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Radio wave absorbing ceramics - List of Manufacturers, Suppliers, Companies and Products

Radio wave absorbing ceramics Product List

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Radio wave absorbing ceramics

Radio wave absorbing ceramics

Effective in the high-frequency band! Electromagnetic wave-absorbing ceramics suitable for long-term outdoor use.

We would like to introduce our "Radio Wave Absorbing Ceramics." It eliminates noise in the range of 20GHz to 100GHz, supporting high-speed, high-capacity communication. It is effective in the high-frequency band. Additionally, it is made of inorganic materials, making it resistant to heat, with no deformation or outgassing. 【Features】 ■ Effective in the high-frequency band ■ No aging changes ■ Heat-resistant due to inorganic materials *For more details, please refer to the PDF document or feel free to contact us.

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[Information] Electromagnetic Environment Supporting ICT Society with Wave Absorbers

[Information] Electromagnetic Environment Supporting ICT Society with Wave Absorbers

We will explain the design of a single-layer dielectric wave absorber using our products as an example!

This document is a feature article titled "Electromagnetic Environment Supporting ICT Society with Wave Absorbers," published in the August 2019 issue of "Industrial Materials" by Nikkan Kogyo Shimbun. Using our wave-absorbing ceramics designed for millimeter waves as a case study, we will introduce the design of one-layer dielectric wave absorbers. [Contents (Excerpt)] ■ Introduction ■ Material Systems ■ Manufacturing Methods ■ Design Theory ■ Measurement of Complex Relative Permittivity *For more details, please refer to the PDF document or feel free to contact us.

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[Problem Solving Case] Improvement of Wafer Noise Using Ceramics

[Problem Solving Case] Improvement of Wafer Noise Using Ceramics

Enabling accurate data measurement! Introducing case studies of problem-solving using ceramics.

Here is a case study of problem-solving using ceramics. When evaluating the characteristics of wafers, noise was generated, making it difficult to obtain accurate data, which became a problem. In response, we proposed custom processing with radio wave absorbing ceramics. We designed it to fit the wafer size, focusing on its hardness and the advantage of being usable in a vacuum environment. This helped mitigate noise and enabled accurate data measurement. [Case Study] - Proposed custom processing with radio wave absorbing ceramics - Designed to fit the wafer size - Mitigated noise and enabled accurate data measurement *For more details, please refer to the external link page or feel free to contact us.*

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