Qualcomm incorporated (20240106445). SYMMETRICAL RESISTIVE HARMONIC REJECTION MIXER (HRM) simplified abstract

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SYMMETRICAL RESISTIVE HARMONIC REJECTION MIXER (HRM)

Organization Name

qualcomm incorporated

Inventor(s)

Rahul Singh of San Diego CA (US)

Mehran Bakhshiani of San Diego CA (US)

SYMMETRICAL RESISTIVE HARMONIC REJECTION MIXER (HRM) - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240106445 titled 'SYMMETRICAL RESISTIVE HARMONIC REJECTION MIXER (HRM)

Simplified Explanation

The patent application describes systems, methods, and devices for wireless communications that support downconversion of signals with improved harmonic rejection.

  • The apparatus includes a first plurality of mixers, each coupled to two oscillating signals that are 180 degrees apart in phase, and a second plurality of mixers with the same configuration.
  • The combined load of the mixers on the oscillating signals is symmetric, and there is a shared capacitor coupling the RF input to both sets of mixers.

Potential Applications

This technology could be applied in wireless communication systems, such as in mobile phones, Wi-Fi routers, and other devices that require efficient downconversion of signals with improved harmonic rejection.

Problems Solved

This innovation addresses the issue of harmonic distortion in wireless communication systems, which can degrade signal quality and overall performance. By improving harmonic rejection during downconversion, the technology helps maintain signal integrity and reliability.

Benefits

The benefits of this technology include enhanced signal quality, improved performance of wireless communication systems, and increased efficiency in signal processing. By reducing harmonic distortion, the technology contributes to better overall user experience and reliability of wireless devices.

Potential Commercial Applications

With its potential to improve signal quality and performance in wireless communication systems, this technology could find applications in various industries, including telecommunications, consumer electronics, and IoT devices. A SEO optimized title for this section could be "Commercial Applications of Improved Harmonic Rejection in Wireless Communications Technology".

Possible Prior Art

One possible prior art for this technology could be existing methods or devices for harmonic rejection in wireless communication systems. Research papers, patents, or products that address similar issues of harmonic distortion and signal quality improvement could be considered as prior art for this innovation.

Unanswered Questions

How does this technology compare to existing methods for harmonic rejection in wireless communications systems?

This article does not provide a direct comparison to existing methods or technologies for harmonic rejection in wireless communication systems. It would be helpful to understand the specific advantages or differences of this innovation compared to other solutions in the market.

What are the specific technical specifications or performance metrics of this technology in terms of harmonic rejection and signal quality improvement?

The article does not delve into the technical details or performance metrics of the technology in terms of harmonic rejection and signal quality improvement. Having this information would provide a clearer understanding of the capabilities and effectiveness of the innovation.


Original Abstract Submitted

this disclosure provides systems, methods, and devices for wireless communications that support downconversion of signals with improved harmonic rejection. in a first aspect, an apparatus includes a first plurality of mixers with each mixer coupled to two oscillating signals that are 180 degrees apart in phase; a second plurality of mixers with each mixer coupled to two oscillating signals that are 180 degrees apart in phase, wherein a combined load of the first plurality of mixers and the second plurality of mixers on the plurality of oscillating signals is symmetric as to each oscillating signal of the plurality of oscillating signals; and a shared capacitor coupling the rf input to the first plurality of mixers and the second plurality of mixers. other aspects and features are also claimed and described.