Moog toroidal motors have the dual advantage of being brushless and providing constant, ripple-free torque sustained through the required angle. Eliminating the slot cogging effect makes toroidal designs desirable in many applications, especially in incremental motion systems and in the field of control instrumentation. In addition, lower rotor inertia motors may be substituted where a high mechanical time constant was incorporated to filter torque ripple.
Features
Brushless DC motor
Rapid response, limited travel
Constant torque sensitivity over the limited excursion angle
No commutation, elimination of electrical noise
Slotless stator core ensures ripple free torque
Rare earth magnets
Windings are encapsulated for ruggedness
Unhoused or housed
Can be custom modified to meet specified requirements
Moog toroidal motors have the dual advantage of being brushless and providing constant, ripple-free torque sustained through the required angle. Eliminating the slot cogging effect makes toroidal designs desirable in many applications, especially in incremental motion systems and in the field of control instrumentation. In addition, lower rotor inertia motors may be substituted where a high mechanical time constant was incorporated to filter torque ripple.
Features
- Brushless DC motor
- Rapid response, limited travel
- Constant torque sensitivity over the limited excursion angle
- No commutation, elimination of electrical noise
- Slotless stator core ensures ripple free torque
- Rare earth magnets
- Windings are encapsulated for ruggedness
- Unhoused or housed
- Can be custom modified to meet specified requirements
