 To stimulate the auditory nerve, cochlear implants directly inject electrical current into surrounding tissue via an implanted electrode array. This stimulates the auditory nerve, allowing users to hear sounds. However, there is still considerable variation in performance among users. Additionally, the electrodes are surrounded by a conductive fluid which spreads the electrical current more widely, reducing the effectiveness of the implant. Furthermore, magnetic fields are not affected by the material properties of biological components, so they can be used to stimulate the auditory nerve. A microcoil array was developed to take advantage of this property. These microcoils are four-turn solenoids with a 250-dollar backslash Mu turn radius and a 31.75-dollar backslash Mu wire radius coated with periline C. The efficient design was implemented to speed up testing. The results show that the microcoils can generate enough electromagnetic power to stimulate the auditory nerve. Functionality was validated using a frequency response analyzer to measure how the generated electromagnetic power radiates in space. It was found that 99.8 backslash percent. This article was authored by Ressa Reneth Essario, dated T-Blake, and Pamela T-Body. We are article.tv, links in the description below.