ULTRASOUND TRANSMIT-RECEIVE SWITCH WITH COMBINED TRANSMIT-RECEIVE AND RETURN-TO-ZERO PATH

Organization Name

Texas Instruments Incorporated

Inventor(s)

Aravind Miriyala of Bengaluru (IN)

Ravikumar Pattipaka of Bengaluru (IN)

Raja Sekhar Kanakamedala of Bengaluru (IN)

Sandeep Kesrimal Oswal of Bengaluru (IN)

ULTRASOUND TRANSMIT-RECEIVE SWITCH WITH COMBINED TRANSMIT-RECEIVE AND RETURN-TO-ZERO PATH - A simplified explanation of the abstract

This abstract first appeared for US patent application 18543305 titled 'ULTRASOUND TRANSMIT-RECEIVE SWITCH WITH COMBINED TRANSMIT-RECEIVE AND RETURN-TO-ZERO PATH

Simplified Explanation

The abstract describes an ultrasound system with a transmit-receive switch that includes a combined transmit-receive and return-to-zero (RTZ) path, utilizing a transistor with specific terminals and switches for signal routing.

• The transmit-receive switch in the ultrasound system includes a transistor with a first current terminal, a second current terminal, and a control terminal.
• The second current terminal of the transistor is connected to a ground node through a first switch and to a receive node through a second switch.
• The ultrasound system also features a receiver front-end circuit connected to the receive node for signal processing.

Potential Applications

This technology could be applied in medical ultrasound imaging systems, industrial non-destructive testing equipment, and underwater sonar devices.

Problems Solved

This innovation helps in efficiently switching between transmit and receive modes in ultrasound systems, reducing signal loss and improving overall system performance.

Benefits

The use of the combined transmit-receive and RTZ path with specific signal routing components enhances the functionality and reliability of ultrasound systems, leading to clearer and more accurate imaging results.

Potential Commercial Applications

"Advanced Signal Routing Technology for Ultrasound Systems" could find applications in medical device manufacturing, industrial equipment production, and defense technology development.

Possible Prior Art

One possible prior art could be the use of separate transmit and receive paths in ultrasound systems, which may not be as efficient or compact as the combined transmit-receive and RTZ path described in this patent application.

Unanswered Questions

How does this technology compare to existing transmit-receive switches in ultrasound systems?

This article does not provide a direct comparison with other transmit-receive switches in terms of performance, cost, or size.

What are the specific advantages of using a combined transmit-receive and RTZ path in ultrasound systems?

The benefits and advantages of this specific configuration over traditional setups are not explicitly outlined in the article.

Original Abstract Submitted

An ultrasound system includes a transmit-receive switch. The transmit-receive switch includes a combined transmit-receive and return-to-zero (RTZ) path. The combined transmit-receive and RTZ path includes a transistor with a first current terminal, a second current terminal, and a control terminal. The second current terminal of the transistor is coupled to a ground node via a first switch and is coupled to a receive node via a second switch. The ultrasound system also includes a receiver front-end circuit coupled to the receive node.