Balun With Improved Common Mode Rejection Ratio

Organization Name

texas instruments incorporated

Inventor(s)

Shagun Dusad of Bangalore (IN)

Vysakh Karthikeyan of Kerala (IN)

Naveen Mahadev of Bangalore (IN)

Rafi Mahammad of Bangalore (IN)

Balun With Improved Common Mode Rejection Ratio - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240113678 titled 'Balun With Improved Common Mode Rejection Ratio

Simplified Explanation

The abstract describes a balun with multiple windings and capacitors for signal conversion and isolation purposes.

• The balun includes a first winding with terminals connected to an input and a reference potential terminal.
• A second winding is magnetically coupled to the first winding, with terminals connected to first and second differential outputs, as well as a tap connected to the reference potential terminal.
• A first capacitor connects the first winding to the second winding.
• A third winding has one terminal connected to the reference potential terminal and a floating second terminal.
• A second capacitor connects the third winding to the second winding.

Potential Applications

The technology described in this patent application could be used in various communication systems, such as RF transceivers, to convert signals between single-ended and differential formats.

Problems Solved

This technology helps in converting signals between different formats while providing isolation and impedance matching, which can improve signal quality and reduce interference in communication systems.

Benefits

The balun design described in the patent application offers a compact and efficient solution for signal conversion and isolation, which can lead to improved performance and reliability in communication systems.

Potential Commercial Applications

The technology could find applications in wireless communication devices, radar systems, and other RF equipment where signal conversion and isolation are required for optimal performance.

Possible Prior Art

One possible prior art for this technology could be traditional balun designs used in RF circuits for impedance transformation and signal conversion purposes.

Unanswered Questions

How does this technology compare to existing balun designs in terms of performance and efficiency?

The article does not provide a direct comparison with existing balun designs, so it is unclear how this technology stacks up against current solutions in the market.

What are the specific design considerations for implementing this balun in different communication systems?

The article does not delve into the specific design considerations for integrating this balun technology into various communication systems, leaving room for further exploration in this area.

Original Abstract Submitted

a balun includes a first winding which has a first terminal coupled to an input, and a second terminal coupled to a reference potential terminal. the balun includes a second winding magnetically coupled to the first winding. the second winding has a first terminal coupled to a first differential output, a second terminal coupled to a second differential output, and a tap coupled to the reference potential terminal. the balun includes a first capacitor which has a first terminal coupled to the first winding and a second terminal coupled to the second winding. the balun includes a third winding which has a first terminal coupled to the reference potential terminal and a floating second terminal. the balun includes a second capacitor which has a first terminal coupled to the third winding and a second terminal coupled to the second winding.