Company Filing History:
Years Active: 2015
Title: Chunjun Jiang – Innovator in Constant Current Source Circuit Technology
Introduction
Chunjun Jiang, an accomplished inventor based in Shenzhen, China, has made significant contributions to the field of electronic circuit design. His innovative work is exemplified through his patent for a constant current source circuit, which highlights the intricate balance between efficiency and functionality in electronic applications.
Latest Patents
Jiang holds a patent for a "Constant Current Source Circuit and a Sampling Circuit." This invention introduces a novel approach to managing currents in electronic systems. The circuit comprises a main setup featuring a first three-terminal regulator, a transistor, a sample resistor, and a load. The design ensures precise control of the current output by integrating an adjusting unit that includes a voltage stabilizing unit along with two resistors aimed at enhancing circuit performance.
Career Highlights
Jiang is currently associated with Osram GmbH, a recognized leader in lighting solutions. His role at the company has allowed him to further develop and apply his expertise in circuit design, contributing to advancements in technology within the lighting industry. With one patent to his name, he showcases his capability as an inventor committed to innovation.
Collaborations
Throughout his career, Jiang has collaborated with notable colleagues, including Xuewei Dai and Middel Tjaco. These professional partnerships highlight a collaborative spirit in advancing technology, fostering an environment where groundbreaking ideas can flourish.
Conclusion
Chunjun Jiang's commitment to innovation is evident in his work on the constant current source circuit, a testament to his engineering expertise. His contributions at Osram GmbH and collaborations with fellow inventors showcase the impactful role that dedicated inventors play in shaping the technological landscape. As the field of electronics continues to evolve, Jiang's innovative spirit will likely lead to further advancements in circuit design and functionality.