TRANSCEIVER CIRCUIT AND ASSOCIATED CROSS-COUPLING INTERFERENCE MITIGATION METHOD

Organization Name

TEXAS INSTRUMENTS INCORPORATED

Inventor(s)

Zeshan Ahmad of Plano TX (US)

Mayank Kumar Singh of Mountain View CA (US)

TRANSCEIVER CIRCUIT AND ASSOCIATED CROSS-COUPLING INTERFERENCE MITIGATION METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18157511 titled 'TRANSCEIVER CIRCUIT AND ASSOCIATED CROSS-COUPLING INTERFERENCE MITIGATION METHOD

In an embodiment, a system includes: an analog-to-digital converter (ADC); a transmitter path; a receiver path including a first amplifier including: an output coupled to the ADC, and a first high-pass filter; and a controller coupled to the transmitter path and to the receiver path, where the controller is configured to: cause a corner frequency of the first high-pass filter to increase from a first value to a second value, simultaneously or after causing the corner frequency of the first high-pass filter to increase, cause the transmitter path to be enabled, and after a first signal begins transmission in the enabled transmitter path, and during transmission of the first signal in the enabled transmitter path, cause the corner frequency of the first high-pass filter to decrease from the second value to the first value.

• The system includes an ADC, transmitter path, receiver path with a first amplifier and a first high-pass filter, and a controller.
• The controller can adjust the corner frequency of the high-pass filter to increase or decrease while enabling the transmitter path.
• This technology allows for dynamic adjustments to the filter during signal transmission, optimizing signal quality.

Potential Applications: - This technology can be used in wireless communication systems to improve signal processing. - It can also be applied in audio equipment to enhance sound quality by filtering out unwanted frequencies.

Problems Solved: - Provides a solution for optimizing signal quality during transmission. - Allows for dynamic adjustments to the filter settings based on signal requirements.

Benefits: - Improved signal processing and quality. - Enhanced performance in wireless communication systems. - Better sound quality in audio equipment.

Commercial Applications: Title: Dynamic High-Pass Filter System for Signal Processing This technology can be utilized in telecommunications equipment, audio devices, and other signal processing systems to enhance performance and quality.

Questions about Dynamic High-Pass Filter System for Signal Processing:

1. How does the dynamic adjustment of the high-pass filter improve signal quality during transmission?

  - The dynamic adjustment allows for real-time optimization of the filter settings based on the signal requirements, resulting in improved signal quality.

2. What are the potential applications of this technology beyond wireless communication systems?

  - This technology can also be applied in audio equipment to enhance sound quality by filtering out unwanted frequencies.

Original Abstract Submitted

In an embodiment, a system includes: an analog-to-digital converter (ADC); a transmitter path; a receiver path including a first amplifier including: an output coupled to the ADC, and a first high-pass filter; and a controller coupled to the transmitter path and to the receiver path, where the controller is configured to: cause a corner frequency of the first high-pass filter to increase from a first value to a second value, simultaneously or after causing the corner frequency of the first high-pass filter to increase, cause the transmitter path to be enabled, and after a first signal begins transmission in the enabled transmitter path, and during transmission of the first signal in the enabled transmitter path, cause the corner frequency of the first high-pass filter to decrease from the second value to the first value.