Polarization-Maintaining Pigtailed Ferrules with Connectors

AR Coated Ferrules to Reduce Back Reflections
Ø1.8 mm Ferrule is Easy to Handle
FC/PC or FC/APC Connector

PMPFX4

630 nm Alignment Wavelength, FC/APC Connector, 1 m Long

PMPFX3

1550 nm Alignment Wavelength, FC/PC Connector, 1 m Long

Glass Ferrule with 8° Face

PANDA PM Fiber Cross Section

Connector Key Aligned to Slow Axis

Please Wait

Overview
Specs
Collimator Assembly
Feedback

Common Specifications
Ferrule Diameter	1.8 mm
Ferrule Material	Borosilicate Glass
Key Alignment	Slow Axis
Average Reflectance	<0.25% in AR Coating Range
Fiber Length	1.0 m +0.075 m/-0.0 m
Protective Jacket	Ø900 µm Hytrel^®a Tubing
Operating Temperature	0 to 70 °C
Storage Temperature	-45 to 85 °C

Hytrel^® is a registered trademark of DuPont Polymers, Inc.

Click to Enlarge
Pigtailed ferrules can be collimated using a GRIN Lens along with a
51-2800-1800 mating sleeve, sold below. Please see the Collimator Assembly tab above for all GRIN lenses that are compatible with our pigtailed ferrules.

Features

630, 780, 980, 1064 or 1550 nm Alignment Wavelength
AR Coated Glass Ferrules
- 630 ± 30 nm, 980 ± 15, or 1064 ± 15 nm VAR Coatings
- 700 - 900 nm or 1260 - 1650 nm Broadband AR Coating
2.0 mm Narrow Key FC/PC or FC/APC Versions Available
Designed for Easy Pairing with GRIN Lenses
Pigtailed Glass Ferrule with 8° Face Angle

Pairing our selection of GRIN lenses with these pigtailed ferrules to collimate the output light satisfies many experimental needs, including coupling a diode laser into a fiber, focusing laser light onto a detector, or collimating laser light. Pigtailed glass ferrules are commonly used in optical isolators, switches, and circulators. The Ø1.8 mm ferrule is significantly easier to handle than an unterminated fiber end. The 1 m long, polarization-maintaining fiber embedded in the ferrule is protected by Ø900 µm blue Hytrel^®* furcation tubing and terminated with a narrow key FC/PC or FC/APC connector. The FC/PC connectors feature a blue boot while the FC/APC connectors feature a green boot.

These ferrules feature either a narrowband antireflective, or V, coating (VAR) or a broadband antireflective (AR) coating. The PMPX1 and PMPX4 have a VAR coating for 630 ± 30 nm; the PMPFX7 and PMPFX9 have a VAR coating for 980 ± 15 nm; and the PMPFX8 and PMPFX10 have a VAR coating for 1064 ± 15 nm. The PMPX2 and PMPX5 feature a broadband AR coating for 700 - 900 nm, while the PMPX3 and PMPX6 feature a broadband AR coating for 1260 - 1650 nm. The coating lowers the average reflectance in the specified wavelength range to below 0.25%, reducing back reflections and insertion losses in the design wavelength range. In addition, each of the glass ferrules features an 8° face angle to maximize the return loss by back reflecting the incident light at a non-normal angle. Our line of GRIN lenses provides an 8° face angle that is designed to match the pigtailed glass ferrules. Please see the Collimator Assembly tab above for all GRIN lenses that are compatible with our pigtailed ferrules.

Thorlabs also offers a complete selection of mating sleeves that ensure proper alignment of the cores of a terminated fiber end. For pre-assembled GRIN lens and fiber combinations, please see our SM pigtailed aspheric lenses or our SM, PM, and MM jacketed GRIN collimators. If you do not see a pigtailed patch cable that meets your application requirements, please contact Tech Support and we will design a specialty cable to meet your needs.

*Hytrel^® is a registered trademark of DuPont Polymers, Inc.

Item #s	PMPFX1^a PMPFX4^b	PMPFX2^a PMPFX5^b	PMPFX7^a PMPFX9^b	PMPFX8^a PMPFX10^b	PMPFX3^a PMPFX6^b
Alignment Wavelength	630 nm	780 nm	980 nm	1064 nm	1550 nm
Ferrule AR Coating Range	630 ± 30 nm	700 - 900 nm	980 ± 15 nm	1064 ± 15 nm	1260 - 1650 nm
Reflectance Over AR Coating Range	R_avg < 0.25%
Max Insertion Loss	1.2 dB	1.0 dB	0.70 dB	0.70 dB	0.5 dB
Min Extinction Ratio	20 dB	20 dB	22 dB	22 dB	23 dB
Fiber Operating Wavelength	620 - 850 nm	770 - 1100 nm	970 - 1550 nm	970 - 1550 nm	1440 - 1625 nm
Fiber Mode Field Diameter^c	4.5 ± 0.5 µm @ 630 nm	5.3 ± 1.0 µm @ 850 nm	6.6 ± 0.5 µm @ 980 nm	6.6 ± 0.5 µm @ 980 nm	10.1 ± 0.4 µm @ 980 nm
Fiber Cladding	125 ± 2 µm	125 ± 2 µm	125 ± 2 µm	125 ± 2 µm	125 ± 2 µm
Fiber Coating	245 ± 15 µm	245 ± 15 µm	245 ± 15 µm	245 ± 15 µm	245 ± 15 µm
Fiber Cutoff Wavelength	570 ± 50 nm	710 ± 60 nm	920 ± 50 nm	920 ± 50 nm	1380 ± 60 nm
Fiber NA^d	0.12	0.12	0.12	0.12	0.125
Fiber Type	PM630-HP	PM780-HP	PM980-XP	PM980-XP	PM1550-XP
Compatible GRIN Lens	GRIN2306A	-^e	-^e	GRIN2310A	GRIN2315A
Ferrule Diameter	1.8 mm
Ferrule Length	5.6 mm		5.5 mm ± 0.5 mm		5.6 mm
Ferrule Material	Borosilicate Glass
Key Alignment	Slow Axis
Fiber Length	1.0 m +0.075 m/-0.0 m
Protective Jacket	Ø900 µm Hytrel^®f Tubing
Operating Temperature	0 to 70 °C
Storage Temperature	-45 to 85 °C

FC/PC Connector
FC/APC Connector
Mode Field Diameter (MFD) is specified as a nominal value. It is the the diameter at the 1/e² power level in the near field.
Numerical Aperture (NA) is specified as a nominal value.
Please contact Tech Support to order a custom GRIN lens for use at 780 nm or 980 nm.
Hytrel^® is a registered trademark of DuPont Polymers, Inc.

GRIN Parts
Click for Details
GRIN Lens, Sleeve, and Pigtailed Ferrule
(Each Sold Separately)

Assembled GRIN Device
Click to Enlarge
We Recommend Using a UV Cured Optical Adhesive When Connecting these Parts

Using GRIN Lenses to Collimate Pigtailed Ferrules

All pigtailed ferrules can be collimated using our selection of GRIN Lenses along with a 51-2800-1800 mating sleeve, available below. This collimator can be assembled by inserting the lens and ferrule into opposing sides of the mating sleeve as shown in the images to the right. Gently bring them into contact to ensure that the faces are parallel, then bring the lens and ferrule apart until the desired focusing is achieved. For ease of assembly, we recommend using our spring-loaded micro V-clamp or tweezers to handle these small cylindrical components.

The SMPF01 and PMPFX series of pigtailed glass ferrules have an 8° face angle which is compatible with the 8° face angle of the GRIN23 series of lenses. The SMPF02 series of ferrules have a 0° face angle which is compatible with the 0° face angle of the GRIN29 lens series.

Use the table below to select between our PM and SM pigtailed ferrules and the corresponding compatible GRIN lenses. Our PM glass ferrules are offered with FC/PC or FC/APC connectors while our SM ferrules are offered with both of these connector types or without a connector.

Selection Guide
Wavelength	Face Angle	Compatible GRIN Lenses^a	PM Pigtailed Ferrule		SM Pigtailed Ferrule
Wavelength	Face Angle	Compatible GRIN Lenses^a	FC/PC	FC/APC	FC/PC	FC/APC	No Connector
630 nm	8°	GRIN2306A	PMPFX1	PMPFX4	-	-	-
630 nm	0°	GRIN2906 GRIN2906C	-	-	-	-	-
633 nm	8°	GRIN2306A	-	-	SMPF0106-FC	SMPF0106-APC	SMPF0106
633 nm	0°	GRIN2906 GRIN2906C	-	-	SMPF0206-FC	SMPF0206-APC	SMPF0206
780 nm	8°	GRIN2307AC	PMPFX2	PMPFX5	-	-	-
780 nm	0°	GRIN2907C	-	-	-	-	-
830 nm	8°	GRIN2308A GRIN2308AC	-	-	SMPF0108-FC	SMPF0108-APC	SMPF0108
830 nm	0°	GRIN2908 GRIN2908C	-	-	SMPF0208-FC	SMPF0208-APC	SMPF0208
980 nm	8°	GRIN2309AC	PMPFX7	PMPFX9	-	-	-
980 nm	0°	GRIN2909C	-	-	-	-	-
1064 nm	8°	GRIN2310A GRIN2310AC	PMPFX8	PMPFX10	SMPF0110-FC	SMPF0110-APC	SMPF0110
1064 nm	0°	GRIN2910 GRIN2910C	-	-	SMPF0210-FC	SMPF0210-APC	SMPF0210
1310/1550 nm	8°	GRIN2313A GRIN2315A	-	-	SMPF0115-FC	SMPF0115-APC	SMPF0115
1310/1550 nm	0°	GRIN2913 GRIN2915	-	-	SMPF0215-FC	SMPF0215-APC	SMPF0215
1550 nm	8°	GRIN2315A	PMPFX3	PMPFX6	-	-	-

GRIN lenses are sold separately.

Posted Comments:

Aner Lev (posted 2022-06-06 14:35:24.063)

Dear Sir We are intresting in your 1550 nm ferrule and we have some questions : 1. What is the accuracy of the 8° polish angle?. I would like 8.0° ± 0.1° 2. What is the accuracy of the fiber core assembly related the mechanical axis of the ferrule? 3. Please send us the tolerance of the output beam angles (Pitch and Yaw) related the mechnical axis of the ferrule Thnak you very much for your nice help Sincererly yours Aner Lev

cdolbashian (posted 2022-10-14 03:53:05.0)

Thank you for reaching out to us with this inquiry. To answer each of your questions in order: The accuracy of the polish angle is 8°±1°, the concentricity of the ferrule is ≤15um, and finally, the pitch would be~3.59° with a a yaw of ~0°.

Luis Colchero (posted 2021-03-17 08:59:26.54)

“I have a question on your SM600 and / or PM660-HP fiber optic cable. I want to launch into it a 633 nm wavelength to deliver a SM beam at its output , which is within its nominal specifications, Since this SM600 fiber core is 3.5-5.2 um, all be ok. (normally a 4,2um is the proper core diameter for such wavelength, tough ) Now comes the question. By chance I expect to launch into it a 405nm wavelength beam , for which it would require a 3um core, but knowing that my porpouse FOR this 402nm wavelenght IS NOT to deliver a SM TEM00 mode, but a MM output at this 405nm is OK with my application, while needing a 632nm SM output. Is it proper to use this SM600 fiber optic cable for such porpouse ? (I accept that there may be addtional attenuation at 405nm , no problem with me, I will commpensate input power at 405nm (I am assuming a 2 -50 mW range max for both wavelenghts. My expected products are: PMPFX1 Customer Inspired! PM Pigtailed Ferrule, Ø1.8 mm, 8°, 630 nm, FC/PC combined with: PM630-HP + GRIN2306A Many thanks for your help Luis” Colchero lcolchero@cofis.es

YLohia (posted 2021-03-25 10:54:28.0)

Hello, since the cut-off wavelength of the PM630-HP is specified to be 570 ± 50 nm, the 405 nm light will propagate as multimode while the 632 nm light will be single mode. Since you don't mind the multimode behavior and a higher loss at 405 nm, I would expect this to be fine for your application.

Laurance Lingvay (posted 2020-03-06 12:00:13.65)

Could you please tell me the orientation of the PM fiber polarization state relative to the 8 deg angled surface. Thank you, Larry

llamb (posted 2020-03-11 01:25:42.0)

Hello Larry, thank you for contacting Thorlabs. The 8° fiber end face is angled on a plane parallel to the fast axis.

PM Pigtailed Ferrules with FC/PC Connectors

Item #	Face Angle	Glass Ferrule AR Coating Range	Reflectance Over AR Coating Range	Fiber NA	Fiber Alignment Wavelength	Fiber Operating Wavelength	Cutoff Wavelength	Fiber Type	Compatible GRIN Lens^a	Connector
PMPFX1	8°	630 ± 30 nm	R_avg < 0.25%	0.12	630 nm	620 - 850 nm	570 ± 50 nm	PM630-HP	GRIN2306A	FC/PC
PMPFX2		700 - 900 nm	R_avg < 0.25%	0.12	780 nm	770 - 1100 nm	710 ± 60 nm	PM780-HP	GRIN2307AC
PMPFX7		980 ± 15 nm	R_avg < 0.25%	0.12	980 nm	970 - 1550 nm	920 ± 50 nm	PM980-XP	GRIN2309AC
PMPFX8		1064 ± 15 nm	R_avg < 0.25%	0.12	1064 nm	970 - 1550 nm	920 ± 50 nm	PM980-XP	GRIN2310A GRIN2310AC
PMPFX3		1260 - 1650 nm	R_avg < 0.25%	0.125	1550 nm	1440 - 1625 nm	1380 ± 60 nm	PM1550-XP	GRIN2315A

GRIN lenses are sold separately.

PM Pigtailed Ferrules with FC/APC Connectors

Item #	Face Angle	Glass Ferrule AR Coating Range	Reflectance Over AR Coating Range	Fiber NA	Fiber Alignment Wavelength	Fiber Operating Wavelength	Cutoff Wavelength	Fiber Type	Compatible GRIN Lens^a	Connector
PMPFX4	8°	630 ± 30 nm	R_avg < 0.25%	0.12	630 nm	620 - 850 nm	570 ± 50 nm	PM630-HP	GRIN2306A	FC/APC
PMPFX5		700 - 900 nm	R_avg < 0.25%	0.12	780 nm	770 - 1100 nm	710 ± 60 nm	PM780-HP	GRIN2307AC
PMPFX9		980 ± 15 nm	R_avg < 0.25%	0.12	980 nm	970 - 1550 nm	920 ± 50 nm	PM980-XP	GRIN2309AC
PMPFX10		1064 ± 15 nm	R_avg < 0.25%	0.12	1064 nm	970 - 1550 nm	920 ± 50 nm	PM980-XP	GRIN2310A GRIN2310AC
PMPFX6		1260 - 1650 nm	R_avg < 0.25%	0.125	1550 nm	1440 - 1625 nm	1380 ± 60 nm	PM1550-XP	GRIN2315A

GRIN lenses are sold separately.

GRIN Lens / Ferrule Sleeves

Zoom

Click to Enlarge

Borosilicate Glass
10.0 mm Length
1.818 mm Internal Diameter

The 51-2800-1800 sleeve is designed to easily mate any one of our GRIN lenses to a single mode (item # prefix SMPF) or polarization-maintaining (item # prefix PMPF) pigtailed glass ferrule. The borosilicate glass is transparent to UV light, allowing curing of NOA68 or NOA61 optical adhesive inside the sleeve. See here for our complete selection of optical adhesives.