SIASUN(SZ:300024) Zheng Quan Shi Bao Wang·2025-07-15 07:24Group 1: Industry Overview - The year 2025 is anticipated to be the milestone for mass production of humanoid robots, with Gallium Nitride (GaN) semiconductors playing a crucial role in bridging the gap between laboratory experiments and commercial applications [1] - GaN semiconductors are recognized as "performance revolutionaries," offering advantages such as high frequency, high energy efficiency, and high voltage tolerance, which are essential for addressing challenges in robotic joint drive precision, power density, and heat dissipation [1][7] Group 2: Technological Advancements - GaN chips exhibit a 70% reduction in conduction loss compared to traditional silicon-based devices, making them pivotal for the driving core of robotic wrist joints in future mass-produced models [5] - The integration of GaN technology allows for smaller device sizes, reduced switching losses, and improved dynamic control, which are critical for humanoid robots that require high precision and efficiency [7][10] Group 3: Market Dynamics - The demand for humanoid robots is expected to grow significantly, with projections indicating that the market could be 100 times larger than that of electric vehicles within the next five years [13] - Companies like InnoSilicon and Yiyou Technology are actively developing GaN products for humanoid robots, with InnoSilicon's 100V GaN products already enhancing power by 30% and conversion efficiency by 5% in robotic joints [8][11] Group 4: Competitive Landscape - Major semiconductor companies, including Texas Instruments, are closely monitoring the application of GaN in humanoid robots, highlighting its potential to achieve higher precision motor control at low losses [8] - Yiyou Technology has made significant advancements in joint module technology, leveraging GaN semiconductors to enhance the performance and efficiency of robotic systems [10][11] Group 5: Future Outlook - The humanoid robot industry is on the brink of explosive growth, with expectations that robots will increasingly replace repetitive and hazardous tasks in factories, potentially creating a market worth hundreds of billions to trillions in the next decade [14] - The integration of GaN technology is seen as essential for the next generation of robots, with projections indicating that a single humanoid robot may require up to 1,000 GaN devices as performance and power density continue to improve [13]