Optimal Engineering Systems (OES) has introduced the AY110-200-04 Rotary Stage, a compact yet robust positioning solution that combines exceptional load capacity with micron-level precision. The 200mm diameter stage delivers 3.6 arcsecond resolution while supporting loads up to 100kg (220lbs), all within an ultra-low 83mm (3.268in) profile.
Engineering Precision in Compact Form Factor
The rotary stage features a 60mm (2.362in) center aperture and strategically placed mounting holes that simplify integration into both new and existing systems. Its 360-degree continuous rotation capability, driven by a precision 180:1 worm gear system, ensures accurate positioning for applications requiring repeatable angular movements. The included quadrature optical encoder provides real-time position verification to maintain operational accuracy.
Versatile Motorization Options
OES offers the AY110-200 Series with four distinct drive configurations:
- Stepper motor with manual adjustment knobs (-01)
- Three-phase brushless DC servo motor with encoder (-02)
- Brushed DC servo motor with encoder (-03)
- Stepper motor with encoder replacing manual knob (-04)
This flexibility allows engineers to select the optimal drive system for their specific torque, speed, and control requirements.
Optimized for Critical Industrial Processes
The anodized aluminum stage weighs just 12kg (26.5lbs) while maintaining exceptional stiffness, making it ideal for microscopy, laser processing, precision assembly, and automated inspection systems. Available as a complete plug-and-play package, the system includes multiple control interface options (RS-232, USB, joystick, and keypad) with compatible motion controllers for seamless integration into automated workflows.
Cost-Effective Precision Positioning
By combining high load capacity with sub-arcminute resolution in a competitively priced package, the AY110-200-04 establishes a new benchmark for accessible precision motion control. Its compact footprint (250×267mm) and versatile mounting options make it particularly valuable for space-constrained applications where performance cannot be compromised.
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