Hyunsoo Yeom

Title: Innovations of Hyunsoo Yeom in Remote Temperature Sensing

Introduction

Hyunsoo Yeom is a prominent inventor based in Chandler, AZ, known for his significant contributions to the field of remote temperature sensing. With a total of seven patents to his name, Yeom has developed innovative techniques that enhance the accuracy and efficiency of temperature measurement systems.

Latest Patents

Among his latest patents is the "Fractional mirror ratio technique for digital remote temperature sensors, and related systems, methods, and devices." This invention focuses on remote temperature sensing that utilizes fractional currents to bias a remote temperature diode. By simplifying temperature calculations performed using digital logic, this technique allows for more accurate temperature readings. The method involves determining voltage changes based on excitation currents, which are crucial for calculating temperature values.

Another notable patent is the "Base resistance cancellation method and related methods, systems, and devices." This invention addresses the issue of base resistance error in remote temperature sensors. Yeom's approach includes measurement logic that calculates an error-canceling coefficient, which is essential for obtaining precise temperature values. Calibration techniques may be employed to determine these coefficients, further enhancing the reliability of remote temperature measurements.

Career Highlights

Hyunsoo Yeom is currently employed at Microchip Technology Inc., where he continues to innovate in the field of temperature sensing technologies. His work has significantly impacted the development of more reliable and efficient temperature measurement systems.

Collaborations

Yeom has collaborated with notable colleagues, including Ajay Kumar and Cheng Xu, contributing to advancements in their shared field of expertise.

Conclusion

Hyunsoo Yeom's innovative work in remote temperature sensing has led to the development of several important patents that improve the accuracy and efficiency of temperature measurement systems. His contributions continue to influence the industry positively.