THORLABS IO-L-1064 User manual
IO-L-1064
Fiber Isolator
User Guide
1064 nm Fiber Isolator
Table of Contents
Chapter 1 Safety.................................................................................1
Chapter 2 Setup..................................................................................2
2.1. Unpacking ....................................................................2
2.2. Installation Procedure...................................................2
Chapter 3 Description........................................................................3
3.1. Polarization Dependent Optical Path Schematic.............4
Chapter 4 Operation...........................................................................5
4.1. Forward Mode ..............................................................5
4.2. Reverse Mode...............................................................5
Chapter 5 Warranty............................................................................5
Chapter 6 Specifications...................................................................6
Chapter 7 Drawing .............................................................................7
Chapter 8 Regulatory.........................................................................8
8.1. Waste Treatment is Your Own Responsibility.................8
8.2. Ecological Background ..................................................8
Chapter 9 Thorlabs Worldwide Contacts.........................................9
1064 nm Fiber Isolator Chapter 1: Safety
Rev B, Sept. 14, 2018 Page 1
Chapter 1 Safety
WARNING
This isolator contains a powerful permanent magnet. Keep all steel objects
and anything affected by a magnetic field at a minimum distance of 2"
(50 mm) from the isolator.
WARNING
Do NOT attempt to disassemble this isolator. The isolator must remain
contained by the isolator body. Any disassembly of the isolator voids the
warranty and can be unsafe.
1064 nm Fiber Isolator Chapter 2: Setup
Page 2 TTN027897-D02
Chapter 2 Setup
2.1. Unpacking
Note: Thorlabs aligns the isolator with polarized light. This unit is fusion spliced
with the laser source fiber and individually tested. See the included test report for
details.
2.2. Installation Procedure
1) Carefully remove the unit from the box by removing the pins holding the
input and output fibers. Be wary of damaging the fiber when removing
the unit from the box.
2) Place the isolator into your fiber optic system.
3) Secure the base of the isolator to the table via the 4-40 (M3) mounting
slot.
4) Orient the isolator according to the engraving on the lid.
5) Splice the fiber to the source via fusion (recommended) or mechanical
splice.
6) Turn on the power source within the isolator wavelength range (±10 nm
of the center wavelength).
7) Ensure you apply only the maximum rated power of the isolator as
indicated on this spec sheet.
1064 nm Fiber Isolator Chapter 3: Description
Rev B, Sept. 14, 2018 Page 3
Chapter 3 Description
Fiber isolators protect light sources from back reflections and signals that can
cause intensity noise and optical damage. Optical isolators, also known as
Faraday isolators, are magneto-optic devices that preferentially transmit light in
the forward direction while absorbing or displacing light propagating in the
reverse direction.
This Thorlabs’ polarization-dependent isolator is compatible with polarization
maintaining (PM) fibers. There is 0.8 m to 1.0 m of fiber built in to each side of
the isolator, and an arrow engraved on the body indicating the transmission
direction. In addition, each unit is tested before shipment to ensure compliance
with our specifications and a complete test report comes with every serialized
part.
An isolator consists of a Faraday rotator, at least two polarizers, a half-wave
retarder and collimating lenses.
The main body of the isolator contains the Faraday rotator, polarizers and
retarder. The outer aluminum sleeves protect the input and output ports
containing the collimating lens and fiber ferrule.
This isolator is mounted on a baseplate with two 4-40 (M3) counterbored slots for
securing the unit to a breadboard or optical table. This base may be removed by
the user if desired. However, do not remove the lid as this is considered
disassembling and will void the warranty.
Part Number
The part number consists of the following:
IO (The Isolator Code)
Letter
oPolarization dependence (F/K –Independent; J/L –Dependent)
oMaximum Power Level (F/J –3W CW max; K/L - 10W CW max)
Center Wavelength (nm)
Example: The IO-L-1064 isolator is a polarization dependent fiber isolator
with a max power level of 10 W (CW) and a center wavelength of 1064 nm.
1064 nm Fiber Isolator Chapter 3: Description
Page 4 TTN027897-D02
3.1. Polarization Dependent Optical Path Schematic
1064 nm Fiber Isolator Chapter 4: Operation
Rev B, Sept. 14, 2018 Page 5
Chapter 4 Operation
4.1. Forward Mode
Laser light enters the isolator via the input single mode fiber. A lens collimates
the light and splits it as it goes through a birefringent beam displacer polarizer.
The light then enters the rotator, which rotates its plane of polarization 45°. It
then passes through a retarder and second displacer polarizer. Finally, it exits via
another collimating lens coupling into output fiber.
4.2. Reverse Mode
Some random beam reflections will be reflected back through the fiber towards
the laser. This feedback enters the isolator and is split by the output beam
displacer. The two beams are rotated 45by the waveplate and another 45by
the faraday rotator. The two beams are now oriented 90as compared to the
forward beams and walk off a second time instead of being recombined. These
beams do not couple into the input fiber and are absorbed inside the isolator
housing. The laser is now isolated from downstream reflections.
Chapter 5 Warranty
All Thorlabs fiber isolators are covered by Thorlabs’ six-month warranty against
defects in materials and workmanship.
WARNING
Do not attempt to disassemble the isolator.
Disassembly of the isolator voids the warranty and can be unsafe.
Please contact technical support if you have questions regarding performance or
operations. See page 9 for contact information by region.
1064 nm Fiber Isolator Chapter 6: Specifications
Page 6 TTN027897-D02
Chapter 6 Specifications
Item #
IO-L-1064
Polarization
Dependent
Fiber Type
Polarization Maintaining (PM), PM980-XP
Center Wavelength
1064 nm
Operating Range
1054 - 1074 nm
Weight
0.150 kg
Optical Specifications
Isolation @ 1064 nm
33 dB (Min)
35 dB (Typ.)
Max Powera
10 W (CW)
Insertion Loss (Without Connectors)
1.2 dB (Typ.)
1.3 dB (Max)
Polarization Extinction Ratio (PER)
≥17 dB
Return Loss
≥50 dB
a) The maximum power specification represents the maximum power for the combined forward and
reverse directions. Therefore, the sum of the powers in the forward and reverse directions cannot
exceed the maximum power specification.
1064 nm Fiber Isolator Chapter 7: Drawing
Rev B, Sept. 14, 2018 Page 7
Chapter 7 Drawing
1064 nm Fiber Isolator Chapter 8: Regulatory
Page 8 TTN027897-D02
Chapter 8 Regulatory
As required by the WEEE (Waste Electrical and Electronic Equipment Directive)
of the European Community and the corresponding national laws, Thorlabs offers
all end users in the EC the possibility to return “end of life” units without incurring
disposal charges.
This offer is valid for Thorlabs electrical and electronic equipment:
Sold after August 13, 2005
Marked correspondingly with the crossed out
“wheelie bin” logo (see right)
Sold to a company or institute within the EC
Currently owned by a company or institute
within the EC
Still complete, not disassembled and not
contaminated
As the WEEE directive applies to self-contained
operational electrical and electronic products, this end of
life take back service does not refer to other Thorlabs products, such as:
Pure OEM products, that means assemblies to be built into a unit by the
user (e.g. OEM laser driver cards)
Components
Mechanics and optics
Left over parts of units disassembled by the user (PCB’s, housings etc.).
If you wish to return a Thorlabs unit for waste recovery, please contact Thorlabs
or your nearest dealer for further information.
8.1. Waste Treatment is Your Own Responsibility
If you do not return an “end of life” unit to Thorlabs, you must hand it to a
company specialized in waste recovery. Do not dispose of the unit in a litter bin
or at a public waste disposal site.
8.2. Ecological Background
It is well known that WEEE pollutes the environment by releasing toxic products
during decomposition. The aim of the European RoHS directive is to reduce the
content of toxic substances in electronic products in the future.
The intent of the WEEE directive is to enforce the recycling of WEEE. A
controlled recycling of end of life products will thereby avoid negative impacts on
the environment.
Wheelie Bin Logo
1064 nm Fiber Isolator Chapter 9: Thorlabs Worldwide Contacts
Rev B, Sept. 14, 2018 Page 9
Chapter 9 Thorlabs Worldwide Contacts
For technical support or sales inquiries, please visit us at
www.thorlabs.com/contact for our most up-to-date contact information.
USA, Canada, and South America
Thorlabs, Inc.
Europe
Thorlabs GmbH
France
Thorlabs SASSA
Japan
Thorlabs Japan, Inc.
UK and Ireland
Thorlabs Ltd.
Scandinavia
Thorlabs Sweden AB
Brazil
Thorlabs Vendas de Fotônicos Ltda.
China
Thorlabs China
www.thorlabs.com
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