TIRE PRESSURE MONITOR COMMUNICATION SYSTEM, ELECTROMAGNETIC TRANSMISSION SYSTEM HAVING CANCELLATION AND AN ANTENNA ASSEMBLY FOR USE THEREWITH AND METHODS

Organization Name

JR Automation Technologies, LLC

Inventor(s)

Mark Andrew Compton of Lake Orion MI (US)

Kevin Ray Spencer of Sterling Heights MI (US)

Warren Edwin Guthrie of West Olive MI (US)

Eric Joshua Emens of Grand Haven MI (US)

Brandyn Jaymes Blehm of Caledonia MI (US)

Andrew Scott Homrich of Nunica MI (US)

Timothy Cullen Davison of Spring Lake MI (US)

TIRE PRESSURE MONITOR COMMUNICATION SYSTEM, ELECTROMAGNETIC TRANSMISSION SYSTEM HAVING CANCELLATION AND AN ANTENNA ASSEMBLY FOR USE THEREWITH AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240042809 titled 'TIRE PRESSURE MONITOR COMMUNICATION SYSTEM, ELECTROMAGNETIC TRANSMISSION SYSTEM HAVING CANCELLATION AND AN ANTENNA ASSEMBLY FOR USE THEREWITH AND METHODS

Simplified Explanation

The abstract describes a tire pressure monitoring system that includes a tire pressure sensor, an antenna assembly, and a transmitter. The antenna assembly consists of a transmitting antenna and a cancelling antenna. The transmitting antenna is made up of multiple coils with two terminals, while the cancelling antenna also has multiple coils with two terminals. The arrangement of these antennas creates a proximal zone where the field from the transmitting antenna activates the tire pressure monitor, and beyond this zone, the field from the cancelling antenna cancels out the field from the transmitting antenna. The transmitter is connected to both antennas.

• The tire pressure monitoring system includes a tire pressure sensor, antenna assembly, and transmitter.
• The antenna assembly consists of a transmitting antenna and a cancelling antenna.
• The transmitting antenna is made up of multiple coils with two terminals.
• The cancelling antenna also has multiple coils with two terminals.
• The arrangement of the antennas creates a proximal zone for activation and cancellation of the field.
• The transmitter is connected to both antennas.

Potential Applications:

• Automotive industry for tire pressure monitoring in vehicles.
• Industrial applications for monitoring tire pressure in heavy machinery.
• Aviation industry for monitoring tire pressure in aircraft.

Problems Solved:

• Ensures accurate and reliable tire pressure monitoring.
• Minimizes interference from external electromagnetic fields.
• Provides a clear distinction between the proximal zone and beyond.

Benefits:

• Improved safety by monitoring tire pressure in real-time.
• Early detection of tire pressure abnormalities to prevent accidents.
• Efficient use of resources by maintaining optimal tire pressure.
• Reduces maintenance costs by identifying tire pressure issues promptly.

Original Abstract Submitted

a tire pressure monitoring system is configured to communicate with a tire pressure sensor and has an antenna assembly and a transmitter. the antenna assembly has a transmitting and a cancelling antenna. the transmitting antenna has a wire loop defined by a plurality of coils with a first terminal and a second terminal. the cancelling antenna has a wire loop defined by a plurality of coils with a first terminal and a second terminal. the arrangement of the transmitting antenna and the cancelling antenna defines a proximal zone wherein a field from the transmitting antenna is configured to be sufficient to actuate the tire pressure monitor, while beyond the proximal zone, a field from the cancelling antenna cancels the field from the transmitting antenna. the transmitter is coupled to the transmitting antenna, and the cancelling antenna. an antenna and methods are likewise disclosed.