T-OMG Miniature Motorized Gimbal Optic Mount with Built-in Controllers

Specifications

Motorized Or Manual: Motorized
Built-in Controller: Yes
Mount Aperture Diameter: 24 mm
Axes Of Motion: Two
Full Range Of Motion: 14 deg
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Features


  • Two-Axis Gimbal Mount: Offers a +/- 7 degree range for precise motion control.

  • Optic Compatibility: Designed to hold 1" (25 mm) optics securely.

  • Integrated Controller: Features a built-in controller that supports daisy-chaining of data and power with other T-Series products.

  • Compact Design: Our most compact optical mount, weighing only 350 grams, making it ideal for space-constrained applications.

  • Communication Interface: Utilizes RS-232 with Zaber Binary protocol for efficient communication.

  • Power Requirements: Operates with a 12-16 VDC power supply, using a 2.1 mm center positive power plug.

  • High Precision: Motor steps per revolution are 200, with a default resolution of 1/64 of a step.

  • Manual Control: Includes a potentiometer for easy manual adjustments.

  • Mounting Interface: Equipped with an M6 threaded hole for optic post mounting and supports 1" or 25 mm optics.

  • Environmental Compliance: RoHS and CE compliant, ensuring safety and environmental standards are met.

  • Operating Temperature: Suitable for environments ranging from 0 to 50 degrees Celsius.

  • LED Indicators: Bi-colour LED indicators for status monitoring.

  • Precision Drive System: Utilizes a precision lead screw for accurate movements.

  • Magnetic Hall Sensor: Provides limit or home sensing for reliable positioning.

  • Stepper Motor: Features a two-phase stepper motor with a NEMA 08 frame size and 1.5 mH/phase inductance.

  • Low Backlash: Azimuth axis backlash is < 0.005 degrees, and elevation axis backlash is < 0.0025 degrees.

  • Speed Range: Azimuth axis speed ranges from 0.00054 deg/s to 11 deg/s, while elevation axis speed ranges from 0.00027 deg/s to 7 deg/s.

Applications


  • Optical Beam Steering: Enables precise directional control of laser beams or optical signals.

  • Automated Optical Alignment: Facilitates high-precision alignment tasks in photonics research.

  • Laser Tuning Systems: Ideal for fine adjustment in wavelength tuning or coupling setups.

  • Fiber Optic Communication: Supports component positioning within fiber alignment and testing systems.

  • Laboratory Research: Essential for experimental setups requiring dynamic two-axis optic positioning.