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Sensors Product List and Ranking from 1360 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

Sensors Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. null/null
  2. インタコンポ 東京本社、大阪支店、長野支店、横浜事業所 Tokyo//Trading company/Wholesale
  3. プレシテック・ジャパン Tokyo//Testing, Analysis and Measurement
  4. 4 因幡電機産業 産機カンパニー Osaka//Trading company/Wholesale
  5. 5 中山水熱工業 Mie//Service Industry

Sensors Product ranking

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. All-in-one Smart 3D Sensor "Gocator" 因幡電機産業 産機カンパニー
  2. 3D Line Sensor CHROCODILE CLS2 Series プレシテック・ジャパン
  3. Clamp-on flow sensor "FD-H series"
  4. 4 Wireless sensor for automatic distribution of vibration data, suitable for PLC and IoT integration. 中山水熱工業
  5. 5 AI-equipped image sensor 'IV4 Series'

Sensors Product List

7231~7260 item / All 7639 items

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Optical Speed Sensor for Wind Power Generation - Model 152 G7-E

Ideal for measuring the rotation of wind turbine blades. High precision and high durability speed sensor.

In the wind power generation industry, it is essential to accurately measure the rotation speed of blades to achieve both efficient power generation and safe operation. Particularly, measuring the rotation of blades in strong winds or harsh environments requires a balance between sensor durability and accuracy. Inaccurate measurements can lead to decreased power generation efficiency and potential damage to the blades. Our optical speed sensor 152 G7-E for rotation measurement utilizes fiber optic technology to achieve high-precision rotation measurement, contributing to the efficiency of wind power generation. 【Usage Scenarios】 - Monitoring the rotation speed of wind power generation blades - Maintenance of wind power plants 【Benefits of Implementation】 - Accurately grasping the rotation speed of blades to optimize power generation efficiency - Early detection of abnormal rotation to prevent accidents before they occur.

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Optical Speed Sensor for Aerospace Applications

Ideal for thrust measurement. Compact and high-precision optical speed sensor.

In the aerospace industry, thrust measurement requires high precision and reliability. Thrust is a crucial factor in evaluating aircraft performance, and accurate data is essential. Measurement errors can lead to incorrect performance evaluations and, in the worst case, accidents. Our optical speed sensor is compact and highly accurate, supporting the acquisition of precise data in thrust measurements. 【Application Scenarios】 - Thrust measurement of rocket engines - Thrust measurement of aircraft engines - Thrust measurement in wind tunnel experiments 【Benefits of Implementation】 - Acquisition of high-precision thrust data - Improvement in engine performance evaluation - Enhanced reliability of experimental data

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Optical speed sensor for machine tools

For managing the rotation speed of machinery. High-precision optical speed sensor.

In the machine tool industry, precise management of rotational speed is essential for improving machining accuracy and production efficiency. Particularly in high-speed rotating machine tools, even slight deviations in rotational speed can significantly impact product quality and machine lifespan. The optical speed sensor 152M-1MHz/OPTEL TEXYS, with its 1MHz switching frequency and high-precision measurement capability, allows for accurate monitoring of the rotational speed of machine tools, enabling optimal control. 【Application Scenarios】 - Management of spindle rotational speed in machine tools - Monitoring of rotational speed in grinding machines, milling machines, lathes, etc. - Detection of abnormalities in machine tools 【Benefits of Implementation】 - Improvement in machining accuracy - Stabilization of product quality - Extension of machine lifespan - Enhancement of production efficiency

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Optical Speed Sensor for Spinning Measurement 152 G7

Capture the "invisible changes" of high-speed rotation with certainty.

In the spinning industry, accurate measurement of factors such as the rotation speed of spinning machines and the tension of yarn is essential to balance production efficiency and quality. Particularly in high-speed machinery, even minor fluctuations can significantly impact product quality. Inaccurate measurements can lead to yarn breakage and a decline in quality. The "152 G7" from Optel Texys is a non-contact ultra-high-speed rotational measurement sensor that uses fiber optic technology. With a wideband performance of up to 260kHz, it can accurately capture minute fluctuations in rotating bodies, allowing for precise monitoring of the spinning machine's rotational state. [Usage Scenarios] - Measurement of spinning machine rotation speed - Monitoring of yarn tension fluctuations - Quality control in production lines [Benefits of Implementation] - Improved production efficiency - Stabilization of quality - Reduction of defective products

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High-Resolution Capacitive Sensors for Precision Machinery D-050・D-100

Non-contact displacement sensor with a measurement range of up to 300µm and a resolution of 0.01nm.

In the field of precision machinery, high-precision displacement measurement at the nanometer level is required to enhance product performance and processing accuracy. Particularly in high-precision positioning, microfabrication, and precision measurement, it is crucial to accurately measure even slight changes in displacement. Insufficient measurement accuracy can lead to a decline in product quality and variations in equipment performance. The D-050 / D-100 is a high-resolution sensor that employs a capacitive method for non-contact displacement measurement. With a maximum resolution of 0.01nm, it enables precise displacement measurement at the nanoscale, contributing to high-precision position control in precision machinery and precision measurement systems. 【Application Scenarios】 - Precision positioning devices - Precision measurement instruments - Semiconductor manufacturing equipment - Nano positioning systems - Precision measurement in clean environments 【Benefits of Implementation】 - High-precision displacement measurement at the nanometer level - Reduced impact on the object being measured due to non-contact measurement - Realization of high-precision positioning control - High-precision feedback control in multi-axis systems

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D-510 Sub-Nanometer Resolution Capacitive Displacement Sensor for Research and Development

Achieving sub-nanometer resolution and a maximum bandwidth of 10 kHz for non-contact displacement measurement at the nano level.

In the field of research and development, there is a demand for the precise measurement of nanoscale minute displacements and vibrations. Particularly in research on nano-measurement and precision positioning, high-resolution and high-response sensors significantly influence experimental accuracy and reproducibility. The D-510 is a high-resolution sensor that employs a capacitive method for non-contact displacement measurement. With sub-nanometer resolution and a high bandwidth of up to 10 kHz, it enables the measurement of nano-level displacements and high-dynamics vibrations. It is ideal for high-precision measurements and nano-positioning control in research and development applications. 【Application Scenarios】 - Nano-positioning research - Material property evaluation - Precision vibration measurement - Nanometrology - Precision measurement instruments for research 【Benefits of Implementation】 - High-precision displacement measurement at the nano level - Reduced impact on samples due to non-contact measurement - Analysis of dynamic behavior through high-bandwidth measurement - Improved reproducibility and reliability of experimental data

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Honeywell Pressure Sensor HSC Series Digital Output

Our company will respond to your needs as a distributor for Honeywell.

Honeywell Pressure Sensor Trustability HSC Series High Precision ±1% Total Error Band Built-in Amplifier with Digital Output Enhanced by ASIC Long-term Stability Pressure Range from 1 psi to 150 psi (60 mbar to 10 bar) Power Supply 3.6 Vdc, 5.25 Vdc (maximum 6 Vdc) Compensation Temperature 0° to 50° Operating Temperature -20° to 85° Output 12 bits Supports DIP, SIP, and SMT mounting options Compact Package with Various Types of Packages and Port Options Available Liquid/Liquid Differential Pressure and Flow-through Type Port Connection (20PC) Compliant with RoHS Directive and WEEE Directive

  • Pressure Control
  • Pneumatic Equipment
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Honeywell Micro Pressure Sensor HSC Series Digital Output

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Honeywell Micro Pressure Sensor Trustability HSC Series High Precision ±1% Total Error Band Built-in Amplifier with Digital Output, Enhanced Output with ASIC Long-term Stability Pressure Range from ±2.5mbar to 40mbar (±1 inH2O to ±30 inH2O) Power Supply 3.3Vdc・5.0Vdc (Maximum 6Vdc) Compensation Temperature 0° to 50° Operating Temperature -20° to 85° Output 12 bits Supports DIP, SIP, and SMT Mounting Options Compact Package with Various Types of Packages and Port Options Available Liquid/Liquid Differential Pressure and Flow-through Type Port Connection (20PC) Compliant with RoHS Directive and WEEE Directive

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WiFi Wireless Data Logger MSR145W2D

Ultra-compact WiFi wireless & OLED panel capable of mounting "3-axis acceleration, temperature, humidity, atmospheric pressure, and light" sensors.

- Wireless (BT) & Organic EL Panel - Supports 5 sensors: 3-axis acceleration, temperature, humidity, pressure, and light, either built-in or external (wired connection) - Ultra-compact/lightweight: Minimum <57 x 35 x 17, approximately 27g>, waterproof (IP67) package available - Long-term measurement: Battery 260 or 900mAh The following external wired connection options are now available: - Flex connector (various Plug & Play sensor connections possible) - 4ch or 8ch analog input - K thermocouple connector - Hydraulic sensor Ideal for real-time monitoring.

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PICLIA Piezoelectric Wire Sensor for Robotics

High-sensitivity, high-speed response sensors that realize the tactile sense of robots.

In the field of robotics, it is important to accurately capture not only the precise motion control of robots but also the contact state with objects, the force applied during gripping, and the vibrations and shocks of mechanical components. In particular, high-sensitivity sensors that can detect slight changes in contact or operational anomalies are required in processes such as gripping, transporting, assembling, and inspecting. The PICLIA piezoelectric wire sensor, with its thin and flexible wire shape like a thread, can be easily installed on robot hands, arms, joints, curved surfaces, and in confined spaces, making it suitable for applications that capture changes in the robot's operational state, contact, and vibrations. This contributes to the stable operation of robots, improvement in work quality, and early detection of anomalies. 【Usage Scenarios】 - Detection of gripping state with robot hands: Captures contact pressure, slipping, and slight misalignment when grasping parts or workpieces, aiding in stable gripping actions. - Vibration monitoring of robot arms and joints: Used to understand operational anomalies, looseness of mechanisms, and load fluctuations. - Contact inspection and state monitoring during transport on manufacturing lines: Detects the presence or absence of contact with workpieces and impacts during transport, contributing to the reduction of defects in assembly and transport processes. - Contact detection by installation on robot exteriors and covers: Supports applications that capture contact, pressing, and vibrations as part of the exterior.

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PICLIA Piezoelectric Wire Sensor for Manufacturing Industry

High-sensitivity, high-speed response sensors that contribute to quality control and anomaly prediction in manufacturing sites.

In quality control of the manufacturing industry, it is important to detect product defects early and suppress the occurrence of defective products. In particular, there is a need for the ability to accurately capture vibrations and shocks in products and manufacturing lines to detect abnormalities. The PICLIA piezoelectric wire sensor is thin like a thread and can be installed in curved surfaces and narrow spaces, allowing for the monitoring of vibrations at various points along the manufacturing line. This contributes to the early detection of equipment abnormalities, product defects, and warning signs, thereby improving quality control. - Abnormality detection in machine tools Captures vibrations and shocks during the operation of lathes, milling machines, machining centers, etc., and detects early signs of spindle abnormalities, tool wear, misalignment, and looseness. - Quality inspection through vibration measurement of products Evaluates vibrations during product operation, resonance, response characteristics, etc., contributing to the detection of assembly defects and performance variations, and enhancing pre-shipment inspections. - Detection of unusual sounds in manufacturing lines Monitors abnormal sounds and minor vibrations from conveyors, pumps, motors, fans, etc., and utilizes this information for understanding early signs of equipment troubles and for preemptive actions before shutdowns. - Wear detection of molds and parts Captures changes in vibrations related to wear, chipping, misalignment, and fastening issues in molds, contributing to the stabilization of product quality and management of mold lifespan.

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[PICLIA Piezoelectric Wire Sensor for Medical Devices]

High-sensitivity sensing of biological signals. Compatible with ultra-thin devices and curved surfaces.

In the medical device industry, accurately capturing patients' biological information is crucial. To precisely measure weak signals such as heartbeats and breaths and to aid in diagnosis and treatment, highly sensitive and reliable sensors are required. The PICLIA piezoelectric wire sensor is thin like a thread and can adapt to curved surfaces, contributing to the integration and reliability assessment of various shaped medical device devices. 【Application Scenarios】 - Monitoring biological signals such as heart rate and respiration - Integration into wearable medical and healthcare devices Easily conforms to curved shapes along the human body, such as wrists, arms, chests, gloves, and clothing, making it suitable for vital sensing in wearable devices - Integration into surgical instruments and medical assistive devices Detects contact pressure, gripping force, vibrations, and subtle movements, aiding in operation assistance, condition monitoring, and device advancement - Use in environments requiring disinfection and sterilization Easily applicable to device designs that consider cleanliness and environmental resistance required in medical settings, and can also be deployed in peripheral devices that are reused 【Benefits of Implementation】 - Acquisition of highly sensitive biological signals - Contribution to miniaturization and weight reduction

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PICLIA Piezoelectric Wire Sensor for Home Appliances

Detects abnormal sounds in home appliances and contributes to improving product quality.

In the home appliance industry, product quality and safety are highly valued. Unusual noises are signs of product failure or abnormalities, and early detection is essential. The PICLIA piezoelectric wire sensor is as thin as a thread and can be installed in curved surfaces and narrow spaces, making it ideal for detecting unusual noises in various locations within home appliances. 【Usage Scenarios】 - Home appliances such as refrigerators, washing machines, and air conditioners - Detection of unusual noises from motors, fans, and compressors - Evaluation of unusual noises during the prototype stage of product development 【Benefits of Implementation】 - Improvement in product quality - Reduction of complaints through early detection of failures - Increased reliability of products

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PICLIA Piezoelectric Wire Sensor for Automobiles

Capturing the subtle vibrations of automotive components, contributing to condition monitoring and predictive maintenance.

In the automotive industry, it is important to capture changes in vibration, sound, and deformation occurring in onboard components during operation to detect signs of abnormalities early. Various components that make up a vehicle, such as motors, pumps, valves, bearings, piping, and seat mechanisms, can be affected by slight deterioration, looseness, or uneven wear, impacting performance and comfort. The PICLIA piezoelectric wire sensor, with its thin and flexible wire shape like a thread, can be easily installed on curved surfaces and in tight spaces, making it suitable for monitoring the condition of onboard components. By sensitively capturing minute vibrations and contact changes, it contributes to abnormal detection, quality assessment, and predictive maintenance of parts. 【Application Scenarios】 - Vibration monitoring of motors and drive system components Capturing minute vibration changes during rotation to identify signs of looseness and deterioration. - Condition monitoring of bearings, gears, and shafts Detecting wear and abnormal vibrations to optimize replacement timing. - Abnormal detection in pumps, valves, and piping systems Capturing vibrations and contact changes in fluid equipment to contribute to early detection of leaks, blockages, and operational failures. - Vibration monitoring of EV onboard components and electrical units Capturing micro-vibrations around battery packs and cooling system components for long-term reliability assessment. - Inspection of onboard components on manufacturing lines.

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PICLIA Piezoelectric Wire Sensor for Infrastructure

Early detection of abnormalities in infrastructure equipment. High-sensitivity, wide-band wire sensors.

In the infrastructure industry, it is important to detect equipment deterioration due to aging and environmental changes early to prevent accidents and long-term shutdowns. Structures such as bridges, tunnels, piping, and plant equipment are susceptible to aging, vibration loads, temperature changes, and external forces, and visual inspections alone may miss early signs of abnormalities. The PICLIA piezoelectric wire sensor, with its thin and flexible wire shape like a thread, can be easily installed on curved surfaces, narrow spaces, and around existing equipment, allowing it to sensitively capture changes in equipment vibrations, distortions, contact, and impacts. This contributes to the condition monitoring of infrastructure equipment, the detection of abnormal signs, and the optimization of maintenance plans. 【Usage Scenarios】 - Detection of leaks, blockages, and abnormal vibrations in piping and ducts Captures changes in vibration and contact sounds due to fluid anomalies, aiding in the early detection of water leaks, leaks, accumulation, and blockages. - Continuous condition monitoring of plant equipment Monitors operational vibrations of pumps, motors, valves, compressors, etc., to identify signs of loosening, wear, misalignment, and abnormal sounds. - Retrofitting sensing to existing structures Easily installed on equipment where drilling or major modifications are difficult, utilizing its ability to follow curved surfaces, enhancing monitoring of existing equipment. - Detection of abnormalities in tunnel inner walls and linings.

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PICLIA Piezoelectric Wire Sensor for Bridge Monitoring

Capturing the subtle vibrations of bridges over a wide area, contributing to the maintenance of structural integrity.

In the maintenance and management of bridges, it is important to continuously monitor changes in vibrations and deformations caused by traffic loads, wind, temperature fluctuations, and aging deterioration, and to detect signs of abnormalities at an early stage. In particular, areas such as the main girder, deck slab, and bearing sections are prone to accumulate subtle changes that are difficult to detect through visual inspections alone, necessitating regular condition monitoring to maintain the structural integrity. The PICLIA piezoelectric wire sensor, with its thin and flexible wire shape, can be easily installed on curved surfaces, narrow spaces, and existing structures, allowing for extensive sensing of vibrations, strains, and impacts occurring in bridges. This contributes to the monitoring of bridge conditions, the detection of deterioration signs, and the optimization of maintenance plans. [Usage Scenarios] - Detection of signs of cracking and corrosion: By continuously monitoring subtle changes in structures, it complements visual inspections and contributes to the early detection of abnormalities. - Monitoring behavior due to traffic loads: Records the effects of repeated loads from moving vehicles, aiding in understanding deterioration trends according to the usage environment. - Comparative evaluation before and after repairs: Compares changes in vibration characteristics before and after repairs or reinforcements, aiding in maintenance management decisions. - Retrofitting monitoring on existing bridges: Can be easily installed on curved surfaces and narrow spaces, useful for additional installations or enhanced inspections of existing infrastructure.

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[For Security] PICLIA Piezoelectric Wire Sensor

Quickly detect signs of intrusion and protect the safety of equipment and assets.

In the field of security, it is important to detect early signs of intrusion, contact, destruction, and vandalism against buildings, facilities, and critical assets. In particular, small vibrations or contact changes that are not visible can indicate abnormal behavior around fences, doors, windows, storage rooms, equipment enclosures, and surrounding facilities. The PICLIA piezoelectric wire sensor, with its thin and flexible wire shape like a thread, can be easily installed on curved surfaces, narrow spaces, and around existing equipment, allowing it to sensitively capture minute vibrations and changes in contact. This enables a wide range of security applications, including crime prevention, pest control, vandalism detection, and equipment protection. 【Usage Scenarios】 - Pest control for fences and barriers Capturing signs of contact, shaking, climbing over, or cutting of the fence to enhance perimeter security - Monitoring the opening and closing of doors, windows, and shutters - Monitoring the condition of storage rooms, lockers, and safes - Auxiliary security for warehouses, factories, and research facilities 【Benefits of Implementation】 - Early detection of signs of intrusion or contact - Contributing to the deterrence of illegal activities against equipment and assets - Easier to capture subtle changes that are difficult to notice visually - Easy to retrofit to existing equipment - Contributing to improved detection accuracy of security systems

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PICLIA Piezoelectric Wire Sensor for Structures

Invisible changes, to certain peace of mind. PICLIA wire sensor.

The PICLIA wire sensor is a highly sensitive device that detects minute vibrations and changes occurring in structures, continuously monitoring a wide range of conditions to capture signs of abnormalities at an early stage. It is designed with ease of installation and maintainability in mind, reducing operational burdens while being widely applicable for monitoring various structures such as bridges, tunnels, and buildings. It is a reliable monitoring solution that supports the safety and longevity of structures. 【Usage Scenarios】 - Vibration and displacement monitoring of bridges and elevated bridges - Understanding changes in the ground and body of tunnels and underground structures - Monitoring signs of deterioration in buildings and equipment foundations - Safety and behavior confirmation during construction and repair 【Benefits of Implementation】 - Real-time understanding of the condition of structures leads to early detection of abnormalities - Supports optimization of maintenance plans through improved accuracy of inspections and surveys - Contributes to reduction of manpower and costs through increased efficiency of monitoring tasks - Achieves longer lifespan and improved safety of structures through vigilant monitoring that does not overlook changes.

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PICLIA Piezoelectric Wire Sensor for Valves and Piping

Narrow, bendable, and embedable. Therefore, don't miss it. Detects vibrations with high sensitivity and fast response.

The PICLIA wire sensor is a piezoelectric wire-type sensor that can flexibly adapt to narrow spaces and curved surfaces where screw fastening or magnetic fixation is difficult. It can be easily integrated into areas such as the outer circumference of valves and piping, joints, and support sections, where traditional accelerometers are challenging to install, allowing for direct capture of vibrations and state changes in the vicinity. It is particularly effective for monitoring areas that have been difficult to grasp in the past, such as subtle vibrations associated with fluid passage, valve opening and closing operations, and abnormal signs in piping systems. This enables a more direct understanding of the internal conditions of piping and valves, contributing to early detection of anomalies and preventive maintenance. 【Usage Scenarios】 Monitoring vibrations and state changes by installing on the valve body or the outer circumference of piping. Embedded monitoring around piping and valves in narrow spaces or with curved shapes. Capturing subtle vibrations associated with fluid fluctuations and opening and closing operations. 【Benefits of Implementation】 By measuring near the source of vibration, it is easier to capture subtle changes before attenuation. It provides information closer to the internal conditions of piping and valves, contributing to improved accuracy in state assessment. It accommodates shapes where screw fastening or magnetic fixation is difficult, ensuring design flexibility. It captures signs of anomalies early, contributing to more efficient maintenance and reduced risk of equipment downtime.

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Human Detection Sensor / Energy-Saving Automatic Door Sensor 'HA-T401'

An automatic door sensor that opens only for people who want to enter without contact, whether on a busy street or in a narrow passage.

Energy-saving measures and infection control! Upgrade your facility environment with a non-contact light touch sensor! The 'HA-T401' can be configured to match the usage environment, allowing for touch area settings in four spots on the left, center, and right, as well as a total of 12 spots in four different configurations. You can open and close the automatic door just by bringing your hand close, ensuring hygiene and peace of mind without touching. When the light touch function is turned OFF, it can also be used as a wide-detection infrared sensor without a lens, and the ON/OFF status of the light touch function can be confirmed by the color of the standby LED. 【Features】 ■ Four spot settings to adapt to various door types ■ Non-contact solution for hygiene issues ■ Two setting modes that reduce unnecessary door openings and contribute to energy savings ■ Can also be used as a lens-free infrared sensor *For more details, please refer to the PDF document or feel free to contact us.

  • Sensors
  • Sensors
  • Sensors

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