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Pigtailed Aspheric Fiber Collimators


  • Compact Fiber Collimation Packages
  • SM Fiber Pigtail with FC/PC or FC/APC Connector
  • Aligned for 532, 850, 1030, 1064, 1310, or 1550 nm
  • Custom Alignment Wavelengths Available

CFS18-1030-FC

CFS11-1310-APC

CFS5-1310-APC

CFS5-1310-FC

Related Items


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Features

  • Compact Fiber Collimation Package
  • SM Fiber Pigtail with FC/PC or FC/APC Connectors Available
  • Custom Wavelength and Connectors Available
  • Non-Magnetic Stainless Steel Housing

The CFS series of pigtailed fiber collimators is a compact solution for OEM applications. The collimation package consists of a stainless steel housing and an aspheric lens. Each unit uses 1 m of single mode fiber pigtailed to the collimation package so that the performance of the collimator is diffraction limited at the design wavelength. The fiber end pigtailed to the collimation package is angle-polished and AR-coated to minimize reflections at the design wavelength. To accommodate the angle polish, the CFS11 and CFS18 collimators have an angled housing (see the Documents & Drawings tab for more information). The deflection caused by the angled output over the extremely short focal lengths of the CFS2 and CFS5 collimators is negligible, allowing these versions to have straight housings. The other end of the fiber has an FC/PC, narrow key connector for the 532, 1030, and 1064 nm wavelength packages and an FC/APC, narrow key connector for the 850, 1310, and 1550 nm wavelength packages. These collimation packages can be easily customized for any wavelength in the visible and near IR spectral regions. In addition, the fiber connector, fiber type, and fiber length can all be customized; please contact Technical Support for a quote.

General Specifications

Insertion Loss Fiber Length
<0.2 dB 1 m

Optical Performance Specifications

Item # EFLa
(mm)
Input
MFDb
(μm)
Output
Waist Dia.c
(mm)
Full
Angle
Beam Diverg.
(mrad)
CAd
(mm)
NAe
Align. λ
(nm)
Fiber Type Return
Loss
(dB)
AR Coating
Range of
Aspheric
Lens (nm)
Fiber
Connectorf
CFS2-532-FC 1.97 3.5 0.39 1.75 2.0 0.51 532 460HP 40 400-600 FC/PC
CFS18-532-FC 18.04 3.5 3.6 0.19 5.5 0.15 532 460HP 40 400-600 FC/PC
 
CFS11-850-APC 11.10 5.6 2.1 0.50 5.4 0.24 850 SM800-5.6-125 55 650-1050 FC/APC
CFS18-850-APC 18.45 5.6 4.0 0.28 5.5 0.15 850 SM800-5.6-125 55 650-1050 FC/APC
 
CFS2-1030-FC 2.01 6.0 0.44 3.00 2.0 0.50 1030 HI1060-J9 40 650-1050 FC/PC
CFS5-1030-FC 4.67 6.0 1.0 1.30 3.6 0.39 1030 HI1060-J9 40 650-1050 FC/PC
CFS11-1030-FC 18.56 6.0 2.4 0.55 5.4 0.24 1030 HI1060-J9 40 650-1050 FC/PC
CFS18-1030-FC 18.4 6.0 4.0 0.33 5.5 0.15 1030 HI1060-J9 40 650-1050 FC/PC
 
CFS2-1064-FC 2.02 6.2 0.44 3.10 2.0 0.50 1064 HI1060-J9 40 1050-1700 FC/PC
CFS5-1064-FC 4.67 6.2 1.0 1.35 3.6 0.39 1064 HI1060-J9 40 1050-1700 FC/PC
CFS11-1064-FC 11.17 6.2 2.4 0.56 5.4 0.24 1064 HI1060-J9 40 1050-1700 FC/PC
CFS18-1064-FC 18.57 6.2 4.0 0.34 5.5 0.15 1064 HI1060-J9 40 1050-1700 FC/PC
 
CFS2-1310-APC 2.03 9.2 0.54 3.10 2.0 0.49 1310 SMF-28-J9 40 1050-1700 FC/APC
CFS5-1310-APC 4.70 9.2 0.83 2.00 3.6 0.38 1310 SMF-28-J9 40 1050-1700 FC/APC
CFS11-1310-APC 11.25 9.2 2.0 0.84 5.4 0.24 1310 SMF-28-J9 55 1050-1700 FC/APC
CFS18-1310-APC 18.67 9.2 3.3 0.50 5.5 0.15 1310 SMF-28-J9 55 1050-1700 FC/APC
 
CFS2-1550-APC 2.03 10.4 0.38 5.20 2.0 0.49 1550 SMF-28-J9 40 1050-1700 FC/APC
CFS5-1550-APC 4.73 10.4 0.87 2.26 3.6 0.38 1550 SMF-28-J9 40 1050-1700 FC/APC
CFS11-1550-APC 11.31 10.4 2.1 0.95 5.4 0.24 1550 SMF-28-J9 55 1050-1700 FC/APC
CFS18-1550-APC 18.75 10.4 3.5 0.57 5.5 0.15 1550 SMF28-J9 55 1050-1700 FC/APC
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperature of the Aspheric Lens
  • Narrow 2.0 mm Key Connectors

Fiber Collimator Selection Guide

Click on the collimator type or photo to view more information about each type of collimator.

Type   Description
Fixed FC, APC, or SMA Fiber Collimators Fixed SMA Fiber Collimator These fiber collimation packages are pre-aligned to collimate light from an FC/PC-, FC/APC-, or SMA-terminated fiber. Each collimation package is factory aligned to provide diffraction-limited performance for wavelengths ranging from 405 nm to 4.55 µm. Although it is possible to use the collimator at detuned wavelengths, they will only perform optimally at the design wavelength due to chromatic aberration, which causes the effective focal length of the aspheric lens to have a wavelength dependence.
Air-Spaced Doublet, Large Beam Collimators Air-Spaced Doublet Fiber Collimator For large beam diameters (Ø6.6 - Ø8.5 mm), Thorlabs offers FC/PC, SMA, and FC/APC air-spaced doublet collimators. These collimation packages are pre-aligned at the factory to collimate a laser beam propagating from the tip of an FC or SMA-terminated fiber and provide diffraction-limited performance at the design wavelength.
Adjustable Fiber Collimators Adjustable Fiber Collimator These collimators are designed to connect onto the end of an FC/PC or FC/APC connector and contain an AR-coated aspheric lens. The distance between the aspheric lens and the tip of the FC-terminated fiber can be adjusted to compensate for focal length changes or to recollimate the beam at the wavelength and distance of interest.
Zoom Fiber Collimators Zoom Fiber Collimator These collimators provide a variable focal length between 6 and 18 mm, while maintaining the collimation of the beam. As a result, the size of the beam can be changed without altering the collimation. This universal device saves time previously spent searching for the best suited fixed fiber collimator and has a very broad range of applications. They are offered with FC/PC, FC/APC, or SMA905 connectors with three different antireflection wavelength ranges to choose from.
Large Beam Fiber Collimators large beam collimators Thorlabs' Large-Beam Fiber Collimators are designed with an effective focal length (EFL) of 40 mm or 80 mm over three different wavelength ranges and are available with FC/PC or FC/APC connectors. A four-element, air-spaced lens design produces a superior beam quality (M2 close to 1) and less wavefront error when compared to aspheric lens collimators. As a result, these collimators are very flexible; they can be used as free-space collimator or coupler. They may also be used over a long distance in pairs, which allows the free-space beam to be manipulated prior to entering the second collimator and may be useful in long-distance communications applications.
FiberPorts Fiberport Fiber Collimator These compact, ultra-stable FiberPort micropositioners provide an easy-to-use, stable platform for coupling light into and out of FC/PC, FC/APC, or SMA terminated optical fibers. It can be used with single mode, multimode, or PM fibers and can be mounted onto a post, stage, platform, or laser. The built-in aspheric or achromatic lens is available with three different AR coatings and has five degrees of alignment adjustment (3 translational and 2 pitch). The compact size and long-term alignment stability make the FiberPort an ideal solution for fiber coupling, collimation, or incorporation into OEM systems.
Triplet Collimators Triplet Fiber Collimator Thorlabs' High Quality Triplet Fiber Collimation packages use air-spaced triplet lenses that offer superior beam quality performance when compared to aspheric lens collimators. The benefits of the low-aberration triplet design include an M2 term closer to 1 (Gaussian), less divergence, and less wavefront error.
Reflective Collimators Reflective Fiber Collimator Thorlabs' metallic-coated Reflective Collimators are based on a 90° off-axis parabolic mirror. Mirrors, unlike lenses, have a focal length that remains constant over a broad wavelength range. Due to this intrinsic property, a parabolic mirror collimator does not need to be adjusted to accommodate various wavelengths of light, making them ideal for use with polychromatic light. Our reflective collimators are ideal for single-mode fiber.
Pigtailed Collimators Pigtailed Fiber Collimator Our pigtailed collimators come with one meter of either single mode or multimode fiber, have the fiber and AR-coated aspheric lens rigidly potted inside the stainless steel housing, and are collimated at one of six wavelengths: 532, 830, 1030, 1064, 1310, or 1550 nm. Although it is possible to use the collimator at any wavelength within the coating range, the coupling loss will increase as the wavelength is detuned from the design wavelength.
GRIN Fiber Collimators GRIN Fiber Collimator Thorlabs offers gradient index (GRIN) fiber collimators that are aligned at a variety of wavelengths from 630 to 1550 nm and have either FC terminated, APC terminated, or unterminated fibers. Our GRIN collimators feature a Ø1.8 mm clear aperture, are AR-coated to ensure low back reflection into the fiber, and are coupled to standard single mode or graded-index multimode fibers.
GRIN Lenses GRIN Lens These graded-index (GRIN) lenses are AR coated for applications at 630, 830, 1060, 1300, or 1560 nm that require light to propagate through one fiber, then through a free-space optical system, and finally back into another fiber. They are also useful for coupling light from laser diodes into fibers, coupling the output of a fiber into a detector, or collimating laser light. Our GRIN lenses are designed to be used with our Pigtailed Glass Ferrules and GRIN/Ferrule sleeves.

Posted Comments:
sebastien.sauvage  (posted 2016-05-24 18:47:31.017)
What does EFL mean ?
besembeson  (posted 2016-05-25 01:57:05.0)
Response from Bweh at Thorlabs USA: This is the Effective Focal Length, which for a thick lens is the distance between the front or back principal plane to the focus point.
info  (posted 2015-07-21 01:34:16.633)
Please let me know if collimators for 1064nm and 532nm are available with polarization maintaining fiber Krishna
besembeson  (posted 2015-09-23 02:42:10.0)
Response from Bweh at Thorlabs USA: This is possible. I will follow-up with you.
svtoma  (posted 2015-04-08 13:12:26.417)
I need a collimator to reflect 50% of intensity back and 50% to transmit, but transmitted scattered light to be catched with the same collimator and send back together with early reflected wave. Almost similar to Fabry Perot Interferometer.
jlow  (posted 2015-06-05 09:59:10.0)
Response from Jeremy at Thorlabs: We can think of several ways to implement this based on the requirements of your application. We will contact you directly to discuss more about this.
jhhe  (posted 2014-07-18 03:32:10.777)
what is the damage threshold of CFS11-1064-FC, for CW and pulsed case?
jlow  (posted 2014-08-07 02:18:57.0)
Response from Jeremy at Thorlabs: The damage threshold depends on factors such as coupling efficiency, presence of dirt/dust on optical surface, etc. We recommend keeping the average power to be <300mW to avoid damaging the fiber. You can go higher if you have good coupling efficiency. Also, if there's dust/dirt on either the lens or the fiber surface, then it can get damaged even with very low power.
C.Farrell  (posted 2014-05-26 14:46:16.6)
Hi, Out of interest can you supply the CFS18-1064 collimator using PM980 fibre and for similar cost? Thanks.
pbui  (posted 2014-06-02 11:45:07.0)
We should be able to offer this custom pigtailed collimator. We will contact you to get your exact requirements and to provide a quote.
user  (posted 2013-10-18 17:41:25.717)
Would you give us a hint to mount CFS5-1030-FC on your kinematic mirror mount?
cdaly  (posted 2013-10-21 13:15:00.0)
Response from Chris at Thorlabs: Thank you for your feedback. The pigtailed aspheric collimators can be mounted directly into the Kinematic V-Clamp Mount KM100V, found here: http://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id=1321&pn=KM100V#1321
tcohen  (posted 2012-08-21 16:18:00.0)
Response from Tim at Thorlabs: The lower limit is typically 450nm due to the limitations of the housing. Also, as you mentioned we would need to use alternative optics as the standard lenses we use have very limited transmission at 200nm that would prevent this from being useful. Furthermore, the cutoff for our lowest operating wavelength silica core SMF (SM300) is approximately 310nm. I will contact you to discuss the requirements of the fiber and collimator. Perhaps a UV-Enhanced Aluminum reflective collimator such as the RC08FC-F01 would be better able to meet your requirements.
jlowder  (posted 2012-08-21 10:34:51.0)
Hello, I was wondering if you can get any of these with fused silica optics or something similar for wavelengths between 200nm-400nm. Thanks.
tcohen  (posted 2012-05-11 16:17:00.0)
Update from Tim at Thorlabs to clarify an unclear previous post: I would like to mention that the max waist distance calculated was the theoretical limit that the beam waist could be placed based on the fiber and collimation optic. When manufacturing these, we look to minimize divergence and because small changes in the distance between the fiber and the optic will cause significant changes in the waist distance, the beam waist distance may vary.
tcohen  (posted 2012-05-04 16:53:00.0)
Response from Tim at Thorlabs: Thank you for your feedback. The coupling efficiency will depend on alignment. Lateral offset, separation and tilt will all play a role. I see you have posted on a couple feedback and mentioned your source is also variable. Chromatic focal length shift will also decrease the coupling efficiency. We do have adjustable fiber collimators to compensate for this shift as well as FiberPorts which offer linear and angular movement. I will contact you to discuss the options that may suit your application.
scottie730318  (posted 2012-05-04 11:34:37.0)
Hi, If I buy the two Pigtailed Aspheric Fiber Collimators (CFS5-1064-FC). One of the Fiber Collimators is collimating the beam out of Hi-1060 fiber, and focusing the collimation beam into the another Fiber collimator. What distance is the distance to the highest coupling efficiency? What valve is the coupling efficiency? Thanks
tcohen  (posted 2012-04-11 11:28:00.0)
Response from Tim at Thorlabs: There will be a few things to consider. First, it is important to know that imperfect coupling and contaminants can both lower the damage threshold. Next, the energy density must be considered for both the coated lens and the focused spot in the fiber. To calculate this, we would need your beam diameter and intensity profile. If you are coupling into this fiber, it is also important to remember that these are pre-aligned for the design wavelength. A deviation in wavelength will cause a focal length shift and therefore may focus the spot inappropriately on the fiber where it can be damaged more easily. Also, because of your ultrashort pulse, damage may occur by avalanche ionization, which has different thresholds than normal pulsed and CW LIDT. I have contacted you to further discuss the suitability of this product in your setup.
scottie730318  (posted 2012-04-07 10:51:39.0)
Hi, what would the maximum power rating be for CFS5-1064-FC, and CFS11-1064-FC. Average power of our laser is about 50mW, repetition rate is 30MHz, pulse with is about 300fs Are the CFS5-1064-FC and CFS11-1064-FC suitable to our laser system. Or would you recommend these or another lens for close work in our laser. Thanks, Hou-Ren Chen
tcohen  (posted 2012-03-29 14:53:00.0)
Response from Tim at Thorlabs: The maximum waist distance can be approximated by zmax = f + 2*lambda*f^2 / pi*MFD^2. For the CFS5-1064-FC with about 1060 nm, that would be 4.6 mm + 2(1060nm)(4.6mm)^2 / pi*(6.2um)^2 or about 376mm.
scottie730318  (posted 2012-03-20 01:02:43.0)
What distance is the max waist distance (CFS5-1064-FC) with about 1060 nm ?
bdada  (posted 2012-02-07 14:22:00.0)
Response from Buki at Thorlabs: Thank you for participating in our feedback forum. As a guideline, the anti-reflective coatings on our aspheric lenses can withstand 100 W/cm2 CW input power or 0.1 J/cm2 with 10 ns pulses energy at 1064 nm. However, within the collimation packages, we have found that a damage threshold of 25W/cm^2 is advisable. Please contact TechSupport@thorlabs.com if you have additional questions.
rumbaulk  (posted 2012-02-04 23:17:39.0)
Hi, what would the maximum power rating be for these lenses? Would you recommend these or another lens for close work in and out of fibers with up to 30W signals? Thanks, Luke Rumbaugh
bdada  (posted 2011-08-22 16:01:00.0)
Response from Buki at Thorlabs: The aspheric lens in the particular collimator you are looking at, the CFS18-532-FC, is the 352280-A. The NA is 0.15 and the RMS wave front error is diffraction limited, so this should be sufficient for your application. Please contact TechSupport@thorlabs.com if you have further questions.
ziqiangliu  (posted 2011-08-21 22:08:33.0)
Dear Sir/Madam, We need several aspheric fiber colllimator in 532nm. We need use the collimator at 300m distance. I need the NA is 0.15, MFD 3.5um, waist dia. less than 20mm,divengence less than 0.2mrad. It looks the CFS18-532-FC suit for our application. But mostly we concerned is the wave phase differencial should be less than 1/4 lambada. The colliatomator we used now have a clear diffraction ring at 300m distance. Is the CFS18-532-FC suit for our application? Or you have another better recommendation? Best regards, Jeffery Liu
jjurado  (posted 2011-02-28 13:57:00.0)
Response from Javier at Thorlabs to lpnirpol: Thank you for contacting us with your inquiry. Although we have not tested these fiber couplers in a fiberbench configuration like the FFBM-S-1550-Y, we expect the insertion loss to be very close to that of this fiber bench coupler when both collimators are used in a similar configuration. So you can expect an insertion loss of 0.6 dB (+/- 0.3 dB).
lpnirpol  (posted 2011-02-25 16:47:40.0)
Can you give the minimum expected insertion loss for when pairing these collimators like in the Permanent Pigtailed Fiber-Fiber Coupler product (FFBM-S-1550-Y).
Greg  (posted 2010-04-14 10:55:29.0)
A response from Greg at Thorlabs to logly1019: I have added links to our small V-Clamps in the tables above each price box. These clamps are well suited to mount these pigtailed collimators. The adapter Adam mentioned will also work for the CFS18 models. I will have our engineering team look at adding additional SM1 style adapters for our other pigtailed collimators.
Adam  (posted 2010-04-14 08:49:29.0)
A response from Adam at Thorlabs to logly1019: The CFS18-850-APC can be mounted in SM1 threads using a AD9.5F.
logly1019  (posted 2010-04-13 22:33:10.0)
What kind adapter can use for CFS18-850-APC? thanks.
apalmentieri  (posted 2009-02-24 11:09:29.0)
On this page there are no accessories or related items linked. Under related items, it may be a good idea to link fiberports, adjustable collimators, and fixed collimators. Under accessories, it may be a good idea to link fiber coupled laser sources, pigtailed laser diodes, and mating sleeves.

532 nm Pigtailed Aspheric Collimators

  • Insertion Loss: <0.2 dB
  • Fiber Type/Length: 460HP, 1 m
  • Fiber Connector: FC/PC, Narrow 2.0 mm Key
  • AR Coating Range of the Aspheric Lens: 400 - 600 nm
Item # EFLa Input
MFDb
Output
Waist Diameterc
Beam
Divergence
CAd Return Loss NAe Housing Outer Diameter Mounting Adapter
CFS2-532-FC 1.97 mm 3.5 µm 0.39 mm 1.75 mrad 2.0 mm 40 dB 0.51 3.99 mm AD4F
CFS18-532-FC 18.04 mm 3.5 µm 3.6 mm 0.19 mrad 5.5 mm 40 dB 0.15 9.02 mm AD9F
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperture of the Aspheric Lens
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available / Ships
CFS2-532-FC Support Documentation
CFS2-532-FCPigtailed Aspheric Collimators, EFL 1.97 mm, 532 nm, FC/PC
$246.84
Today
CFS18-532-FC Support Documentation
CFS18-532-FCPigtailed Aspheric Collimators, EFL 18.04 mm, 532 nm, FC/PC
$332.52
Today

850 nm Pigtailed Aspheric Collimators

  • Insertion Loss: <0.2 dB
  • Fiber Type/Length: SM800, 1 m
  • Fiber Connector: FC/APC, Narrow 2.0 mm Key
  • AR Coating Range of the Aspheric Lens: 600 - 1050 nm
Item # EFLa Input
MFDb
Output
Waist Diameterc
Beam
Divergence
CAd Return Loss NAe Housing Outer Diameter Mounting Adapter
CFS11-850-APC 11.10 mm 5.6 µm 2.1 mm 0.50 mrad 5.4 mm 55 dB 0.24 9.02 mm AD9F
CFS18-850-APC 18.45 mm 5.6 µm 4.0 mm 0.28 mrad 5.5 mm 55 dB 0.15 9.02 mm AD9F
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperture of the Aspheric Lens
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available / Ships
CFS11-850-APC Support Documentation
CFS11-850-APCPigtailed Aspheric Collimators, EFL 11.10 mm, 850 nm, FC/APC
$332.52
Today
CFS18-850-APC Support Documentation
CFS18-850-APCPigtailed Aspheric Collimators, EFL 18.45 mm, 850 nm, FC/APC
$332.52
Today

1030 nm Pigtailed Aspheric Collimators

  • Insertion Loss: <0.2 dB
  • Fiber Type/Length: HI1060-J9, 1 m
  • Fiber Connector: FC/PC, Narrow 2.0 mm Key
  • AR Coating Range of the Aspheric Lens: 650 - 1050 nm
Item # EFLa Input
MFDb
Output
Waist Diameterc
Beam
Divergence
CAd Return Loss NAe Housing Outer Diameter Mounting Adapter
CFS2-1030-FC 2.01 mm 6.0 µm 0.44 mm 3.00 mrad 2.0 mm 40 dB 0.50 3.99 mm AD4F
CFS5-1030-FC 4.67 mm 6.0 µm 1.0 mm 1.30 mrad 3.6 mm 40 dB 0.39 5.72 mm AD57F
CFS11-1030-FC 11.16 mm 6.0 µm 2.4 mm 0.55 mrad 5.4 mm 40 dB 0.24 9.02 mm AD9F
CFS18-1030-FC 18.56 mm 6.0 µm 4.0 mm 0.33 mrad 5.5 mm 40 dB 0.15 9.02 mm AD9F
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperture of the Aspheric Lens
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available / Ships
CFS2-1030-FC Support Documentation
CFS2-1030-FCPigtailed Aspheric Collimators, EFL 2.01 mm, 1030 nm, FC/PC
$246.84
Today
CFS5-1030-FC Support Documentation
CFS5-1030-FCPigtailed Aspheric Collimators, EFL 4.67 mm, 1030 nm, FC/PC
$225.42
Today
CFS11-1030-FC Support Documentation
CFS11-1030-FCPigtailed Aspheric Collimators, EFL 11.16 mm, 1030 nm, FC/PC
$332.52
Today
CFS18-1030-FC Support Documentation
CFS18-1030-FCPigtailed Aspheric Collimators, EFL 18.56 mm, 1030 nm, FC/PC
$332.52
Today

1064 nm Pigtailed Aspheric Collimators

  • Insertion Loss: <0.2 dB
  • Fiber Type/Length: HI1060-J9, 1 m
  • Fiber Connector: FC/PC, Narrow 2.0 mm Key
  • AR Coating Range of the Aspheric Lens: 1050 - 1700 nm
Item # EFLa Input
MFDb
Output
Waist Diameterc
Beam
Divergence
CAd Return Loss NAe Housing Outer Diameter Mounting Adapter
CFS2-1064-FC 2.02 mm 6.2 µm 0.44 mm 3.10 mrad 2.0 mm 40 dB 0.50 3.99 mm AD4F
CFS5-1064-FC 4.67 mm 6.2 µm 1.0 mm 1.35 mrad 3.6 mm 40 dB 0.39 5.72 mm AD57F
CFS11-1064-FC 11.17 mm 6.2 µm 2.4 mm 0.56 mrad 5.4 mm 40 dB 0.24 9.02 mm AD9F
CFS18-1064-FC 18.57 mm 6.2 µm 4.0 mm 0.34 mrad 5.5 mm 40 dB 0.15 9.02 mm AD9F
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperture of the Aspheric Lens
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available / Ships
CFS2-1064-FC Support Documentation
CFS2-1064-FCPigtailed Aspheric Collimators, EFL 2.02 mm, 1064 nm, FC/PC
$246.84
Today
CFS5-1064-FC Support Documentation
CFS5-1064-FCPigtailed Aspheric Collimators, EFL 4.67 mm, 1064 nm, FC/PC
$225.42
Today
CFS11-1064-FC Support Documentation
CFS11-1064-FCPigtailed Aspheric Collimators, EFL 11.17 mm, 1064 nm, FC/PC
$332.52
Today
CFS18-1064-FC Support Documentation
CFS18-1064-FCPigtailed Aspheric Collimators, EFL 18.57 mm, 1064 nm, FC/PC
$332.52
Today

1310 nm Pigtailed Aspheric Collimators

  • Insertion Loss: <0.2 dB
  • Fiber Type/Length: SMF28-J9, 1 m
  • Fiber Connector: FC/APC, Narrow 2.0 mm Key
  • AR Coating Range of the Aspheric Lens: 1050 - 1700 nm
Item # EFLa Input
MFDb
Output
Waist Diameterc
Beam
Divergence
CAd Return Loss NAe Housing Outer Diameter Mounting Adapter
CFS2-1310-APC 2.03 mm 9.2 µm 0.54 mm 3.10 mrad 2.0 mm 40 dB 0.49 3.99 mm AD4F
CFS5-1310-APC 4.70 mm 9.2 µm 0.83 mm 2.00 mrad 3.6 mm 40 dB 0.38 5.72 mm AD57F
CFS11-1310-APC 11.25 mm 9.2 µm 2.0 mm 0.84 mrad 5.4 mm 55 dB 0.24 9.02 mm AD9F
CFS18-1310-APC 18.67 mm 9.2 µm 3.3 mm 0.50 mrad 5.5 mm 55 dB 0.15 9.02 mm AD9F
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperture of the Aspheric Lens
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available / Ships
CFS2-1310-APC Support Documentation
CFS2-1310-APCPigtailed Aspheric Collimators, EFL 2.03 mm, 1310 nm, FC/APC
$246.84
Today
CFS5-1310-APC Support Documentation
CFS5-1310-APCPigtailed Aspheric Collimators, EFL 4.70 mm, 1310 nm, FC/APC
$225.42
Today
CFS11-1310-APC Support Documentation
CFS11-1310-APCPigtailed Aspheric Collimators, EFL 11.25 mm, 1310 nm, FC/APC
$332.52
Today
CFS18-1310-APC Support Documentation
CFS18-1310-APCPigtailed Aspheric Collimators, EFL 18.67 mm, 1310 nm, FC/APC
$332.52
Today

1550 nm Pigtailed Aspheric Collimators

  • Insertion Loss: <0.2 dB
  • Fiber Type/Length: SMF-28-J9, 1 m
  • Fiber Connector: FC/APC, Narrow 2.0 mm Key
  • AR Coating Range of the Aspheric Lens: 1050 - 1700 nm
Item # EFLa Input
MFDb
Output
Waist Diameterc
Beam
Divergence
CAd Return Loss NAe Housing Outer Diameter Mounting Adapter
CFS2-1550-APC 2.03 mm 10.4 µm 0.38 mm 5.20 mrad 2.0 mm 40 dB 0.49 3.99 mm AD4F
CFS5-1550-APC 4.73 mm 10.4 µm 0.87 mm 2.26 mrad 3.6 mm 40 dB 0.38 5.72 mm AD57F
CFS11-1550-APC 11.31 mm 10.4 µm 2.1 mm 0.95 mrad 5.4 mm 55 dB 0.24 9.02 mm AD9F
CFS18-1550-APC 18.75 mm 10.4 µm 3.5 mm 0.57 mrad 5.5 mm 55 dB 0.15 9.02 mm AD9F
  • Effective Focal Length
  • Mode-Field Diameter of Pigtailed Fiber
  • Measured 1/e2 Diameter at 1 Focal Length from Lens
  • Clear Aperture of the Aspheric Lens
  • Numerical Aperture of the Aspheric Lens
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available / Ships
CFS2-1550-APC Support Documentation
CFS2-1550-APCPigtailed Aspheric Collimators, EFL 2.03 mm, 1550 nm, FC/APC
$246.84
Today
CFS5-1550-APC Support Documentation
CFS5-1550-APCPigtailed Aspheric Collimators, EFL 4.73 mm, 1550 nm, FC/APC
$225.42
Today
CFS11-1550-APC Support Documentation
CFS11-1550-APCPigtailed Aspheric Collimators, EFL 11.31 mm, 1550 nm, FC/APC
$332.52
Today
CFS18-1550-APC Support Documentation
CFS18-1550-APCPigtailed Aspheric Collimators, EFL 18.75 mm, 1550 nm, FC/APC
$332.52
Today
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