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Measurement techniques Product List and Ranking from 7 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.

Measurement techniques Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.

  1. 日立情報通信エンジニアリング Kanagawa//IT/Telecommunications
  2. 大塚産業マテリアル Shiga//Automobiles and Transportation Equipment
  3. 焼津精機 Shizuoka//Industrial Machinery
  4. KELLER Pressure Japan 日本支社 Tokyo//Machine elements and parts
  5. フォトンプローブ Saitama//others

Measurement techniques Product ranking

Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.

  1. Microcurrent measurement technology 日立情報通信エンジニアリング
  2. Technical Information: Three-Dimensional Measurement Technology 大塚産業マテリアル
  3. Pressure measurement technology using piezoresistive sensors KELLER Pressure Japan 日本支社
  4. High-end ultra-precision processing, assembly, and measurement technology from semiconductors to aerospace. 焼津精機
  5. Technical Q&A on Optical Measurement and Light Measurement フォトンプローブ

Measurement techniques Product List

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Technical Q&A on Optical Measurement and Light Measurement

[Technical Data Presentation] Questions and Answers regarding optical measurement and light measurement are published!

This document is a technical material published by Photon Probe Co., Ltd., which manufactures and sells optical measurement instruments and components, and provides consulting related to optical measurement. It presents technology related to optical measurement and optical testing in a Q&A format. Questions such as "What is relative measurement?" and "How can we suppress fluctuations in the optical beam?" are addressed regarding optical measurement and testing. [Contents] ■ What is relative measurement? ■ How to configure optical circuits? ■ What are the criteria for selecting optical components? ■ How to suppress fluctuations in the optical beam? *For more details, please refer to the PDF document or feel free to contact us.

  • Optical Measuring Instruments
  • Other measurement, recording and measuring instruments

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Technical Information: Three-Dimensional Measurement Technology

Achieving flexible and accurate design! Utilizing 3D scanners to make design changes on the data.

We would like to introduce our technology, "3D Measurement Technology." It is not uncommon to be asked for design changes during the development and prototyping stages. Our company utilizes 3D scanners to make design changes directly on the data. This allows for a more accurate verification of mold differences and enables comparisons with molds prior to design changes. 【Features】 ■ Achieves flexible and accurate design ■ Allows for more precise verification of mold differences ■ Enables comparison with molds before design changes *For more details, please refer to the related links or feel free to contact us.

  • 3D measuring device

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Microcurrent measurement technology

We provide picoampere-level microcurrent measurement technology and board design (circuit/PCB design)!

In the field of biotechnology, which deals with molecular levels and IoT devices such as wearables, there is a demand for technology that can accurately measure microcurrents in the picoampere (pA) range. Hitachi Information and Communication Engineering provides technology that makes it easy to measure microcurrents. By considering noise in the substrate design and adopting noise shielding up to the measurement target, we have made it possible to measure in the picoampere (pA) range. 【Features】 - Technology that allows for easy measurement of microcurrents - Consulting for creating measurement environments tailored to the measurement target - Noise design for the entire measurement system - Equipped with a unique correction circuit for temperature compensation - High-speed operation circuits reduce measurement stabilization time *For more details, please refer to the PDF document or feel free to contact us.

  • Contract measurement

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On-site EL measurement technology

Evaluate the performance of solar cells! Detect defects that cannot be found through visual inspection or thermal cameras.

"On-site EL measurement technology" is a technique that allows for the immediate identification of abnormalities in solar cells. By combining it with visual inspections, I-V measurements, and inspections using thermal cameras, it enables more effective and accurate detection of solar cell defects. By capturing defects that cause a decrease in power generation, it allows for the evaluation of solar cell performance. Additionally, through simulations, it can estimate lost profits, enabling the assessment of asset value based on not only past power generation performance but also projected future sales revenue. [Features] - Confirms defects in solar cells and guarantees construction quality - Maximizes the power generation capacity of the solar power plant from the time of completion - By combining with visual inspections, I-V measurements, and inspections using thermal cameras, it enables more effective and accurate detection of solar cell defects *For more details, please refer to the PDF document or feel free to contact us.

  • Solar power generator
  • others

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Shrewd Design Co., Ltd. | 3D Design and Measurement Technology

Turning customers' ideals into shape with 3D scanning and mechanical design.

Shrewd Design Co., Ltd. was founded in 2014. Based in Kyoto City, it is an engineering company engaged in mechanical design, 3D solutions, and software development. To meet the needs of the field, such as "I want to automate tasks," "I want to miniaturize equipment," and "I want to add new functions to this machine," we provide consistent support from design to implementation. In particular, we leverage our 3D scanning measurement services and point cloud data analysis technology through non-contact measurement to construct digital twins based on information obtained from laser scans and 360-degree cameras. We can acquire and utilize 3D data from the entire factory down to precision parts. 【Business Activities】 - Design, modification, and partial design of various machines - Analysis and proposals utilizing 3D models and point cloud data - Development of control software - Creation of presentation materials and design drawings - Support for collaborative development with robots and drones With our extensive design experience and advanced measurement technology, we realize our customers' visions. *For more details, please refer to our catalog or feel free to contact us.

  • Mechanical Design
  • Circuit board design and manufacturing
  • Mold Design

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High-end ultra-precision processing, assembly, and measurement technology from semiconductors to aerospace.

Micrometer order is our standard. From semiconductors to aerospace, high-end ultra-precision processing, assembly, and measurement.

For high-precision machining We actively introduce state-of-the-art machining equipment, including YASUDA's 5-axis horizontal machining center, which boasts overwhelming machining precision, as well as machines from Mitsui Seiki and DMG Mori Seiki. We have also equipped machines with a "body temperature control device" to prevent thermal deformation of the body due to temperature changes, establishing an extremely stable high-precision machining system that can meet the high demand levels from advanced industrial sectors. For ultra-precision assembly We perform ultra-precision assembly in a Class 1000 cleanroom environment. For short delivery times We have introduced numerous machining centers equipped with APC, led by machines with 8-pallet capacity. Combined with uniquely designed jigs optimized for the workpieces and processes, we have achieved full-time unmanned operation during nighttime, establishing a high production system that enables flexible delivery responses. *For more details, please download our catalog or feel free to contact us.

  • Processing Contract
  • Other processing machines
  • Other machine elements

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Pressure measurement technology using piezoresistive sensors

What is piezoresistance? Why is this technology used for pressure measurement?

The basic principle of piezoresistive pressure measurement is the same as that of resistive pressure measurement, which captures changes in resistance. However, what are the advantages of using piezoresistive elements? This also explains not only the benefits of piezoresistive technology but also the aspects to be cautious about. Download materials from the related catalog!

  • Pressure

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