Company Filing History:
Years Active: 1991-1994
Title: Innovations of Mohammed I El-Naggar
Introduction
Mohammed I El-Naggar is a notable inventor based in Columbus, OH (US). He has made significant contributions to the field of electronics and neural networks, holding a total of three patents. His work focuses on advanced circuit designs that enhance the functionality of electronic systems.
Latest Patents
El-Naggar's latest patents include an analog continuous-time MOS vector multiplier circuit and a programmable neuron circuit. The neuron circuit features a neural network that incorporates a four-quadrant analog multiplier/summer circuit constructed using field effect transistors. This innovative design allows for four-quadrant multiplication when the field effect transistors operate in the triode mode. The output of the multiplier/summer circuit is the sum of the products generated by the individual neuron circuits, which receive inputs and synaptic weight inputs. Additionally, he has developed a high-frequency BiMOS linear voltage-to-current converter, voltage multiplier, and mixer circuit. This circuit utilizes matched field effect transistors to provide differential output currents, enhancing the performance of electronic devices.
Career Highlights
Throughout his career, Mohammed I El-Naggar has worked with prestigious institutions such as The Ohio State University and Michigan State University. His experience in these academic environments has allowed him to collaborate on various innovative projects and contribute to advancements in electronic engineering.
Collaborations
El-Naggar has collaborated with notable colleagues, including Nabil I Khachab and Seyed R Zarabadi. These partnerships have fostered a creative environment for developing cutting-edge technologies in the field of electronics.
Conclusion
Mohammed I El-Naggar's contributions to the field of electronics and neural networks demonstrate his innovative spirit and dedication to advancing technology. His patents reflect a deep understanding of complex circuit designs that have the potential to impact various applications in the industry.