MCT M1 Module Achieves AEC Q104 Certification, Completing Full-Stack Automotive-Grade Quality Validation
In June 2025, MCT announced that its M1 automotive-grade GNSS module series has successfully obtained AEC Q104 certification from SGS, a globally recognized certification authority. This milestone marks the completion of MCT’s full-chain automotive-grade quality validation — from chip level (AEC Q100) to module level (AEC Q104) — establishing a closed-loop automotive-grade quality system spanning chips to modules. It further solidifies MCT’s systematic capabilities in spatial intelligence, particularly in terms of reliability support for complex scenarios such as urban assisted driving and embodied intelligence.
The M1 module series is built upon MCT’s fully in-house developed MOJANDA automotive-grade chip platform and represents a key realization of its system-level evolution. Previously, the MOJANDA chip had already achieved AEC Q100 certification, meeting the quality standards required for automotive-grade core components. The M1 module’s AEC Q104 certification now demonstrates that the MOJANDA platform meets automotive-grade requirements at the complete module level as well, marking MCT’s completion of the technology closed loop from core components to systemized modules for spatial intelligence products.
AEC Q104, as a module-level automotive standard, focuses on long-term stability under extreme operating conditions including thermal shock, mechanical vibration, and electromagnetic interference. MCT’s accumulated expertise in hardware-software co-design, automotive-grade manufacturing processes, and consistency control enabled the M1 module to pass all test items successfully — a critical achievement in advancing the MOJANDA chip platform toward full system-level deployment.
Beyond its broad application in urban assisted driving, the M1 module also delivers precise spatial perception capabilities for embodied intelligence devices, covering a wide range of emerging form factors including bipedal robots, mobile agents, and indoor-outdoor collaborative robots. Its high integration, high robustness, and low power consumption make it a natural fit for critical tasks such as dynamic perception, path planning, and autonomous control, positioning it as a core foundational module for next-generation intelligent machines requiring spatial understanding and behavioral decision-making.
The M1 module’s certification not only extends the automotive-grade ecosystem of the MOJANDA chip family, but also signifies MCT’s steady progress along the “chip — module — platform” technology roadmap. Going forward, MCT will continue to deepen its core spatial intelligence capabilities, serving the scaled deployment of urban assisted driving and embodied intelligence terminals, advancing spatial perception from precision toward intelligence, and building a stronger real-time decision-making foundation for intelligent systems.