Description
Product Description
- High-performance, high-precision motorized XY stage for automation, high-resolution and precise repeat positioning scenarios;
- Travel range: 80mm (X-axis) * 80mm (Y-axis);
- Repeat accuracy of ±5μm, axial error of 0.02mm, minimum resolution ≤2μm;
- Wide speed range: adjustable from 1.625mm/s to 13mm/s, meeting the requirements of precise positioning and rapid movement;
- High-subdivision microstep drive greatly reduces the vibration and noise of the stepping motor for smoother motion;
- Recommended to be used with O’motion 4-axis motion controller or 2 × OSMC-1U single-axis controllers;
- Compatible with the Oeabt microscopy product series for customized integration into microscope systems.
This 4-inch motorized XY stage for automated, high-precision positioning offers an 80*80mm XY travel range, suitable for microscopic imaging, industrial inspection, precision machining and other scenarios.
| Model | AS8080-XY |
| Specifications | 21920432.2mm |
| Total Travel | 80mm (X-axis) * 80mm (Y-axis) |
| Maximum Load | 3.2kg |
| Stage Size | 209*204mm |
| Center Aperture | Ø90mm |
| Dovetail Type | Female dovetail groove: Ø108mm, α=60° |
| Lead Screw Type | Ø8mm high-speed threaded lead screw, 12mm lead |
| Guide Rail Type | Dual linear guide rails |
| Maximum Speed | 13mm/s |
| Minimum Speed | 1.625mm/s |
| Handwheel Minimum Resolution | ≤2μm |
| Repeat Accuracy | ±5μm |
| Axial Error | 0.02mm |
| Backlash | 0.01mm (stepping reducer gear clearance) |
| Motor Type | 20BYG geared stepping motor (reduction ratio 5.1:1) |
| Microstep Resolution | 51200 microsteps per revolution (for 1.8° step angle motor) |
| Sensor Type | Slot-type photoelectric sensor (NPN normally open, high level active) |
| Operating Voltage | DC 12V |
| Operating Current | 2A |
| Recommended Driver/Controller | O’motion 4-axis motion control system (OM-4X control driver & OM-4CP operation handle), 2 × OSMC-1U single-axis stepping controller |
| O’motion 4-axis (3+R) Motion Control System | |
| Input Voltage | AC 110V-240V |
| Output Voltage | DC 24V/5V |
| Output Current | DC 24V@6A, DC 5V@2A |
| Rated Power | 154W Max |
| Emergency Stop Switch | Equipped |
| Controllable Axes | 4 axes, 1 axis with closed-loop control |
| Encoder Support | 50-4096 Line, 4MHz Max |
| Motor Microstep Resolution | 1/16-256 |
| Touch Screen Type | Capacitive, 800*480 resolution |
| Manual Control Mode | Screen keys / 4-way Hall joystick / 2-way Hall joystick / Electronic handwheel (25ppR variable magnification) |
| Automatic Control Mode | Supports automatic point-to-point motion, interpolated motion |
| PC Program Control | Not mandatory (Windows version provided) |
| Control Protocol | O’motion Enhanced v1.1 |
| Protocol Type | ASCII command type |
| Supported Systems | Windows 7-11 / Linux / Macos / Android / Others |
| Protection Grade | IP44 |
| Dimensions | 300.0210.081.3mm |
| OSMC-1U Single-axis Stepping Controller | |
| Model | OSMC-1U |
| Drive Voltage | DC 12V-24V |
| Drive Current | 2A Max |
| Drive Type | 16 bit PWM control |
| Control Algorithm | PID |
| High-resolution Stepping | 51200 microsteps per revolution (for 1.8° step angle motor) |
| Subdivision Multiple | 16X-256X (software adjustable) |
| Encoder Feedback Bandwidth | 500 Hz |
| Position Counter | 32 bit |
| Operating Mode | Position, Speed, Motion Cycle |
| Acceleration/Deceleration Curve | S-curve |
| External Trigger Control | Frequency recognition (PWM signal) |
| Communication Interface | USB serial port |
| Communication Protocol | Open ASCII command |
| Supported Systems | Windows / Linux / MacOS / Android |
| Motor Connector | D-sub 26 (MDR20 for open-loop control) |
| Limit Switch Input | Positive limit, Zero position limit |
| Encoder Power Supply | DC 5V output |
| Panel Controls | Hall stepless speed regulation joystick, 1.54-inch OLED (Chinese menu) |
| Power-off Memory | Equipped, maintains position |
| Housing Dimensions | 76.074.247.0mm |
| Weight | 183.5g |
| Note*: For pulse width recognition, a dedicated complex signal generator is required to generate signals with different pilot pulse widths to determine the motion direction, and the motion speed is adjusted according to the pulse frequency. For frequency recognition, the motion direction is determined only by the frequency level, and the speed follows the user’s global speed setting (1-8x). Therefore, the requirements for user signals are simple, only frequency modulation characteristics are needed. |
| Model | ASD-A | ASD-B |
| Specifications | Ø101.9*3.5mm | Ø101.9*15.1mm |
| Clear Aperture | Ø40mm | / |
| Compatible Clamping | 25.476.2mm or 2576mm glass slides | Placed for use, no fixing method |
| Screw Hole Type | / | 2 × M6 |
| Weight | 54.2g | 88.4g |
| Material | 7075 aluminum alloy + stainless steel | 7075 aluminum alloy + stainless steel |
Technical Description
(1) Adopting a high-subdivision microstep drive and dual linear guide rail structure, it balances the requirements of precise positioning and rapid movement. The stage can be used with the O’motion 4-axis motion control system or two OSMC-1U single-axis controllers to realize flexible switching from manual fine operation to fully automatic program control, and can be seamlessly integrated into the Oeabt microscopy system.
(2) System Matching and Application
- High-end fully automatic solution: Stage + O’motion 4-axis system. Suitable for high-end scientific research and industrial inspection requiring multi-axis coordination, closed-loop control, complex program automation and intuitive human-computer interaction.
- Cost-effective flexible solution: Stage + 2 × OSMC-1U controllers. Suitable for projects with limited budget, requiring independent axis control or distributed integration, with high flexibility.
(3) In terms of the control system, the stage supports USB serial communication and is compatible with multiple operating systems such as Windows, Linux, MacOS and Android. It adopts the standard ASCII O’motion communication protocol and is accompanied by complete development documents and sample programs for easy secondary development and system integration by users.
(4) Both precision and efficiency: Micron-level positioning accuracy combined with millimeter-level movement speed meets the needs of high-efficiency and precision operations. Two control schemes are provided: integrated multi-axis and distributed single-axis, adapting to different budget and integration requirements.
(5) The communication bus and power hub are specially designed for the operation of Oeabt series C-module controllers, supporting cascading to connect multiple controllers.
(6) Out-of-the-box: All necessary hardware is provided as a complete set, eliminating the complex time of model selection and integration.
Assembly
Application Examples
