Galvo for Wide-field Scanning
The 20-bit digital galvo scanner handles main trajectories, contour scanning and wide-range positioning.
Galvo + AOD Control
A galvo-AOD coordinated control platform for ultrafast precision laser processing. One card simultaneously controls a 20-bit digital galvo scanner and dual-axis AOD driver.

Coordination
The 20-bit digital galvo scanner handles main trajectories, contour scanning and wide-range positioning.
AOD controls spot position by RF frequency with almost no mechanical inertia.
Galvo, AOD, laser Gate and sync signals are scheduled by one card.
AOD Crystal
AOD stands for Acousto-Optic Deflector. Ultrasound inside the crystal forms a dynamic grating and changes the propagation direction of the diffracted laser beam.
In this system, the galvo handles wide-field scanning while the AOD provides high-speed local micro-deflection and energy modulation.
RF frequency determines first-order diffraction angle and spot displacement.
RF power affects diffracted intensity and can be compensated by frequency-power tables.
Original Simulator
The original AOD-4F-galvo simulator is embedded here. The simulator UI follows the current site language.
Capabilities
Chirp Focus
Continuous frequency sweep inside the AOD crystal adds a controllable dynamic-lens effect to the beam. By changing the Chirp slope, the control card moves the focal point upward or downward along the Z axis for rapid processing at different heights and focal-depth positions.
Distortion Correction
At the edge of the galvo scan field, local AOD coordinates are affected by galvo angle and image-field mapping, so a directly processed square may be distorted. The software applies inverse pre-correction to AOD coordinates so the final processed result remains square.
Applications
For femtosecond and picosecond laser tasks requiring pulse-position consistency.
Micro-holes, micro-grooves, fine lines and dot arrays.
PCB, FPC and package-substrate micro-via processing.