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Polarization Controllers and Scramblers

The Precision Motorized Polarization Rotation Stage by OZ Optics is a cost-effective, plug-and-play device that provides precise control of the polarization states of a single optical stage or multi-stage system with multiple optical paths. The device can be controlled and synchronized to perform precise rotations sequentially or in ...

Specifications

Operating Wavelength Range: 635-2050nm
Insertion Loss: -- dB
Polarization Mode Dispersion: -- fs
Resolution: 0.0025 Degrees
Available Wavelength Options: 635, 650, 685, 780, 830, 850, 980, 1064, 1310, 1480, 1550, 1625, 2050 nm
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Data Sheet
The motor-driven polarization dependent loss emulator (PDLE) by OZ Optics is an OEM module equipped with a built-in stepper motor, optical block, and control firmware. It allows precise control of a desired PDL artifact value within a dynamic range of 0.1 dB to 20 dB using remote control interface commands. With low insertion loss, ...

Specifications

Operating Wavelength Range: 1520-1610nm
Insertion Loss: < 1.00 dB
Polarization Mode Dispersion: < 500 fs
Resolution: -- Degrees
Part Number: PDLE-100-11-1520/1610-9/125-S-3A3A-1-1-MC/RS232
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Data Sheet
The Multi-Channel Benchtop Polarization Dependent Loss Emulator (PDLE) offered by OZ Optics is a rugged and low-cost turnkey solution with high resolution and high dynamic range. This benchtop unit features motor controlled PDLE units with low insertion loss, low back reflection, low polarization mode dispersion (PMD), and a flat ...

Specifications

Operating Wavelength Range: 1520-1620nm
Insertion Loss: < 1.00 dB
Polarization Mode Dispersion: <500 fs
Resolution: -- Degrees
Part Number: PDLE-1000-CH-X-W-9/125-S-20
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Data Sheet
The High-Speed Benchtop Polarization Controller-Scrambler (HSPC-1000) by OZ Optics Ltd. is a versatile bench-top device designed to control and scramble the polarization state of light transmitted through a fiber optic system. It features an LCD touch screen for easy operation, combining an electric polarization controller and ...

Specifications

Operating Wavelength Range: 1260-1650nm
Insertion Loss: 0.05 dB
Polarization Mode Dispersion: -- fs
Resolution: -- Degrees
High-Speed Benchtop Polarization Controller-Scrambler HSPC-1000: 4
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Data Sheet
The High-Speed Electro-Optic Polarization Controller (EOPC) offered by OZ Optics is a compact and robust device based on a novel, low-loss high-speed free space Electro-Optic crystal technology. It allows for rapid and precise manipulation of the state of polarization by applying an external voltage. The EOPC is available in ...

Specifications

Operating Wavelength Range: 1064-2000nm
Insertion Loss: 1.2 dB
Polarization Mode Dispersion: < 500 fs
Resolution: -- Degrees
Polarization Dependence Loss (PDL): 0.20 dB
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Data Sheet
OZ Optics' Electrically Driven Polarization Controller (EPC) provides a simple, efficient means to manipulate the state of polarization within a single-mode fiber. Employing a novel mechanical fiber squeezing technique, the device is controlled by either three or four (depending on the model) input voltages that one varies over a ...

Specifications

Operating Wavelength Range: 1250-1650nm
Insertion Loss: 0.4 dB
Polarization Mode Dispersion: -- fs
Resolution: -- Degrees
Data Sheet
The Electrically Driven Polarization Controller-Scrambler (DTS0011) by OZ Optics provides a simple and efficient means to manipulate the state of polarization within a single-mode fiber. With a rapid response speed and continuous polarization control capability, this device is ideal for polarization scrambling, stabilization, and ...

Specifications

Operating Wavelength Range: 1260-1650nm
Insertion Loss: 0.05 dB
Polarization Mode Dispersion: -- fs
Resolution: -- Degrees
Number Of Control Channels: 3 (EPC-300) and 4 (EPC-400)
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Data Sheet
The All Fiber Polarization Controller is a compact and cost-effective device that allows for easy manipulation of polarization in fiber optic systems. It offers low loss, low back reflection, and wavelength insensitivity. The controller works by applying pressure to the fiber, creating birefringence and allowing for precise control ...

Specifications

Operating Wavelength Range: 400-2200nm
Insertion Loss: 0.5 dB
Polarization Mode Dispersion: -- fs
Resolution: -- Degrees
Return Loss (intrinsic): Limited only by the return loss of the input and output connections
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Data Sheet
All fiber polarization controller with USB control to 0.1125° resolution with 145% redundant SOP coverage.High reliability and serviceability.Low power, offering scrambling from 0 Hz up to approximately 3 Hz.

Specifications

Operating Wavelength Range: 400-1550nm
Insertion Loss: 0.2 dB
Polarization Mode Dispersion: 3 fs
Resolution: 0.1125 Degrees
Data Sheet
Motorized Polarization Controller MPC1-01
FiberControl
FiberControl’s Motorized Polarization Controller (MPC-1) provides stable and rapid control of the state-of polarization of laser sources without altering the time-averaged power. Utilizing the patented all fiber Lefèvre loop design, this time-tested approach has proven to provide excellent control with ultra-low power variations ...

Specifications

Operating Wavelength Range: 1300-1600nm
Insertion Loss: 1.0 dB
Polarization Mode Dispersion: -- fs
Resolution: 0.15 Degrees
Data Sheet
Motorized Polarization Controller MPC1-M
FiberControl
FiberControl’s Motorized Polarization Controller (MPC-1) provides stable and rapid control of the state-ofpolarization of laser sources without altering the time-averaged power. Utilizing the patented all fiber Lefèvre loop design, this time-tested approach has proven to provide excellent control with ultra-low power variations ...

Specifications

Operating Wavelength Range: 1300-1600nm
Insertion Loss: 1.0 dB
Polarization Mode Dispersion: -- fs
Resolution: 0.15 Degrees
Data Sheet
Motorized Polarization Controller MPC1-02
FiberControl
FiberControl’s Motorized Polarization Controller (MPC-1) provides stable and rapid control of the state-ofpolarization of laser sources without altering the time-averaged power. Utilizing the patented all fiber Lefèvre loop design, this time-tested approach has proven to provide excellent control with ultra-low power ...

Specifications

Operating Wavelength Range: 1300-1600nm
Insertion Loss: 1.0 dB
Polarization Mode Dispersion: -- fs
Resolution: 0.15 Degrees
Data Sheet
NRT-2500 Polarization Control Platform
New Ridge Technologies
NRT’s polarization control platform combines an integrated-optic Lithium Niobate (LiNbO3) waveguide polarization-controller device for super-fast polarization response driven by a customizable DSP/FPGA platform for functional flexibility. Together they enable NRT to provide a wide range of polarization operations in one ...

Specifications

Operating Wavelength Range: 850-1150nm
Insertion Loss: 3 dB
Polarization Mode Dispersion: -- fs
Resolution: -- Degrees
Data Sheet
1X2, 1X3,1X4,1X6,1X8,1X12,1X16,1X24,1X32,1X64  Polarization Maintaining PLC  splitter

Specifications

Operating Wavelength Range: 1310-1550nm
Insertion Loss: 3.9 dB
Polarization Mode Dispersion: -- fs
Resolution: -- Degrees
Data Sheet

Frequently Asked Questions

A fiber optic polarization controller is a device that allows for the control and adjustment of the polarization of light traveling through a fiber optic cable. This is important for applications such as telecommunications, where polarization can affect signal quality.

A fiber optic polarization scrambler is a device that randomly changes the polarization of light traveling through a fiber optic cable. This is useful for testing and characterization of fiber optic components and systems, as it simulates real-world conditions where the polarization of light can be random.

The use of a fiber optic polarization controller or scrambler can improve the quality and reliability of fiber optic communications by ensuring that the polarization of light is controlled or randomized as needed. This can reduce signal degradation and improve overall system performance.

Factors to consider when choosing a fiber optic polarization controller or scrambler include the wavelength range of the device, the polarization mode dispersion (PMD) performance, the insertion loss, the polarization extinction ratio (PER), and the repeatability and stability of the device.

In telecommunications, fiber optic polarization controllers are used to ensure that the polarization of light is aligned with the polarization axis of the receiving equipment, which can improve signal quality and reduce noise. Fiber optic polarization scramblers are used for testing and characterization of fiber optic components and systems, as well as for simulating real-world conditions where the polarization of light can be unpredictable.

Fiber optic polarization controllers and scramblers have a wide range of applications beyond telecommunications, including in optical sensing, optical microscopy, and quantum optics.

The cost of fiber optic polarization controllers and scramblers will vary depending on the specific device and its features. Basic devices can cost several hundred dollars, while more advanced devices with higher performance specifications can cost several thousand dollars.

There are 14 different Polarization Controllers and Scramblers from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Polarization Controllers and Scramblers with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Polarization Controllers and Scramblers vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Fiber Optic Controllers and Scramblers are fiber optic tools that can be useful for engineers working in the field of fiber optic communications. The use of fiber optic polarization controllers and scramblers can help ensure that light traveling through a fiber optic cable is properly polarized, which is important for maintaining signal quality and reducing noise. Polarization controllers are particularly useful for applications such as telecommunications, where signal degradation due to polarization effects can have a significant impact on performance. By controlling the polarization of light, engineers can improve signal quality and reduce noise, leading to better system performance. Polarization scramblers are also useful for testing and characterization of fiber optic components and systems. By randomly changing the polarization of light, polarization scramblers simulate real-world conditions where the polarization of light can be random. This can help engineers identify and address potential issues before they become problems in real-world applications. When choosing a fiber optic polarization controller or scrambler, engineers should consider factors such as wavelength range, PMD performance, insertion loss, PER, and repeatability and stability.