All articles on "Developer Interview"

31 results found.
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CEATEC 2023

Supporting Decarbonization with “Underwater CO2 Sensor” and “Lightweight Heat Transfer Material Employing Biomass Materials”

In recent years, environmental performance supporting decarbonization or recycling has become an important consideration for consumers when choosing to purchase products or services. Murata Manufacturing has developed an “underwater CO2 sensor” that will help promote blue carbon transactions and a “lightweight heat transfer material employing biomass materials” for heat dissipation in automobiles, which are becoming “smarter.” Murata continues to press forward with efforts to boost the added value of products and businesses through technological innovation at the level of components and materials.

  • Developer Interview
  • Decarbonization
  • Recycling
  • Carbon neutrality
  • CO2 sensors
  • Bio
  • Material
  • Automotive

CEATEC 2023

Contributing to the Realization of Society 5.0 with “Proximity and Force Sensor” and “Invisible ID Tags”

The future of a society in which digital technology plays a major part in our everyday lives is upon us. there is demand for ever more sophisticated interface technology closely connecting humans and machines and technology linking things and data. Murata Manufacturing has developed a “proximity and force sensor” that paves the way toward innovations in human–machine interfaces (HMIs), and “invisible ID tags” that make it possible to append authentication information without reducing the attractiveness of the product design. Examples of both were revealed at CEATEC 2023.

  • Developer Interview
  • Digital twin
  • Sensors
  • HMI
  • Traceability
  • Brand protection

CEATEC 2023

“Ultrasound Transmission Metamaterial” that Expands the Range of Places where Ultrasonic Sensors Can Be Used to Include Medicine and Automobiles

Murata Manufacturing has developed a new “ultrasound transmission metamaterial” technology with the potential to expand the range of places where ultrasonic sensors can be used. Previous ultrasonic sensors were unable to measure target objects located on the other side of a barrier made of a material such as metal or resin. The new ultrasonic metamaterial eliminates these limitations on measurement and has the potential to spur innovation in a variety of areas such as medical, automotive, and social infrastructure.

  • Developer Interview
  • Ultrasonic Sensors
  • Medical
  • Automotive

“PIECLEX”, the Electricity-Generating Fibers: Untold Development Story (Applications and Outlook)

In the last issue “Technology and Challenges,” we introduced the advantages of PIECLEX, the inspiration behind its development, and the technical challenges on the road to productization. In this issue titled “Applications and Outlook,” we asked the developers about the potentials and future prospect of PIECLEX as well its social impact concerning the environmental issues.

  • Developer Interview
  • Antimicrobial
  • Carbon neutrality
  • Recycling
  • Piezoelectricity
  • Fibers

“PIECLEX”, the Electricity-Generating Fibers: Untold Development Story (Technology and Challenges)

“PIECLEX” is a type of fabric based on the completely new concept of “Stretch-driven Antimicrobial” that was developed by PIECLEX Co., Ltd., a company that was jointly launched by Murata Manufacturing and Teijin Frontier. We spoke with Mr. Shiomi and Mr. Takumi, two developers at PIECLEX, about the behind-the-scenes development of this new fabric. In this “Technology Explainer Section,” we introduce the advantages of PIECLEX, the inspiration behind its development, and the technical challenges on the road to productization.

  • Developer Interview
  • Antimicrobial
  • Carbon neutrality
  • Recycling
  • Piezoelectricity
  • Fibers

Building IIoT Systems to Serve as the Foundations of DX and GX with Beyond 5G/6G and More Advanced IoT Devices (Part 2)

Professor Nakao of the University of Tokyo and Murata Manufacturing discuss here the state of IIoT systems indispensable for implementing digital transformation (DX), which promotes the digitalization of operations and green transformation (GX) that aims for decarbonization. They also talk about the present and future of the technologies sought for that. We explain the technologies sought on the edge side in IIoT systems and the direction of the evolution of that.

  • IIoT
  • Developer Interview

Building IIoT Systems to Serve as the Foundations of DX and GX with Beyond 5G/6G and More Advanced IoT Devices (Part 1)

Professor Nakao of the University of Tokyo and Murata Manufacturing discuss here the state of IIoT systems indispensable for implementing for digital transformation (DX), which promotes the digitalization of operations and green transformation (GX) that aims for decarbonization. They also talk about the present and future of the technologies sought for that. We explain the technologies sought on the edge side (on-site) and the direction of the evolution of that focusing on the communications infrastructure indispensable for advanced data transmission in IIoT systems.

  • IIoT
  • Developer Interview

Murata Is Seeking Partners to begin discussions for a New Transparent and Bendable Conductive Film along with the Application of New Ideas to Open up the IoT Era (Technical Explanation)

Murata Manufacturing is now developing a new material with unprecedented strong points. This new material combines transparency, flexibility, conductivity, and safety. Furthermore, it realizes high workability to be able to easily draw circuit patterns and other elements with diverse methods. Murata is seeking partners to discuss with us the application of new ideas using this new material regardless of your business or industry.

  • Material
  • Developer Interview

Murata Is Seeking Partners to begin discussions for a New Transparent and Bendable Conductive Film along with the Application of New Ideas to Open up the IoT Era (Application Image)

Transparent and Bendable Conductive Film (tentative name) currently being developed by Murata Manufacturing combines transparency, flexibility, conductivity, and safety. It is also a material with excellent workability. This means it has great hidden potential to be applied. Unlocking those strong points makes it possible to produce innovative devices that have a high affinity with situations in life and society as sought in the IoT era.

  • Material
  • Developer Interview