ICD Series Ironcore motors feature a low-profile design and low attractive force, and are a suitable replacement for many ironless applications. They provide the highest force per frame size and feature a patented anti-cogging design for smooth operation. Our co-engineering capabilities allow us to meet your application’s stroke and payload requirements without the time and expense of a customized solution.
Features
57.0 to 315 N (12.8 to 70.8 lbf) continuous force accommodates a wide range of application requirements
165 to 1099 N (37.1 to 247 lbf) peak force meets high instantaneous power requirements
High peak accelerations, easily above 10 g
Coils wound on silicon steel laminations to maximize the generated force with a single-sided magnet way
Patented anti-cogging technique for minimal cogging without magnet skewing
High efficiency with low thermal loss
Benefits
Highest rated thrust force per size—ideal for accelerating and moving high masses
Maintains the stiffness required for machining and other process forces
Zero maintenance
No ball screws, gearboxes, rack and pinions, or belts and pulleys
Zero backlash and compliance
High stiffness
High positional accuracy
Compact mechanical assembly
Reduced machine parts count
Very smooth velocity
ICD Series Ironcore motors feature a low-profile design and low attractive force, and are a suitable replacement for many ironless applications. They provide the highest force per frame size and feature a patented anti-cogging design for smooth operation. Our co-engineering capabilities allow us to meet your application’s stroke and payload requirements without the time and expense of a customized solution.
Features
- 57.0 to 315 N (12.8 to 70.8 lbf) continuous force accommodates a wide range of application requirements
- 165 to 1099 N (37.1 to 247 lbf) peak force meets high instantaneous power requirements
- High peak accelerations, easily above 10 g
- Coils wound on silicon steel laminations to maximize the generated force with a single-sided magnet way
- Patented anti-cogging technique for minimal cogging without magnet skewing
- High efficiency with low thermal loss
Benefits
- Highest rated thrust force per size—ideal for accelerating and moving high masses
- Maintains the stiffness required for machining and other process forces
- Zero maintenance
- No ball screws, gearboxes, rack and pinions, or belts and pulleys
- Zero backlash and compliance
- High stiffness
- High positional accuracy
- Compact mechanical assembly
- Reduced machine parts count
- Very smooth velocity