Made in Taiwan, Ready for Global Production: GMW Equipment Accelerates UAV, Robot, and EV Motor Manufacturing
As the U.S. and several other countries continue to raise tariffs on Chinese-origin goods, global manufacturers are actively diversifying their supply chains to mitigate risk.
Taiwan-based Giam Ming Enterprise is leading the way with 100% Taiwan-designed and manufactured automation equipment, becoming a trusted partner in UAV, EV, and humanoid robot motor production.
Giam Ming specializes in automated solutions for brushless motor stator winding and assembly, widely deployed in production lines for quadruped robots, UAV propulsion systems, and joint-based EV motors.
Our equipment supports various stator sizes — such as UAV motors 2810, 4540, 6639, and others — with modular designs and rapid tooling changeovers, making it ideal for fast deployment and flexible customization at early production stages.
Avoiding Tariff Risks, Building Global Flexibility
To meet global demand, GMW offers comprehensive support for factory setups in the U.S., EU, and Southeast Asia, including equipment export, remote technical guidance, and online diagnostics.
We have already assisted international clients in establishing high-efficiency production lines across diverse locations — including Vietnam, India, Malaysia, and the United States — helping them effectively navigate both tariff threats and supply chain disruptions.
Key Advantages at a Glance
✅ 100% Made in Taiwan, unaffected by Chinese-origin export tariffs
✅ Fast deployment for quadruped robots, UAVs, and EV motor production lines
✅ Flexible automation architecture, supporting global expansion (e.g., the U.S., Vietnam, India, Malaysia)
✅ High yield & modular configuration, compatible with a wide range of joint motor sizes
At GMW, we believe the more uncertain the world becomes, the greater the need for stable, agile, and globally deployable manufacturing solutions.
We are committed to helping customers worldwide build resilient, scalable, and low-risk production capacity through advanced automation.
