MCT MOJANDA 330 Wins “2026 Most Influential Automotive Chip” Award
Advancing the Large-Scale Adoption of Domestic High-Precision Positioning Chips with an Automotive-Grade Triple-Frequency BeiDou GNSS Chip
On April 26, 2026, the “2026 China Automotive Chip Industry Innovation Achievement” Award Ceremony was officially held at the “China Chip” pavilion of the Beijing Auto Show. The MOJANDA 330 — MCT’s proprietary automotive-grade triple-frequency BeiDou high-precision positioning chip — was honored with the “2026 Most Influential Automotive Chip” award, recognized for its combined strengths in technological advancement, product innovation, mass production readiness, and market performance.
The award was organized by the China Automotive Chip Industry Innovation Strategic Alliance, with the goal of building brand influence for China’s automotive chip industry, accelerating the adoption of mature domestic automotive chip products, and fostering cross-sector integration between the automotive and semiconductor industries while driving coordinated development across the supply chain. The “2026 Most Influential Automotive Chip” category is specifically open to domestic automotive chip products already in mass production, with a focus on technological advancement, innovation, strong market performance, and a broad customer base.
This recognition for MOJANDA 330 is more than a product accolade — it reflects the industry’s acknowledgment of MCT’s capabilities in automotive-grade chip development, engineering validation, mass production deployment, and the industrialization of domestic high-precision positioning technology. For domestic automotive-grade BeiDou high-precision positioning chips, this award also marks a significant milestone in the journey from technical breakthrough to large-scale real-world application.
Delivering Stable, Continuous, and Reliable High-Precision Positioning for Real-World Road Scenarios
The evolution of intelligent vehicles continues to raise the bar for a vehicle’s ability to determine its own position in space.
In scenarios such as highway NOA, urban assisted driving, complex interchanges, tunnel entrances and exits, urban canyons, heavy signal obstruction, and strong interference environments, intelligent driving systems must not only perceive the surrounding environment but also continuously obtain the vehicle’s own high-precision position. The more stable, continuous, and reliable the positioning capability, the more solid the foundation for the system’s judgment of routes, lanes, road structure, and driving state.
MOJANDA 330 was purpose-built for exactly these demands.
As MCT’s proprietary automotive-grade triple-frequency BeiDou high-precision positioning chip, MOJANDA 330 is designed for intelligent driving mass production applications. It supports multi-constellation, multi-frequency satellite signal processing and high-precision positioning computation, providing the underlying chip-level foundation for continuous positioning in complex road environments.
Rather than pursuing specification benchmarks alone, MOJANDA 330 places greater emphasis on engineering adaptability for real vehicles, real roads, and real production environments. What it represents goes beyond high-precision positioning capability itself — it reflects the ongoing advancement of domestic automotive-grade high-precision positioning chips in terms of product maturity, application stability, and industrial deployment readiness.
“Not approximately. Precisely.” This is both MOJANDA 330’s product promise and MCT’s long-term commitment to automotive-grade high-precision positioning. For intelligent vehicles, high-precision positioning is not an auxiliary feature within a navigation system — it is a critical foundational capability that underpins the stable operation of intelligent driving systems. MOJANDA 330’s recognition is a clear testament to domestic automotive-grade high-precision positioning chips moving into mass production and serving real-world scenarios.
From Chip Capability to System Capability: Enabling the Continuous Evolution of the RMS Spatial Intelligence Architecture
The value of MOJANDA 330 extends well beyond the chip itself.
Within MCT’s technology framework, MOJANDA 330 serves as one of the key pillars of the RMS Solution. RMS is MCT’s spatial intelligence system architecture built for intelligent vehicles, embodied intelligence, satellite internet, low-altitude economy, and Physical AI scenarios. At its core, it enables intelligent platforms to achieve more stable and reliable spatial state perception through the coordinated integration of chips, sensors, algorithms, and data.
Within the RMS architecture, MOJANDA BeiDou high-precision chips and modules deliver absolute high-precision positioning, SUMACO high-precision IMU provides attitude sensing and motion state measurement, and REVENTADOR multi-source fusion algorithms enable the fusion of GNSS, IMU, vision, LiDAR, and other data sources — with real-world scenario data continuously driving system iteration.
This architecture reflects MCT’s commitment to building system-level capabilities around the spatial state of intelligent platforms, rather than simply offering standalone chip products.
For intelligent driving, spatial intelligence helps vehicles achieve a more stable foundation for positioning and state assessment in complex road environments. For broader Physical AI applications — including embodied intelligence, satellite internet, UAVs, and low-altitude aircraft — spatial intelligence is equally essential for enabling movement, perception, decision-making, and actuation in the physical world.
The recognition of MOJANDA 330 therefore also affirms MCT’s technology roadmap of continuously expanding from individual chip capabilities toward system-level spatial intelligence.
Driven by Mass Production, Committed to Serving the Intelligent Vehicle Industry
The true value of an automotive chip can only be proven through real vehicles, real roads, and real users. For automotive-grade high-precision positioning chips, the real challenge lies not only in achieving technical specification breakthroughs, but in adapting to complex environments, passing rigorous engineering validation, entering mass production, and continuously supporting the stable deployment of intelligent driving systems over the long term.
MOJANDA 330’s recognition as the “2026 Most Influential Automotive Chip” affirms its comprehensive product capabilities and industrial value. It demonstrates that domestic automotive-grade high-precision positioning chips are advancing from technology development into deep application deployment, playing an increasingly defined and vital role within China’s intelligent vehicle supply chain.
Looking ahead, MCT will continue to advance its development strategy of “data-driven, hardware-software integration,” building upon its two core competencies of attitude sensing and absolute positioning. The company will continue to refine its automotive-grade chips, high-precision IMU, multi-source fusion algorithms, and real-world data feedback loops — driving the deployment of spatial intelligence capabilities across intelligent vehicles, embodied intelligence, satellite internet, low-altitude economy, and a growing range of Physical AI applications.