Laser cartridge – InFocus Laser Platform M-300 User Manual
Page 27
3-2
System Operation
Laser Cartridge
The laser cartridge is a very sophisticated device. It is composed of a plasma tube filled with a
special mixture of CO2 and other gases, and RF (radio frequency) electronics. The function of
the entire assembly is to turn electrical energy into concentrated light energy. The word LASER
is an acronym for Light Amplified Stimulated Emission of Radiation.
#2 MIRROR
#1 MIRROR
#3 MIRROR
FOCUS LENS
FOCAL RANGE
MATERIAL
FOCAL LENGTH
SPOT
BEAM WINDOW
BEAM DIAMETER
LASER CARTRIDGE
RF ELECTRONICS
GAS FILLED PLASMA TUBE
ELECTRODES
The laser cartridge It receives power from the 48VDC power supply and its “trigger signal” from
the CPU. When the laser system is power on and the trigger signal comes from the CPU, the
RF electronics produce a high frequency AC signal across the electrodes located inside the
plasma tube. This causes spontaneous photon emissions from the gas mixture that produces
an invisible, infrared light beam at a frequency of 10.6 microns.
The laser beam exits the laser cartridge through its output optics, bounces off the #1 mirror,
passes through the beam window, bounces off the #2 and #3 mirror, and finally passes through
the focus lens. The #2 and #3 mirror and the focusing lens are all mounted to the motion
system. The width of the laser beam as it exits the tube, called the “Beam Diameter”, is about 4
mm. The focus lens focuses the beam into a very small spot whose “Spot Size” is dependent
on the “Focal Length” of the lens. The “Focal Length” is the distance from about the center of
the lens to the point where it converges the beam into the smallest spot possible. Using a
standard 2 inch focal length lens, the spot size produced is approximately .005 inches.
The “Focal Range” of the lens, where the beam is considered to be “in focus”, is equivalent to +/-
5% above and below the focus point. Shorter lenses produce a smaller spot size but also have
a very narrow focal range. This means that it would only be useful for engraving very flat objects.
The longer lenses have a much wider range of focus but also produce a larger spot size that
would prohibit the engraving of fine detail. This can be related to trying to write small text with a
wide, felt tip marker. There are pros and cons to the different lenses that are available for
different applications. Please refer to the Appendices section on available lenses and their
operating characteristics.