Electromagnetic Motors
Rotary Motor
Coreless hollow motor enabling smooth rotation from ultra-low to high speed. Custom mounting flange design and manufacturing available for optical component installation. Flat type for slim applications, cylindrical type for high-speed applications — selectable according to purpose.
VCM (Voice Coil Motor)
Single-coil design eliminates commutation circuits, achieving cogging-free operation. Easy driver gain adjustment enables high-speed response. Choose between moving coil or moving magnet (yoke) drive. Easily increase coil windings for high thrust at low current. Simple structure for low cost (OEM supply available).
VCM Stage
VCM stage combining voice coil motor characteristics with our encoder, achieving thrust-current linearity plus high-precision positioning. With a lightweight movable part and direct drive control, there is no ball-screw pitch unevenness, enabling faster motion than typical actuators. Like a DC motor, the control circuit is simplified and analog (voltage) input is supported. Compact, slim, high-speed, high-precision, and high-thrust. Flat coil design achieves 15%+ thrust improvement over conventional products.
Linear Motor Stage
Linear motor series. From embedded linear motor modules to integrated linear stages — coreless or iron-core, coil-moving or magnet-moving — we offer the optimal linear motion solution for every application.
Polygon Scanner Motor
Polygon scanner motors customizable up to large-diameter polygon mirror sizes. Flat coreless motors can be designed to match the mirror size, supporting low-volume industrial laser scanners with custom specifications. Gold-coated high-reflectivity polygon mirrors are also available.
Z-Θ
Linear actuator integrating Z-axis (linear) and θ-axis (rotary). The shaft features a vacuum line for pick-and-place component transport. Each axis is equipped with our optical encoder for high-speed, high-precision operation. Ideal for picking up micro electronic components, precisely positioning them at the required rotation angle, and placing them.