Richard J Maczka

Title: The Innovations of Richard J Maczka

Introduction

Richard J Maczka is a notable inventor based in Johnson City, TN (US). He has made significant contributions to the field of industrial automation, particularly in the development of advanced tracking systems for robots. With a total of 6 patents to his name, Maczka's work showcases his expertise and innovative spirit.

Latest Patents

One of Maczka's latest patents is an algorithm for optimizing data sampling in a discrete periodic system. This invention focuses on an auxiliary resolver position tracking (RPT) system for industrial robots. The RPT system includes a resolver excitation and monitoring system powered by an uninterruptable power supply with a battery. It generates trapezoidal excitation pulses for the resolvers in the robot when no external excitation signal is applied. The system intelligently switches between a slow position sampling rate when no motion is detected and a fast sampling rate when motion is detected. This ensures that no motion data is lost during transitions between sampling rates. Additionally, the RPT includes circuitry to detect the absence of external excitation signals and to distinguish between valid motion and jitter conditions.

Career Highlights

Throughout his career, Richard J Maczka has worked with prominent companies in the field of industrial automation. Notable employers include Siemens Industrial Automation, Inc. and Comau S.p.a. His experience in these organizations has contributed to his development as an inventor and innovator.

Collaborations

Maczka has collaborated with several professionals in his field, including Donald K Taylor and Carl H Russell, III. These collaborations have likely enriched his work and led to further advancements in his inventions.

Conclusion

Richard J Maczka's contributions to industrial automation through his innovative patents demonstrate his commitment to advancing technology in this field. His work continues to influence the development of efficient and effective robotic systems.