CPS Laser Application
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Features

Collimated or Focusable Laser Diode Modules
Lasing at 405, 532, 635, 650, 670, or 780 nm
- CPS180: 635 nm Laser Provides a HeNe Alternative
Powers from 1 mW to 4.5 mW
Divergences ≤ 1.8 mrad

The CPS Series of Laser Diode Modules are availabe in either collimated or focusing varieties and provide output powers ranging from 1 mW to 4.5 mW. These modeules, which offer single spatial mode output, are ideal for use as alignment lasers and maintain an Optical-to-Mechanical alignment better than 20 mrad. Housings are either Ø8 mm or Ø11 mm and can be integrated into many of Thorlabs' optomechanics using an AD8F or AD11F adapter, respectively. A mounting example is shown in the image to the right where a CPS182 (4) is mounted in a 30 mm cage system (1) using a CP90F removable cage plate (2) and an AD11F adapter (3).

A 2 ft (61 cm) cable is attached to the laser module and features a 2.5 mm phono socket for connection to a power supply. Each module requires a 5 VDC power supply (not included) to operate. The LDS5, below, is a suitable supply. Alternatively, a 2.5 mm phono plug is included for customers who wish to wire their own power supply to the laser module.

Sample beam profiles are given in the Beam Profile rows of the tables below. Beam profiles were obtained using a Thorlabs BC106-VIS CCD beam profiler with a 40 dB neutral density filter.

Collimated Visible Laser Diode Modules

Item #	CPS405	CPS532	CPS180	CPS182	CPS184	CPS186
Wavelength	405 nm	532 nm	635 nm	635 nm	650 nm	670 nm
Power	4.5 mW	4.5 mW	1 mW	4.5mW	4.5 mW	4.5 mW
Safety Class	3R
Housing	Aluminum, Ø11.00 mm x 33.4 mm	Aluminum, Ø11.00 mm x 65 mm	Welded S.S, Ø11.00 mm x 55 mm	Aluminum, Ø11.00 mm x 42 mm	Aluminum, Ø11.00 mm x 42 mm	Aluminum, Ø11.00 mm x 42 mm
Beam Shape	Elliptical, 2.5 mm x 4.5 mm	Round, Ø3.5 mm	Round, Ø4 mm	Elliptical, 4 mm x 0.6 mm	Elliptical, 4.4 mm x 1.2 mm	Elliptical, 4.4 mm x 1.2 mm
Performance	CPS405 Beam Profile	CPS532 Beam Profile	CPS180 Beam Profile	CPS182 Beam Profile	CPS184 Beam Profile	CPS186 Beam Profile
Axis Deviation (Max)	5 mrad	5 mrad	10 mrad	15 mrad	15 mrad	15 mrad
Min. Beam Divergence	0.6 mrad (┴) 1.5 mrad (//)	0.5 mrad	0.3 mrad	0.6 mrad (┴) 1.8 mrad (//)	0.6 mrad (┴) 1.8 mrad (//)	0.6 mrad (┴) 1.8 mrad (//)
Operating Temperature	-10 to 40 °C	10 to 40 °C	-10 to 50 °C	-10 to 60 °C
Operating Current	60 mA Typical	250 mA Typical	60 mA Max	55 mA Typical	55 mA Typical	55 mA Typical
Operating Voltage	5 VDC (Nominal)

Collimated IR Laser Diode Modules

Item #	CPS192
Wavelength	780 nm
Power	4.5 mW
Safety Class	3B
Housing	Aluminum, Ø8.00 mm x 42 mm
Beam Shape	Elliptical, 4.4 mm x 1.7 mm
Performance	CPS192 Beam Profile
Axis Deviation (Max)	15 mrad
Min. Beam Divergence	0.6 mrad (┴), 1.8 mrad (//)
Operating Temperature	-10 to 60 °C
Operating Current	45 mA Typical
Operating Voltage	5 VDC (Nominal)

Focusing, Visible Laser Diode Modules

Item #	CPS196	CPS198
Wavelength	635 nm	670 nm
Power	4.5 mW	4.5 mW
Safety Class	3R
Housing	Aluminum, Ø11.00 mm x 46 mm	Aluminum, Ø11.00 mm x 46 mm
Beam Shape	Elliptical, Focusable	Elliptical, Focusable
Performance	CPS196 Collimated Beam Profile	CPS198 Collimated Beam Profile
Focal Range	50 mm to Infinity	50 mm to Infinity
Axis Deviation (Max)	15 mrad	15 mrad
Min. Beam Divergence	0.6 mrad (┴), 1.8 mrad (//)	0.6 mrad (┴), 1.8 mrad (//)
Operating Temperature	-10 to 40 °C	-10 to 40°C
Operating Current	55 mA Typical	55 mA Typical
Operating Voltage	5 VDC (Nominal)

Laser Safety and Classification

Safe practices and proper usage of safety equipment should be taken into consideration when operating lasers. The eye is susceptible to injury, even from very low levels of laser light. Thorlabs offers a range of laser safety accessories that can be used to reduce the risk of accidents or injuries. Laser emission in the visible and near infrared spectral ranges has the greatest potential for retinal injury, as the cornea and lens are transparent to those wavelengths, and the lens can focus the laser energy onto the retina.

Safe Practices and Light Safety Accessories

Thorlabs recommends the use of safety eyewear whenever working with laser beams with non-negligible powers (i.e., > Class 1) since metallic tools such as screwdrivers can accidentally redirect a beam.
Laser goggles designed for specific wavelengths should be clearly available near laser setups to protect the wearer from unintentional laser reflections.
Goggles are marked with the wavelength range over which protection is afforded and the minimum optical density within that range
Laser Barriers and Blackout Materials can prevent direct or reflected light from leaving the experimental setup area.
Thorlabs' Enclosure Systems can be used to contain optical setups to isolate or minimize laser hazards.
All beams should be terminated at the edge of the table, and laboratory doors should be closed whenever a laser is in use.
Do not place laser beams at eye level.
Carry out experiments on an optical table such that all laser beams travel horizontally.
Remove unnecessary reflective items such as reflective jewelry (e.g., rings, watches, etc.) while working near the beam path.
Be aware that lenses and other optical devices may reflect a portion of the incident beam from the front or rear surface.
Operate a laser at the minimum power necessary for any operation.
If possible, reduce the output power of a laser during alignment procedures.
Use beam shutters and filters to reduce the beam power.
Post appropriate warning signs or labels near laser setups or rooms.
Use laser sign lightboxes if operating Class 3R or 4 lasers (i.e., lasers requiring the use of a safety interlock).
Do not use Laser Viewing Cards in place of a proper Laser Barrier or Beam Trap.

Laser Classification

Lasers are categorized into different classes according to their ability to cause eye and other damage. The International Electrotechnical Commission (IEC) is a global organization that prepares and publishes international standards for all electrical, electronic, and related technologies. The IEC document 60825-1 outlines the safety of laser products. A description of each class of laser is given below:

Class	Description	Warning Label
1	This class of laser is safe under all conditions of normal use, including use with optical instruments for intrabeam viewing. Lasers in this class do not emit radiation at levels that may cause injury during normal operation, and therefore the maximum permissible exposure (MPE) cannot be exceeded. Class 1 lasers can also include enclosed, high-power lasers where exposure to the radiation is not possible without opening or shutting down the laser.
1M	Class 1M lasers are safe except when used in conjunction with optical components such as telescopes and microscopes. Lasers belonging to this class emit large-diameter or divergent beams, and the MPE cannot normally be exceeded unless focusing or imaging optics are used to narrow the beam. However, if the beam is refocused, the hazard may be increased and the class may be changed accordingly.
2	Class 2 lasers, which are limited to 1 mW of visible continuous-wave radiation, are safe because the blink reflex will limit the exposure in the eye to 0.25 seconds. This category only applies to visible radiation (400 - 700 nm).
2M	Because of the blink reflex, this class of laser is classified as safe as long as the beam is not viewed through optical instruments. This laser class also applies to larger-diameter or diverging laser beams.
3R	Lasers in this class are considered safe as long as they are handled with restricted beam viewing. The MPE can be exceeded with this class of laser, however, this presents a low risk level to injury. Visible, continuous-wave lasers are limited to 5 mW of output power in this class.
3B	Class 3B lasers are hazardous to the eye if exposed directly. However, diffuse reflections are not harmful. Safe handling of devices in this class includes wearing protective eyewear where direct viewing of the laser beam may occur. In addition, laser safety signs lightboxes should be used with lasers that require a safety interlock so that the laser cannot be used without the safety light turning on. Class-3B lasers must be equipped with a key switch and a safety interlock.
4	This class of laser may cause damage to the skin, and also to the eye, even from the viewing of diffuse reflections. These hazards may also apply to indirect or non-specular reflections of the beam, even from apparently matte surfaces. Great care must be taken when handling these lasers. They also represent a fire risk, because they may ignite combustible material. Class 4 lasers must be equipped with a key switch and a safety interlock.
All class 2 lasers (and higher) must display, in addition to the corresponding sign above, this triangular warning sign

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Posted Comments:

Poster: gir

Posted Date: 2013-05-10 15:04:25.723

I've been using the CPS196 for alignment for various alignment tasks for several months. Yesterday, while moving it, one of the power leads broke off the exposed circuit board on the back. The shrink tube had slipped off. I was able to solder the lead back on and it works again, but I'd just like to add my $0.02 and say I'd appreciate a unit with a more robust power connector. Cheers!

Poster: tcohen

Posted Date: 2013-05-15 12:25:00.0

Response from Tim at Thorlabs: Thank you very much for your feedback. We are currently looking at ways to improve this product line and are appreciative of you bringing your thoughts to our attention.

Poster: acarlton

Posted Date: 2013-04-10 14:33:18.453

Can you provide the solidworks part file for the CPS182?

Poster: sharrell

Posted Date: 2013-04-10 15:07:00.0

Response from Sean at Thorlabs: I am sorry the file was missing from the site. I've added it back to our list of support documents.

Poster: kressjeremy

Posted Date: 2013-03-21 11:08:51.833

Can you provide an approximate lifetime hours for the CPS184 at 20 deg C? If this is unknown, can you provide a best guess if the lifetime for typical laser diode is closer to 10,000 hours or 100,000 hours?

Poster: jlow

Posted Date: 2013-03-27 10:03:00.0

Response from Jeremy at Thorlabs: Unfortunately we do not have data for the mean time to failure. As an estimate, it would be closer to 10,000 hours at 20°C.

Poster: itay.barnea.1

Posted Date: 2013-03-10 05:32:55.29

How long is the coherence length of the laser diode CPS532?

Poster: jlow

Posted Date: 2013-04-01 12:08:00.0

Response from Jeremy at Thorlabs: Unfortunately the coherence length is not something that we spec at the moment. As an estimate, it should be more than 200mm based on some initial measurements. We will post the results on this feedback page once we have measured this.

Poster: mismil01

Posted Date: 2013-02-22 16:15:02.823

Respected, for my laboratory experiment (Doctoral studies), I need completed equipment to measure valve plate motion. This is suction valve at experimental reciprocating air compressor. I need more details and your propositions. Please contact me for any info about...

Poster: tcohen

Posted Date: 2013-02-28 15:33:00.0

Response from Tim at Thorlabs: Thank you for your inquiry. I will contact you to go over the details in your application directly.

Poster: jlow

Posted Date: 2012-12-27 11:04:00.0

Response from Jeremy at Thorlabs: The CPS196 is a class 3R so you would definitely need to use laser safety glasses with this. One possible candidate for this wavelength is the LG4 (http://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=762&pn=LG4).

Poster: danco

Posted Date: 2012-12-27 04:54:21.97

Hello, I'm interested in the CPS196 laser with the purpose of aligning an optical system (mirrors etc). Does its intensity require using protective glasses? if so, which model would you recommend?

Poster: jlow

Posted Date: 2012-12-20 10:14:00.0

Response from Jeremy at Thorlabs: The coherence length for CPS180 is approximately 0.2mm.

Poster: licw275

Posted Date: 2012-12-12 02:42:36.49

How long is the coherence length of the laser diode CPS180?

Poster: guoqiang.xia

Posted Date: 2012-11-08 04:43:49.59

From your SPEC sheets, it is shown that the working temperature of CPS180 is from -10 to 50 °C, CPS182 is from -10 to 60 °C, while for CPS196 it is from -10 to 40 °C, could you please let us know what is the reason for such differences? They are all 635nm lasers. What will be the life time for CPS180 if its surrounding temperature is 40 °C? Whil its life time drop significantly? Thanks!

Poster: tcohen

Posted Date: 2012-10-04 15:46:00.0

Response from Tim at Thorlabs: Thank you for your feedback! I will get in contact with you directly to provide this information.

Poster: jchen

Posted Date: 2012-10-01 10:36:57.0

Could you please provide the model of the laser diode inside CPS186? Thanks.

Poster: jlow

Posted Date: 2012-09-27 12:15:00.0

Response from Jeremy at Thorlabs: We do not have the data you requested at this moment. We will measure this and get back to you regarding this.

Poster: siddharth.sivankutty

Posted Date: 2012-09-25 14:55:37.0

Would you please let me know about the coherence length of the CPS532 and its TEM output mode? Thanks

Poster: jlow

Posted Date: 2012-08-17 12:14:00.0

Response from Jeremy at Thorlabs: The S2011 is a kit of items. The link to the individual items in the kit can be found under the overview of the subgroup. The mount used is the KM100T and you can get the SolidWorks file at http://www.thorlabs.com/Thorcat/6600/KM100T-Solidworks.sldprt.

Poster: lvasbinder

Posted Date: 2012-08-17 10:52:28.0

I am looking to purchase this part and I would like to mount it using the 8-32 clearance holes on this product instead of the stand. Is there a way I could get the SolidWorks file of this part so I can see the best way to mount it? Thank you, Lea Vasbinder

Poster: jlow

Posted Date: 2012-08-01 13:16:00.0

Response from Jeremy at Thorlabs: The coherence length for the CPS180 and CPS196 is estimated to be around 0.2mm.

Poster: guoqiang.xia

Posted Date: 2012-08-01 03:32:19.0

Could you please provide coherence length of CPS180 and CPS196 for me? Thanks very much!

Poster: tcohen

Posted Date: 2012-06-29 09:19:00.0

Response from Tim at Thorlabs: You are correct that the photodiode is not directly connected to the outside world. The CPS modules have two wires for the power supply. This feeds an internal integrated driver, which is what actually controls the power using the internal photodiode for feedback.

Poster:

Posted Date: 2012-06-29 01:30:00.0

Could you please calrify the statement "The driver in the CPS module uses an internal photodiode of the laser diode for feedback in a power control loop, which enables power stability within 1%."? Because from the web photo of cps196, I only found two wires at the back end of the laser, which must be power supply, so the internal photodiode is not connected to the outside world, how can there be a feedback? I am puzzled, please help here. Thanks

Poster: tcohen

Posted Date: 2012-05-31 09:32:00.0

Response from Tim at Thorlabs: Thank you for your feedback! We do have information on coherence length for some, but not all of these modules. I have contacted you to find out which ones you are interested in so that we may test and provide you with more data.

Poster: benjamin.bircher

Posted Date: 2012-05-29 16:38:49.0

Do you have an estimate on the coherence length of the CPS LD modules?

Poster: bdada

Posted Date: 2011-09-22 12:41:00.0

Response from Buki at Thorlabs: The driver in the CPS module uses an internal photodiode of the laser diode for feedback in a power control loop, which enables power stability within 1%.

Poster:

Posted Date: 2011-09-20 11:12:08.0

Do you have an estimate on how much (relative) the optical output power would vary over a period of 100 hours? The laser would be in room temperature conditions.

Poster: jjurado

Posted Date: 2011-06-14 16:27:00.0

Response from Javier at Thorlabs to dfwenge: Thank you very much for contacting us with your inquiry. Regarding question (1), we actually had not considered adding a strain relief assembly to these laser diode modules before. I will discuss your suggestion with our electronics design engineers and get back to you. Also, you can certainly solder the the leads back onto the circuit board; I would not expect any damage to the laser diode from doing this. (2) We do offer pinholes; however, the maximum size that we stock is 150 um. Nonetheless, we can offer a 250 um diameter pinhole that you could adapt to the front of the CPS182 as a non-standard item. I will contact you directly for further discussion. Pinholes: http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=1400

Poster: dfwenge

Posted Date: 2011-06-06 11:28:14.0

I have 2 comments: 1. After using a CPS182 laser module in a experiment where the laser is often moved to various postions the power leads have broken off the connectors. I have strained relieved the power cables on a spare unit using shrink tube. This seems to work okay but it takes up more space than I would like. Have you considered providing a strain relief design on the units you sell? If I try to solder the leads back on the connector, is there a potential to damage the laser diode by overheating? 2. Do you sell a pinhole, say around 250 microns in diameter, that would mount on the front output plate of the CPS182. Regards, Dave Wenger, SNL 505-845-7206

Poster: jjurado

Posted Date: 2011-06-02 10:02:00.0

Response from Javier at Thorlabs to jhelt275: Thank you very much for contacting us. All the CPS modules are operated in constant power mode, which means that the power is regulated using the feedback signal from the laser diode's internal photodiode.

Poster: jhelt275

Posted Date: 2011-06-01 20:12:50.0

Hello, is the power for the CPS198 laser diode module self-regulating, i.e. have an internal photodiode for monitoring output power? thanks in advance for the help

Poster: Thorlabs

Posted Date: 2010-11-02 18:18:32.0

Response from Javier at Thorlabs to fathi01: the power supply is sold separately. The part number is LDS1. I will contact you directly with information regarding the TEM output mode of this module.

Poster: fathi01

Posted Date: 2010-10-19 01:47:20.0

I am asking about the diode laser model CSP 180 . Is it TEM00 (Transverse Electromagnetic Mode 00)and there is a power supply included or I should order for a power supply also?

Poster: Adam

Posted Date: 2010-05-12 09:08:46.0

A response from Adam at Thorlabs: Thank you for the great customer inspired new product idea. I agree that these would make an excellent addition to our product line and will make this recommendations to our Business unit leaders. If it gets adopted, we will let you know.

Poster:

Posted Date: 2010-05-11 20:22:39.0

It would be great to see compact laser diode modules at 1064nm or 1090nm.

Poster: jjurado

Posted Date: 2009-12-28 12:01:58.0

Response from Javier at Thorlabs to jmansell: The output of the CPS196 is polarized. The polarization is parallel to the fast axis of the laser diode, which is defined as the long, rapidly divergent axis in the output beam cross section. The slow axis corresponds to the low divergence axis of the laser diode output.

Poster: jmansell

Posted Date: 2009-12-16 10:47:32.0

Is the output from the CPS196 polarized?

Poster: klee

Posted Date: 2009-11-03 15:34:34.0

A response from Ken at Thorlabs to w.xia: We do not have any laser module for 1064nm but we may be able to get it as a special. Please let us know your requirements.

Poster: w.xia

Posted Date: 2009-11-03 15:25:57.0

Do you also have laser diode module for 1064nm wavelength?

Poster: Laurie

Posted Date: 2009-04-15 15:36:55.0

Additional Response from Laurie at Thorlabs to Aidi: Upon speaking to a colleague here, I would like to add to my previous post. The main issue you will have is noise. Due to mode hopping as the diode temperature changes or as the diode ages, there will be times that the laser is hopping between two longitudinal cavity modes. Additional noise sources could come from the servo loop. These products are designed as alignment tools and not as low noise optical sources. For low noise performance, a constant current drive with a temperature-controlled mount is recommended. The user then needs to find a stable operating point in both current and temperature. Also the user should know that this stable operating point may change with time. We hope this additional information is helpful.

Poster: Laurie

Posted Date: 2009-04-15 14:58:34.0

Response from Laurie at Thorlabs to aidi: We do not have concise data for the power stability of our CPS modules compared to one with a TEC controller. The laser diodes in our CPS laser modules are operated in constant power mode, which makes them very stable in terms of optical power. However, since there is no temperature control for these diodes, heat can build up in the junction causing instability. Although this instability will be small for low powers, a TEC-controlled environment will definitely lead to more stability.

Poster: aidi

Posted Date: 2009-04-15 05:09:54.0

How good its optical power stability compared to the one used TEC controller? Thank you

Poster: Laurie

Posted Date: 2008-10-09 08:50:57.0

Response from Laurie at Thorlabs to g.gray: Thank you for your comments and feedback. We greatly appreciate hearing from our customers concerning possible extensions to our product lines. Currently, we are in the process of expanding our laser diode module offerings, but none of the items in the pipeline are for the wavelengths you suggest. Thorlabs has an internal forum where product ideas can be posted. I will be sure to add your suggestion to that list in the hopes that it will be adopted. As an alternative, you might consider our unmounted laser diodes, which are offered at both of these wavelengths and can be found on our website at this link: http://www.thorlabs.com/NewGroupPage11.cfm?ObjectGroup_ID=7 Thorlabs also offers aspheric lenses for collimation and laser diode mounts if you decide to pursue this avenue.

Poster: g.gray

Posted Date: 2008-10-08 16:17:41.0

How about making these laser modules in other wavelengths, like 1064nm and 1550nm?

Poster: acable

Posted Date: 2007-05-16 11:02:04.0

Came to this page to find our make your own module parts, i think they are the LT-series. Also tried to use search but didn't find them either. Please add to Related Products.

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Laser Diode Modules

Features

Collimated Visible Laser Diode Modules

Collimated IR Laser Diode Modules

Focusing, Visible Laser Diode Modules

Laser Safety and Classification

Safe Practices and Light Safety Accessories

Laser Classification