Plastic Optical Splitters Datasheet by Industrial Fiber Optics

Piastic_
IndustrIal FIber OptIcs, Inc. www.i-fiberoptics.com
Plastic Plastic Fiber Couplers (Splitters)
Description
Fiber couplers, or splitters, are special fiber optic devices with one or more input
fibers for distributing optical signals into two or more output fibers. The optical
light is passively split into multiple output signals (fibers), each containing light
with properties identical to the original except for reduced amplitude. Because
the splitter is a passive device it is immune to EMI, consumes no electrical
power and does not add noise to system design. The splitter’s passive design is
bi-directional and operationally independent of wavelength, constrained only by
the physical properties of the PMMA fiber core.
Fiber couplers have input and output configurations defined as M×N. M is the
number of input ports and is one or greater. N is the number of output ports and
is always equal to or greater than M. When there are multiple inputs, output
signals are always a combination of the input signals – a coupler can also be
considered a combiner.
Fiber optic couplers or splitters are available in a wide range of styles and sizes
to split or combine light with minimal loss. All couplers are manufactured using
a very simple proprietary process that produces reliable, low-cost devices. They
are physically rugged and insensitive to operating temperatures. Couplers can be
fabricated in custom fiber lengths and/or with terminations of any type.
Features
◆ Light, Compact Design
◆ Standard Jacketed 1000 µm Core Plastic Fiber Cable
◆ High Isolation
◆ Light-Tight Stainless Steel Housing
◆ Low Loss
◆ Excellent Temperature Stability
◆ RoHS Compliant
applications
Feedback Control Circuits
Ethernet and
Automotive LANs
Medical Instruments
Automotive Electronics
Optical Sensors
Wavelength Multiplexing
Audio Systems
Electronic Games
MaxiMuM ratings
(TA =25°C)
Operating Temperature Range
(TOP)........................-40° to 85°C
Storage Temperature Range
(TSTG).......................-55°to 85°C
Fiber Bending Radius.............25 mm
Fiber Tensile Strength.................5 kg
Fiber characteristics (TA =25°C)
Material: Fiber couplers are manufactured with Mitsubishi GH4001
1000 µm core jacketed step-index optical fiber. See website for detailed
fiber specifications.
Parameter Symbol Min. Typ. Max. Unit
Fiber Attenuation (650 nm light) .14 .16 dB/m
Fiber N/A .51 – –
Core Refractive Index 1.492 – –
Cladding Refractive Index 1.402 – –
7/13
Ma_ C / PorlA . Port C 5.6 dB PorlA - Port D 3.7 db Port B - Port C 3.7 dB Port B - Port D 5.0 db 9W Mmev mm ST >wM® A FM [5351‘ 5mm): Mew : Pow mam . 7 . WA L ‘/ HE’S Esarw] 5 >mM “ a HEW {$5} 33 My mm... mm wanmmosswms‘nm .. :dBm] msunohwssmmsmmi » Nsmrm m .an, 1a .w. maunuhmaimmsmmi W , W C.L. K 0.5 m > 1 /— o 5 m % . ‘ / — — W 5.6 +/— .1mm 9 76+l-1mm fl
Plastic Plastic Fiber Couplers (Splitters)
IndustrIal FIber OptIcs, Inc. www.i-fiberoptics.com
SPLITTING INSERTION EXCESS LOSS
STOCK NUMBER PORTS RATIO %LOSS (MAX)(
MAX)
IF-540
22
50:50
Port A
-
Port C
5.6 dB Port A1.6 dB
Port A- Port D3.7 db Port B1.6 dB
Port B-Port C3.7 dB
Port B-Port D5.6 db
IF-541
22
80:20
Port A
-
Port C
9.9 dB Port A1.7 dB
Port A- Port D2.9 db Port B1.7 dB
Port B-Port C2.9 dB
Port B-Port D9.9 db
IF-542
22
90:10
Port A
-
Port C
1.5 dB Port A2.0 dB
Port A- Port D2.5 db Port B2.0 dB
Port B-Port C2.4 dB
Port B-Port D1.5 db
IF-562
12
50:50
Port A
-
Port C
5.6 dB Port A1.6 dB
Port A- Port D3.7 db
IF-543
13
33:33:33
Port A
-
Port B
8.2 dB Port A2.2 dB
Port A- Port C8.2 db
Port A- Port D8.2 dB
IF-544
44
25:25:25:25
F
IGURE
1.
Reference measurement - (pre-fused)
F
IGURE
2.
Excess & insertion loss measurement -
(post-fused)
F
IGURE
3.
Overall Dimensions for 2 2 Coupler
C
HARACTERISTICS
All devices are available with ST®, SMA or Versalink fiber terminations.
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