Karen Gettings

Title: **Innovative Contributions of Karen Gettings in RF Receiver Technology**

Introduction

Karen Gettings, an accomplished inventor based in Carlisle, MA, has made significant strides in the realm of radio frequency (RF) receiver technology. With a total of two patents to her name, her work has focused on enhancing the efficiency and performance of RF receivers, ultimately leading to innovations that cater to modern technological demands.

Latest Patents

Karen's latest patents reflect her expertise and forward-thinking approach in the field. The first patent, titled "Analog/digital co-design methodology to achieve high linearity and low power dissipation in a radio frequency (RF) receiver," presents techniques that enhance the efficiency and linearity of RF receivers. By integrating components of an analog receiver chain with digital nonlinearity compensation techniques during the design process, she has addressed the critical issue of power consumption in receivers.

Her second patent, "Method and apparatus for sparse polynomial equalization of RF receiver chains," further builds on this foundation. This invention introduces an analog receiver chain, followed by digital circuitry that mitigates nonlinear distortion components within the output signal. Implementing a digital equalizer configured with a sparse set of Volterra series coefficients enables her to achieve desired linearity performance with lower power consumption.

Career Highlights

Throughout her career at the Massachusetts Institute of Technology, Karen has exemplified innovation and leadership in her field. Her research and development efforts have positioned her as a key player in the advancement of RF technologies.

Collaborations

Karen has collaborated with esteemed coworkers, including Helen Haeran Kim and Merlin Green. Their combined expertise fosters an environment of creativity and progression, contributing to groundbreaking advancements in RF receiver technology.

Conclusion

Karen Gettings stands out as a prominent inventor whose patents reflect a dedication to improving the efficiency and performance of radio frequency receivers. Her innovative contributions, coupled with collaborative efforts at the Massachusetts Institute of Technology, help pave the way for future technological advancements in the field.