繁體中文:
LMF系列 & LMS系列-R1           

TMX系列 & TMN71系列            

English:
LMF & LMS-R1                       

TMX & TMN71                        
日本語:
LMF & LMS-R1                       

TMX & TMN71                        
Linear Motor


Linear motors’ principle is based on Lorentz force, in which the combination of electric and magnetic force on a point charge due to electromagnetic fields. (If a particle of charge q moves with velocity v in the presence of an electric field E and a magnetic field B, then it will experience a force)   F=q[E+(v*B)]
In addition, the use of magnet arrangement and multiple forcers can achieve multiple forcers’ independence movement on single-axis stators and without stroke restriction. Also nanopositioning control. can be easily realistic via matching the high resolution feedback system.



Ironcore Motors

     3-phase Y-connected AC wiring
     Concentrated winding and high packing factor
     Wear-free operation and zero backlash
     Low cogging force
     High force density
     Excellent acceleration and deceleration
     Point-to-point positioning with high speed



Ironless Motors

     3-phase Y-connected AC wiring
     U Shape Stator
     Distributed Winding
     Wear-free operation and zero backlash
     No cogging
     No attraction force between forcer and stator
     Low velocity ripple
     Excellent acceleration and deceleration
     In-line coupled forcer units
     Smooth motion profile application



Shaft Motors

     3-phase Y-connected AC wiring
     Circle stator
     Concentrated Winding
     Wear-free operation and zero backlash
     No cogging
     No attraction force between forcer and stator
     Low velocity ripple
     Excellent acceleration and deceleration
     In-line coupled forcer units
     Smooth motion profile application



Planar Motors

     Magnetoresistive stepping motor
     Using air bearing for wear-free operation
     Built-in position feedback system
     Scarcely heat generation
     Without magnetic field dissipation
     Available for inverse installation
     Multiple forcers operated individually