Explore our core engineering catalog featuring integrated encoder-feedback micro drives, high-torque shaded pole gears, and planetary motor units configured for high duty-cycle linear output.
At TTM Motor, we don’t just manufacture motors—we engineering motion. We understand that in the world of advanced robotics, medical equipment, and smart automation, a fraction of a millimeter or a micro-level torque variance can dictate the success of your entire project. That is why our Shanghai-based R&D facility is dedicated entirely to pushing the boundaries of micro-drive performance.
Every micro DC motor, planetary gearhead, and brushless drive (BLDC) we produce is a result of rigorous cross-disciplinary engineering. Armed with advanced CAD/CAM software, automated winding technologies, and precision dynamic balancing testing equipment, our in-house engineering team bridges the gap between your conceptual design and volume manufacturing.
True to our Top Quality & Customization ethos, we specialize in solving complex integration challenges. Whether your application requires an integrated encoder for precise feedback, a custom-molded lead screw shaft, or a high-vacuum-compatible enclosure, TTM Motor has the technical expertise to customize and deliver ready-to-install motion sub-assemblies that meet your exact specifications.
Pioneering Electromechanical Design & Automation R&D
Certified Linear Actuator & PMDC Component Alignment
Machining Tolerances across NC Wire-Cut Components
Global Industrial OEM Supply Chains Maintained
In modern industrial design, the conversion of rotational torque to linear thrust is undergoing a paradigm shift. Historically, pneumatic and hydraulic cylinders dominated high-load applications. However, modern system architects are pivoting to electric linear actuators due to their superior efficiency, precise positioning, reduced maintenance overhead, and environmental compliance.
The convergence of brushless DC (BLDC) motors, planetary gearing, and absolute magnetic encoders has enabled electric actuators to execute sub-micron positional tasks with load capacities exceeding 50,000N. Crucially, the integration of smart controller protocols (e.g., IO-Link, CANopen, Modbus) transforms these components from basic mechanical thrust-devices into intelligent nodes within the Industrial Internet of Things (IIoT).
As a leading exporter, TTM Motor meets these technological shifts by integrating advanced structural materials such as carbon-reinforced guide sleeves, high-density alloy screw-rods, and low-friction, high-durability seals that achieve IP69K ingress protection—critical for heavy-duty automotive, agricultural, and food processing applications.
Our CE certified actuators eliminate hydraulic oil leaks, reducing system carbon footprints and meeting stringent RoHS environmental directives across European borders.
Leveraging internal planetary gear systems and computer-wound PMDC/BLDC architectures ensures uniform wear patterns and duty-cycles up to 100%.
From customizable electrical shade pole motors to custom stroke lengths and custom-molded lead screw shafts for robotic applications.
A rigorous step-by-step assembly protocol ensuring that all component parts, from the basic wound armature to the finished actuator housing, comply with zero-defect standards.
Raw Material
Soldering
Assembling
Testing
Packing
Storage
Precision is born of the tools used. TTM Motor deploys world-class lathing, milling, gear-hobbing, and wire-cut machinery to guarantee tolerances that cheaper manufacturing processes cannot match.
Global procurement teams in Europe and North America evaluate suppliers not only on cost per unit but on the long-term reliability and compliance of their electromechanical products. For key projects in clinical settings, industrial plants, or harsh marine environments, components must satisfy rigorous regulatory checklists:
Our quality verification lab is outfitted with advanced constant temperature chambers, salt-spray tanks, dynamometers, and specialized soundproof rooms to ensure that every linear actuator exceeds global design margins.
Navigating the complex regulatory landscape of destination markets is a critical bottleneck for exporters. To support our clients in securing quick time-to-market approvals, we ensure that every customized electric linear actuator adheres to standard global certifications:
Additionally, TTM Motor provides comprehensive documentation packets—including Declared Declarations of Conformity, dynamic force-displacement plots, test profiles from salt spray chambers, and standard wiring sheets—simplifying localized system assembly and certification processes.
Looking ahead, TTM Motor's R&D efforts focus on two key areas: increased power density and decentralized motion control. By transitioning to brushless motor architectures with integrated servo drives, our next-generation linear actuators will execute complex multi-axis motion profiles directly from the actuator unit itself, reducing wiring overhead and central PLC control limits.
We are also optimizing our lead screw structures to support high-efficiency ball-screw options that achieve over 90% mechanical efficiency. Combined with automated online monitoring of current load, speed anomalies, and thermal signatures, this will allow our customers to predict component fatigue and transition to predictive maintenance schedules, avoiding costly unscheduled downtime.
Addressing the common questions raised by electrical and mechanical engineering design teams during the actuator selection process.
Ball screws operate using recirculating ball bearings to carry the load, resulting in high mechanical efficiency (typically >90%), minimal backlash, and high precision. They are ideal for high duty-cycle industrial tasks. Lead screws (trapezoidal or Acme) rely on sliding friction, resulting in lower efficiency (typically 30-50%) but offer a self-locking safety function, preventing the actuator from back-driving when power is removed.
CE Certification verifies compliance with essential European safety directives. For actuators, this covers the Machinery Directive (safety of mechanical joints), the Low Voltage Directive (operational safety for electrical inputs), and the EMC Directive (prevention of electromagnetic emissions and resilience to external interference). Without it, components risk seizure at European ports of entry.
Every armature and rotor undergoes automated dynamic balancing. Motor and gearbox sets are evaluated in specialized noise testing chambers to verify operation remains below targeted dB limits. This is a critical requirement for medical equipment, patient bed systems, and laboratory instrumentation.
Yes. By utilizing specialized radial shaft seals, heavy-duty O-rings, corrosion-resistant housings (such as SUS316 stainless steel), and hydrophobic membranes, TTM Motor can design and supply custom actuators that resist high-pressure water jets and washdowns, making them suitable for food and beverage applications.
We regularly integrate absolute and incremental magnetic encoders, analog Hall-effect sensors, potentiometer units, and end-of-stroke limit switches. These feedback systems allow automation controllers to track linear displacement, manage velocity profiles, and prevent over-travel damage.
Complement your linear motion designs with our specialized low-voltage DC brush gear motors, heavy-duty AC barbecue units, and planetary brush/brushless systems.
TTM Motor
