Shigeki Makise

Title: Shigeki Makise: Innovating Probe Card Technology in Musashino, Japan

Introduction: Shigeki Makise is a distinguished inventor based in Musashino, Japan, recognized for his contributions to advanced probe card technology. With a particular focus on enhancing contact inspection devices, Makise secured his place in the world of innovation with a pivotal patent that showcases both creativity and technical prowess.

Latest Patents: Shigeki Makise holds a significant patent for a probe card and contact inspection device. This innovative probe card features a probe with spring properties, enabling it to maintain a delicate balance during operation. The design includes a probe head that supports the probe, featuring a guide portion that allows the probe to move along the Z-axis. A notable aspect of this invention is its heat radiation structure, designed to absorb heat generated by the probe during energization, ensuring optimal performance by transferring excess heat away from the probe.

Career Highlights: Makise is affiliated with Kabushiki Kaisha Nihon Micronics, a prominent company in the semiconductor industry. His work at the company has been instrumental in pushing the boundaries of probe card technology. With a single patent to his name, he already demonstrates the potential for further innovations in this highly specialized field.

Collaborations: Throughout his career, Shigeki Makise has collaborated with notable coworkers, including Tetsuya Yoshioka and Takashi Kawano. Their collective efforts in research and development have fostered an environment of creativity and innovation, essential for advancing technology in semiconductor testing.

Conclusion: Shigeki Makise stands out as a noteworthy inventor in the realm of advanced probe card solutions. His patented technology not only reflects his innovative spirit but also contributes significantly to efficient semiconductor testing processes. As a key member of Kabushiki Kaisha Nihon Micronics, Makise's future innovations promise to further enhance the field of electrical engineering and semiconductor technology.