COUPLING ELECTRICAL SIGNALS ACROSS AN ELECTRICALLY INSULATING BARRIER

Organization Name

KONINKLIJKE PHILIPS N.V.

Inventor(s)

Josephus Arnoldus Johannes Kahlman of TILBURG (NL)

Albert Hendrik Jan Immink of EINDHOVEN (NL)

COUPLING ELECTRICAL SIGNALS ACROSS AN ELECTRICALLY INSULATING BARRIER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18276291 titled 'COUPLING ELECTRICAL SIGNALS ACROSS AN ELECTRICALLY INSULATING BARRIER

Simplified Explanation

The patent application describes a system for transmitting electrical signals between an interventional device and a control unit through an electrically insulating barrier.

• The system includes a connector with a device connector portion containing transmitters for transducer signals and synchronization signals.
• Transducer signals are generated at the distal portion of the interventional device, while synchronization signals are generated either at the distal portion of the device or in the device connector portion.
• The control unit connector portion or the control unit receives the electrical signals, extracts the transducer signals and synchronization signals, and performs timing correction on the transducer signals using the synchronization signals.

Potential Applications

This technology could be applied in medical devices for procedures such as minimally invasive surgeries, catheter-based interventions, and diagnostic imaging.

Problems Solved

This technology solves the problem of transmitting electrical signals accurately and synchronously between an interventional device and a control unit, even when separated by an electrically insulating barrier.

Benefits

The benefits of this technology include improved accuracy and synchronization of electrical signals, leading to better control and monitoring of interventional procedures.

Potential Commercial Applications

Potential commercial applications of this technology include medical device manufacturing companies, hospitals, and research institutions.

Possible Prior Art

One possible prior art for this technology could be existing systems for transmitting electrical signals in medical devices, but with less efficient synchronization and timing correction capabilities.

What are the safety considerations for implementing this technology in medical devices?

Safety considerations for implementing this technology in medical devices include ensuring proper insulation to prevent electrical hazards, conducting thorough testing for signal accuracy and synchronization, and complying with regulatory standards for medical device safety.

How does this technology compare to existing methods of transmitting electrical signals in interventional devices?

This technology offers improved accuracy and synchronization of electrical signals compared to existing methods, leading to better control and monitoring of interventional procedures.

Original Abstract Submitted

A system for coupling electrical signals between an interventional device () and a control unit () through an electrically insulating barrier (), is disclosed. The system includes a connector (). A device connector portion (′) of the connector () includes at least one transmitter () that transmits electrical signals representing i) transducer signals and 5 ii) synchronisation signals for the transducer signals. The transducer signals are generated at a distal portion (″) of the interventional device (), and the synchronisation signals are generated at a distal portion (″) of the interventional device or in the device connector portion (′). A control unit connector portion (″) of the connector (), or the control unit (), receives the electrical signals, extracts the transducer signals and the 10 synchronisation signals from the electrical signals, and performs a timing correction on the transducer signals using the synchronisation signals.