DEFORMATION AMOUNT DETECTION DEVICE

Organization Name

murata manufacturing co., ltd.

Inventor(s)

Masamichi Ando of Nagaokakyo-shi (JP)

Kenichi Mori of Nagaokakyo-shi (JP)

DEFORMATION AMOUNT DETECTION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240255282 titled 'DEFORMATION AMOUNT DETECTION DEVICE

Simplified Explanation: The patent application describes a system that uses elastic waves to transmit signals between electrodes and deformation portions.

• The system includes an input with a first electrode and a first deformation portion, and an output with a second electrode and a second deformation portion.
• A transmission portion facilitates the transmission of elastic waves between the deformation portions and electrodes.
• When an input signal is applied to the first electrode, it deforms the first portion to generate an elastic wave.
• The transmission portion then transmits this wave to the second deformation portion, which generates an output signal to the second electrode.
• A detection unit measures the deformation amount of the transmission portion based on the output signal.

Key Features and Innovation:

• Use of elastic waves for signal transmission.
• Deformation portions and electrodes for wave generation and detection.
• Detection unit for measuring deformation amount.
• Efficient signal transmission between components.

Potential Applications:

• Communication systems.
• Sensing and detection devices.
• Medical devices for monitoring bodily functions.
• Structural health monitoring in buildings and infrastructure.

Problems Solved:

• Efficient signal transmission.
• Accurate measurement of deformation.
• Reliable communication between components.

Benefits:

• Fast and reliable signal transmission.
• Precise detection of deformation.
• Versatile applications in various industries.

Commercial Applications: Potential commercial applications include:

• Telecommunications industry for signal transmission.
• Healthcare sector for monitoring vital signs.
• Structural engineering for monitoring building integrity.

Prior Art: Prior art related to this technology may include research on elastic wave transmission systems, deformation measurement devices, and signal processing methods.

Frequently Updated Research: Stay updated on advancements in elastic wave technology, signal transmission methods, and deformation measurement techniques to enhance the system's performance and applications.

Questions about Elastic Wave Transmission: 1. How does the system ensure accurate measurement of deformation in the transmission portion? 2. What are the potential challenges in implementing this technology in real-world applications?

Original Abstract Submitted

an input includes a first electrode and a first deformation portion. an output includes a second electrode and a second deformation portion. a transmission portion enables transmission of an elastic wave from the first deformation portion to the transmission portion and transmission of an elastic wave from the transmission portion to the second deformation portion. in operation, an input signal is input to the first electrode that deforms the first deformation portion to generate an elastic wave. the transmission portion transmits the elastic wave from the first deformation portion to the second deformation portion that is deformed by the elastic wave to generate an output signal to the second electrode. the detection unit detects a deformation amount from the reference state of the transmission portion based on the output signal.