One particularly interesting application that employs long working distance (LWD) beam delivery is ceramics machining. The beam is split into two equal square portions, which are then passed through round apertures at a high BUF. The beamlets are demagnified by 15x, producing on-target spots of approximately 125µm, which are directed onto opposite sides of the part. Careful alignment of the two beamlets results in simultaneous double-sided drilling, minimizing vibration and shock, decreasing hole taper, and doubling drilling speed. An open frame X,Y table permits part movement without obstructing either beamlet. Direct write motion control using CAD/CAM software produces quick-turnaround, high-accuracy prototype parts.
The following table shows the features of several long-working-distance objective lenses.
Plano-convex Singlet |
Correct Doublet |
Four Element Corrected |
Multi Element Telecentric |
|
Resolution |
>10µm |
~5µm |
~2µm |
~2µm |
Field size (mm) |
~10mm |
~10µm |
~5mm |
Up to 25mm |
Complexity |
Very low |
Low |
Moderate |
High |
Cost |
Very low |
Moderate |
Moderate |
High |
Losses |
2 to 5% |
5 to 10% |
5 to 10% |
>20% |
Notes |
Very expensive; barrel distortion |
Dual wavelength operation, moderate distortion |
Low distortion |
Very large field of view, good depth of field |
Advantages of LWD Systems
Disadvantages of LWD Systems