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Page 4 - Fiber Test and Measurement Tools

CI-1100 Fiber Optic Inspection Probe
Lightel
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CI-1100 Fiber Optic Inspection Probe
The eye-safe CI-1100 Connector Inspector is a portable video microscope used to inspect fiber optic connector endfaces for contamination. The handheld probe design makes it easy for users to inspect both patchcords and hard-to-reach in-adapter connectors. The CI-1100-A2 package includes a folding LCD monitor, 4 inspection tips, a ...

Specifications
Accepted Fiber Diameter: 80-800um
Field Of View: 425 x 320 um
Resolution: 0.5 um
Data Sheet
CSILU MPO MTP fiber optical end-face inspection WIFI type probe
GMCH TECH (SHENZHEN) CO.,LTD
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CSILU MPO MTP fiber optical end-face inspection WIFI type probe
Keeping the previous advantages of quick check, the new GCK-900W Wi-Fi portable fiber end-face inspection probe is designed to be more smart and power saving. It can have both Wi-Fi and USB connection to help fiber end-face image quickly sent and shown on the smart phone either in Android or Apple ...

Specifications
Accepted Fiber Diameter: 0-400um
Focus Type: Manual
Shell Color: Classic black
Application: SC/FC /ST/LC/MU/E2000/MT/MPO/MTP/QSFP Modules etc.
Mode Switch Button: Available switch between Wi-Fi and USB
...
Data Sheet
CSILU SC ST FC MU LC MTP MPO fiber optical cassette
GMCH TECH (SHENZHEN) CO.,LTD
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CSILU SC ST FC MU LC MTP MPO fiber optical cassette
CFC-BOX is essential accessory to maintain and guarantee good quality of fiber optic connection,it is the best non-alcohol cleaning method for various fiber optic terminations which is simply and swiftly used , Box tape replacement is offered to make sure low cleaning cost , suitable for connector such as SC,LC,MU,ST,D4,DIN etc.

Specifications
Brand : CSILU
Product Type: CFC-BOX
Name: optic fiber cleaner box
Color: white with orange
Application: SC,FC,ST,MU,LC,MPO,MTRJ (w/o pins)
...
Data Sheet
CSILU MPO MTP fiber optical over 500 cleaning times fiber optical cleaner
GMCH TECH (SHENZHEN) CO.,LTD
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CSILU MPO MTP fiber optical over 500 cleaning times fiber optical cleaner
the MPO Cleaner is a high-performance device designed for cleaning the ferrule end-faces of MPO & MTP connectors. Cost effective tool for cleaning fiber end-faces without the use of alcohol .It saves time by effectively cleaning all 12 fibers at once. The MPO connector cleaner is designed to clean both exposed jumper ends and ...

Specifications
Brand : CSILU
Product Type: CFC-MT
Application: remove the dust of fiber optic terminal equipment
Color: white
Cleaning Times: over 500 times
Data Sheet
CSILU MPO MTP over 500 times cleaning new style fiber optical cleaner
GMCH TECH (SHENZHEN) CO.,LTD
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CSILU MPO MTP over 500 times cleaning new style fiber optical cleaner
The MPO Cleaner is a high-performance device designed for cleaning the ferrule end-faces of MPO & MTP connectors. Cost effective tool for cleaning fiber end-faces without the use of alcohol .It saves time by effectively cleaning all 12 fibers at once. The MPO connector cleaner is designed to clean both exposed jumper ends and ...

Specifications
Brand: CSILU
Product Type: CFC-MT
Application: cleaning MPO MTP connectors
Color: fluorescent green
Cleaning Times: over 500 times
...
Data Sheet
CSILU Fiber Optic Portable End-Face Inspection Probe
GMCH TECH (SHENZHEN) CO.,LTD
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CSILU Fiber Optic Portable End-Face Inspection Probe
Portable fiber end-face inspection probe with model number GCK-800A is designed and made by GMCH TECH (Shenzhen) Company Limited. It is one of the GCK fiber microscope probe serial models and widely used to inspect special adapters in fiber connector\'s end-face such like sc, fc, st, lc, mu, E2000, MTP, MPO and MT ferrules PC & ...

Specifications
Accepted Fiber Diameter: 0-400um
Application: SC/FC/ST/LC/MU/MTP/MPO/E2000 ect. fiber optical connectors
Resolution: <1μm
Focus: manual
Video Signal System: PAL
...
Data Sheet
CSILU Fiber Optical Inspection End-Face Microscope
GMCH TECH (SHENZHEN) CO.,LTD
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CSILU Fiber Optical Inspection End-Face Microscope
General Information / Along with the continuous improvement of market demand and the requirements of the increase, GMCH TECH (SHENZHEN) Co., Ltd. design and develops of the GBM series of integrated fiber benchtop microscopes, compared to GFV series, FTN series of fiber microscopes, more high-definition , ...

Specifications
Accepted Fiber Diameter: 0-400um
Number: GBM-400A
Application: SC FC ST fiber connectors
Focusing Mode: Mannual
Resolution: 0.5um Max
...
Data Sheet
2018 CSILU High Quality MU LC Fiber Optic One-Click Cleaner
GMCH TECH (SHENZHEN) CO.,LTD
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2018 CSILU High Quality MU LC Fiber Optic One-Click Cleaner
Fiber optic cleaner is designed to specially work well with the MU and LC connectors or adapters, this instrument cleans the ferrule end-faces removing dust, oil, and other debris without nicking or scratching the end face.

Specifications
Color: blue
Fiber Connectors: MU LC connectors and adaptors
Cleaning Times: over 800 times
Data Sheet
In-Line Photo-Diode
Pure Photonics
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In-Line Photo-Diode
NeoPhotonics’ Series SR100 Fiber Optic Tap Power Monitors are used for in-line measurement of power in optical fiber. A miniature, hermetic package houses a stable optical tap and PIN photodiode. The patented process maintains fiber continuity, avoiding lenses or partial reflectors. This provides exceptional performance and ...

Specifications
Wavelength Range: 1280-1610nm
Tap Ratio (average): 1 %
Tap Efficiency (typical): 1
Insertion Loss (max): 0.05 dB
Return Loss (min): 70 dB
...
Data Sheet
OEM Mode Controller MC- OEM- FC/FC- 62-500-S
Arden Photonics Ltd
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OEM Mode Controller MC- OEM- FC/FC- 62-500-S
The ModCon Mode Controller is designed to ensure that whatever source you use to test the loss and bandwidth of your multimode optical fiber network, LED, Laser, OTDR or white light, you launch the same distribution of modes into the fiber. As a result you can eliminate the variations due to the widely different modal characteristics ...

Specifications
Max Power Throughput : 10 mW
Mode Control: 62.5 - 125 um
Data Sheet
ModCon Mode Controller MC-SC/LC-62-N
Arden Photonics Ltd
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ModCon Mode Controller MC-SC/LC-62-N
Measurements of loss and bandwidth in multi-mode fibers are highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. These widely different modal characteristics between ...

Specifications
Max Power Throughput : 10 mW
Light Source: 850 - 1300 nm
Mode Control: 62.5 - 125 um
Data Sheet
ModCon Mode Controller MC-SC/LC-50-N
Arden Photonics Ltd
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ModCon Mode Controller MC-SC/LC-50-N
Measurements of loss and bandwidth in multi-mode fibers are highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. These widely different modal characteristics between ...

Specifications
Max Power Throughput : 10 mW
Light Source: 850 - 1300 nm
Mode Control: 50 - 125 um
Data Sheet
ModCon Mode Controller MC-SC-62-N
Arden Photonics Ltd
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ModCon Mode Controller MC-SC-62-N
Measurements of loss and bandwidth in multi-mode fibers are highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. These widely different modal characteristics between ...

Specifications
Max Power Throughput : 10 mW
Light Source: 850 - 1300 nm
Mode Control: 62.5 - 125 um
Data Sheet
ModCon Mode Controller MC-SC-50-N
Arden Photonics Ltd
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ModCon Mode Controller MC-SC-50-N
Measurements of loss and bandwidth in multi-mode fibers are highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. These widely different modal characteristics between ...

Specifications
Max Power Throughput : 10 mW
Light Source: 850 - 1300 nm
Mode Control: 50 - 125 um
Data Sheet
ModCon Mode Controller MC-FC-62-N
Arden Photonics Ltd
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ModCon Mode Controller MC-FC-62-N
Measurements of loss and bandwidth in multi-mode fibers are highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. These widely different modal characteristics between ...

Specifications
Max Power Throughput : 10 mW
Light Source: 850 - 1300 nm
Mode Control: 62.5 - 125 um
Data Sheet
ModCon Mode Controller MC-FC-50-N
Arden Photonics Ltd
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ModCon Mode Controller MC-FC-50-N
Measurements of loss and bandwidth in multi-mode fibers are highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. These widely different modal characteristics between ...

Specifications
Max Power Throughput : 10 mW
Light Source: 850 - 1300 nm
Mode Control: 50 - 125 um
Data Sheet
ModCon Mode Controller MC-ST-62-E-85
Arden Photonics Ltd
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ModCon Mode Controller MC-ST-62-E-85
Measurements of loss and bandwidth in multimode fibers are known to be highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. Now there is a way to dramatically improve ...

Specifications
Max Power Throughput : -- mW
Light Source: 850 - 1300 nm
Modal Launch: 62.5 um
Data Sheet
ModCon Mode Controller MC-ST-50-E-85
Arden Photonics Ltd
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ModCon Mode Controller MC-ST-50-E-85
Measurements of loss and bandwidth in multimode fibers are known to be highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. Now there is a way to dramatically improve ...

Specifications
Max Power Throughput : -- mW
Light Source: 850 - 1300 nm
Modal Launch: 50 um
Data Sheet
ModCon Mode Controller MC-SC-62-E-85
Arden Photonics Ltd
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ModCon Mode Controller MC-SC-62-E-85
Measurements of loss and bandwidth in multimode fibers are known to be highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. Now there is a way to dramatically improve ...

Specifications
Max Power Throughput : -- mW
Light Source: 850 - 1300 nm
Modal Launch: 62.5 um
Data Sheet
ModCon Mode Controller MC-SC-50-E-85
Arden Photonics Ltd
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ModCon Mode Controller MC-SC-50-E-85
Measurements of loss and bandwidth in multimode fibers are known to be highly dependent on the modal condition of the light source used for the measurement. For example, OTDR and LS/PM loss measurements can differ significantly simply because an OTDR uses a laser source and not an LED. Now there is a way to dramatically improve ...

Specifications
Max Power Throughput : -- mW
Light Source: 850 - 1300 nm
Modal Launch: 50 um
Data Sheet
IQABC
Quantifi Photonics
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IQABC
Coherent Solutions’ IQABC with its advanced ABC (Automatic Bias Control) algorithm, accurately and reliably controls and optimizes all the modulator bias points regardless of the modulation format or pattern. Now you just need to hit the AUTO button and focus on your research without worrying if your modulator is ...

Specifications
Supported Modulator Types: Single & dual pol. IQ Mach Zehnder
Supported Modulation Formats: Any modulation format
Bias Control Options: Automatic locking and individual manual bias
Maximum Bias Voltage Range: 28 V
Number Of Bias Control Channels: 6
...
Data Sheet
ModCon Mode Controller
Arden Photonics Ltd
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ModCon Mode Controller
The ModCon Mode Controller is a compact and lightweight module that will modify your LED or VCSEL light source to provide repeatable EF compliant launch conditions. Plug into your light source for a stable and consistent EF compliant output that meets IEC standard 62180-4-1:2009.
Data Sheet
IQTransmitter, 40 GHz Coherent Modulation Transmitter
Quantifi Photonics
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IQTransmitter, 40 GHz Coherent Modulation Transmitter
The IQTransmitter enables quick and simple generation of phase modulated optical signals in one easy-to-use benchtop unit. It offers world-leading bandwidth of 40GHz, plus its unique range of customizations give you unrivalled flexibility and even greater value. Generating and controlling phase modulated optical signals is made ...

Specifications
Wavelength Range (Optical Modulator): 1528-1612nm
Optical Return Loss: 30 dB
DC Extinction Ratio: 20 dB
Maximum Optical Input Power: 13 dB
RF Bandwidth (Minimum): 11 GHz
...
Data Sheet
Real-time Optical Modulation Analyzer
Quantifi Photonics
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Real-time Optical Modulation Analyzer
REAL-TIME OPTICAL MODULATION ANALYZER Teledyne LeCroy’s IQS42 and IQS70 Coherent Optical Receivers integrate seamlessly with Teledyne LeCroy’s LabMaster 10Zi-A series of real-time oscilloscopes to provide up to 65 GHz system bandwidth for optical modulation analysis of dual-polarized signals up to 130 ...

Specifications
Amplitude Error (Modulation Analyzer): <2%
Phase Error (Modulation Analyzer): <1 degree
Min Electrical Bandwidth (Optical Receiver): 37 GHz
Max Input Power (Damage Level): +19 dBm
Data Sheet