1.3. MF Reflector on Base GridReflector calculated from a NURBS base grid. Note: These applications only work with a NURBSsurface and not a trimmed surface.Signal LampThis configuration creates a signal beam reflector using a rectangular base grid. The top of the re-flector is formed from the base grid, and the bottom of the reflector is mirrored from the top. Thisapplication is good for all kinds of signal functions (e.g. stop, turn, tail).
Signal Lamp (LED)This configuration creates a signal beam reflector using a rectangular base grid. The top of the re-flector is formed from the base grid, and the bottom of the reflector is mirrored from the top. Thisapplication is good for all kinds of signal functions (e.g. stop, turn, tail). The configuration uses aforward facing LED disk.Figure 23:Signal Lamp, polar gridThis configuration creates a signal beam reflector using a pre-calculated polar base grid. The ap-plication is good for all kinds of signal functions (e.g. stop, turn, tail).
1.4. MF Near FieldA near field application defining the light target in terms of position instead of angle.Projector Type HeadlampThis application creates a projector type headlamp using a faceted MF reflector, rather than astandard Poly Curve System (PCS) reflector. The configuration makes use of the near field targetplane option within the Macrofocal applications.
Figure 27:ECE Low Beam (Target Light on Road)This application creates an ECE regulation low beam pattern produced by a MF reflector using afree plane target. The MF target for this application is a free plane that is oriented as if it were theroad surface in front of the reflector. (Note: This is just for tutorial purposes, and is only to showthe capabilities of the MF application.)
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