Akira Shinogi

Title: Akira Shinogi: Innovator in Discharge Lamp Technology

Introduction

Akira Shinogi is a prominent inventor based in Chino, Japan. She has made significant contributions to the field of lighting technology, particularly in the development of electrodeless discharge lamps. With a total of 2 patents, her work focuses on enhancing the efficiency and reliability of lighting systems.

Latest Patents

One of her latest patents is a "Lighting method of microwave excitation discharge lamp." This invention aims to prevent the continuation of abnormal states that occur immediately after the lighting start of the electrodeless discharge lamp excited by a DC-driven magnetron. The method involves a soft start mode for lighting the lamp, gradually increasing the power supply to the magnetron. This approach ensures that the lamp reaches a stable lighting state while managing the luminescence medium effectively. The output of the DC power supply is periodically cut off momentarily to reset any abnormal states, followed by stable DC power supply during the steady state period.

Another notable patent is the "Device and process for lighting discharge lamp." This device comprises a rectifier and a switching circuit with a semiconductor element connected to the rectifier. It includes a direct power supplying circuit with a rectifying and filtering circuit, along with a discharge lamp and a starter. The starter features a transformer and a smoothing capacitor to generate high voltage, ensuring efficient operation of the discharge lamp.

Career Highlights

Akira Shinogi is currently associated with Orc Manufacturing Co., Ltd., where she continues to innovate in the field of lighting technology. Her work has been instrumental in advancing the capabilities of discharge lamps, making them more efficient and reliable for various applications.

Conclusion

Akira Shinogi's contributions to the field of lighting technology through her innovative patents demonstrate her expertise and commitment to improving electrodeless discharge lamps. Her work not only enhances the functionality of these devices but also paves the way for future advancements in lighting solutions.