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Sensors Product List and Ranking from 36 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

Sensors Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. エスエスシー Mie//Machine elements and parts
  3. 富士紡ホールディングス 近未来商品開発統括部 (BtoBサイト担当部門) Tokyo//fiber
  4. 4 Kistler Japan G.K. Head office Kanagawa//Testing, Analysis and Measurement
  5. 5 FCL Components Limited Head office Tokyo//Machine elements and parts
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Sensors Product ranking

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
This ranking is based on the number of page views on our site.

  1. (Module using infrared array sensor, active in temperature monitoring!) エスエスシー
  2. Fujibo "Piezoelectric Flexible Sensor" 富士紡ホールディングス 近未来商品開発統括部 (BtoBサイト担当部門)
  3. AI-equipped image sensor 'IV4 Series'
  4. 4 Clamp-on flow sensor "FD-H series"
  5. 5 Radar Level Sensor "FR Series"

Sensors Product List

7441~7455 item / All 7466 items

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You can tell the condition by listening to the sound!

You can tell the condition by listening to the sound!

Keywords: Acoustic Emission, Material Mechanics, Non-Destructive Testing, Fracture Analysis, Composite Materials, Biological Sounds, Frequency Analysis

Acoustic Emission (AE) technology is a non-destructive testing method that detects not only sounds from cracks, friction, and leaks within materials but also biological sounds, such as joint sounds. It is used in various fields including construction, civil engineering, manufacturing, medicine, and material evaluation. The AE method detects sounds (AE sounds) generated within materials using AE sensors installed on the surface, similar to the relationship between earthquakes and seismometers. Therefore, like earthquakes, information such as the location of AE sound generation, sound intensity, and sound frequency can be obtained from multiple seismometer data. The frequency characteristics of AE waveforms are said to represent the types of damage, and our laboratory conducts evaluations of damage accumulation behavior primarily focused on carbon fiber reinforced composites (CFRP). By interpreting the conditions under which damage occurs not only from a materials mechanics perspective but also from a thermodynamic perspective, we also perform residual life evaluations based on entropy assessment.

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Compact Raman spectrometer *Easily attachable to a microscope in 1 minute

Compact Raman spectrometer *Easily attachable to a microscope in 1 minute

The world's smallest class micro-Raman spectroscopic Raman sensor! Compatible with all microscopes regardless of the manufacturer!

The "RAMAN EYE" by Metasensing is one of the world's smallest micro-Raman spectroscopy sensors. It can be remotely operated using a smartphone and can also be controlled from local PCs such as Windows. It supports interactive sensor operation. Additionally, as a hybrid sensor for microscopes and processes, we offer products such as "fiber extension for inverted microscopes" and "probe accessories for process Raman." 【Features】 ■ Easy attachment to the microscope in 1 minute ■ Low price: starting from 4.5 million yen ■ Remote operation using a smartphone ■ One of the world's smallest micro-Raman spectroscopy sensors ■ Automatic analysis using generative AI *For more details, please download the PDF or feel free to contact us.

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  • Other microscopes

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[Evaluation Example] Culture Medium Components

[Evaluation Example] Culture Medium Components

Introduction of media component evaluation in glucose concentration measurement.

We would like to introduce a case study using non-destructive medium measurement. The basic medium composition in 1L of MRS agar medium is: Proteose peptone 10.0g, Yeast extract 4.0g, Glucose 20.0g, Potassium hydrogen phosphate 2.0g. In the case study collection, you can see the results of glucose concentration measurements. [Case Overview] ■ Medium Component: Glucose Concentration Measurement *For more details, please download the PDF or feel free to contact us.

  • Other measurement, recording and measuring instruments

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Compact Raman Spectroscopy Sensor "RamanEYE"

Compact Raman Spectroscopy Sensor "RamanEYE"

Instantly convert your microscope into a Raman device! World-class smallest Raman sensor! Compatible with all upright microscopes, regardless of the manufacturer!

We would like to introduce our plugin mini Raman device, "Raman EYE." It is equipped with functions for micro-Raman, process Raman, and portable Raman. It can be used in the field as it is battery-operated and can measure under ambient light. Additionally, we offer "Raman EYE Sensitive," "Raman EYE Pro," and "Raman EYE Scan," which differ in spectral resolution and detectors. 【Features】 ■ Hardware Features - Easy attachment to your microscope in just one minute - No modification of the microscope required ■ Software Features - Output of results using generative AI - Assistance in building large-scale databases *For more details, please download the PDF or feel free to contact us.

  • Other microscopes

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Attachment-type micro Raman sensor "Raman EYE Series"

Attachment-type micro Raman sensor "Raman EYE Series"

The world's smallest class micro-Raman sensor. Achieves low cost through miniaturization and optimized design. Easily attaches to existing microscopes.

The "Raman EYE series" is an attachable micro-Raman sensor that boasts one of the smallest sizes in the world, measuring W120×D95×H50mm (excluding some models). It features an attachable design that allows for easy installation on existing microscopes in about one minute, enabling high-sensitivity measurements using Raman spectroscopy without the need for dedicated equipment. Additionally, its compact and optimized design allows for a starting price of 4.5 million yen. 【Features】 ■ Achieves one of the smallest sizes in the world ■ Can be attached to various microscopes ■ Easy to introduce at a low price (from 4.5 million yen) ■ Remote operation using tablets or smartphones is possible ■ Can be connected to a materials analysis platform utilizing generative AI (sold separately) *You can view the evaluation case collection from "PDF Download." Please feel free to contact us for inquiries.

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IR-corrected 3 Megapixel MZ35X2142DPFIR-T

IR-corrected 3 Megapixel MZ35X2142DPFIR-T

The horizontal viewing angle is 23° to 0.67°! Introducing the electric zoom lens manufactured in Japan.

We would like to introduce our electric zoom lens, the 'IR-Corrected 3 Megapixel MZ35X2142DPFIR-T'. The image format is 2/3", with a focal length of 27-750mm and a C mount. The dimensions are 128.6mm × 125.6mm × 330.5mm, and the weight is 5000g. Please feel free to contact us if you have any inquiries. 【Specifications (Partial)】 ■ Image Format: 2/3" ■ Focal Length: 27-750mm ■ Aperture (F-value): F4.2 ■ Horizontal Field of View: 23° to 0.67° ■ Mount: C *For more details, please download the PDF or feel free to contact us.

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  • lens

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2 Megapixel with IR Correction 'HZ20X1225DPIR'

2 Megapixel with IR Correction 'HZ20X1225DPIR'

The focal length is 12-240mm! It is an electric zoom lens with an image format of 1/2".

We would like to introduce the IR-corrected 2-megapixel 'HZ20X1225DPIR' that we handle. The resolution is 2 Mega Pixels, with a horizontal angle of view ranging from 29.16° to 1.56°, and the mount is C. Please feel free to contact us if you have any inquiries. 【Specifications (partial)】 ■ Image format: 1/2" ■ Focal length: 12-240mm ■ Aperture (F-value): F2.5 ■ Horizontal angle of view: 29.16° to 1.56° ■ Mount: C *For more details, please download the PDF or feel free to contact us.

  • lens

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Compatible with large 1m workpieces: 'DLP-type 3D sensor'

Compatible with large 1m workpieces: 'DLP-type 3D sensor'

[Specification materials available] We provide technical know-how for image inspection and measurement, and we also support the in-house production of original 3D sensors.

The "DLP-type 3D sensor" is capable of inspecting the height of BGA components and the warping of disc paper, targeting semiconductors, circuit boards, and large products. We have numerous examples of delivering a complete set of hardware and software that enables 3D measurement using the above sensor. 【Custom Support Examples】 ■ Supports large workpieces of 1m x 1m ■ Supports high-speed measurement of 0.05 seconds (tact) ■ Adds 3D inspection to 2D inspection ■ Supports composite materials of resin and metal with varying brightness ■ Addresses blind spots with multiple projectors ■ Supports products in black color You can download a document summarizing the detailed specifications of the sensor from the link below. Please feel free to check it out.

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[Bartington] 3-axis magnetic field sensor 'Mag-03'

[Bartington] 3-axis magnetic field sensor 'Mag-03'

Various enclosures, power supplies, and data collection units are available! They are applied in a wide range of fields such as physics, bioelectromagnetics, geophysical exploration, and defense.

The "Mag-03" is a three-axis magnetic field sensor that is powered by any ±12V power supply and outputs three analog voltages in the form of 0 to ±10V, proportional to Bx, By, and Bz. These compact and high-performance flux gate sensors, equipped with integrated electronics, provide high-precision measurements of three-axis static and alternating magnetic fields. They are also applied in a wide range of fields, including physics, bioelectromagnetics, geophysical exploration, and defense. 【Features】 ■ Cylindrical, rectangular, unwrapped, two-part construction ■ Measurement range from ±70μT to ±1000μT ■ Bandwidth up to 3kHz *For more details, please download the PDF or feel free to contact us.

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Thermal flow sensor that visualizes the amount and direction of thermal energy.

Thermal flow sensor that visualizes the amount and direction of thermal energy.

Thermal design starts with the measurement of thermal energy! Toyota Motor's thermal flow sensor 'Energy flow'

The heat flow sensor is a device that can easily measure heat flux, which is essential for elucidating the mechanisms of temperature change. By converting the electromotive force generated according to the temperature difference between the front and back of the sensor into heat flow, this sensor can measure the "amount" and "direction" of thermal energy passing through its surface with high precision and rapid response. You can download documents summarizing each lineup and detailed specifications from the link below. For product specifications, pricing, and delivery times, please feel free to contact us through our official website. 【Features of Toyota Motor's heat flow sensor "Energy flow"】 ▼ Highly sensitive and responsive, capturing even slight heat flows (±10W/m2 and above) ▼ Thin at 0.25mm with low thermal resistance, flexible, and excellent in compressive load resistance ▼ No power supply or amplifier is needed; just measuring voltage is sufficient.

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Standard type (can only measure heat flow)

Standard type (can only measure heat flow)

Essential for aggressive thermal design! Toyota's in-house thermal flow sensor "Energy flow"

This is a heat flux sensor used by Toyota Motor Corporation in the field of car development. It can easily measure the "heat flux" necessary to elucidate the mechanisms of temperature change.

  • Thermometer
  • Sensors
  • Thermo-fluid analysis

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Technical Data: Product Specifications for the Thermal Flow Sensor "Energy Flow"

Technical Data: Product Specifications for the Thermal Flow Sensor "Energy Flow"

Not missing even the faintest fluctuations in heat! The secret of Toyota's highly sensitive thermal flow sensor "Energy flow" with low thermal resistance.

This document introduces the highly sensitive heat flow sensor "Energy flow," which is an essential item for the development of new thermal energy management systems. We will explain what heat flux is, the measurement principles and manufacturing technologies of Energy flow, and the strengths characterized by the product specifications. Measurement examples are also included, making it a recommended read for those facing challenges in areas such as wall penetration thermal evaluation in low-temperature environmental testing rooms and thermal performance evaluation of power ICs. [Contents] ■ What is heat flux? ■ Structure, measurement principles, and manufacturing methods of Toyota's heat flow sensor "Energy flow" ■ Product specifications and performance ■ Measurement application examples *For more details, please download the PDF or feel free to contact us.

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  • Energyflow製品概要.jpg
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  • Other thermal analysis and measurement equipment
  • Other semiconductors

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Quantify the performance of insulation and heat shielding with thermal flow sensors to differentiate from competitors!

Quantify the performance of insulation and heat shielding with thermal flow sensors to differentiate from competitors!

Can you promote that insulation performance with numbers? The key to comfort and energy savings is understanding heat flow!

The heat flow sensor provided by Toyota Motor Corporation cannot solely convey the thermal insulation performance of buildings and energy-saving items through temperature alone. The heat flow sensor enables the measurement of slight heat flows that are difficult to measure with conventional methods, contributing to more efficient thermal design. It is an ideal product for solving challenges in architecture, construction, and building materials that require data-driven improvements, such as evaluating the performance of insulation and heat shielding materials and identifying thermal losses in buildings. 【Usage Scenarios】 - Performance evaluation of insulation materials: Accurately assess the performance of existing insulation materials and newly developed insulation materials. - Investigation of building heat loss: Identify areas of heat loss in buildings and assist in renovation plans for energy conservation. - Design of new buildings: Conduct heat flow simulations during the design phase to achieve optimal insulation design. - Renovation of existing buildings: Evaluate the insulation performance after renovation and verify its effectiveness. 【Benefits of Implementation】 - Quantitative evaluation of insulation performance: Enables data-driven assessments, resulting in highly reliable outcomes. - Contribution to energy conservation: Identifying and reducing heat loss leads to a decrease in energy costs. - Efficiency in design and construction: Allows for design and construction based on accurate data.

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[Proposal by Toyota Motor Corporation] Heatstroke prevention measures for factories and offices against extreme heat!

[Proposal by Toyota Motor Corporation] Heatstroke prevention measures for factories and offices against extreme heat!

Would you like to create a simulation that predicts the cost-effectiveness of heat countermeasure items using heat flow sensors?

On June 1, 2025, with the revision of the Labor Safety and Health Regulations, measures against heat stroke in the workplace became mandatory. A cool and comfortable work environment not only prevents heat stroke but also directly contributes to increased productivity. While there are many heat-related and energy-saving items available, it can be difficult to determine which items to implement and how effective they will be. At Toyota Motor Corporation, we are developing a simulator that utilizes heat flow sensors to predict the cost-effectiveness of heat countermeasure items, working towards the establishment of a comfortable working environment. For specifications of the heat flow sensor "Energy flow," please download the catalog or feel free to contact us. We also welcome inquiries regarding details of heat countermeasure simulations.

  • Other Energy Saving

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Conducting the 'Thermal Design Online Seminar' (co-hosted with the Structural Planning Institute)

Conducting the 'Thermal Design Online Seminar' (co-hosted with the Structural Planning Institute)

An online seminar will be held on August 28 in collaboration with Toyota Motor Corporation and the Structural Planning Institute.

In this seminar, we will hear from a current designer at a parts manufacturer about "Key Points for Actual Measurements Using Thermocouples and Heat Flow Sensors," and we will introduce Toyota's high-sensitivity heat flow sensor "Energy Flow." Additionally, as a case study for verifying the discrepancies between actual measurements and analysis, we will present the thermal analysis of the heat flow sensor demonstration kit and its considerations. If you are working on verifying discrepancies between actual measurements and analysis, or if you are engaged in building technologies for thermal design, thermal analysis, and thermal measurements, we encourage you to take this opportunity to watch!

  • Other thermal analysis and measurement equipment

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