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If your work involves laser diodes, you’ll
appreciate the benefits of Optima’s laser diode mounting systems. Components in the
system facilitate mounting a laser diode, collimating or focusing the beam, and aligning
the beam with other optics or electro-optical components. Optima’s laser diode
mounting kits offer a quick and cost effective solution for mounting a
Ø5.6mm or
Ø9mm
laser diode. All of the mounting kits (except the LDM 1100) include the collimating lens,
a black anodized aluminum housing, and the hardware required to mount your laser (the
laser diode is not included). All of the collimating lenses are intended for use with
laser diodes in the 635nm to 830nm range. The LDM 3756 KIT — 450 is an exception to the 635nm to 830nm wavelength range, the lens in this kit has a special AR coating centered for 450nm (blue) laser diodes. The lens is very efficient, close to 89% total transmission and is diffraction-limited. |
 |
LDMKITS.PDF (207K) Click on the file name to download an Adobe PDF file covering this section. |
Laser Diode Mounting Kits For 5.6 mm and 9.0 mm
Diameter Laser Diodes
Model Comparison and Specifications:
|
LDM_KITS.PDF (70K) Click on the file name to download an Adobe PDF file covering the table below: |
| Part Number | Laser Diode Base Dimensions | Price Each |
Features and Attributes | X-Y Adjust | Collimating Lens Type | Collimating Lens P/N | Housing Dimensions | Collimated Beam
Size (mm) note 4 |
Focused Beam
Size (microns) note 4 |
Minimum Working Distance (mm) |
| LDM 1100 KIT | Ø5.6 & 9.0mm | $52.60 | Optical bench mount, no optics | no | Optics
not included, use ADP 9056 KIT listed below |
Ø25.3 x 10.4mm | Optics
not included, use ADP 9056 KIT listed below |
|||
| ADP 9056 KIT (1,3) | n/a | $163.00 | Optics kit for
LDM 1100 KIT |
no | Lenses
noted below (3) no laser diode mount included use LDM 1100 KIT (above) |
Ø25.3 x 14.9mm | Specifications vary with the different optics included with this kit | |||
| LDM 3300 KIT | Ø9.0mm | $57.00 | Small collimated beam | no | Glass Asphere | 305-0464-780 | Ø11 x 17mm | 0.85 x 3.73 | 20 x 9.6 | 6 mm |
| LDM 3356KIT | Ø5.6mm | |||||||||
| LDM 3400 KIT (1,2,) | Ø9.0mm | $77.40 | Aperture for beam shaping | no | Multi-element | 336-1027-xxx | Ø12.7 x 18.5mm | Specifications vary with the different apertures included with this kit | ||
| LDM 3456 KIT (1,2,) | Ø5.6mm | |||||||||
| LDM 3406 KIT (1,2,) | Ø9.0mm | $93.25 | Interchangeable apertures for beam shaping | no | Multi-element | 336-1027-xxx | Ø12.7 x 18.5mm | Specifications vary with the different apertures included with this kit |
||
| LDM 3457 KIT (1,2,) | Ø5.6mm | |||||||||
| LDM 3500 KIT | Ø9.0mm | $72.40 | Long FL lens for small beam at long distance | no | Glass Asphere | 305-8045-780 | Ø11 x 17mm | 1.68 x 5.30 | 50 x 23 | 90 mm |
| LDM 3556 KIT | Ø5.6mm | |||||||||
| LDM 3700 KIT (1) | Ø9.0mm | $70.30 | Best beam quality (diffraction limited) | no | Multi-element | 336-1027-xxx | Ø11 x 17mm | 1.12 x 2.87 @ 10mW | 17.8 x 10.2 @ 2mW | 10 mm |
| LDM 3756 KIT (1) | Ø5.6mm | |||||||||
| LDM 3756 KIT– 450 (7) | Ø5.6mm | $91.90 | Diffraction limited, AR coated for 450nm | 336-1027-450 | ||||||
| LDM 3800 KIT (1) | Ø9.0mm | $70.30 | Best beam quality (diffraction limited) | no | Multi-element | 336-1027-xxx | Ø11 x 18mm | |||
| LDM 3900 KIT | Ø9.0mm | $57.10 | Good beam quality, smaller focused beam | no | Glass Asphere | 305-0066-780 | Ø11 x 17mm | 1.37 x 5.12 | 24 x 10.5 | 21 mm |
| LDM 3956 KIT | Ø5.6mm | |||||||||
| LDM 4000 KIT | Ø9.0mm | $45.70 | Low cost | no | Plastic Asphere | 300-0360-780 | Ø11 x 17mm | 0.92 x 3.17 | 19.5 x 8.6 | 8 mm |
| LDM 4056 KIT | Ø5.6mm | LDM 4200 KIT (5) | Ø9.0mm | $52.60 | Low cost, long FL lens for smallest beam at long distance | no | Plastic Asphere | 300-0395-780 | Ø11 x 25.5mm | 3.38 x 4.65 | 51 x 36.1 | 153 mm |
| LDM 4256 KIT | Ø5.6mm | |||||||||
| LDM 4300 KIT | Ø9.0mm | $45.70 | Low cost, small collimated beam | 300-0330-780 | Ø11 x 17mm | 0.68 x 2.76 | 19.5 x 8.6 | ~2 mm | ||
| LDM 4356 KIT | Ø5.6mm | |||||||||
| LDM 4400 KIT | Ø9.0mm | $43.80 | Lowest cost | 300-0340-780 | 0.78 x 3.29 |
16.0 x 9.9 |
~4 mm | |||
| LDM 4456 KIT | Ø5.6mm | |||||||||
| LDM 4500 KIT (6) | Ø9.0mm | $45.70 | Low cost, small collimated beam | no | Plastic Asphere | 300-0380-780 | Ø11 x 17mm | 0.74 x 2.89 | 26.5 x 7.3 | 4 mm |
| LDM 4556 KIT (6) | Ø5.6mm | |||||||||
| LDM 5000 KIT | Ø9.0mm | May be Discontinued | Excellent beam quality, large diameter collimated beam | yes | Multi-element | 336-0395-780 | Ø25.4 x 27mm | 1.52 x 5.71 | 30 x 15.5 | 12 mm |
| Notes: | |
| 1) | Please specify collimating lens 336-1027-660 (for visible diodes) or 336-1027-785 (for near-infrared diodes). |
| 2) | The LDM 3400 and LDM 3456 KIT's include one aperture; the LDM 3406 and LDM 3457 include six interchangeable apertures. |
| 3) | The ADP 9056 KIT must be used with the LDM 1100 KIT. The ADP 9056 KIT includes the lens housing for both Ø5.6mm and Ø9.0mm laser diodes, mounting hardware, and three collimating lenses: Part numbers 336-1027-660 or 336-1027-785; 305-0066-780; and 305-8045-780. |
| 4) | The reference data listed for a collimated and/or focused beam size is only intended as a "typical" example based on a Hitachi laser diode p/n HL6312G, operating at 2mW. The data was measured using a Photon Model 1180 BeamScan with a large aperture head for the collimated beam and a high resolution head for the focused beam measurements. The data will likely be different when another laser diode is measured and/or the operating power is changed. |
| 5) | No Longer Stocked, can be supplied on a special order basis. |
| 6) | Limited availability, not for new product applications. |
| 7) | The AR coating on the 336-1027-450 lens is centered at 450nm; specifically intended for the Osram blue laser diode (Osram part number PLT5 450B). |
LDM 1100 KIT – Laser Diode Mount for
Ø5.6mm and
Ø9.0mm DiodesThe LDM 1100 Laser Diode Mount is shown below in the left frame. This convenient mount facilitates mounting the popular Ø5.6mm and Ø9.0mm laser diodes on a standard optical bench post with a #8-32 thread (the post is not included in the kit).
Often when we’re working in the lab with various laser diodes and evaluating different optical assemblies, we find it very desirable to have the diode mounted in a heat sink/mount that provides direct access to the front of the diode. With unobstructed access to the diode’s output, it’s possible to position lenses or other optical components using a separate component holder and/or translation stage. Using the LDM 1100, the diode’s base is firmly clamped against the heat sink surface and the diode’s pins are accessible from the back side of the mount. A clearance hole on the back side of the mount permits using our laser diode socket (P/N 900-8060-000) which greatly improves reliability in connecting the diode with a drive cable.
Note: The LDM 1100 KIT includes the heat sink/mount and mounting
hardware for both Ø5.6mm and Ø9.0mm laser diodes. There are no optics included in the
LDM 1100 KIT — the ADP 9056 Optics Kit shown below in the right frame is designed to
be used with the LDM 1100 — the ADP 9056 is described in the following section and
should be ordered with the LDM 1100 KIT.
P/N LDM 1100 KIT... Unit price (Qty 1- 4) $52.60 each
| LDM 1100 KIT | ADP 9056 KIT |
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ADP 9056 KIT – Optics for LDM 1100 KIT
The ADP 9056 is shown above in the right frame. This kit is specifically designed to
compliment the LDM 1100 diode mount described above. Each kit includes two optics holders;
one for use with Ø5.6mm diodes and a second holder for
Ø9.0mm laser diodes. These black
anodized, aluminum holders clamp the laser diode to the laser diode mount/heat sink and
provide the precision thread for mounting and adjusting the collimating lens. Three Optima
collimating lens are supplied with each kit – the lens part numbers are listed in the
table below with a brief listing of the specifications – (the part numbers in the
table are hypertext links to the detailed specifications page). These high quality
collimating lenses provide the user with a practical range of focal lengths for many
experiments with laser diodes ranging from 635nm to 830nm.
The ADP 9056 KIT includes the lens housing for both Ø5.6mm and
Ø9.0mm laser diodes,
mounting hardware, and three collimating lenses; part numbers 336-1027-660
or 336-1027-785; 305-0066-780;
and 305-8045-780. The lens specifications are briefly listed
below:
P/N ADP 9056 KIT... Unit price (Qty 1- 4) $136.00 each
ADP 9056 Optics Kit Lens Specifications:
| Part Number | Type | Focal Length | Numerical Aperture | Clear Aperture | F# | Field Diameter |
| 336-1027-660
or 336-1027-785 |
Multi-element Glass | 4.516 mm | 0.48 | 4.30 mm | 1.05 | 0.156 mm |
| 305-0066-780 | Molded Glass Asphere | 5.25 mm | 0.40 | 5.00 mm | 1.25 | 0.100 mm |
| 305-8045-780 | 8.00 mm | 0.25 | 4.80 mm | 1.97 | 0.200 mm |
The LDM 3300 KIT is the newest addition to Optima’s Laser Diode Mounting System.
The compact cylindrical housing provides the essential heat sink for the laser diode and a
fine-pitch thread for adjusting the collimating lens position in the z-axis –
allowing the user to either collimate or focus the laser diode beam.
The collimating lens used in the LDM 3300 kit is a diffraction limited, molded glass
asphere with a large numerical aperture, Optima P/N 305-0464-780.
With an NA of 0.5 the collimating lens will efficiently couple the output from most laser
diodes. Also, this lens has a focal length that’s slightly shorter than most of the
Optima glass lenses – with a 4mm focal length, this lens creates a smaller collimated
beam.
The minimum working distance is approximately 6 mm from the front surface of the LDM
housing. Using a Hitachi HL6312G laser diode as an example, a beam focused at the minimum
working distance is approximately 20 x 9.6 microns (1/e2, with 20 microns being the
parallel axis); a collimated beam 100 mm from the front surface of the housing is ~0.85 mm
x 3.73 mm.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 3356 KIT.
P/N LDM 3300 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $57.00 each
P/N LDM 3356 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $57.00 each
The LDM 3400 Laser Diode Mount is a unique design with a few features not found in the other Optima laser diode mounts. The 1/2-inch diameter cylindrical housing is essentially split into two sections; the back section holds the laser diode and the collimating lens. The front section holds a changeable aperture and provides the adjustment mechanism for positioning the collimating lens. The front section has a diamond knurl pattern on the outside diameter – to adjust the collimating lens position, just rotate the front section and the collimating lens moves precisely in the z-axis. The laser diode is firmly held in place by a threaded ring that sits on the back surface of the diode – increasing the metal-to-metal contact area and improving heat transfer.
Multi-element collimating lens – The
lens included with the LDM 3400 mount is the Optima P/N 336-1027-660 or
336-1027-785.
This is possibly one of the best general purpose collimating lens ever designed for
visible and near-infrared diodes. When combined with the LDM 3400 mount, the assembly is
simple and lens adjustment provides exceptional control. Please refer to the lens specifications page for detailed information.
Interchangeable apertures – One technique used to
“cleanup” or “circularize” a laser diodes elliptical beam is to pass
the collimated beam through a small circular aperture. If the size of the aperture is
small enough, the beam exiting the aperture will be circular – an obvious problem
with this technique is a loss in optical power. However, most applications don’t
require a perfectly circular beam – somewhere between the diodes elliptical beam and
a circular beam, there’s usually an acceptable solution.
Comparison of LDM 3400 KIT using the 4.83mm (largest) aperture and the 1.14mm (smallest) aperture:
 |
 |
| Figure 1 Focused beam 56.8 x 15.9 microns Aspect ratio of ~3.5 to 1 |
Figure 2 Focused beam 66.0 x 51.6 microns Aspect ratio of ~1.3 to 1 |
The two 3D figures shown above graphically illustrate the difference between an elliptical beam from a typical laser diode and a beam which has passed through a small aperture – effectively circularizing the beam. The laser diode used in these examples is the Hitachi HL6312G. The beam shown in figure 1 was collimated using the LDM 3400 KIT with the 4.83mm aperture installed. (The 4.83mm aperture has no effect on the beam as it is larger than the clear aperture of the collimating lens). The beam in figure 2 was collimated using the LDM 3400 KIT with the 1.14mm aperture installed. Both of the collimated beams were focused on the target sensor using a plano-convex lens with a 60mm focal length. The size of the focused spot in figure 1 is 56.8 x 15.9 microns with an aspect ratio of about 3.5:1. The size of the focused spot in figure 2 is 66.0 x 51.6 microns with an aspect ratio of about 1.3:1. (The figures are taken at the 1/e2 point and are listed as the parallel axis x perpendicular axis).
Two additional points should be noted: When the beam is circularized with a small
aperture, the focused spot will be larger than the focused spot which has not been clipped
by an aperture. And with the larger diameter focused beam, the depth of field will
increase. For a smaller focused beam consider the LDM 4200 KIT
listed below.
The LDM 3406 KIT and the LDM 3457 KIT includes 6
circular apertures in the following sizes – 1.14, 1.52, 2.03, 2.54,
3.05, and 4.83mm. The 4.83mm aperture is larger than the clear aperture of the collimating
lens, and consequently, has no clipping effect on the beam. The smallest aperture (1.14mm)
is approximately equal to the dimension of the collimated beam in the parallel axis (the
minor axis of the elliptical beam). When the smallest aperture is imposed on the
collimated beam, the output beam will be very close to circular (this depends on the
diodes parallel axis divergence angle). The loss in power, as compared with the 4.83mm
aperture, is approximately 50%. The larger diameter apertures may be used to cleanup a
beam by removing side lobes and other artifacts without causing a significant loss in
power. In any case, the range of aperture sizes supplied with the LDM 3406 kit allows the
user to evaluate the tradeoffs between beam size and power loss. The LDM 3406 KIT is
for use with Ø9.0mm diameter diodes; the LDM 3457 KIT is for use with Ø5.6mm diodes.
Ready for Production – The LDM 3400 KIT and the LDM 3456 KIT
includes one aperture – once you have determined the optimum size for the aperture,
the kit is available in a lower cost production version with only one aperture. Special
aperture sizes are available in production quantities; please contact the factory for a
quote. The LDM 3400 KIT is for use with Ø9.0mm diameter diodes; the LDM 3456 KIT is for
use with Ø5.6mm diodes.
P/N LDM 3400 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $77.40 each (Kit includes the collimating
lens and one aperture)
P/N LDM 3456 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $77.40 each (Kit includes the collimating lens and one aperture)
P/N LDM 3406 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $93.25 each (Kit includes the collimating lens and six apertures)
P/N LDM 3457 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $93.25 each (Kit includes the collimating lens and six apertures)
The LDM 3500 KIT is similar to other laser diode mounts in the Optima product line
– the housing provides a heat sink for the laser diode and a fine-pitch thread for
adjusting the collimating lens position in the z-axis – allowing the user to either
collimate or focus the laser diode beam.
However, the collimating lens included in the LDM 3500 kit is a very high quality molded
glass asphere with a long focal of 8mm, Optima P/N 305-8045-780.
This lens creates a very good quality beam in applications where a smaller beam is
required at longer distances. It can be used in bar code readers that need a longer
depth-of-field and/or work at greater stand-off distances than the typical hand-held
device. It’s probably most useful in alignment systems and laser levels that project
a beam in excess of a hundred feet.
The minimum working distance is approximately 90 mm from the front surface of the LDM
housing. Using a Hitachi HL6312G laser diode as an example, a beam focused at the minimum
working distance is approximately 50 x 23 microns (1/e2, with 50 microns being the
parallel axis); a collimated beam 100 mm from the front surface of the housing is ~1.68 mm
x 5.30 mm.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 3556 KIT.
P/N LDM 3500 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $72.40 each
P/N LDM 3556 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $72.40 each
The LDM 3700 and LDM 3800 mounts are similar to other laser diode mounts in the Optima product line
– the housing provides a heat sink for the laser diode and a fine-pitch thread for
adjusting the collimating lens position in the z-axis – allowing the user to either
collimate or focus the laser diode beam.
The difference between the LDM 3700 KIT and LDM 3800 KIT is as follows: the mechanical
details of the lens holder are slightly different and the LDM 3700 housing is 17mm in
length, whereas the LDM 3800 housing is 18mm long. The same collimating lens is
included with either mounting kit; it’s a high quality, multi-element lens with a
relatively large numerical aperture – Optima P/N 336-1027-660 for visible diodes, or
the 336-1027-785 for near-infrared diodes. Please refer to the lens specifications page for detailed information.
The minimum working distance is approximately 16 mm from the front surface of the LDM
housing. Using a Hitachi HL6312G laser diode as an example, a beam focused at the minimum
working distance is approximately 27 x 21 microns (1/e2, with 27 microns being the
parallel axis); a collimated beam 100 mm from the front surface of the housing is ~0.98 mm
x 4.06 mm.
When ordering a LDM 3700 mounting kit for use with Ø5.6mm diodes, the part number changes to LDM
3756 KIT.
Also, please specify which AR coating is required, -660 for visible diodes; or -785 for
near-IR diodes.
P/N LDM 3700 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $70.30 each (Kit includes the collimating
lens)
P/N LDM 3756 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $70.30 each (Kit includes the collimating lens)
P/N LDM 3800 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $70.30 each (Kit includes the collimating lens) (Limited quantities available)
The LDM 3800 KIT is not available for Ø5.6mm diodes.
The LDM 3756 KIT – 450 is similar to other laser diode mounts in the Optima product line
– the housing provides a heat sink for the laser diode and a fine-pitch thread for
adjusting the collimating lens position in the z-axis – allowing the user to either
collimate or focus the laser diode beam.
The difference between the LDM 3756 KIT– 450 and other
kits is the special AR coating which has a design center of 450nm, i.e.
specifically designed for the Osram 450nm laser diode. The mechanical
details of the laser diode mount and the lens holder are the same as the other
LDM 3700/ LDM 3756 KITS; the housing is 17mm in
length and 11mm in diameter. The 336-1027-450 is high quality, diffraction
limited, multi-element lens with a
relatively large numerical aperture. Please refer to the lens specifications page for detailed information.
The minimum working distance is approximately 10 mm from the front surface of the LDM
housing. Using a Osram PLT5 450B laser diode as an example, a beam focused at the minimum
working distance is approximately 17.8 x 10.2 microns (1/e2, with 17.8 microns being the
parallel axis) this was measured at 2mW; a collimated beam 100 mm from the front surface of the housing is ~1.12 mm
x 2.87 mm; this measurement was taken at 10mW.
P/N LDM 3756 KIT – 450
for Ø5.6mm diodes... Unit price (Qty 1- 4) $91.90 each (Kit includes the collimating
lens, kit does not include the laser diode)
 |
The test set-up shown at the left is using the Optima LDM 3756 KIT - 450,
the Osram PLT5 450B, and a laser diode driver from Vistec Engineering.
The Osram laser diode does not have an internal photodiode in the
package which eliminates the possibility of driving it with the typical
Photodiode Feedback driver. The Vistec driver is a Constant
Current driver, extremely stable and very reliable. Contact Vistec Engineering directly at: http://www.vistecengineering.com/home.html Note: The optical bench ring mount is not included with the kit, it can be purchased separately.... Optima p/n ADP 1125-000; it works with a typical optical bench post and holder and provide additional heat sinking. |
Similar to the LDM 3700 except the collimating lens provided is a molded glass asphere
– Optima P/N 305-0066-780. This kit provides an
excellent compromise between cost and performance — something in between an assembly
using the higher cost multi-element lens and a kit with a lower cost plastic lens. The
optical performance of the lens is very good — it creates a collimated beam which is
slightly larger than a beam from the 336-1027 lens, resulting in a beam with less
divergence and, consequently, a smaller beam at greater distances. Conversely, due to the
longer focal length and larger clear aperture, this lens creates a smaller focused beam.
Please refer to the lens specifications page for detailed
information.
The minimum working distance is approximately 21 mm from the front surface of the LDM
housing. Using a Hitachi HL6312G laser diode as an example, a beam focused at the minimum
working distance is approximately 24 x 10.5 microns (1/e2, with 24 microns being the
parallel axis); a collimated beam 100 mm from the front surface of the housing is ~1.37 mm
x 5.12 mm.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 3956 KIT.
P/N LDM 3900 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $57.10 each (Kit includes the collimating lens)
P/N LDM 3956 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $57.10 each (Kit includes the collimating lens)
This low cost mounting kit is similar to the LDM 3900 except the collimating lens
provided is a molded plastic asphere – Optima P/N 300-0360-780. Please refer to the lens specifications page for detailed information.
The minimum working distance is approximately 8 mm from the front surface of the LDM
housing. Using a Hitachi HL6312G laser diode, a beam focused at the minimum working
distance is approximately 19.5 x 8.6 microns (1/e2, with 19.5 microns being the parallel
axis); a collimated beam 100 mm from the front surface of the housing is ~0.92 mm x 3.17
mm.
Please Note: Limited stock available ̶ not for new product
applications.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 4056 KIT.
P/N LDM 4000 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating lens)
P/N LDM 4056 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating lens)
This laser diode mounting kit is specifically designed to accept the Optima
300-0395-780 plastic aspheric collimating lens. Due to the relatively long focal length of
the collimating lens, the housing is longer than most of the Optima laser diode mounts.
With a long focal length (16mm) and small numerical aperture (NA=.14) this lens creates a
relatively large diameter beam that’s more circular than the output from a typical
laser diode collimating lens. Also, the 300-0395-780 lens is a very high-quality injection
molded plastic lens – this lens has been used in digital laser communication systems
which are extremely sensitive to lens aberrations and diffraction patterns that can be
misread as data when a beam sweeps across a detector. The only negative aspect of the lens
might be the small NA – the coupling efficiency (or total transmission) for most
visible laser diodes is just under 50%. Please refer to the lens
specifications page for detailed information.
Comparison of LDM 4200 KIT and the LDM 3700 KIT:
 |
 |
| Figure 1 — LDM 4200 KIT Focused beam 19.9 x 13.1 microns Aspect ratio of ~1.5 to 1 |
Figure 2 — LDM 3700 KIT Focused beam 54.8 x 15.2 microns Aspect ratio of ~3.6 to 1 |
The two 3D figures shown above graphically illustrate the difference between a nearly
circular beam from the LDM 4200 KIT and the typical elliptical beam, in this case from the
LDM 3700 KIT. The laser diode used in these examples is the Hitachi HL6312G. The beam
shown in figure 1 was collimated using the LDM 4200 KIT and the beam in figure 2 was
collimated using the LDM 3700 KIT which is typical of all Optima LDM kits using the
336-1027-660 collimating lens. Both of the collimated beams were focused on the target
sensor using a plano-convex lens with a 60mm focal length. The size of the focused spot in
figure 1 is 19.9 x 13.1 microns with an aspect ratio of about 1.5:1. The size of the
focused spot in figure 2 is 54.8 x 15.2 microns with an aspect ratio of about 3.6:1. (The
figures are taken at the 1/e2 point and are listed as the parallel axis x perpendicular
axis).
Due to the long focal length, the minimum working distance is approximately 153 mm (6
inches) from the front surface of the LDM housing. If the application requires focusing at
shorter distances, it would be best to collimate the output from the diode and then use a
simple lens like a plano-convex to focus the beam. However, for reference we have measured
the beam from the LDM 4200 kit using a Hitachi HL6312G laser diode; a beam focused at the
minimum working distance is approximately 51.0 x 36.1 microns (1/e2, with 51.0 microns
being the parallel axis); a collimated beam 100 mm from the front surface of the housing
is ~3.38 mm x 4.65 mm.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 4256 KIT.
P/N LDM 4200 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $52.60 each (Kit includes the collimating
lens)
P/N LDM 4256 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $52.60 each (Kit includes the collimating lens)
Another low cost mounting kit is similar to the LDM 4000 except the collimating lens
provided is a molded plastic asphere – Optima P/N 300-0330-780. Please refer to the lens specifications
page for detailed information. All of the kits using a plastic asphere are
similar... the beam size and shape will be different depending on the
characteristics
of the lens and the characteristics of the laser diode.
The minimum working distance is approximately
2 mm from the front surface of the LDM
housing; this is a difficult measurement to make due to the scanning slit being
inside the BeamScan's head. Using a Hitachi HL6312G laser diode, a beam focused at the minimum working
distance is approximately 19.5 x 8.6 microns (coincidentally the same as the LDM
4000 KIT) (1/e2, with 19.5 microns being the parallel
axis); a collimated beam 100 mm from the front surface of the housing is ~0.68 mm x
2.75
mm.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 4056 KIT.
P/N LDM 4300 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating
lens)
P/N LDM 4356 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating lens)
Basically all of the laser Diode Mounting Kits using a plastic collimating
lens are very similar. The LDM 4400 KIT is similar to the LDM 4000 except the collimating lens
provided is a molded plastic asphere – Optima P/N 300-0340-780. Please refer to the lens specifications page for detailed information.
While the kits using a plastic asphere are similar... the beam size and shape
will be different depending on the characteristics of the lens and the output of the
laser diode.
The minimum working distance is approximately
4 mm from the front surface of the LDM
housing; this is a difficult measurement to make due to the scanning slit being
inside the BeamScan's head. Using a Hitachi HL6312G laser diode, a beam focused at the minimum working
distance is approximately 16.0 x 9.9 microns (1/e2, with 16.0 microns being the parallel
axis); a collimated beam 100 mm from the front surface of the housing is ~0.78 mm x
3.29
mm.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 4056 KIT.
P/N LDM 4300 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating
lens)
P/N LDM 4356 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating lens)
Similar to the LDM 4000 except the collimating lens provided is a molded plastic
asphere, P/N 300-0380-780. With a short focal length of 3.4mm, this lens provides at
relatively small collimated beam. A large numerical aperture (NA) of 0.47 provides
excellent coupling efficiency with most laser diodes. Please refer to the lens specifications page for detailed information.
The minimum working distance is approximately 4 mm from the front surface of the LDM
housing. Using a Hitachi HL6312G laser diode as an example, a beam focused at the minimum
working distance is approximately 26.5 x 7.3 microns (1/e2, with 26.5 microns being the
parallel axis); a collimated beam 100 mm from the front surface of the housing is ~0.74 mm
x 2.89 mm.
Please Note: Limited stock available ̶ not for new product
applications.
When ordering this mounting kit for use with Ø5.6mm diodes, the part number changes to
LDM 4556 KIT.
P/N LDM 4500 KIT for Ø9.0mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating lens)
P/N LDM 4556 KIT for Ø5.6mm diodes... Unit price (Qty 1- 4) $45.70 each (Kit includes the collimating lens)
Unique housing design – This housing
has a flat mounting surface perpendicular to the optical axis, ideal for attachment to a
printed circuit board or thermal electric cooler. Four #2-56 threaded holes in the base
facilitate mounting, alignment, and aiming – if the base is attached to a
“soft” mount like a rubber o-ring or wave washer, the beam can be
“pointed” by selectively adjusting the four mounting screws attached to the
base.
X-Y alignment – The laser emission
point may be aligned with the lens optical axis by translating the diode in the x-y axis.
While the lens is free to move in the z-axis (controlling focus or collimation) the lens
does not rotate, minimizing lateral shift in the focused beam during the lens adjustment
process. The collimating lens provided is a very high quality, diffraction-limited,
multi-element lens with a large clear aperture and medium NA, Optima P/N 336-0965-780.
With the larger clear aperture and excellent wavefront quality, this lens is intended for
more demanding applications; such as laser diode instrumentation and/or long distance
measurement applications. Please refer to the lens specifications
page for detailed information.
Broad range of lens adjustment – The
minimum working distance is approximately 12 mm from the front surface of the LDM housing.
Using a Hitachi HL6312G laser diode as an example, a beam focused at the minimum working
distance is approximately 30 x 15.5 microns (1/e2, with 30 microns being the parallel
axis); a collimated beam 100 mm from the front surface of the housing is ~1.52 mm x 5.71
mm.
The LDM 5000 KIT is available in limited quantities and only for Ø9.0mm
diodes, it may be discontinued because the lens is out of production.
P/N LDM 5000 KIT... Unit price (Qty 1- 4) $291.00 each (Kit includes the collimating lens)
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