YOFC

YOFC manufacture different types and standards of optical preform, optical fibre and optical cable that widely installed in telecommunication industry, also designing customised specialty fibre and cable, including integrated system, project design and service. In addition, YOFC is equipped with a fully series of fibre and cable and solutions, providing a variety of different products and solutions for world's telecom industry and other industries (e,g. Publicity, Transportation, Oil & Chemistry and Medication) and offering its products and services to over 60 countries and regions around the world.

YOFC has obtained over 300 national-granted patents and several foreign invention patents from Europe, US and Japan, etc. including PCT authorisation. These achievements has driven YOFC to honour the following award & reputation: National Enterprise Technical Center, the Innovative Enterprise, the National First Batch Intelligent Manufacturing Pilot Demonstration Enterprise, the National Manufacturing Industry Single Championship Demonstration Enterprise, etc. the Second Class National Science and Technology Progress Award (twice), China Quality Award, etc. Also, YOFC was nominated the support organisation for National Key Laboratory in optical fibre and cable preparation technology and is one of the significant members in ITU-T and IEC in setting national standards.

DCF
Dispersion Compensating Fibre

PMF
Polarisation Maintaining Fibre Series

HPCF
Hard polymer Cladding Optical Fibre

GIMM
Graded Index Multi-mode Fiber

SIMM
Step Index Multi-mode Fiber

BI-SMF
Bending Insensitive Single-mode Fiber

SW-SMF
Special Cutoff Wavelength Single-mode Fiber

PH-SMF
Photonic Single-mode Fiber Series for Component Use

CSF
Coupling Single-mode Fiber

HTF
High Temperature Fiber

RRF-SM
Radiation Resistant Single-mode Fiber

RRF-MM
Radiation Resistant Multi-mode Fiber

UVF
Ultraviolet Optimised Fiber

ETFE
ETFE Tight Buffered Fiber

YDF
Double-clad Ytterbium Doped Fiber

GDF
Double/Single-clad Passive Fiber

EDF
Erbium Doped Fiber

Iso Gain Series EDF

DTS-MMF
Distributed Temperature System-multimode Fibre

MCF
Multi Core Fiber

FMF
Few-mode Fiber

CLF
Coreless Fiber

HNLF
High Nonlinear Optical Fiber

PCF
Photonic Crystal Fiber

SF
Spun Fiber

Dispersion Compensating Fibre

YOFC dispersion compensating fibre is specially developed through proprietary PCVD-based technology. Taking advantages of PCVD process, YOFC is able to manufacture complex index-profile shapes accurately, therefore, to get the optimised products with the best compromise between insertion loss and residual dispersion over the compensated working wavelength. Customised fibres with special centre wavelength and dispersion are available.

Characteristics

Broad band dispersion compensating of DWDM network and extremely low residual dispersion
80-120% slope compensation in C/ L band
Low insertion loss and high negative dispersion coefficient High figure of merit (FOM) Low PMD
Performances meet the criterion Telcordia GR-2854-core
Reliability meets the criterion Telcordia GR-1221-core Customised encapsulation type, dimension, connector type and
Jumper length
Good splicing characteristics, spliced by one discharge

diag

Application

Single mode fibre backbone and metropolitan area networks based on recommendation G.652
DWDM networks
SDH network
CATV
Dispersion adjustment

Products

Standard Products

DCF for G.652 C brand (Part no. DM1010-D)
DCF for G.652 C brand (Part no. DM1010-E)
DCF for G.655 C brand (Part no. DM1011-A)
DCF for CATV and high FOM (Part no. DM1013-A)

Products Available

Specifications

Fibre Type	NDCF-G.652C/250	SNDCF-G.652C/170	DCF-G.655C/250	SDCF-G.652C/170LD
Part No.	DM1010-D	DM1010-E	DM1011-A	DM1013-A
Optical Properties
Operating Wavelength (nm)	1525-1565	1525-1565	1525-1565	1525-1565
MFD (µm)	5.0± 1	5.0±1	4.5± 1	5.0±1
1525~1565nm Attenuation (dB/km)	0.55	0.55	1.4	0.6
1545nm Dispersion Coefficient (ps/nm · km)	-100~-170	-100~-170	-160~-360	-160
1545nm Relative Dispersion Slope (nm-1 )	0.00288~0.00432	0.00288~0.00432	0.0176~0.0264	0.0028-0.0044
Geometrical Properties
Cladding Diameter (µm)	120±10	120±10	110±10	120±10
Coating Diameter (µm)	245±10	175±15	245±10	175±15
Cladding Non-circularity(%)	l	l	l	l
Cor e/Clad ding Concentricity Error(%)	1	1	1	1
Coating Type	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate

Polarisation Maintaining Fibre Series

YOFC polarisation maintaining fibre (PMF) is specially designed for fibre optic gyroscopes (FOGs) and polarisation-sensitive components applications. This kind of fibre exhibits extremely low attenuation and excellent birefringence characteristics, and uses in a variety of demanding applications.

YOFC PMF is manufactured through the high precision Plasma Chemical Vapor Deposition (PCVD) process. This process produces preforms with precise refractive index profiles, material uniformity and dimensional tolerances, therefore, makes fibres with excellent birefringence, low attenuation and extremely tight tolerances.

With dual-layer, UV-cured Acrylate coating, YOFC polarisation maintaining fibre has high environmental stability performance over the temperature range of -45°C to +85°C (-49 °F to +185 °F ).

polarisation Maintaining Telecommunication Fibres
Specifications-!

Secondary Coating UV Acrylate

Primary Coating UV Acrylate

Cladding
Characteristics

Fibre Type	PM980 125-12/250	PM980 125-12/400	PM 1310 125-13/250	PM 1310 I 125-13/400
Part No.	PM10 15-A	PM1025-A	PM10 16 -C	PM1026 -C
Optical Properties
Operating Wavelength (nm)	980	980	13 10	13 10
Cut-off Wavelength (nm)	800~970	800-970	1100-1290	1100-1290
Mode Field Diameter (µm)	6.5±1.0	6.5±1.0	9.0±1.0	9.0±1.0
Attenuation (dB/km)	⩽2.5	⩽2.5	⩽0.5	⩽0.5
Beat Length (mm)	⩽3.0	⩽3.0	⩽4.0	⩽4.0
Typical Cross Talk at 4m (dB)	⩽-40	⩽-40	⩽-40	⩽-40
Cross Talk at 10Om (dB)	⩽-25	⩽-25	⩽-25	⩽-25
Geometrical Properties
Cladding Diameter (µm)	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0
Coating Diameter (µm)	245.0 ±7.0	400.0± 15.0	245.0 ±7.0	400.0± 15.0
Cladding Non -circularity (%)	⩽1.0	⩽1.0	⩽1.0	⩽1.0
Core Concentricity Error(µm)	⩽1.0	⩽1.0	⩽1.0	⩽1.0
Coating Type	Dual-layer/UV-Acrylate	Dual-layer/UV-Acrylate	Dual-layer/UV-Acrylate	Dual-layer/UV-Acrylate
Mechanical Properties
Operating Temperature ('C)	-45~+85	-45~+85	-45~+85	-45~+85
ProofTest (kpsi)	100	100	100	100

Excellent polarisation maintaining properties

Tight geometric tolerances and very low attenuation

Dual-layer UV-Acrylate coating and tight buffering structure

High environmental stability and reliability

Application

Stress Applying Part SAP

Core

polarisation-sensitive components
High performance transmission laser pigtails

Pigtail to LiNbO3 FOG chip (IOC)

Specifications-2
polarisation Maintaining Birefringence Matching Fibre

Fibre Type	PM 14xx 125-13/250	PM 1550 125-13/250	PM 1550 125-13/400
Part No.	PM1018-A	PM1017-C	PM1027-C
Optical Properties
Operating Wavelength (nm)	1400~1490	1550	1550
Cut-off Wavelength (nm)	1200~1380	1290~1520	1290~1520
Mode Field Diameter (µm)	9.8±1.0	10.5± 1.0	10.5± 1.0
Attenuation (dB/km)	⩽0.5	⩽0.5	⩽0.5
Beat Length (mm)	⩽4.5	⩽5.0	⩽5.0
Typical Cross Talk at4m (dB)	⩽-40	⩽-40	⩽-40
Cross Talk at 100m (dB)	⩽-25	⩽-25	⩽-25
Geometrical Properties
Cladding Diameter (µm)	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0
Coating Diameter (µm)	245.0 ± 7.0	245.0 ± 7.0	400.0± 15.0
Cladding Non-circularity(%)	⩽1.0	⩽1.0	⩽1.0
Core Concentricity Error(µm)	⩽1.0	⩽1.0	⩽1.0
Coating Type	Dual-layer/UV-Acrylate	Dual-layer/UV-Acrylate	Dual-layer/UV-Acrylate
Mechanical Properties
Operating Temperature (°C)	-45~+85	-45~+85	-45~+85
*ProofTest (kpsi)	100	100	100
Characteristics Excellent birefringence matching properties

Excellent polarisation maintaining properties

Excellent polishing properties Tight geometric tolerances
Low bending-induced attenuation

Tight tolerance, dual-layer, and UV-Acrylate coating High environmental stability and reliability

Specifications
Application

Pigtail to LiNbO3 FOG chip (IOC)

polarisation maintaining fused-fibre couplers

polarisation-sensitive components

High performance transmission laser pigtails polarisation-based sensors

Specifications-3

Fibre Type	PM 980 125-12/250_C	PM1310 125-13/250_C	PM 14xx 125-13/250_C	PM 1550 125-13/250_C
Part No.	PM1015-A+	PM1016-C+	PM1018-A+	PM1017-C+
Optical Properties
Operating Wavelength (nm)	980	1310	1400~1490	1550
Cut-off Wavelength (nm)	800~970	1100~1290	1200~1380	1290~1520
Mode Field Diameter (µm)	6.5±1.0	9.0±1.0	9.8±1.0	10.5±1.0
Attenuation (dB/km)	⩽2.5	⩽0.5	⩽0.5	⩽0.5
Beat Length (mm)	3.0~5.0	3.0~6.0	4.0~7.5	4.5~8.0
Typical Cross Talk at 4m (dB)	⩽-30	⩽-30	⩽-30	⩽-30
Cross Talk at 100m (dB)	⩽-25	⩾-25	⩾-25	⩾-25
Geometrical Properties
Cladding Diameter (µm)	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0
Coating Diameter (µm)	245.0 ± 7.0	245.0 ± 7.0	245.0 ± 7.0	245.0 ± 7.0
Cladding Non-circularity(%)	⩾1.0	⩽1.0	⩾1.0	⩾1.0
Core Concentricity Error (µm)	⩽1.0	⩽1.0	⩾1.0	⩾1.0
Coating Type	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate
Mechanical Properties
Operating Temperature (0 C)	-45~+85	-45~+85	-45~+85	-45~+85
*ProofTest (kpsi)	100	100	100	100

Customised PMFs are available with different application designs.

Standard proof test minimum is 1%. 2% proof test fibre is available.

Fibre Type	PM1310 125-16/250_(	PM1310 125-16/250_¥	PM 1550 125-18/250_¥	PM 1310 80-16/165_ V	PM 1550 80-18/165_ V
Part No.	PM1016-D	PM1016-E	PM1017-E	PM1016-F	PM1017-F
Optical Properties
Operating Wavelength (nm)	1310	1310	1550	1310	1550
Cut-off Wavelength (nm)	1100~1290	1100~1290	1290~1520	1100~1290	1290~1520
Mode Field Diameter (µm)	6.5±1.0	6.0±1.0	6.5±1.0	6.0±1.0	6.5±1.0
Attenuation (dB/km)	⩽1.0	⩽0.6	⩽0.6	⩽0.6	⩽1.0
Beat Length (mm)	4.0~6.0	2.5~4.0	2.5~4.5	2.5~4.0	2.5~4.5
Typical Cross Talk at4m (dB)	⩽-30	⩽-30	⩽-30	⩽-30	⩽-30
Cross Talk at 100m (dB)	⩾-25	⩽-30	⩽-30	⩽-30	⩽-30
Geometrical Properties
Cladding Diameter (µm)	125.0 ± 1.0	125.0 ± 1.0	125.0 ± 1.0	80.0 ± 1.0	80.0 ± 1.0
Coating Diameter (µm)	245.0 ± 7.0	245.0 ± 7.0	245.0 ± 7.0	170.0 ± 7.0	170.0 ± 7.0
Cladding Non-Circularity(%)	⩾1.0	⩾1.0	⩾1.0	⩾1.0	⩽1.0
Core Concentricity Error (µm)	⩾1.0	⩾1.0	⩾1.0	⩾1.0	⩽1.0
Coating Type	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate
Mechanical Properties
Operating Temperature(0 C)	-45~+85	-45~+85	-45~+85	-45~+85	-45~+85
*ProofTest (kpsi)	100	100	100	100	100

Customised PMFs are available with different application designs.

Standard proof test minimum is 1%. 2% proof test fibre is available.

5 YOFC 6

polarisation Maintaining Gyroscope &
Sensor Fibre

Characteristics Application

Short beat length

Extremely high birefringence

Excellent polarisation maintaining properties
Tight geometric tolerances and very low attenuation Low bending-induced attenuation

Tight tolerance, dual-layer, and UV-Acrylate coating High environmental stability and reliability
Fibre Optic Gyroscopes (FOGs)

polarisation maintaining fused-fibre couplers

polarisation-sensitive components
High performance transmission laser pigtails polarisation-based sensors

Specifications

Fibre Type	PM 1310 125-16/250	PM 1310 80-16/165	PM 1550 125-18/250	PM 1550 80-18/165	PMF 1310/ 80-16/135	PMF 1550/ 80-18/135
Part No.	PM1016-A	PM1016-B	PM1017-A	PM1017-B	PM 1016-G	PM 1017-G
Optical Properties
Operating Wavelength (nm)	1310	1310	1550	1550	1310	1550
Cut -off Wavelength (nm)	1100-1290	1100-1290	1290-1520	1290-1520	1100-1290	1290-1520
Mode Field Diameter (µm)	6.0±1.0	6.0±1.0	6.5±1.0	6.5±1.0	6.0 ± 0.5	6.5 ± 0.5
Attenuation (dB/ km)	⩽0.6	⩽0.6	⩽0.5	⩽0.8	⩽0.6	⩽0.8
Beat Length (mm)	⩽3.0	⩽3.0	⩽3.5	⩽3.5	⩽2.5	⩽3.0
Cross Talk at 1000m (dB)	⩾-30	⩾-30	⩾-30	⩾-30	⩾-25	⩾-25
Geometrical Properties
Cladding Diameter (µm)	125.0 ± 1.0	80.0 ± 1.0	125.0 ± 1.0	80.0 ± 1.0	80.0 ± 1.0	80.0 ± 1.0
Coating Diameter (µm)	245.0 ± 7.0	170.0 ± 7.0	245.0 ± 7.0	170.0 ± 7.0	135 ±5	135±5
Cladding Non-Circularit y (%)	⩾1.0	⩾1.0	⩾1.0	⩾1.0	⩽1.0	⩽1.0
Core Concentricity Error (µm)	⩾1.0	⩾1.0	⩾1.0	⩾1.0	⩽0.5	⩽0.5
Coating Type	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate	Dual-layer; UV-Acrylate
Mechanical Properties
Operating Temperature (' C)	-45~+85	-45~+85	-45~+85	-45~+85	-45~+85	-45~+85
*Proof Test (100 kpsi)	100	100	100	100	100	100

Customised PMFs are available with different application designs.

Standard proof test minimum is 1%. 2% proof test fibre is available.

Hard Polymer Cladding Optical Fibre

YOFC large core fibre with low OH is suited for 650nm and 850nm apparatus and systems. The hard polymer cladding provides higher tensile strength and greater resistance to moisture. These characteristics determine the HPCF widely used in fields of telecommunication,industry and near-lR spectroscopy environment.

Hard polymer (HP) cladding, made up of "fluoroacrylate", plays an important role in protecting glass core. In the process of installation or terminal use, HPCF is hard to break, even under the tightly bend or other rough conditions.

Large core with 200 µm-1000 µm diameter provides an excellent coupling efficiency for data transmission and connectors. Systems with large core fibre have lower cost due to the loose tolerance characteristics of the components. HPCF shows the best performance applied to short distance medium transmission and data transmission.

Specifications-!

Application

High energy laser transmission

Short-to-medium distance telecommunication Electric signal transmission
Locomotive traction control

Medical sensor

Factory automation control Laser therapy and operation Near-lR spectroscopy application

Optical pyrometry

Nuclear radiation monitoring Optical fibre lighting

Fibre Type	HP 200/230-37/S00E	HP 200/230-40/500	HP 300/330-37/650E	HP 400/430-37/730E
Part No.	HP2140-A	HP2111-A	HP2140-B	HP2140-C
Optical Properties
Numerical Aperture	0.37± 0.02	0.40±0.02	0.37±0.02	0.37±0.02
Attenuation @850 nm(dB/km)	⩽8.0	⩽5.0	⩽8.0	⩽8.0
OH Content	Low OH	Low OH	Low OH	Low OH
Refractive Index Profile	Step Index	Grade Index	Step Index	Step Index
Geometrical Properties
Core Diameter (µm)	200.0±3.0	200.0±3.0	300.0±6.0	400.0±8.0
Cladding Diameter (µm)	230+0/-8	230+0/-8	330+5/-10	430+5/-10
Coating Diameter (µm)	500.0±25.0	500.0±25.0	650.0±30.0	730.0±30.0
Core Concentricity Error (µm)	⩽5.0	⩽5.0	⩽6.0	⩽8.0
Material Composition
Core Material	Pure Silica Glass	Doped Silica Glass	Pure Silica Glass	Pure Silica Glass
Cladding Material	Fluoroacrylate	Fluoroacrylate	Fluoroacrylate	Fluoroacrylate
Coating Material	ETFE	Acrylate	ETFE	ETFE
Mechanical Properties
Short Term Bend Radius(mm)	⩾10	⩾10	⩾16	⩾29
Long Term Bend Radius(mm)	⩾16	⩾16	⩾24	⩾47
Operating Temperature(°C)	-65~+85	-65~+85	-65~+85	-65~+85
ProofTest Level (kpsi)	100	100	100	75
Specifications-2

Fibre Type	HP 600/630-37/1040E	HP 600/630-37/750E	HP 1000/1100-37/1400E
Part No.	HP2140-D	HP2140-E	HP2142-A
Optical Properties
Numerical Aperture	0.37±0.02	0.37±0.02	0.37±0.02
Attenuation @850 nm(dB/km)	⩽8.0	⩽8.0	⩽8.0
OH Content	Low OH	Low OH	Low OH
Refractive Index Profile	Step Index	Step Index	Step Index
Geometrical Properties
Core Diameter (µm)	600.0±10.0	600.0±10.0	1000.0±20.0
Cladding Diameter (µm)	630+5/-10	630+5/-10	1100+10/-30
Coating Diameter (µm)	1040.0±30.0	750.0±30.0	1400.0±50.0
Core Concentricity Error (µm)	⩽8.0	⩽8.0	⩽10.0
Material Composition
Core Material	Pure Silica Glass	Pure Silica Glass	Pure Silica Glass
Cladding Material	Fluoroacrylate	Fluoroacrylate	Fluoroacrylate
Coating Material	ETFE	ETFE	ETFE
Mechanical Properties
Short Term Bend Radius(mm)	⩾58	⩾58	⩾73
Long Term Bend Radius(mm)	⩾94	⩾94	⩾118
Operating Temperature(0 C)	-65~+85	-65~+85	-65~+85
ProofTest Level (kpsi)	75	75	85
Characteristics ETFE or Acrylate Hard Poymer Cladding Silica Core Higher coupling efficiency provided than LED and laser source tolerant of wide fluctuations in temperature and humidity

More effective and cheaper connection mode Excellent fatigue resistance performance Excellent radiation resistance performance

Compatible with a variety of light sources

9 YOFC 1Q

Graded Index Multi-mode Fiber

YOFC silica-cladding multimode fibres (preforms) with graded index profile are comprehensively optimised at both 850nm and 1300nm operating wavelengths. At both wavelengths, extremely low attenuation and high bandwidth could be achieved. To satisfy the demand of client to the most extent, a series of silica-cladding graded index multimode fibres can be customised with different fibre designs, including core diameter, cladding diameter, fibre diameter and NA.

YOFC fibres are manufactured with the advanced Plasma Activated Chemical Vapor Deposition (PCVD) process. Due to the inherent advantages of the process, YOFC fibres have extremely precise refractive index profiles (RIPs), which could provide excellent geometrical, optical, environmental and mechanical properties.

Fibre Type		GI 50/125- 20/250	GI 80/125- 30/250	GI 100/125- 29/250	GI 100/140- 29/250	GI 105/125- 30/250	GI 100/125- 14/250
Part No.		G12012-E	G12017-C	G12016-F	G12016-H	G12017-A	G12011-A
Optical Properties
Numerical Aperture		0.20±0.015	0.30±0.02	0.29±0.02	0.29±0.02	0.30±0.02	0.14±0.02
Atten uation	@850nm (dB/km)	⩽2.45	⩽3_5	⩽3_0	⩽3_2	⩽4_0	⩽5_0
Atten uation	@1300nm (dB/km)	⩽0.6	⩽0.1	⩽0.1	⩽0.8	⩽1.0
Band width	@850nm (MHz· km)	⩾500	⩾300	⩾250	⩾100	⩾200	⩾200
Band width	@1300nm (MHz· km)	⩾2000	⩾200	⩾500	⩾200	⩾300	⩾300
Geometrical Properties
Core Diameter (µm)		50.0±2.0	80.0±3.0	100.0±3.0	100.0±3.0	105.0±3.0	100.0±3.0
Cladding Diameter (µm)		125.0±2.0	125.0±2.0	125.0±2.0	140.0±2.0	125.0±2.0	125.0±2.0
Coating Diameter (µm)		250.0±10.0	250.0±10.0	250.0±10.0	250.0±10.0	250.0± 10.0	250.0±10.0
Core Concentricity Error (µm)		⩽3_0	⩽3_0	⩽3_0	⩽3_0	⩽3_0	⩽3_0
Core Non-circularity(%)		⩽2.0	⩽5_0	⩽2.0	⩽3_0	⩽2.0	⩽3_0
Cladding Non-circularity(%)		⩽1.0	⩽1.0	⩽1.0	⩽1.0	⩽1.0	⩽1.0
Material Composition
Core Cladding Coating

Mechanical Properties
ProofTest Level (kpsi) Spool Length (km)

Specifications-2

100

Ge/F Doped silica Glass Pure Silica Glass
Dual-layer UV-Acrylat

100 100
Customised spool

100 100 100

Fibre Type		GI 105/125- 24/250	GI 50/80- 29/165	GI 300/330- 25/500	GI 200/220- 22/500	GI 230/250- 22/500
Part No.		G12014-J	G12016-C	G12014-B	G12013-N	G12013-P
Optical Properties
Numerical Aperture		0.24±0.02	0.29±0.02	0.25±0.02	0.22±0.02	0.22±0.02
Atten uation	@850nm (dB/km)	⩽3_5	⩽4_0	⩽7.0	⩽5_0	⩽5_0
Atten uation	@1300nm (dB/km)	⩽1.5	⩽2.0
Band width	@850nm (MHz· km)	⩾200	⩾200
Band width	@1300nm (MHz· km)	⩾300	⩾500
Geometrical Properties
Core Diameter (µm)		105.0±3.0	50.0±3.0	300.0±10.0	200.0±4.0	230.0±5.0
Cladding Diameter (µm)		125.0±2.0	80.0±2.0	330.0±5.0	220.0±3.0	250.0±5.0
Coating Diameter (µm)		250.0±10.0	165.0±8.0	500.0±20.0	500.0±20.0	500.0±20.0
Core Concentricity Error (µm)		⩽3.0	⩽3.0	⩽3.0	⩽3.0	⩽3.0
Core Non-circularity(%)		⩽2.0	⩽2.0
Cladding Non-circularity(%)		⩽1.0	⩽1.0
Material Composition
customisation Information Flexible Numerical Aperture (NA): 0.14-0.3

Flexible Core-Cladding Diameter Ratio (CCDR): 1.05-2.0 Core Diameter: 50µm-1000µm
Customised Preform

Silicone or polyimide coating is available to achieve high temperature fibre

Tight buffer with diameter 500µm or 900µm is available. PVC, ETFE and Hytrel are provided for the tight buffer material

Characteristics Application

High coupling efficiency to LED and laser sources High power transmission

Good stripping performance

Low attenuation and high bandwidth
Fibre sensor and laser transmission
Data communications, local area networks and CATV

Medical apparatus

Optical devices and connectors
Core Cladding Coating

Mechanical Properties
ProofTest Level (kpsi) Spool Length (km)

100
Ge/F Doped silica Glass Pure Silica Glass
Dual-layer UV-Acrylate

100 100
Customised spool

100 100

13 YOFC 14

Specifications-I

Fibre Type		SI 40/125-22/250	SI 100/140-22/250	SI 105/125-15/250	SI 105/125-22/250	SI 110/125-20/250
Part No.		S12014-E	S12014-H	S12012-J	S12014-D	S12013-A
Optical Properties
Numerical Aperture		0.22±0.02	0.22±0.02	0.15±0.02	0.22±0.02	0.20±0.02
Atten I @850nm (dB/km)		⩽3.0	⩽3.0	⩽8.0	⩽4.0	⩽8.0
uation	@1300nm(dB/km)	⩽2.0	⩽1.2	⩽3.0	⩽2.0	⩽3.0
Geometrical Properties
Core Diameter (µm)		40.0±2.0	100.0±3.0	105.0±3.0	105.0±3.0	110.0±3.0
Cladding Diameter (µm)		125.0±2.0	140.0±3.0	125.0±2.0	125.0±2.0	125.0±2.0
Coating Diameter (µm)		250.0±10.0	250.0±10.0	250.0±10.0	250.0±10.0	250.0±10.0
Core Concentricity Error (µm)		⩽3.0	⩽3.0	⩽3.0	⩽3.0	⩽3.0
Core Non-circularity(%)		⩽3.0	⩽3.0	⩽3.0	⩽3.0	⩽3.0
Cladding Non-circularity(%)		⩽2.0	⩽2.0	⩽2.0	⩽2.0	⩽2.0
Material Composition

Step Index Multi-mode Fiber

YOFC silica-cladding multimode fibres (preforms) with step index profile are comprehensively optimised at both 850nm and 1300nm operating wavelengths. At both wavelengths, extremely low attenuation and high bandwidth could be achieved. To satisfy the demand of client to the most extent, a series of silica-cladding step index multimode fibres can be customised with different fibre designs, including core diameter, cladding diameter, fibre diameter and NA.

YOFC fibres are manufactured with the advanced Plasma Activated Chemical Vapor Deposition (PCVD) process. Due to the inherent advantages of the process, YOFC fibres have extremely precise refractive index profiles (RIPs) to provide excellent geometrical, optical, environmental and mechanical properties.

customisation Information

Flexible Numerical Aperture (NA): 0.10~0.34
Flexible Core-Cladding Diameter Ratio (CCDR): 1.05~1.4

Core Diameter: 40µm-800µm

High strength fibre
Customised Preform and Fluorine doped Substrate Tube

Silicone or polyimide coating is available to achieve high temperature fibre

Tight buffer with diameter SOOµm or 900µm is available. PVC, ETFE and Hytrel are provided for the tight buffer material

Characteristics Application
Core Cladding Coating

Mechanical Properties
ProofTest Level (kpsi) Spool Length (km)

Fibre Type	SI 200/220-22/500	SI 200/240-22/500	SI 400/440-22/730	SI 600/660-22/960	SI 800/840-22/1100E
Part No.	S12024-P	S12014-Q	S12024-G	S12024-A	S12523-B
Optical Properties
Numerical Aperture	0.22±0.02	0.22±0.02	0.22±0.02	0.22±0.02	0.22±0.02
Geometrical Properties
Core Diameter (µm)	200.0±5.0	200.0±5.0	400.0±8.0	600.0±10.0	800.0±10.0
Cladding Diameter (µm)	220.0±5.0	240.0±5.0	440.0±8.0	660.0±10.0	840.0±10.0
Coating Diameter (µm)	500.0±20.0	500.0±20.0	730.0±30.0	960.0±30.0	1100.0±50.0
Core Concentricity Error (µm)	⩽3.0	⩽3.0	⩽3.0	⩽3.0	⩽3.0
Material Composition
Specifications-2

Mechanical Properties
Core Cladding Coating

ProofTest Level (kpsi) Spool Length (km)
Pure Silica Glass or Ge/F Doped Silica Glass Pure Silica Glass or F Doped Silica Glass Dual-layer UV-Acrylate
I 100 I 100 I 100 I 100 100
Costumised spool

Pure Silica Glass or Ge/F Doped Silica Glass Pure Silica Glass or F Doped Silica Glass Dual-layer UV-Acrylate or ETFE
I 100 I 100 I 100 I 100 I 100
Costumised spool

High coupling efficiency to LED and laser sources

High power transmission

Good stripping performance
Low loss broad spectrum application, 275~2100nm

Fibre sensor and laser transmission

Data com munications , local area networks and CATV

Medical apparatus
Optical devices and connectors

15 YOFC 16

Bending Insensitive Single-mode Fiber

YOFC special B1-SMFs are optimised for enhanced macro-bending insensitivity compared to the regular SMFs. The bending insensitive single-mode fibres contain three attractive features: low intrinsic attenuation, excellent low macro-bending loss and high proof-test level.

YOFC special B1-SMFs have great advantage over suppression of bending loss in long wavelength region. It's not only supporting L-band applications but also allows for easy installation such as in small size optical device or other splicing cassettes. The fibre supports installation with small cable bending radii and compact components.

Low macro-bending loss including L-band Low micro-bending induced loss

Superior geometry

Good mechanical properties, proof test level can reach 200 kpsi

Application

Specifications

Short pitch cables for special application
High performance optical network operating in 0-(E)-S-C-L band

High speed optical routes in FTTx

Cables with extremely tight bending requirements
Small-sized optical component Optical-fibre guidance

Hydrophone

Fibre Type		Bl 6/ 125-18/250	Bl 5/125-20/250	Bl 7/125-18/250	Bl 7/80-18/170*	Bl 8/125-14/250
Part No.		B11011-A	B11012-A	B11015-A	B11015-B	B11016-A
Optical Properties
Attenuation (dB/km)	1310nm	⩽0.39	⩽0.52			⩽0.35
	1383nm					⩽0.35
	1490 nm	⩽0.26	⩽0_52
	1550 nm	⩽0.24	⩽0.33	⩽0.26	⩽0.2s	⩽0.21
	1625 nm	⩽0.25	⩽0.33	⩽0.27	⩽0.29	⩽0.23
Zero Dispersion Wavelength (nm)		⩽1420	⩽1450			1300~1324
Cable Cut-off Wavelength 11cc (nm)		⩽1260	⩽1260	1350~1500(λc)	1350~1500(λc)	⩽1260
Mode Field Diameter (µm)	1310nm	6.5±0.4	5.6± 0.4			8.2~9.0
Mode Field Diameter (µm)	1550 nm	7.4±0.5	6.5±0.5	7.5±0.4	7.0±0.4	9.1~10.1
Geometrical Properties
Cladding Diameter (µm)		124.8±1.0	124.8±1.0	124.8±1.0	80.0±1.0	124.8±1.0
Cladding Non-circularity(%)		⩽1.0	⩽1.0	⩽1.0	⩽1.0	⩽1.0
Coating Diameter (µm)		245.0±7.0	245.0±7.0	245.0±7.0	170.0±5.0	245.0±7.0
Core Concentricity Error (µm)		⩽0.6	⩽0.6	⩽0.6	⩽0.6	⩽0.6
Macro-bending Induced Loss
⦶10 mm-25turn (dB)	1550 nm			⩽0.02	⩽0.02
⦶10 mm-1turn (dB)	1550 nm					⩽0.15
⦶10 mm-1turn (dB)	1625 nm					⩽0.45
⦶15 mm-1turn (dB)	1550 nm	⩽0.05	⩽0.01			⩽0.os
⦶15 mm-1turn (dB)	1625 nm	⩽0.10	⩽0.02			⩽0.25
⦶20 mm-10turns (dB)	1550 nm	⩽0.02	⩽0.005			⩽0.03
⦶20 mm-10turns (dB)	1625 nm	⩽0.05	⩽0.005			⩽0.10
⦶30 mm-10turns (dB)	1550 nm	⩽0.01	⩽0.002
⦶30 mm-10turns (dB)	1625 nm	⩽0.02	⩽0.005
Environmental Properties -60°C~85°C 1310 nm, 1550 nm and 1625 nm
Temperature Induced Loss (dB/km)	-60°C~85°C	⩽0.05	⩽0.05	⩽o.05	⩽0.05	⩽0.05
Mechanical Properties
ProofTest Level (kpsi)	offline	150	100	200	200	150

Can offer 135µm outer diameter

17 YOFC 18

Special Cutoff Wavelength Single-mode Fiber

YOFC SW-SMFs are optimised in the core parameters and waveguide structure on the basis of ordinary single mode fibre. It takes advantage of PCVD process to realise operating wavelength of single-mode transmission under 980nm.

Characteristics Application

Single cladding step profile
Good Geometrical uniformity

Good mechanical properties
Special light source device
Pump tail fibre

Coupler
Compact optical device

Specifications

Fibre Type	SW 630_125-13/250	SW 780_125-14/250
Part No.	SW1010-A	SW1011-A
Optical Properties
MFD(µm)	4±0.4 (630nm)	4.5±0.4(780nm)
NA(typical value)	0.13	0.14
Attenuation (dB/km)	⩽3 (630nm)	⩽4.3 (780nm)
Cut-off Wavelength (nm)	570±50	720±50
Geometrical Properties
Cladding Diameter(µm)	124.8± 0.7	124.8±0.7
Cladding Non-circularity(%)	⩽1.0	⩽1.0
Core/Cladding Concentricity(µm)	⩽0.6	⩽0.6
Coating Diameter(µm)	245±7	245±7
Curl(m)	4	4
Mechanical Properties
Proof Test Level(kpsi)	100	100
Spool Length(km)	2-25	2-25
Environmental Properties
Operating Temperature(°C)	-60~+85	-60~+85
19

Photonic Single-mode Fiber Series for Component Use

YOFC Photonic single-mode fibres are specially developed for optical components. The fibre has a Ge/F codoped material system and special fibre waveguide structure by PCVD process. It is suitable for FBT coupler. For the tighter geometric characteristics and optimised-optical specifications, the fibre is good performance in pigtails use. It is compatible with G.652 fibre and has good macro-bending performance which makes it very suitable for the mini components. The fibre meets the standards of G.652/G.657 of ITU-T and so on. It suits the full range application from 1260nm to 1625nm.

Characteristics Application
Specifications

Tighter geometric and optic specifications Good splicing performance
Full compatibility with the G.652 fibre

Good anti-macrobend performance Good anti-microbend performance High reliability enhanced by 200kpsi

Standards

Bending sensitive condition / mini component Pigtails / Patch cords

Fibre Type		PH 9/125-13/250A	PH 9/125-13/250B	PH 9/125-13/250C	PH 9/125-14/250	PH 8/125-14/250
Part No.		PH1010-A	PH1010-B	PH1010-C	PH1011-A	PH1012-A
Optical Properties
Ref.Standards		G.652.D	G.652.B	G.652.B	G.657.Al	G.657.B3
Atten uation	@1310 (dB/km)	⩾0.35	⩾0.35	⩾0.35	⩾0.35	⩾0.35
	@1383(dB/km)	⩾0.35			⩾0.35	⩾0.35
	@1550 (dB/km)	⩾0.20	⩾0.20	⩾0.20	⩾0.20	⩾0.22
	@1625(dB/km)	⩾0.23	⩾0.24	⩾0.24	⩾0.23	⩾0.24
Zero Chromatic Dispersion Wavelength (nm)		1312±12	1312±12	1312±12	1312±12	1312±12
Zero Chromatic Dispersion Slopeps/ (nm²·km)		⩾0.091	⩾0.091	⩾0.091	⩾0.089	⩾0.092
Disper I @1550 nm ps/ (nm·km)		⩾is.o	⩾is.o	⩾18.0	⩾is.o
slon	@1625 nm ps/ (nm·km)	⩾22.0	⩾22.0	⩾22.0	⩾22.0
PMD(PS√km)		⩾0.1	⩾0.1	⩾0.1	⩾0.1	⩾0.1
PMDQ(PS√km)		⩾0.06	⩾0.06	⩾0.06	⩾0.06	⩾0.06
Cutoff Wavelength (nm)		⩾1280(λc)	⩾1260(λcc)	⩾1260(λcc)	⩾1260(λcc)	⩾1260(λcc)
1310 MFD(µm)		8.7~9.5	8.7~9.5	8.4~9.2	8.4~9.2	8.0~9.2
1550 MFD(µm)		9.9~10.9	9.9~10.9	9.9~10.9	9.3~10.3	9.1~10.1
Geometrical Properties
Clad Diameter (µm)		124.5±0.5	124.5±0.5	124.5±0.5	124.5±0.5	124.5±0.5
Non-circularity of Cladding(%)		⩾0.5	⩾0.5	⩾0.5	⩾0.5	⩾0.5
Core/Clad Concentricity(µm)		⩾0.5	⩾0.5	⩾0.5	⩾0.5	⩾0.5
Coating Diameter (µm)		242±5	242±5	242±5	242±5	242±5
Coating/Clad Concentricity Error (µm)		⩽8	⩽8	⩽8	⩽8	⩽8
Warpage Degree(Radius)(m)		⩾4	⩾4	⩾4	⩾4	⩾4
Macrobend Loss
⦶D32 mm/lcircle@1550nm(dB)		⩽0.03	⩽0.05
⦶50 mm/100circle@1310/1550nm(dB)		⩽0.03	⩽0.05
⦶60 mm/100circle@1625nm(dB)		⩽0.03	⩽0.05
⦶20 mm/lcircle@1550nm(dB)				⩽0.5	⩽0.5	⩽0.03
⦶20 mm/lcircle@1625nm(dB)				⩽1.5	⩽1.5	⩽0.10
⦶15 mm/lcircle@1550nm(dB)						⩽0.08
⦶15 mm/lcircle@1625nm(dB)						⩽0.25
⦶10 mm/lcircle@1550nm(dB)						⩽0.15
⦶10 mm/lcircle@1625nm(dB)						⩽0.45
Environmental Properties
Item		Condition		1310nm, 1550nm and 1625nm Additional Attenuation
Temp.Circulation		-60°C~ +85°C		⩾0.05		(dB/km)
Temp.-humidity Circulation		-10°C~ +85°C, Relative Humidity 98%		⩾0.05		(dB/km)
Water Soaking		23°C, 30Days		⩾0.05		(dB/km)
Damp and Hot		85°C, Relative Humidity 85%, 30Days		⩾0.05		(dB/km)
Dry and Hot		85°C, 30Days		⩾0.05		(dB/km)
Mechanical Properties
ProofTest				100~200		(kpsi)
				1.0~2.0		(%)
				9~18		(N)
		⩾20
Connectors

Couplers
Miniaturised integrated Erbium-doped Fibre Amplifier (EDFA) DWDM Components

YOFC photonic single-mode fibre series for component meets the ITU-TG.652&G.657 and IEC60973-2-50 or exceeding.

Coupling Single-mode Fiber

YOFC single-mode coupled fibres are particularly developed for fused taper coupler application. Fabricated with patented Plasma Chemical Vapor Deposition (PCVD) process, YOFC coupler fibre offers excellent uniformity, precise geometry and good optical performance. Special optical structure and dual acrylate coating system ensures high mechanical strength and insensitivity to bending. This fibre is also an ideal option for application in near-infrared communication devices and sensors.

Characteristics

Tight geometric control
Superior mechanical protection by dual acrylate coating system Ultra-low bending loss

Low attenuation Low insertion loss Low splice loss

, Excellent consistency and reliability

Specifications

Fibre Type			CS 1060_125-14/250	CS 1310_125-16/250	CS 980_125-16/250	CS 980_125-22/250	CS 980/80-20/165
Part No.			CS1016-A	CS1011-A	CS1015-A	CS1015-C	CS1015-D
Operation Wavelength(nm)			980/1060	1310/1550	980/1550	980/1550	980/1550
Mode-field Diameter(µm)			5.9± 0.5@980nm	6.0± 0.5@1310nm	5.0± 0.5@980nm	4.0± 0.5@980nm	4.0±0.5@980nm
Mode-field Diameter(µm)			6.2±0.5@1060nm	7.l ± 0.5@1550nm	7.5±0.5@1550nm	6.3±0.5@1550nm	6.5± 0.5@1550nm
Cutoff Wavelength(nm)			920±50	1240±50	920±50	920±50	920±50
Attenuation (dB / km)			⩽2.1@980nm	⩽0.75@1310nm	⩽2.s@980nm	⩽2.s@980nm	⩽2.5@980nm
Attenuation (dB / km)			⩽1.5@1060nm	⩽0.75@1550nm	⩽1.0@1550nm	⩽1.0@1550nm	⩽1.0@1550nm
Bending- loss	⦶20mm 0.D. (dB/turn)	980nm				⩽0.01	⩽0.01
		1310nm		⩽0.01
		1550nm		⩽0.01		⩽0.01	⩽0.01
	⦶30mm0.D. (dB/turn)	980nm			⩽0.01
	⦶30mm0.D. (dB/turn)	1550nm			⩽0.08
Numerical Aperture			0.14	0.16	0.16	0.22	0.20
Core Diameter (µm)			5.1	5.5	4.4	3.5	3.6
*Cladding Outside Diameter (µm)			125±0.5	125±0.5	125±0.5	125±0.5	80±1
Coating Outside Diameter (µm)			245±7	245±7	245±7	245±7	165±5
Core-to-Cladding Offset (µm)			⩽0.5	⩽0.5	⩽0.5	⩽0.5	⩽0.5
ProofTest Level (kpsi)			100 or 200	100 or 200	100 or 200	100 or 200	100 or 200
Operating Temperature(' ( )			-40~+85	-40~+85	-40~+85	-40~+85	-40~+85

Coupler fibres with cladding diameter of 80 µmare also available.

Application

Optical fibre couplers, splitters and combiners
Component fibre for optical fibre lasers, EDFAs and DWDM system Pump laser pigtails
Gratings
Fibre sensors and gyroscope
Low-loss fused optical devices for C/ L band application

www.yofc.com

This data-sheet can only be a reference, but not a supplement to the contract. Please contact our sales people for more detailed information
23 YOFC 24

Fibre Type	HT 9/125-14/250(150)	HT 9/125-14/155(300)
Part No.	HT1210-A	HT1510-B
Optical Properties
Mode Field Diameter@1310nm (µm)	9.2±0.4	9.2±0.4
Mode Field Diameter@1550nm (µm)	10.4±0.8	10.4±0.8
Fibre Cut-off Wavelength (nm)	1180~1330	1180~1330
Attenuation@1310nm (dB/km)	⩽0.4	⩽1.0
Attenuation@1550nm (dB/km)	⩽0.25	⩽0.8
Geometrical Properties
Cladding Diameter (µm)	125.0±1.0	12 5.0± 2.0
Coating Diameter (µm)	245.0±10.0	155.0± 5.0
Cladding Non-circularity(%)	⩽1.0	⩽1.0
Core/ Cladding Concentricity Error(µm)	⩽0.8	⩽0.8
Coating/ Cladding Concentricity Error(µm)	⩽12.0
Mechanical Properties
ProofTest (kpsi)	100	100
Operating Temperature (0 C)	-65~+150 Short term+200	-65~+300 Short term +350
Coating Type	Special polymer	polyimide

High Temperature Fiber

Data transmission, high power laser delivery and sensors require special reliability at demanding environment conditions. A special challenge is a changing temperature, extreme heat or extreme Co1d conditions for a fibre when used as fire detector, temperature sensor or for data transmission in certain special industrial applications. YOFC offers HTF for medium and high temperature environment requirements with the temperature up to 300 °c.

Excellent high temperature stability Excellent optical and geometrical properties Customised profile and sizes

Typical Products

The applications ofYOFC HTF are demanded in environments such as mining industry, aerospace, military, oil&gas industry and medical that requires a maximum protection of the fibre at very high temperatures.

Special polymer Coated High Temperature Fibre

Operation temperature: long term, -65°C to+ 150°C; intermittent, up to 200°C
Cladding diameter range from 200µm to 660µm, customised
NA and coating diameter

Coating diameter (125µm cladding fibres): 245± 10µm

Coating diameter (200~660µm cladding fibres): NA: Customised

Optimised polyimide Coated High Temperature Fibre

Operation temperature: in long term, -65°C to+ 300 °C; intermittent, up to 350°C
Cladding diameter range from 200µm to 660µm, customised
NA and coating diameter

Coating diameter (125µm cladding fibres): 155±5µm

Coating diameter (200~660µm cladding fibres): NA: Customised

Fibre Type	HTG 50/125- 20/250(150)	HTG 62.5/125- 27/250(150)	HTG 50/125- 20/155(300)	HTG 62.5/125- 27/155(300)
Part No.	HT2312-B	HT2215-A	HT2512-B	HT2515-B
Optical Properties
*Attenuation@850 nm (dB/km)	⩽3,0	⩽3,0	⩽4,0	⩽4,0
*Attenuation@1300 nm (dB/km)	⩽1.0	⩽1.0	⩽2.0	⩽2.0
Bandwidth@850 (MHz· km)	⩾150	⩾150	⩾150	⩾150
Bandwidth@1300 nm (MHz· km)	⩾300	⩾300	⩾300	⩾300
NA	0.200±0.015	0.275±0.015	0.200±0.015	0.275±0.015
Geometrical Properties
Core Diameter (µm)	50±2.5	62.5± 2.5	50±3	62.5±3
Cladding Diameter (µm)	125±2	125±2	125±2	125±2
Coating Diameter (µm)	245±10	245±10	155±5	155±5
Cladding Non-circularity(%)	⩽1	⩽1	⩽2	⩽2
Core/Cladding Offset (µm)	⩽1.5	⩽1.5	⩽1.5	⩽1.5
Coating/Cladding Offset (µm)	⩽12	⩽12
Mechanical Properties
ProofTest (kpsi)	100	100	100	100
Operating Temperature (0 C)	-65~+150 Short term +200		-65~+300 Short term+350
Coating Type	Special Polymer		Polyimide

For attenuation measurement, the fibre is wound with near zero tension onto a greater than 36cm diameter measurement spool.

Customised products are available upon customer request, such as different geometrical parameters, bandwidth, NA, higher proof test level, etc.

Radiation Resistant Single-mode Fiber

Radiation Resistant Single-mode Fibre is comprehensively optimised at the operating wavelength. At the wavelength, low dispersion, low loss and superior radiation-resistant property could be achieved. With these features, Radiation Resistant Singlemode Fibre has excellent properties of optical transmission under radiation.

YOFC fibre is manufactured through the high precision Plasma Chemical Vapor Deposition (PCVD) process which makes fibre with precise refractive index profile, material uniformity and dimension tolerance, and low attenuation. Dual-layer, UV cured Acrylate coating, which has superior ability to protect the optical fibre, is designed for tight buffering optical cable that is much more stringent. It can show excellent performance in tight buffering structure, which equips the fibre with low micro bending induced loss. This coating is easy to be stripped without residues in different environment. In order to improve the adaptability to the harsh environment, and is more superior and steady.

Characteristics Application
Specifications

Fibre Type		RD1310-G1	RD1310-G2
Part No.		RD1011-C	RD1011-D
Optical Properties
Attenuation (dB/km)	1310nm	⩽0.45	⩽0.5
Zero Dispersion Wavelength (nm)		1312±12	1312±25
Zero Dispersion Slope (ps/(nm2· km))		⩽0.091	⩽0.1
The Maximum Value of a Single Fibre (ps√km)		⩽0.1	⩽0.2
Fibre Chain Value (M=20, Q=0.01%) (ps√km)		⩽0.06	⩽0.2
Cable Cut-off Wavelength (λcc)(nm)		⩽1260	⩽1290
MFD (µm)	1310nm	8.7~9.5	7.5~9.5
Geometry Properties
Cladding Diameter (µm)		125.0±1.0	125.0±2.0
Cladding Non-Circularity(%)		⩽1.0	⩽1.0
Coating Diameter (µm)		245±7	245±10
Coating/Cladding Concentricity Error (µm)		⩽12.0	⩽12.0
Coating Non-Circularity(%)		⩽6.0	⩽6.0
Core /Cladding Concentricity Error (µm)		⩽0.6	⩽0.6
Twist Radius (m)		⩾4_0	⩾4_0
Environmental Properties
Temperature Induced Attenuation (dB/km)	-60°C~85°C	⩽0.05	⩽0.1
TCT(dB/km)	-10°C~85°C, relative humidity of 98%	⩽0.05	⩽0.1
Water Induced Attenuation (dB/km)	23°C, 30Days	⩽0.05	⩽0.1
Wet Heat (dB/km)	85°C, relative humidity of 85%, 30Days	⩽0.05	⩽0.2
Dry Heat (dB/km)	85°C, 30Days	⩽0.05	⩽0.1
Mechanical Properties
ProofTest (kpsi)	off-line	⩾100	⩾100
Strip Force (N)	average value	⩾1.0 ⩽5_0	⩾1.0⩽5_0
Strip Force (N)	peak value	⩾1.3⩽3_9	⩾1.3⩽3_9
		⩾20	⩾20
Anti-radiation Characteristics: according to standard TIA/EIA 455-64 (dB/100m)	Total dose is 50k rad, with the continuous radiation whose dose rate is 0.1rad/s(25°C), 1310nm wavelength induced attenuation	⩽0.3	N/A
	Total dose is 2000Gy, with the continuous radiation whose dose rate is 0.5Gy/s(25°C), 1310nm wavelength induced attenuation	N/A	⩽0.s
	Total dose is 200000Gy, with the continuous radiation whose dose rate is 0.5Gy/s(25°C), 1310nm wavelength induced attenuation	N/A	⩽2.5
Low dispersion and low attenuation

Low PMD

Superior mechanical protection and good stripping performance Outstanding uniformity and geometry control
Low radiation loss
YOFC Radiation Resistant Single Mode Fibre is extensively used in aerospace, atomic energy, medical, oil/gas and scientific research for its advantages of low attenuation, low radiation loss, low dispersion and low PMD.

www.yofc.com

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27 YOFC 28

Radiation Resistant Multi-mode Fiber

To meet the special application requirements of the optical fibre in the radiation environment, the multi-mode fibre with radiation resistance is developed by adjusting the optical fibre components and improving the process technology. This fibre has graded refractive index profile, which fully optimises the waveguide characteristics of 850nm & 1300nm operation wavelength, and has very low attenuation and high bandwidth. YOFC radiation resistant multi-mode series fibres have S0µm core, Besides, VOFC also can make customised tight-buffered radiation resistant multi-mode fibre.

Process Standard
Specifications

The fibre is produced by plasma activated chemical vapor deposition (PCVD) process. the radiation resistant multi-mode fibre fabricated by PCVD process has excellent radiation
resistant properties at 850nm& 1300nm based on its special glass components and manufacturing process
Due to the accurate control of deposition of PCVD process , YOFC radiation resistant multi-mode fibre has perfect waveguide refractive index profile, which guarantees the excellent geometrical, attenuation and bandwidth characteristics

Characteristics

Stable transmission property under radiation environment

High bandwidth and low attenuation @850nm & 1300nm

Good stripping and welding Properties
Suitable for various cable structures and favourable for tight / loose tubes

YOFC radiation resistant fibre complies with or exceeds ITU-T.G651 & IEC 60793-2-10 Ala fibre specification.

Fibre Type	RDG 50/125
Part No.	RD2011-A
Optical Properties
Attenuation@850/1300nm(dB/km)	2.5/1.0
Bandwidth@850/1300nm(MHz·km)	300/300
Numerical Aperture	0.2± 0.015
Geometrical Properties
Core Diameter(µm)	50 ±2.5
Cladding Diameter(µm)	125 ±1
Coating Diameter(µm)	245 ±10
Core/Cladding Concentricity(µm)
Core Non-circularity(%)
Coating/Clad Concentricity(µm)
Cladding Non-Circularity(%)
Spool Length(km)	1.1~8.8
Material Composition
Core Material	F Doped Silica Glass
Cladding Material	Pure Silica Glass
Coating Material	Dual-layer UV-Acrylate
Environmental Properties
Temperature Induced Loss(dB/km)	⩽0.2
Temperature-humidity Cycling Induced Attenuation(dB/km)	⩽0.2
Watersoak Dependence Induced Attenuation (dB/km)	⩽0.2
Damp Heat Dependence Induced Attenuation(dB/km)	⩽0.2
Dry Heat Aging (dB/km)	⩽0.2
Mechanical Properties
ProofTest Level (kpsi)	?>75
Strip Force(N)	1.2
	-:;;,1.2 ⩽3_9
Dynamic Stress Corrosion Susceptibility Parameter n,	?>24
Radiation-resistance Characteristcics: according to TIA/EIA 455-64 (dB/km)	Total dose :250kGy, dose rate: lGy/s (25'C), induced attenuation@1310nm
Application Aerospace / Aerocraft

Military Field

Atomic Energy Industry Petroleum & Offshore Exploration Medical Equipment

Basic Research

Ultraviolet Optimised Fiber

YOFC UV fibres are designed for the light source wavelength between 200nm to 670nm. Pure Silica and high OH are used in fibre core in order to enhance good and stable transmission performance.

Specifications-!

Step index profile

Pure silica core structure
Customised geometry, NA and coating materials

High OH in core

Low-loss for UV-band
Stable attenuation of long working hours

Fibre Type	UV 25/125-12/250	UV 34/125-12/250	UV 40/80-22/165	UV 40/125-22/250
Part No.	UV2011-A	UV2012-A	UV2013-B	UV2014-B
N.A	0.12	0.12	0.22	0.22
Core Diameter(µm)	25±5	34±5	40±3	40±3
Cladding Diameter(µm)	124.7± 1.0	124.7±1.0	80.0±2.0	124.7±1.0
Coating Diameter(µm)	242±5	242±5	165±5	242±5
Core/Cladding Concentricity Error(µm)	⩽0.6	⩽0.6	⩽0.6	⩽0.6
ProofTest Level(kpsi)	100	100	50	100
Length(km)	⩽3	⩽3	⩽3	⩽3
Specifications-2 100 UV fibre attenuation spectrum

UVF

Application

Fibre Type	UV50/125-22/250	UV 60/125-12/250	UV 60/125-22/250	UV 105/125-22/250	UV 200/220-22/500
Part No.	UV2015-A	UV2016-A	UV2016-B	UV2017-A	UV2022-A
N.A	0.22	0.12	0.22	0.22	0.22
Core Diameter(µm)	50± 2.5	60± 2.5	60±2.5	105±3	200±3
Cladding Diameter(µm)	124,7± 1.0	124,7±1.0	124,7±1.0	124,7± 1.0	220±5
Coating Diameter(µm)	242±5	242±5	242±5	242±5	500±25
Core/Cladding Concentricity Error(µm)	⩽0.6	⩽0.6	⩽0.6	⩽0.6	⩽1.0
ProofTest Level(kpsi)	100	100	100	100	50
Length(km)	⩽3	⩽3	⩽3	⩽3	⩽1

Laser transmission

Medical diagnosis Scientific research

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Sensors
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www.yofc.com

Th is datasheet can only be a reference, but not a supplement to the contract. Please contact our salespeople for more detailed information
0.001 - - - - - - - - - - - - - -

0.0001

200 400 600 800 1000 1200 1400 1600

Wavelength(nm)

ETFE Tight Buffered Fiber

ETFE is an engineering plastic with high performance, and it is a copolymer of ethylene and tetrafluoroethylene, with excellent general property, such as outstanding resistance to heat and flame, low temperature resistance, insulation resistance, chemical resistance, and particular less viscous performance. Therefore, ETFE tight buffered fibre also has above-mentioned performance, and can be applied to heat resistance, flame retardant and other special field.

All of YOFC ETFE tight buffered fibre have past 100kpsi proof-test, with a primary coating of UV-cured acrylate to a diameter of 250µm and a secondary ETFE buffer to 900µm.

The primary coating and secondary buffer could be mechanically removed to the 125µm glass diameter in one step, which could be used for direct termination with connectors. Also it permits mechanical stripping in short lengths (about 15mm) to remove the secondary buffer and leave the 250µm primary coating intact, which is available for splicing to similar buffered fibres from loose-tube gel-filled cables. 900 ± 50 <6%

Dimension ofTBF (Customer sizes are available through minimum order.)

Outer Diameter (µm) Core Concentricity Error Non-circularity

Flame Retardant Grade	UL94 V-0
Safety and Environment	RoHS
Tubing Shrinkage@85 °C, 4 hours	⩽0.5%
Property	Value	Unit	Test Method
Flexural Modulus	641.1	MPa	ASTM D790
Tensile Strength at 23°C	37.9	MPa	ASTM D1708
Elongation at 23°C	>300	%	ASTM D1708
Melt Point	220~255	℃	ASTM D3159
LOI	34		ASTM D2863
Material Properties

Fibre	Typical Value (dB/km)		Max Value (dB/km)
	SM	MM	SM	MM
Wavelength (nm)	1310 1550	850 1300	1310 1550	850 1300
Attenuation @23°C	0.338 0.193	2.85 0.60	0.380 0.250	3.50 1.50
Fibre Attenuation <3% 900 µm ETFE Tight Buffered Fibre Characteristics

Highest flame retardant grade of UL94 V-0

Flexibility at low temperature

Retention of properties after aging at elevated temperatures up to 150°(

Ultimate protection for fibre

Operating (°C)	Static Diameter (mm)	Storage (°C)	Dynamic Diameter (mm)	Installation (°C)
-55~+150	10 x Tight tube diameter	-40~+80	20 x Tight tube diameter	-20~+50
Environmental Properties Primary Buffer of UV-cured Acylate 100 kpsi Proof-tested Fibre Secondary Buffer to 900 µm Strippable to 250 µm . r l 5 250 900 Application

Temperature and stress monitoring Hazardous environment connectivity
Linking optical communication modules/ optical link couplers

Providing an effective resistance to water vapour, oils/ fuels, acids / alkalis, and solvents, which could adversely affect the fibre's signal transmission capabilities

Product Colour

Blue	BU	Orange	OR	Green	GN
Brown	BR	Gray	GY	White	WHT
Red	RD	Black	BK	Yellow	YW
Violet	VT	Pink	PN	Light Blue	LB

Customer Colors are available through minimum order.
•Customised: YOFC can provide different tight buffered materials, such as ETFE, LCP, TPEE, PFA, PEEK, PA.

33 YOFC 34

Dimension of Tubing

Inner Diameter (µm) Outer Diameter (µm) Core Concentricity Error Non-Circularity

500.0 ± 50.0
900.0 ± 50.0
<6%
<3%

Material Properties

Flame Retardant Grade	UL94 V-0 & RoHS
Tubing Shrinkage@8S °C, 4 hours	⩽2.0%
Material	Property	Value	Unit	Test Method
ETFE	Flexural Modulus	641.1	MPa	ASTM D790
	Tensile Strength at 23°C	37.9	MPa	ASTM D1708
	Elongation at 23°C	>300	%	ASTM D1708
	Melt Point	220-255	℃	ASTM D3159
	LOI	34		ASTM D2863

900 Micron ETFE Tight Buffered Fiber

YOFC's 900 micron ETFE tubing can be employed as buffering material and provide additional protection for use with 250µm fibre.

Made from ETFE possessing, ETFE tubing has some excellent property of the material, such as resistance to heat and flame, and high specific dielectric strength, and gives optimal protection to 250µm fibre.

Operating (°C) Static Diameter(mm) Storage (°C) Dynamic Diameter(mm) Installation (°C)

-55- + 150 10 x Tight tube diameter -40-+80 20 x Tight tube diameter -20 - + so

Blue	BU	Orange	OR	Green	GN
Brown	BR	Gray	GY	White	WHT
Red	RD	Black	BK	Yellow	YW
Violet	VT	Pink	PN	Light Blue	LB
Product Colour Application

protect bare fibre in any situation against mechanical damage during handling and installation

provide an effective resistance to water vapor, oils/ fuels, acids / alkalis, and solvents, which could adversely affect the fibre's signal transmission capabilities.

Excellent wear properties in many applications, and in cases of high voltage, radiant, medical equipments

Can be easily installed over fibre up to more than 5 meters

Customer Colours are available through minimum order.

Remark: YOFC can provide different diameter ETFE tight buffered fibre of various fibre, according to the requirement of client.

Characteristics

900µm

<--------- S00µm -------+

Highest flame retardant grade of UL94 V-0 Flexibility at low temperature
Retention of properties after aging at elevated temperatures up to 150°C

Double-clad Ytterbium Doped Fiber

YOFC double-clad ytterbium doped fibre (YDF) is one kind of active fibre applied for 1 micrometer fibre optical amplifier and fibre laser. Laser made by fibre cavity is extensively used in areas as military, material processing and scientific research. Fibre laser is widely used for its advantages of lightness, efficiency and stability, which are competitively alternative to solid state laser.

Characteristics

Precise geometry
High Ytterbium doped concentration Low NA core, LMA designed

High laser slope efficiency

Low photo-darkening

Stable storage and operate in extreme atmosphere

Application

CW/ Pulse fibre laser and amplifier Military, Industry, Medical Material processing

Fibre laser source

Specifications

Fibre Type	YDF_DC 10/125	YDF_DC 20/125	YDF_DC 20/400	YDF_DC 25/250	YDF_DC 30/250	YDF_DC 30/400
Part No.	Y01110-A	Y01110-B	Y01110-C	Y01110-D	Y01110-E	Y01110-F
Geometrical Properties
Core Diameter (µm)	10.5±1.0	19.5±1.5	20.0±2.0	25.0±2.5	30.0±3.0	30.0±3.0
Cladding Diameter (flat-to-flat) (µm)	125±3.0	125±3.0	400.0±15.0	250.0±10.0	250.0±10.0	400.0±10.0
Coating Diameter (µm)	245.0±15.0	245.0±15.0	550.0±20.0	400.0±20.0	400.0±20.0	550.0±20.0
Inner Clad Shape	Octagon
Optical Properties
Operating Wavelength (Yb'' ) (nm)	1030~1115	1030~1115	1030~1115	1030~1115	1030~1115	1030~1115
Background Attenuation @1200nm (dB/km)	<30	<30	<30	<30	<30	<30
Cladding Pump Absorption @915nm (dB/m)	1.6± 0.3	3.6±0.3	0.4±0.05	1.6± 0.2	2.0±0.2	0.6±0.1
Core NA	0.08± 0.01	0.08±0.01	0.06± 0.01	0.06±0.01	0.06±0.01	0.06±0.01
Inner Cladding NA	⩾0.46	⩾0.46	⩾0.46	⩾0.46	⩾0.46	⩾0.46
ProofTest (kpsi)	100	100	100	100	100	100
Coating Material	Low Index polymer

Double/Single-clad Passive Fiber

YOFC double/single-clad passive fibre is optimised precisely to match the DC-YDF series, with low splice performance. The fibre is widely used in industrial, medical, military and other fields.

Refractive Index

130µm

245µm

Diameter

Application Characteristics

Pulse / CW fibre laser / amplifier
Materials processing Pigtail
Fibre combiner

FBG
Precise geometry

Low splice loss

Low NA core to maintain excellent beam quality

Double/Single-clad Passive Fibre

Fibre Type	GDF_SC 10/130	GDF_DC 10/130	GDF_DC 20/130	GDF_DC 25/250	GDF_DC 30/250	GDF_DC 20/400	GDF_DC 20/400(L)
Part No.	SG1010-A	DG1110-A	DG1110-B	DG1110-D	DG1110-E	DG1110-C	DG1110-M
Optical Properties
Operating Wavelength(nm)	1060-1600	1060-1600	1060-1600	1060-1600	1060-1600	1060-1600	1060-1600
Core NA	0.08±0.01	0.08±0.01	0.08±0.01	0.065±0.005	0.065±0.005	0.065±0.005	0.12±0.01
Inner Cladding NA		⩾0.45	⩾0.45	⩾0.45	⩾0.45	⩾0.45	⩾0.45
Core Attenuation@1300 nm (dB/km)	⩾40.0	⩾40.0	⩾40.0	⩾45_0	⩾45_0	⩾12.0	⩾20.0
Core Attenuation@1200 nm(dB/km)	⩾20.0	⩾20.0	⩾20.0	⩾30.0	⩾30.0	⩾8.o	⩾15.0
Clad Attenuation@1095nm(dB/km)		⩾15.0	⩾15.0	⩾15.0	⩾15.o	⩾15.0	⩾20.0
Geometrical Properties
Cladding Diameter (µm)	130.0±2.0	130.0±2.0	130.0±2.0	247.0±3.0	247.0±3.0	395.0±5.0	400.0±5.0
Core Diameter (µm)	10.0±1.0	11.0±1.0	20.0±1.0	25.0±1.5	30.0±2.0	20.0±1.5	20.0±1.5
Coating Diameter (µm)	245.0±10.0	245.0±10.0	245.0±10.0	395.0±15.0	395.0±15.0	550.0±15.0	550.0±15.0
Core/Clad Concentricity Error (µm)	⩾0.1	⩾0.1	⩾0.1	⩾2.0	⩾2.0	⩾2.0	⩾2.0
Cladding Non-circularity(%)	⩾0.5	⩾0.s	⩾0.5	⩾0.5	⩾0.5	⩾0.5	⩾0.5
ProofTest (kpsi)	⩾100	⩾100	⩾100	⩾100	⩾100	⩾100	⩾100
39 Erbium Doped Fibre (EDF) 2.0% 1.5% if 1.0% c Absorption Reproducibility

Erbium Doped Fiber

YOFC offers full series of Erbium doped fibres, which could meet the most stringent amplifier requirements both for C-Band and L-Band. Through 1480nm or 980nm pump technology, YOFC erbium doped fibre can realize 35nm amplification bandwidth, and maintain flatness gain to get ideal power conversion efficiency. YOFC e rbium doped fibres are specially designed for high pe rformance, low noise req uirements amplifier, for example: optical preamplifier, booster and in-line amplifier in the WDM communication system. YOFC E rbium doped fibre has been optimized through co-doping with Erbium and Aluminum technology to ensure the high quality performance.

Fibre Type	EDF3/6/125-23	EDF7/6/125-23	EDF13/6/125-23	EDF22/6/125-23	EDF36/6/125-23
Part No.	ED1011-A	ED1012-A	ED1013-A	ED1015-A	ED1016-A
Absorption Peak Coefficient at 1532 nm (Max. [1530 - 1534 nm])
Specified Value	2~4dB/m	4~9dB/m	10~15 dB/m	19~25dB/m	32~40dB/m
Typical	3dB/m	7dB/m	13 dB/m	22 dB/m	36 dB/m
Application	C Band	C Band	C&L Band	C&L Band	C&L Band
0.0% · Characteristics ·g_ -0.5% « .0 -1.0% -1.5% -2.0% 1528 1533 1538 1543 1548 1553 1558 1563 Wavelength (nm) Specifications Excellent spectral uniformity

High power conversion efficiency and low noise design Industry leading fibre geometry
Low PMD
DLPC9 dual-layer coating to ensure excellent mechanical properties

Fibre Type	EDF3/6/125-23	EDF7/6/125-23	EDFB/6/125-23	EDF22/6/125-23	EDF36/6/125-23
Part No.	ED1011-A	ED1012-A	ED1013-A	ED1015-A	ED1016-A
Optical Properties
*Absorption Peak 1532nm (Max.[1530~1534 nm]) Specified Value (dB/m)	2~4	4~9	10~15	19~25	32-40
*Absorption Peak 1532nm (Max.[1530~1534 nm]) Typical (dB/m)	3	7	13	22	36
Absorption Reproducibility(%) (250m)	⩽2.5	⩽2.5	⩽2.5	⩽2.5	⩽2.5
Background Att enuation(Min.[1100~1300 nm]) (dB/km)	⩽10	⩽10	⩽10	⩽10	⩽10
Background Att enuation(Min.[1100~1300 nm]) Typical (dB/km)	⩽6	⩽6	⩽6	⩽6	⩽6
Macro-bend Induced Attenuation (100 m, 15 mm diameter,11< 1620 nm) (dB)	⩽0.1	⩽0.1	⩽0.1	⩽0.1	⩽0.1
*Cutoff Wavelength (nm)	⩽1300	⩽1300	⩽1300	⩽1300	⩽1300
*MFD 1550 nm (µm)	5.4 ± 0.7	5.4 ± 0.7	5.4 ± 0.7	5.4 ± 0.7	5.4 ± 0.7
NA	0.23 ± 0.02	0.23 ± 0.02	0.23 ± 0.02	0.23 ± 0.02	0.23 ± 0.02
Splicing Loss (with G.652 at 1300 & 1700 nm) (dB)	⩽0.2	⩽0.2	⩽0.2	⩽0.2	⩽0.2
PMD (100 m) (ps)	⩽0.25	⩽0.25	⩽0.25	⩽0.25	⩽0.25
Geometrical Properties
Cladding Diameter (µm)	125.0±1.0	125.0±1.0	125.0±1.0	125.0±1.0	125.0±1.0
Coating Diameter (µm)	250.0±7.0	250.0±7.0	250.0±7.0	250.0±7.0	250.0±7.0
Core/Cladding Concentricity (µm)	⩽0.6	⩽0.6	⩽0.6	⩽0.6	⩽0.6
Cladding/Coating Concentricity (µm)	⩽12.5	⩽12.5	⩽12.5	⩽12.5	⩽12.5
Mechanical Properties
ProofTest (kpsi)	100	100	100	100	100
Delivery Length(± 5 m)(m)	250,500,1000	250,500,1000	250,500,1000	250,500,1000	250,500,1000
Environmental Properties
Storage Temperature (DC)	-40~+75	-40~+75	-40~+75	-40~+75	-40~+75
Operating Temperature Range (DC)	-5~+75	-5~+75	-5~+75	-5~+75	-5~+75
Storage Humidity (Non Condensing)(%)	5~95	5~95	5~95	5~95	5~95
Operating Humidity (Non Condensing)(%)	5~95	5~95	5~95	5~95	5~95

Good performance of anti-hydrogen loss

Lower splice loss

Application

100%

80%

if 60%
c

0-e
0
ea. 40%
(l_
Excellent Splicing Performance

More than 300 times splicing
For the Telecommunication Industry

DWDM amplifiers CATV amplifiers
980nm or 1480nm pumps

Terrestrial and Submarine telecommunications Defence / Military / Aerospace

Other values available on request

Cutoff wavelength below 980 nm on request

Larger MFD about ED1012-A on request

20%

0%
0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18 0.2

Splice loss (dB)

41 YOFC 4 2
lso Gain™ Series EDF
Technical Parameters

Fibre Type	1-4(980/125)	l-4(980/125)HC	l-4(980/125)HP	1-6(980/125)
Part No.	ED1018-A	ED1018-B	ED1018-C	ED1018-D
Cut-off Wavelength (nm)	870~970	1000~1320	1100~1320	870~970
NA	0.22~0.24	0.22~0.24	0.19~0.22	0.22~0.24
MFD@1550nm(µm)	5.4~6.6	5.2~5.8	5.7~6.6	5.5~6.3
Absorption Peak@1531nm Specified Value(dB/m)	5.0~6.7	7.7~9.4	7.7~9.4	7.2~8.4
ProofTest (kpsi)	100	100	100	100
Attenuation@1200nm (dB/km)	⩾10	⩾10	⩾10	⩾10
Ploarisation Mode Dispersion(ps/m)	⩾0.005	⩾0.005	⩾0.005	⩾0.005
Cladding Diameter (µm)	125±1	125±1	125±1	125±1
Core Concentricity (µm)	⩾0.3	⩾0.3	⩾0.3	⩾0.3
Coating Diameter (µm)	245±15	245±15	245±15	245±15
Coating Type	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate
Operating Temperature (0 C)	-55~+85	-55~+85	-55~+85	-55~+85

Iso Gain Series EDF

Fibrecore company lsoGain™ series EDF includes different gain performance and cutoff wavelengths in response to different types of optical fibre amplifiers(EDFA). Fibrecore supplies low absorption coefficient fibre for C band amplifier and high absorption coefficient fibre for L band amplifier.

High cutoff wavelength(HC)fibre has large core diameter, which helps to reduce the nonlinear effect and improve the efficiency of the pump with higher power.

Fibrecore company lsoGain™ series EDF's core part is carefully designed and has a substantially flat wavelength gain curve, which can be matched with other leading Erbium-doped fibres.

Supported by Fibrecore's GainMaster™ simulation software.

Advantages
L Band & C Band EDF High efficiency core component optimised high cutoff wavelength used for high efficiency pump EDFA

Relative Products
L Band amplifiers Small / Micro C Band EDFA High absorption fibre

Fibre Type	1-12(980/125)	l-12(980/125)HC	l-15(980/125)HC	1-25(980/125)
Part No.	ED1019-A	ED1019-B	ED1019-C	ED1019-D
Cut-off Wavelength (nm)	900~970	1200~1320	1200~1320	900~970
NA	0.21~0.23	0.23~0.26	0.23~0.26	0.23~0.26
MFD@1550nm(µm)	5.7~6.6	5.0~5.5	4.8~5.4	5.2~6.3
Absorption Peak@1531nm Specified Value(dB/m)	14~21	17~21	27~33	35~45
ProofTest (kpsi)	100	100	100	100
Attenuation@1200nm (dB/km)	⩾10	⩾10	⩾10	⩾10
Ploarisation Mode Dispersion(ps/m)	⩾0.005	⩾0.005	⩾0.005	⩾0.005
Cladding Diameter (µm)	125±1	125±1	125±1	125±1
Core Concentricity (µm)	⩾0.3	⩾0.3	⩾0.3	⩾0.3
Coating Diameter (µm)	245±15	245±15	245±15	245±15
Coating Type	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate	Dual-layer UV-Acrylate
Operating Temperature (°C)	-55~+85	-55~+85	-55~+85	-55~+85

Provide a wide range of absorption values for EDFA design optimisation

1-4(980/125) used for high efficiency C band EDFA

1-4(980/125)HC used for high efficiency, high power C band EDFA
1-4(980/125)HP used for high efficiency, high power C band EDFA
1-6(980/125) used for high efficiency C band EDFA high absorption EDF
1-12 (980/125) used for short segment C/ L band EDFA with medium absorption fibre

Other Relative Products

MetroGain™ series EDF
Double-cladding Er-doped / Yb-doped Fibre (CP1500Y) GainMaster ™ simulation tool

1-12(980/125)HC used for higher power, short segment C/ L band EDFA with high cutoff wavelength medium absorption fibre

1-15(980/125)HC used for higher power, short segment C/ L band EDFA with high cutoff wavelength / high absorption fibre

1-25(980/125) used for short segment L band EDFA high absorption fibre

1-25H(l 480/ 80) used for small / micro EDFA with a small diameter and 80µm cladding, high cutoff wavelength, high absorption fibre

Fibre Type	l-25H(1480/80)
Part No.	ED1020-A
Cut-off Wavelength (nm)	900~1025
NA	⩾0 ,30
MFD@1550nm(µm)	3.8~4.7
Absorption Peak@1531nm Specified Value(dB/m)	23~27
ProofTest (kpsi)	100
Attenuation@1200nm (dB/km)	⩽30
polarisation Mode Dispersion(ps/m)	⩽0.005
Cladding Diameter (µm)	80±1
Core Concentricity (µm)	⩽0.s
Coating Diameter (µm)	160±10
Coating Type	Dual-layer UV-Acrylate
Operating Temperature (°C)	-55~+85

Small Diameter EDF for Small/Micro EDFA

Distributed Temperature System-multimode Fibre

The distributed temperature system-multimode fibre (DTS-MMF), adopts advanced plasma chemical vapor deposition (PCVD) process which can insure precise waveguide design and smooth graded index profile. Because of the above process advantages and optimised preform parameter, the fibre has excellent optical and geometric properties at long wavelength (1300nm, 1550nm). Additionally, the fibre can resist high temperature by using speical coating material.

Fibre Type		G162.5/125-27 /250DTS	GIS0/125-20/250DTS
Part No.		G12015-B	G12012-B
Optical Properties
Numerical Aperture (NA)		0.275±0.02	0.195±0.02
Loss	@1300 (dB/km)	⩽0.6	⩽0.5
	@1450 nm (dB/km)	⩽0.5	⩽0.45
	@1550 nm (dB/km)	⩽0.4	⩽0.28
	@1650 nm (dB/km)	⩽0.5	⩽0.45
Splicing Loss (dB)		⩽0.1	⩽0.1
Bandwidth I	@1300 nm (MHz· km)	⩾200	⩾200
	@1550 nm (MHz· km)	⩾1000	⩾1000
Geometrical Properties
Fibre Core Radium (µm)		62.5±1.5	50±1.5
Cladding Diameter(µm)		125±0.7	125±0.7
Fibre Diameter (µm)		245±7	245±7
Concentricity of Core Cladding (µm)		⩽1.5	⩽1.5
Non-circularity of Core(%)		⩽5.0	⩽5.0
Non-circularity of Cladding(%)		⩽0.6	⩽0.6
Macro Bending Attached Attenuation
Macrobend Loss (dB)
Two Circles Radius: 15mm		1300nm	⩽0.2	⩽0.3
		1550 nm	⩽0.2	⩽0.3
Two Circles Radius: 7.5mm		1300nm	⩽0.3	⩽0.5
		1550 nm	⩽0.3	⩽0.5
Mechanical Properties
ProofTest Level (kpsi)		⩾100	⩾100
Environmental Properties
Operating Temperature Range (0 C)		-40~+85/-40~+150 (Optional)	-40~+85/-40~+150 (Optional)

Characteristics Application

Temperature Measurement Distance(m) Temperature Resolution<2°C@27km

Specifications

xl 04

Temperature Measurement Distance(m) Spatial Resolution ae5m@27km

xl 04

, Low attenuation at DTS operating wavelength 1450nm, 1550nm and 1650 nm

, High bandwidth at C-band (especially at 1550nm) High temperature resistance

Low splicing loss

, Excellent bending insensitivity

, Distributed Temperature System

0.7

Commonly used MMF

- YOFC DTS MMF
Compared with communication multimode fibre, the advantages of DTS-MMF are as follows:

Low attenuation at DTS operating wavelength

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the spatial resolution of the long-distance distributed temperature measurement system.

Wavelength(nm)

Multi Core Fiber

Multi Core fibre(MCF) is a new kind fibre with several separate fibre cores co-existed in the same cladding. YOFC MCF can achieve low inter-crosstalk in long SDM optical transmission by adopting the sever-core structure and F-doped cladding, which has a typical promising future in optical transmission field. Based on the concept of space division multiplexing (SDM), multi-core fibre can realise transmitting several light signals through different channels and is expected as a breakthrough technology against capacity crunch of optical transmission system over a single-mode fibre.

With the development of SDM (Space Division Multiplexing) and multi-core fibre sensor technology, multi-core fibre would be a vital branch of fibre development. The level of crosstalk and fibre coating of MCF can also be customisation to fulfil your use in transmission, sensor, industry, medical equipment fields and so on.

Characteristics

Application

Single fibre with spatial superchannels

Ultra-low cross talk between cores

Excellent fibre geometric consistency Low and consistent attenuation char
Extremely large capacity transmission system

Large-Capacity Multi-Task Access

Distributed fibre sensors Medical Equipments
Encapsulated in box

Low and consistent insertion loss
Ultra low crosstalk

FC/ PC, FC/APC or bare fibre

Specifications Specifications

Fibre Type	MCF-7-42/150/250
Type Description	Low Crosstalk Seven Core MCF
Optical Properties	Value	Typical
Cross Talk (Adjacent Core) (dB / km)	<-45	-50
Att enuation@ 1310nm (dB/ km)	<0.45	0.4
Att enuation @ 1550nm (dB/ km)	<0.30	0.25
Zero Dispersion Wavelength (nm)	1290~1320	1308
Dispersion@ 1550nm (ps/nm · km)	17±1.0	17.1
PMD ps/sqrt (km)	<2	<1.5
Cable Cut off Wavelength 11cc (nm)	<1300	1250
Mode Field Diameter @13 10nm (µm)	8.5±0.5	8.4
Mode Field Diameter@1550nm (µm)	9.5±0.5	9.5
Geometrical Properties
Core Diameter (µm)	8.0± 0.5	7.9
Core-to-core (adjacent) Distance (µm)	41.5±1.5
Coating Description
Coating Type	UV-Acylate	High temperature coating is available
Operating Temperature Rang e("C)	-40~+70
Mechanical Properties
Short Term Bend Radius(mm)	⩾7.5
Long Term Bend Radius (mm)	⩾15
ProofTest Level (kpsi)	⩾50

Multi-core fibre fan-in and fan-out module

Multi-core fibre fan-in and fan-out module is a module to realise the high coupling efficiency between the multi-core fibre and several single-mode fibre, to realise the channel space division multiplexing and demultiplexing function in the application. The optical fibre coupling technology is used to realise the optical power coupling between multi-core fibre and a few single mode fibre with low insertion loss, low core crosstalk and high return loss. YOFC multi core fibre fan-in and fan-out module adopts seven channel structure, with the corresponding parameters of seven core optical fibre communication and sensor can be used to build a complete system. It has the broad application prospect.

Characteristics Application Characteristics

Single fibre with spatial superchannels

Module Type	FAN-7-42
Type Description	7-cores fibre fan-in & fan-out module
Optical Properties	Value	Typical
Average Insertion Loss (dB)	<1.5	1.0
Max.Insertion Loss (dB)	<2.0	1.5
Return Loss (dB)	>45	50
Crosstalk Index-Adjacent Core (dB)	<-50	-55
Geometrical Properties
Multi-core Pigtail Length (m)	>1.0	1.5
Single-mode Pigtail Length (Bare Fibre) (m)	>1.0	2.0
Single-mode Pigtail Length (Patch-cord) (m)	>0.5	1.0
Encapsulation Box Description
Encapsulation Material	ABS Plastic
Box Size (mm)	100 X80 X 10
Operating Temperature("C)	-40~+70

Few-mode Fiber

YOFC FMFs take advantages of PCVD process which is able to manufacture complex index-profile accurately and optical waveguide structure flexibility to get various types of core layer structure, such like Step-Index, Graded-Index etc.

		Typical value	range	Unit
Core Diameter			14± 0.5	µm
Core Refractive lndex@1550nm			1.4485	—
Cladding Diameter			125±0.7	µm
Cladding Non-circularity			<0.7	%
Coating Diameter			245±5	µm
Dispersion@1550nm	LP01	21	<22	ps/(nm·km)
Dispersion@1550nm	LP11	19.5	<21	ps/(nm·km)
Dispersion Slope@1550nm	LP01	0.08	<0.l	ps/(nm²•km)
Dispersion Slope@1550nm	LP11	0.07	<0.l	ps/(nm²·km)
Effective Area@1550n	LP01	130	>100	µm²
Effective Area@1550n	LP11	220	>200	µm²
Attenuation Coefficient@1550nm	LP01	0.19	<0.21	dB/km
Attenuation Coefficient@1550nm	LP11	0.19	<0.21	dB/km
Differential Group Delay	LP11-LP01	1.9	<2.1	ps/m
		Two Mode Fibre (Step-Index)

		Typical Value	Scope of value	Unit
Diameter			19±1	µm
Core Refractive lndex@15S0nm			1.4499
Cladding Diameter			12S±0.7	µm
Cladding Non-circularity			<0.7	%
Coating Diameter			245±5	µm
Dispersion@1550nm	LP01	22	<23	ps/(nm·km)
	LP11	23	<24	ps/(nm·km)
	LP21	21	<22	ps/(nm·km)
	LP02	11	<12	ps/(nm·km)
Dispersion Slope@1550nm	LP01	0.09	<0.10	ps/(nm·km)
	LP11	0.09	<0.10	ps/(nm·km)
	LP21	0.07	<0.09	ps/(nm²·km)
	LP02	0.01	<0.02	ps/(nm²·km)
Effective Area@1550nm	LP01	190	>170	µm²
	LP11	270	>240	µm²
	LP21	310	>290	µm²
	LP02	200	>180	µm²
Attenuation Coefficient@1550nm	LP01	0.20	<0.21	dB/km
	LP11	0.20	<0.21	dB/km
	LP21	0.20	<0.21	dB/km
	LP02	0.20	<0.21	dB/km
Differential Group Delay	LP11-LP01	-1.2	<3	ps/m
	LP2-LP01	1.3	<3	ps/m
	LP02-LP01	0.2	<3	ps/m
		Characteristics Application Four Mode Fibre (Step-Index) . Strictly controlled optical and geometrical Mode division multiplexing(MDM) . parameters Communication Customised waveguide is available Sensing Test Specifications

Geometrical Parameter	Specifications
Cladding Diameter(µm)	124.5± 1.0
Cladding Non-circularity(%)	⩽0.7
Core/Clad Concentricity Error(µm)	⩽1.0
Coating Diameter(µm)	242±10
Coat/Clad Concentricity Error(µm)	⩽12
Curl(radius)(m)	⩾4
Delivery Length(km/reel)	2~25
Mechanical Properties
ProofTest Level (kpsi)	⩾100
	⩾1.0
	⩾9
ȵ	⩾20
Customised FMFs are available.

Coreless Fiber

YOFC coreless fibre, which is coreless, only includes a solid silica cladding surrounded by a transparent coating material, acrylate. Coreless fibres with cJ>125µm or cJ>250µm silica cladding are our standard products. Besides, customised fibres with special requirements are available.

Characteristics Application

High geometrical precision

Using F300 glass material as cladding material
Attributed to adopting the commonly used UV curing dual layer acrylate as coating material, the coating is easy to be stripped off

Excellent mechanical properties

Spliced with unused branches of fibre components to minimise back reflections

Used as fibre end caps to prevent laser-induced fibre damage

Specifications

Fibre Type	CL 0-125-0-250	CL 0-250-0-500
Part No.	CL 1010-A	CL 1010-B
Cladding Diameter(µm)	125±1	250±5
Reflection Index @1550nm	1.444	1.444
Coating Diameter(µm)	245±10	500±15
ProofTest Level (kpsi)	100	100

High Nonlinear Optical Fiber

The nonlinear effect of optical fibre, such as stimulated Raman scattering (SRS), stimulated Brillouin scattering and optical Kerr effect, has many applications in the field of communications and optical signal processing. In the Kerr effect, refractive index of optical dielectric materials changes with luminous power, which will lead to a series of secondary effects, such as the self-phase modulation(SPM), cross phase modulation(XPM), four wave mixing(FWM), and the unsteady modulation. Optical Kerr effect can be used in optical parametric amplification, frequency conversion, phase coupling, pulse compression and generation, optical soliton transmission, etc.

The design of the high nonlinear optical fibre on several aspects need to be taken into account. Firstly, optical fibre should have high nonlinear coefficient to obtain effective nonlinear interaction. Secondly, optical fibre must have a lower loss in order to increase the effective length.

Moreover, the dispersion of optical fibre should match various applications. Finally, the nonlinear optical fibre must have low polarisation mode dispersion. For silica-based high nonlinear optical fibre, the design of the refractive index profile plays an important role to meet the above requirement. Small core effective area, low dispersion slope and cutoff wavelength which is much smaller than the working wavelength must be implemented at the same time in the design of high nonlinear optical fibre.

YOFC HNLFs not only have high nonlinear coefficient and very low dispersion slope at the same time. YOFC uses W type to design profile which is flexible, and the cladding in low refractive index is introduced around the core step refractive index.

Characteristics

Specifications
1500 1510 1520 1530 1540 1550 1560 1570 1580 1590 1600

Wavelength(nm)

a

Lil
High nonlinear coefficient

Zero-dispersion wavelength is adjustable in the s, c, I wavelength

Low loss and low dispersion slope

Easy to be spliced to single-mode fibre with low additional loss

Fibre Type	NL 1550-POS	NL 1550-Zero	NL 1550-NEG
Part No.	N11016-A	N11016-B	N11016-C
Optical Properties
Operating Window	C wavelength	C wavelength	C wavelength
Dispersion Slope@1550nm (ps/nm ' ·km)	<0.035	<0.030	<0.030
Dispersion@1550nm (ps/nm · km)	>1	0.0±1	<-1
Nonlinear Coefficient@1550nm (W-1 km-1 )	⩾10	⩾10	⩾10
Attenuation Coefficient@1550nm (dB/km)	⩽1.5	⩽1.5	⩽1.5
Cut-offWavelength(nm)	<1480	<1480	<1480
Numerical Aperture(typical value)	0.35	0.35	0.35
Geometry Properties
Cladding Diameter (µm)	125±7	125±7	125±7
Cladding Non-circularity(%)	⩽1	⩽1	⩽1
Core/Cladding Concentricity (µm)	⩽0.5	⩽0.5	⩽0.5
Coating Diameter (µm)	245±10	245±10	245±10
•Optical fibre welding is available. 112 www.yofc.com Th is datasheet can only be a reference, but not a supplement to the contract. Please contact our salespeople for more detailed information b The refractive index profile sketch

55 YOFC 56

Photonic Crystal Fiber

Photonic Crystal Fibre, also known as microstructure fibre or holey fibre, normally consists of a regular pattern of air holes or doped materials inside pure silica background along the transverse direction. According to the mechanism of light guided in fibre, PCF is classified as TIR and PBG. Stacking and drawing technique are used for the preparation of our PCFs to realise special characteristics such as endless single mode, extremely large mode area, wave-guide in hollow core, high nonlinear effects and birefringence etc.

YOFC has developed a series of PCFs for all kinds of applications based on our synthetic material, PCVD process, stacking drawing technique and theoretical simulation.

Specifications

Main Classes	Subclasses	Attributes Fibre Structure	Application Examples
Total internal reflection (TIR)	Endlessly single-mode fibre	Pure silica core; Attenuation can be as low as 1 dB/km	Wide single-mode transmission Energy delivery
	High Nonlinearity Fibre	950-1100nm ZDW	Supercontinuum generation by lµm pulse laser or CW laser
	High Nonlinearity Fibre	700-900nm ZDW	Supercontinuum generation by 0.8µm fs pulse laser Nonlinearity optics Nonlinearity fibre laser
	Multi-core fibre	Dual core	Senor, Direction[ coupling components
	PM fibre	Excellent radiation resistance, temperature insensitive, low macro-bending induced attenuation	Gyro; interferometer
Photonic bandgap (PBG)	All-solid photonic Bandgap fibre	Tailored bandgap spectrum	Filtering Special rare earth doped fibre Special dispersion and operating wavelength fibre
Characteristics

YOFC PCF has following characteristics

Low loss
Long delivery length

Fine microstructure, excellent characteristics performance of specific fibre type

Single material composition, namely high purity SiO2 (except all solid photonic band gap fibre)

Application Standard Products

Super-continuum sources

Optical fibre laser and amplifier

High power transmission Optical fibre grating and sensors All optical signal processing
Endless single-mode PCF

polarisation maintaining PCF

High nonlinearity PCF All solid PBG
Dual core fibre

Spun Fiber

YOFC's spun fibre is manufactured by spinning a polarisation maintaining preform during the fibre drawing process, featuring high mechanical reliability and geometric consistency. The preform is deposited through Plasma Chemical Vapor Deposition (PCVD) process, which enables a precise refractive index profiles and dimensional tolerances of the fibre. Excellent environmental immunity and circular polarisation-maintenance performance are obtained by design to meet the requirement of applications, such as fibre optic current transformer (FOCT).

With dual-layer, UV-cured Acrylate coating, YOFC spun fibre has high environmental stability performance over the temperature range of -45°C to +85°C (-49°F to +185°F ).

Characteristics Application

Specifications

Excellent and stable optical performance

Optimised for current sensing
High environmental stability and reliability Low attenuation
Fibre optic current transformer

Fibre Type	SH 1310_125-5/250
Part No.	SH 1016-A
Optical Properties
Operating Wavelength (nm)	1310
Cut-off Wavelength (nm)	1020-1260
Mode Field Diameter (µm)	7±1.0@1310nm
Attenuation (dB/km)	⩽2.0@1310nm
Beat Length (mm)	9~14@1310nm
Geometrical Properties
Spin Pitch (mm)	5 ±0.2
Cladding Diameter (µm)	125.0 ± 1.0
Coating Diameter (µm)	245±7
Cladding Non-circularity (%)	⩽1.0
Core-Cladding Concentricity (µm)	⩽1.0
Coating Type	Dual-layer/UV-Acrylate
Mechanical properties
Operating Temperature (℃)	-45~+85
ProofTest (kpsi)	50 or 100

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About YOFC

Yangtze Optical Fibre and Cable Joint Stock Limited Company (YOFC) produce different types and standards of optical preform, optical fibre and optical cable for telecommunication and customised specialty fibre applications. Over the last 30 years, YOFC has built a portfolio of innovative intellectual properties and technical breakthroughs, ascending to a world-leading position in today's specialty fibre market.

Founded: Wuhan, Hubei Province, China (1988)
Website: Official Website

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Contents

Dispersion Compensating Fibre

Characteristics

Application

Products

Standard Products

Products Available

Specifications

Polarisation Maintaining Fibre Series

Hard Polymer Cladding Optical Fibre

Graded Index Multi-mode Fiber

Step Index Multi-mode Fiber

Bending Insensitive Single-mode Fiber

Special Cutoff Wavelength Single-mode Fiber

Photonic Single-mode Fiber Series for Component Use

Coupling Single-mode Fiber

High Temperature Fiber

Radiation Resistant Single-mode Fiber

Radiation Resistant Multi-mode Fiber

Ultraviolet Optimised Fiber

ETFE Tight Buffered Fiber

900 Micron ETFE Tight Buffered Fiber

Double-clad Ytterbium Doped Fiber

Double/Single-clad Passive Fiber

Erbium Doped Fiber

Iso Gain Series EDF

Distributed Temperature System-multimode Fibre

Multi Core Fiber

Multi-core fibre fan-in and fan-out module

Few-mode Fiber

Coreless Fiber

High Nonlinear Optical Fiber

Photonic Crystal Fiber

Spun Fiber

About YOFC

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