COUPLED PHYSIOLOGICAL SIGNAL MEASURING DEVICE

Organization Name

INDUSTRIAL TECHNOLOGY RESEARCH INSTITUTE

Inventor(s)

Yun-Yi Huang of Pingtung City (TW)

Yu-Chiao Tsai of Tainan City (TW)

Hung-Hsien Ko of Zhubei City (TW)

Heng-Yin Chen of Zhubei City (TW)

COUPLED PHYSIOLOGICAL SIGNAL MEASURING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18099743 titled 'COUPLED PHYSIOLOGICAL SIGNAL MEASURING DEVICE

Simplified Explanation: The patent application describes a coupled physiological signal measuring device that includes measuring electrodes, a signal processing unit, and a multiplex feedback circuit unit. The device is designed to obtain real-time physiological signals, process them, and discharge the measuring electrodes when necessary.

• The device includes at least two measuring electrodes for capturing physiological signals.
• A signal processing unit with a discharge control element analyzes the signals and triggers a discharge control signal under specific conditions.
• The multiplex feedback circuit unit discharges the measuring electrodes based on the control signal.

Key Features and Innovation:

• Real-time measurement of physiological signals.
• Discharge control element for managing electrostatic surges.
• Multiplex feedback circuit for electrode discharge.

Potential Applications: The technology can be used in medical devices, fitness trackers, and biofeedback systems.

Problems Solved: The device addresses issues related to managing electrostatic surges in physiological signal measurement.

Benefits:

• Accurate and reliable measurement of physiological signals.
• Enhanced safety by controlling electrostatic surges.
• Improved performance of monitoring devices.

Commercial Applications: The technology can be applied in medical equipment, wearable devices, and sports performance monitoring systems, potentially impacting the healthcare and fitness industries.

Prior Art: Readers can explore prior research on physiological signal measurement devices, electrostatic surge control, and multiplex feedback circuits to understand the existing knowledge in this field.

Frequently Updated Research: Stay informed about advancements in physiological signal measurement technology, electrostatic surge management, and feedback circuit innovations to keep up with the latest developments in the field.

Questions about Coupled Physiological Signal Measuring Device: 1. How does the discharge control element enhance the performance of the device? 2. What are the potential challenges in implementing this technology in different applications?

Original Abstract Submitted

A coupled physiological signal measuring device is provided. The coupled physiological signal measuring device includes at least two measuring electrodes, a signal processing unit and a multiplex feedback circuit unit. The measuring electrodes are used to obtain a real-time physiological signal through measurement. The signal processing unit includes a discharge control element. If an electrostatic surge of the real-time physiological signal meets a condition, a discharge control signal is outputted. The multiplex feedback circuit unit is used to discharge the measuring electrodes according to the discharge control signal.