation. Particularly when evaluating the durability of hydraulic equipment and engine parts under high temperature and high pressure, it is essential to accurately understand the gas behavior in the oil. Traditional syringe methods not only require considerable time and effort for measurement but also have the potential for measurement errors. Our oil gas content measurement system, Model CGS, addresses the challenges of gas management in durability testing by installing sensors in the flow path to continuously measure gas content inline. 【Usage Scenarios】 * Evaluation of engine oil degradation * Performance evaluation of hydraulic systems * Durability testing of transmission oil 【Benefits of Implementation】 * Real-time data acquisition through inline measurement * Improved reliability of test results due to enhanced measurement accuracy * Reduction and efficiency improvement of testing time

• Testing Equipment and Devices

In the shipbuilding industry, proper management of lubricating oil is essential to ensure the operational efficiency and safety of vessels. Gases in lubricating oil can cause film breakage, increase friction and wear, and ultimately lead to equipment failure. Accurate measurement of gas content in oil is crucial for understanding the condition of lubricating oil and performing appropriate maintenance. The CGS (Gas Content Measurement System) is an inline measurement system designed to continuously measure the gas content in fluids. This system operates regardless of the size and shape of the gas contained in the fluid. The CGS compares the impedance when there is no gas present to the impedance during measurement to quantify the gas content. 【Application Scenarios】 - Monitoring the condition of lubricating oil - Engine maintenance - Management of hydraulic systems 【Benefits of Implementation】 - Early detection of lubricating oil degradation - Extension of equipment lifespan - Reduction of maintenance costs

• Testing Equipment and Devices

In the robotics industry, precise motion control is a crucial factor that affects the reliability of the system. Particularly for robots that require miniaturization and lightweight design, as well as applications that demand real-time performance, high-performance yet energy-efficient embedded PCs are essential. The KIWI310 was developed to meet these needs. 【Use Cases】 - Control of robotic arms - Control of autonomous mobile robots - Motion control of industrial robots 【Benefits of Implementation】 - Improved portability due to miniaturization and lightweight design - Advanced motion control through AI processing - Flexible system construction compatible with Windows/Linux/Android

• Industrial PCs

In the field of space development, data collection is required under limited space and harsh environmental conditions. In particular, robustness against temperature changes, radiation, and vibrations in outer space, as well as energy efficiency, are crucial. Being compact and lightweight helps alleviate constraints on installation space and contributes to reducing rocket launch costs. The KIWI310 has been designed to meet these demands. 【Application Scenarios】 - Space probes - Satellites - Sounding rockets - Data loggers 【Benefits of Implementation】 - Space-saving design due to compact and lightweight construction - High processing capability with the Intel® Celeron® Processor N3350 - Flexible system construction with support for Windows, Linux, and Android operating systems

• Industrial PCs

In the entertainment industry, content generation requires high processing power and flexibility, including video editing, image processing, and AI-driven automation. Particularly, to perform processing in real-time without being location-dependent, a compact and high-performance PC is essential. The KIWI310 is suitable for AI and IoT applications and excels in the field of content generation. 【Usage Scenarios】 - Video editing - Image processing - AI-driven content automation 【Benefits of Implementation】 - Compact design allows for flexible installation locations - Compatible with Windows, Linux, and Android operating systems, supporting various software environments - Equipped with an Intel® Celeron® Processor N3350, delivering high processing power

• Industrial PCs

In the security industry, it is essential to quickly detect abnormalities from surveillance camera footage and respond accordingly. This is particularly important in areas with low foot traffic or places that are prone to blind spots, where real-time abnormal detection is crucial. Delays in detecting abnormalities can lead to the occurrence of crimes or the escalation of damage. The KIWI310 is an ideal embedded PC for building an AI-powered abnormal detection system. 【Use Cases】 - Detection of suspicious behavior from surveillance camera footage - Detection of unauthorized intrusions or suspicious objects - Abnormal detection through crowd flow analysis 【Benefits of Implementation】 - Rapid response through real-time abnormal detection - Reduction of crime occurrence risks - Increased efficiency of security systems

• Industrial PCs

In the energy industry, particularly in power monitoring systems, real-time data collection and analysis are required. High reliability and energy-saving performance are also important for the stable operation of the system. To achieve anomaly detection and efficient power supply, a compact and high-performance embedded PC is essential. The KIWI310 has been designed to meet these needs. 【Usage Scenarios】 - Power meter monitoring - Remote monitoring of power plants - Anomaly detection in transmission networks 【Benefits of Implementation】 - Improved flexibility in installation locations due to space-saving design - Reduced operational costs due to low power consumption - Enhanced monitoring efficiency through real-time data processing

• Industrial PCs

In the field of operation management, real-time data processing and accurate vehicle location tracking are required. Especially in areas with heavy traffic or during operations in bad weather, system stability and high processing capability are crucial. Inadequate systems can lead to delays and accidents. KIWI310 is suitable for AI and IoT applications and, due to its compact design, does not require specific installation locations. 【Usage Scenarios】 - Management of operation status for buses and trucks - Real-time location tracking - Traffic signal control systems 【Benefits of Implementation】 - Efficient collection and analysis of operation data - Cost reduction through optimization of operations - Space-saving due to system miniaturization

• Industrial PCs

In the retail industry, it is important to analyze customer purchasing behavior and implement optimal product displays and promotions. To analyze customer data in real-time and utilize it for sales strategies, a high-performance and space-saving PC is required. The KIWI310, with its compact design, is equipped with an Intel® Celeron® Processor N3350 and supports Windows, Linux, and Android operating systems, making it flexible for various customer analysis systems. 【Usage Scenarios】 - Customer behavior analysis in stores - Sales analysis linked with POS data - Integration with digital signage 【Benefits of Implementation】 - Product proposals tailored to customer needs - Increased sales - Improved customer satisfaction

• Industrial PCs

In the logistics industry, inventory management requires real-time data collection and rapid processing. In particular, tracking items within the warehouse and streamlining inbound and outbound management are essential for cost reduction and improving customer satisfaction. Delays in system integration and data inaccuracies can lead to shipping errors and stock shortages, potentially decreasing operational efficiency. The KIWI310 addresses these challenges with its compact design and high processing capability. 【Usage Scenarios】 - Inventory management system within the warehouse - Inbound and outbound management system - Integration with handheld terminals 【Benefits of Implementation】 - Real-time updates of inventory data - Significant improvement in operational efficiency - Reduction of human errors

• Industrial PCs

In the agricultural sector, accurate understanding of growth conditions is essential to maximize yields and improve quality. Especially in the context of increasing risks from climate change and pests, timely responses based on real-time data analysis are crucial. The KIWI310 is an ideal embedded PC for an AI-powered growth prediction system. 【Usage Scenarios】 - Data collection from various sensors installed in the fields - Growth predictions through AI analysis of the collected data - Optimization of watering and fertilization based on prediction results 【Benefits of Implementation】 - Improvement in yield and quality through visualization of growth conditions - Reduction of excess or insufficient water and fertilizer, leading to cost savings - Early response to abnormal weather and pest outbreaks

• Industrial PCs

In the field of medical imaging analysis, high-precision image processing and real-time data analysis are required. Particularly in medical image diagnostics, rapid and accurate analysis is essential, and the processing capability influences the quality of diagnosis. Compact and high-performance embedded PCs are necessary to balance installation in limited spaces with advanced image processing capabilities. The KIWI310 was developed to meet these needs. 【Usage Scenarios】 - Medical image diagnostic systems - Endoscopic image analysis - Pathological image analysis - X-ray image analysis - CT/MRI image analysis 【Benefits of Implementation】 - High-speed processing of high-resolution images - Real-time data analysis - Flexibility in installation locations due to space-saving design - Reduction in operational costs due to low power consumption

• Industrial PCs

In the quality inspection process of the manufacturing industry, accurate data collection and rapid analysis are required to ensure product reliability. Especially as manufacturing lines become faster, it is crucial to grasp real-time inspection results and detect anomalies early. Delays in inspection data or errors in analysis can lead to the outflow of defective products and a decrease in production efficiency. The KIWI310, with its compact design and high processing capability, enables rapid data collection, analysis, and result display in quality inspections. 【Usage Scenarios】 - Inspection of products on the manufacturing line - Real-time collection and analysis of inspection data - Appearance inspection through image processing 【Benefits of Implementation】 - Reduction in inspection time - Early detection of defective products - Improvement in production efficiency

• Industrial PCs

In the machine tool industry, high processing accuracy is required. In particular, pressure control in hydraulic systems greatly affects processing accuracy. Failures of pressure sensors or low-accuracy measurements can lead to the occurrence of defective products or machine stoppages. Our automotive pressure sensors achieve high-precision pressure measurements and contribute to the stable operation of machine tools. 【Application Scenarios】 - Hydraulic presses - Cutting machines - Grinding machines 【Benefits of Implementation】 - Improved processing accuracy - Reduced defect rate - Stable operation of machines

• Sensors

In the robotics industry, force sensing is essential for robots to safely interact with their surrounding environment. Particularly when handling precise tasks or complex-shaped objects, accurate force detection is required. Inaccurate force sensing can lead to loss of control or damage to the robot. Our automotive pressure sensors enhance the force sensing performance of robots through high-precision pressure measurements. [Use Cases] - Control of gripping force in robotic arms - Adjustment of force in polishing and assembly tasks - Walking and motion control of humanoid robots [Benefits of Implementation] - Increased efficiency of tasks through high-precision force sensing - Improved safety of robots - Adaptability to various applications

• Sensors

In the construction machinery industry, precise control of heavy objects is required. In particular, accurate measurement of pressure in hydraulic systems is essential for the safe operation of machinery and efficient work. Inaccurate pressure measurements can lead to failures due to overload and decreased work efficiency. Our automotive pressure sensors achieve high-precision pressure measurement and support weight control in construction machinery. 【Application Scenarios】 - Hydraulic systems in hydraulic excavators, cranes, bulldozers, etc. - Lifting, moving, and controlling heavy objects - Safety management at construction sites 【Benefits of Implementation】 - Improved safety through high-precision pressure measurement - Efficient control of hydraulic systems - Reduced risk of machinery failure

• Sensors

In the aviation industry's hydraulic control systems, safety and reliability are the top priorities. Accurate pressure measurement in hydraulic systems is essential for ensuring flight stability and maneuverability, and high-precision pressure sensors are required to detect system anomalies early and prevent accidents. Our pressure sensors, which utilize Kulite's Leadless technology, are resistant to vibration and demonstrate high reliability even in the harsh environments of aircraft. We also offer models with built-in amplifiers and digital correction options, providing optimal solutions tailored to our customers' needs. 【Application Scenarios】 - Aircraft hydraulic brake systems - Hydraulic actuator control - Engine hydraulic systems 【Benefits of Implementation】 - Improved system stability through high-precision pressure measurement - High reliability due to vibration-resistant design - Flexible response with a variety of pressure ranges and output options

• Sensors

In the railway industry, emergency stop systems are essential for ensuring passenger safety. The accurate operation of the braking system during an emergency stop is directly linked to accident avoidance. Failures or malfunctions of pressure sensors can lead to a decrease in braking performance, potentially resulting in serious accidents. Our automotive pressure sensors are used in braking systems and are suitable for applications that require high reliability and precision. 【Usage Scenarios】 - Emergency stop systems for railway vehicles - Pressure monitoring in braking systems 【Benefits of Implementation】 - Improved braking performance during emergency stops - Enhanced system reliability - Increased safety

• Sensors

In truck air brake systems, ensuring safety is the top priority. The precise operation of brakes is directly linked to the vehicle's stopping distance and stability, making it essential for reducing the risk of accidents. A failure in pressure sensors can lead to a decline in brake performance, potentially resulting in serious accidents. Our automotive pressure sensors enable accurate pressure control in air brake systems, supporting safe operation. 【Application Scenarios】 - Air brake systems - Hydraulic systems 【Benefits of Implementation】 - Improved reliability of brake systems - Enhanced safety - Reduced maintenance costs

• Sensors

In the automotive industry, the reliability of brake systems is a crucial factor directly linked to safety. Brake systems require accurate pressure measurement, and durability under harsh conditions is also essential. Failure of pressure sensors can lead to a decrease in braking performance, potentially resulting in serious accidents. Our automotive pressure sensors utilize Kulite's Leadless technology, providing resistance to vibration and achieving high-precision measurements. 【Application Scenarios】 - Brake systems - Hydraulic systems 【Benefits of Implementation】 - Optimization of braking performance through high-precision pressure measurement - Improved durability due to vibration-resistant design - Enhanced safety

• Sensors

In the hydraulic excavator industry, precise pressure control of hydraulic systems is essential to ensure both efficiency and safety in excavation work. Particularly in harsh environments, the durability and reliability of pressure sensors are crucial. Inaccurate pressure measurements can lead to reduced digging force and potential failures in the hydraulic system. Our automotive pressure sensors contribute to pressure measurement in the hydraulic systems of hydraulic excavators. [Usage Scenarios] - Hydraulic systems of hydraulic excavators - Hydraulic control in excavation work [Benefits of Implementation] - Optimization of digging force through accurate pressure measurement - Reduced risk of hydraulic system failures - Improved work efficiency

• Sensors

In the railway industry, the performance evaluation of wheel bearings is essential for maintaining safety and operational efficiency. Accurately understanding the condition of bearings under high-speed rotation leads to early anomaly detection and optimization of maintenance planning, ultimately reducing the risk of accidents. Our telemetry for data measurement of high-speed rotating bodies addresses this challenge. 【Usage Scenarios】 - Monitoring the rotational state of wheel bearings - Measuring temperature and strain inside the bearings - Conducting running tests of railway vehicles 【Benefits of Implementation】 - Early detection of bearing anomalies to prevent accidents - Reduction of maintenance costs - Improvement of vehicle safety

• Electrical Instruments/Electrometers

In the gas turbine industry, accurately understanding the condition of rotating bodies is crucial for efficient operation and ensuring safety. In particular, measuring distortion and vibration under high temperature and high pressure is essential for evaluating the performance and improving the reliability of gas turbines. Inaccurate data measurements can lead to equipment failure or performance degradation. Our telemetry for high-speed rotating body data measurement is compact and lightweight, yet achieves high-precision data measurement, enabling real-time monitoring of the gas turbine's condition. [Usage Scenarios] - Performance evaluation of gas turbines - Measurement of distortion and vibration of rotating bodies - Data measurement in high temperature and high pressure environments [Benefits of Implementation] - Efficient operation of gas turbines - Reduced risk of equipment failure - Improved accuracy of performance evaluation

• Electrical Instruments/Electrometers

In the machine tool industry, spindle condition management is essential for maintaining product quality and improving production efficiency. Abnormalities in the spindle can reduce machining accuracy and, in the worst case, lead to machine stoppage. Our telemetry for high-speed rotating bodies accurately measures the spindle's rotational state and detects abnormalities early, addressing these challenges. 【Usage Scenarios】 - Monitoring spindle vibration and temperature - Measuring load during machining - Detecting spindle abnormalities 【Benefits of Implementation】 - Reducing the risk of spindle failure - Stabilizing machining accuracy - Reducing maintenance costs

• Electrical Instruments/Electrometers

In the wind power generation industry, it is important to detect abnormalities in blades early and ensure safety. Accurate measurement of blade distortion and vibration is required to prevent failures before they occur. Our telemetry for high-speed rotating bodies enables high-precision data measurement even while the blades are rotating. 【Use Cases】 - Measurement of wind turbine blade distortion - Measurement of blade vibration - Evaluation of blade performance 【Benefits of Implementation】 - Early detection of blade abnormalities - Reduction of maintenance costs - Improvement of power generation efficiency

• Electrical Instruments/Electrometers

In the aerospace industry, turbine monitoring is crucial for evaluating turbine performance and ensuring safety. It is essential to accurately measure data such as distortion and temperature changes under high-speed rotation and to detect anomalies early. Inaccurate data measurement can lead to turbine failures or accidents. Our telemetry for high-speed rotating bodies is compact and lightweight while achieving high-precision data measurement, enabling real-time monitoring of turbine conditions. 【Use Cases】 - Measurement of turbine distortion - Measurement of turbine temperature - Measurement of turbine vibration 【Benefits of Implementation】 - Early detection of turbine anomalies - Improved evaluation of turbine performance - Enhanced safety

• Electrical Instruments/Electrometers

In the automotive industry, engine analysis requires the accurate measurement of data such as distortion and vibration of rotating bodies to evaluate engine performance and improve reliability. Particularly, data measurement at high rotational speeds plays a crucial role in engine design and enhancement. Traditional measurement methods often limit measurement flexibility due to wiring and installation constraints. Our telemetry for high-speed rotating body data measurement enables measurements in confined spaces, such as inside the engine, thanks to its compact and lightweight design. 【Application Scenarios】 - Measurement of distortion inside the engine - Analysis of crankshaft rotation - Measurement of turbine vibration 【Benefits of Implementation】 - Improved engine performance evaluation through high-precision data acquisition - Enhanced measurement flexibility due to compact and lightweight design - Realization of data measurement in harsh environments

• Electrical Instruments/Electrometers

In the shipbuilding industry, safety is the top priority for hydrogen storage. Hydrogen is highly flammable, and the risk of explosion due to leaks must always be considered. Accurate monitoring of pressure is essential for safe hydrogen storage, as it is crucial for early detection of abnormal pressure increases to prevent accidents. Our hydrogen-compatible explosion-proof pressure sensors have obtained explosion-proof certifications from JPEx, ATEX, IECEx, and EAC, making them suitable for use in hazardous areas. They are ideal for monitoring the pressure of hydrogen storage tanks. 【Application Scenarios】 - Hydrogen storage tanks - Hydrogen supply systems - Hydrogen fuel cell systems 【Benefits of Implementation】 - Reduces the risk of hydrogen leaks - Enhances plant safety - Ensures compliance with regulations

• Pressure

In hydrogen-related experiments at research institutions, safety is the top priority. Hydrogen is highly flammable and poses risks of leakage and explosion. Therefore, pressure sensors that meet high safety standards are essential in the experimental environment. Our hydrogen-compatible explosion-proof pressure sensors have obtained explosion-proof certification, ensuring safety in hydrogen experiments. 【Application Scenarios】 - Pressure measurement of hydrogen gas generation devices - Research and development of fuel cells - Pressure monitoring of hydrogen storage tanks 【Benefits of Implementation】 - Reduced risk of explosion during experiments - Improved reliability of research data - Ensured safety for researchers

• Pressure

In automotive fuel cell systems, it is important to detect hydrogen gas leaks and ensure safety. In particular, accurate pressure measurement of hydrogen gas in high-pressure environments is essential for balancing system efficiency and safety. Inadequate pressure measurement can lead to decreased system performance and, in the worst case, explosion incidents. Our hydrogen-compatible explosion-proof pressure sensors have obtained explosion-proof certifications from JPEx, ATEX, IECEx, and EAC, supporting the safe operation of fuel cell systems. 【Application Scenarios】 - Fuel Cell Vehicles (FCV) - Hydrogen Stations - Hydrogen Production Plants 【Benefits of Implementation】 - Reduced risk of hydrogen leaks - Improved system safety - High reliability and durability

• Pressure

In the aerospace industry, fuel-related applications require high safety and reliability. Particularly in systems using hydrogen fuel, it is crucial to minimize the risks of leakage and explosion. Accurate pressure measurement is essential for optimizing fuel supply and ensuring system safety. Our hydrogen-compatible explosion-proof pressure sensors address these challenges and support safe and efficient operations. 【Usage Scenarios】 * Hydrogen fuel supply systems * Rocket engines * Aircraft fuel systems 【Benefits of Implementation】 * High safety achieved through explosion-proof certification * System optimization through accurate pressure measurement * Compatibility with hydrogen applications

• Pressure

In the power generation industry, with the expansion of hydrogen energy utilization, managing the risk of hydrogen leakage and ensuring safety have become the most important issues. In particular, hydrogen is highly flammable, and leakage can lead to explosive accidents that may cause significant damage. Therefore, in power plants, pressure sensors with high reliability and safety are essential for monitoring the pressure of hydrogen equipment. Our hydrogen-compatible explosion-proof pressure sensors have obtained explosion-proof certifications such as JPEx, ATEX, IECEx, and EAC, making them suitable for use in hazardous areas. They help reduce the risk of hydrogen leakage and support the safe operation of power plants. 【Application Scenarios】 - Hydrogen stations - Hydrogen storage tanks - Fuel cell systems - Hydrogen production plants 【Benefits of Implementation】 - Reduced risk of hydrogen leakage - Improved safety of the plant - Compliance with regulations - Stable operation of equipment

• Pressure

In the semiconductor industry, gas leakage and pressure anomalies in gas supply systems can have a significant impact on the manufacturing process. Particularly in processes that use high-purity gases, accurate monitoring and control of pressure are essential. Our explosion-proof pressure sensors address these challenges and support safe gas supply. 【Application Scenarios】 - Gas supply lines in semiconductor manufacturing plants - Manufacturing processes that use high-pressure gases - Pressure measurement in hazardous areas 【Benefits of Implementation】 - Reduced risk of gas leakage - Stabilization of the manufacturing process - Improved safety

• Pressure

In the steel industry, accurate pressure measurement under high temperature and high pressure conditions is essential. In particular, leaks of hydrogen gas or flammable gases pose a significant risk of serious accidents. Our hydrogen-compatible explosion-proof pressure sensors have obtained explosion-proof certification, allowing for use in hazardous areas. This ensures safety while achieving precise pressure measurement. 【Application Scenarios】 - Pressure monitoring in steelmaking processes such as blast furnaces, converters, and sintering furnaces - Pressure measurement at hydrogen stations and hydrogen production plants 【Benefits of Implementation】 - Explosion-proof performance ensures a safe operating environment - Wide measurement range accommodates various processes - High-precision measurements improve quality control

• Pressure

At hydrogen stations, accurate measurement and control of pressure are essential for safe hydrogen refueling. In particular, precise pressure measurement in high-pressure environments is crucial for the efficient operation and safety of the station. Inaccurate pressure measurements can lead to overfilling or underfilling, potentially causing equipment damage and safety risks. Our hydrogen-compatible explosion-proof pressure sensors are ideal for refueling control at hydrogen stations. 【Usage Scenarios】 - Refueling process at hydrogen stations - Pressure monitoring of hydrogen storage tanks - Pressure control of hydrogen supply lines 【Benefits of Implementation】 - Realization of safe hydrogen refueling - Efficient operation of the station - Protection of equipment

• Pressure