Location History:
- Cambridge, MA (US) (1996 - 1998)
- Dallas, TX (US) (1998 - 2004)
Company Filing History:
2 out of 5,450 
2 out of 8,373 
1 out of 30 
Years Active: 1996-2004
Title: The Innovations of Inventor Li Li
Introduction
Li Li is a prominent inventor based in Dallas, TX (US), known for her contributions to the field of electrical engineering and biotechnology. With a total of 5 patents to her name, she has made significant strides in developing innovative technologies that address complex challenges.
Latest Patents
Among her latest patents is the "Bias supply selection circuit, method of operation thereof and power supply employing the same." This invention provides a bias supply selection circuit that can be used with a linear regulating device to offer a first bias supply voltage and a main bias supply stage for a second bias supply voltage. The circuit includes a voltage monitoring component that tracks the level of the second bias supply voltage and generates a control voltage proportional to that level. Additionally, it features a controllable switching circuit that selects the second bias supply voltage by deactivating the linear regulating device when the control voltage reaches a predetermined threshold.
Another notable patent is the "Smooth muscle 22.alpha. promoter, gene transfer vectors containing the same." This invention pertains to isolated DNA molecules that encode the murine SM22.alpha. promoter, along with gene transfer vectors that utilize this technology to target gene expression specifically in arterial smooth muscle cells.
Career Highlights
Li Li has worked with esteemed institutions such as the University of Texas System and the Massachusetts Institute of Technology. Her work in these organizations has allowed her to collaborate on groundbreaking research and development projects.
Collaborations
Li has collaborated with notable colleagues, including Eric N Olson and Joseph M Miano, contributing to advancements in their respective fields.
Conclusion
Li Li's innovative patents and her work with prestigious institutions highlight her significant impact on technology and research. Her contributions continue to inspire future advancements in engineering and biotechnology.