Overview
- Easy to use
- Testing multimode optical fiber at 850nm and 1300nm Wavelength
- Compact and sturdy tester to ensure on-site use
- Including optical fiber technical materials, including the latest Optical Fiber Technology
- Including solid hard carrying boxes
Features
To efficiently test and check Multi-Mode Optical Fiber Links, You need to quickly complete the work. All the features you need are in a compact toolkit.
Whether you need basic optical cable link tests or an enhanced test toolkit FTI Pro that generates test reports more advanced, they are both rugged Optical Cable testing tools to meet your Optical Cable Testing needs.
Both FTK100FV basic and FTK200FV Pro enhanced cable test kits of fluke networks make it easier to install and test the cable link.
Enhanced Toolkit:
The FTK200FV enhanced toolkit is an ideal tool for constructors to automatically store test results, manage data, and generate test reports.
Designed to easily check and test installed optical cables, FTK200FV includes:
- Easy to use
- Test multimode optical fiber cables at 850nm and 1300nm Wavelength
- Compact Optical Cable Tester for easy on-site use
- Includes FT120 Multimode Optical Cable detector to check the cleanliness of the optical fiber cross section
- Including optical fiber technical materials, including the latest Optical Fiber Technology
- Measure the loss of a single-mode optical fiber cable with an optional Laser Light Source
- Random hardware carrying box
Basic Toolkit:
The FTK100FV basic toolkit is a cable link testing tool designed for construction engineers to install a small number of cable links without the need to automatically store test results.
Designed to easily check and test installed optical cables, FTK100FV includes:
- Easy to use
- Multimode Optical fiber cables are tested at the wavelength of nm and 1300nm.
- Compact Optical Cable Tester for easy on-site use
- Includes the FT120 Multimode Optical Cable detector to check the cleanliness of the optical fiber cross section.
- Including optical fiber technical materials, including the latest Optical Fiber Technology
- Measure the loss of a single-mode optical fiber cable with an optional Laser Light Source
- Random hardware carrying box
Note: The FTK100 basic toolkit also contains the above items, but does not contain the FT120 optical fiber inspection magnifiers.
Optical Cable inspection table
Overview
- Make sure that the optical cable is clean and smooth and can be used for optical transmission.
- Special security filters protect your eyes from harmful Infrared Rays
- FT120 provides 200X magnification
- FT140 provides 400X magnification
- Multiple adapters are used to view specific optical fiber connection Headers
Laser Light source option: Optical Cable performance inspection
You can use a LS-1310/1550 laser light source to upgrade the FTI test kit.
This option can generate 1310 and 1550nm wavelength light sources to measure the loss of a single-mode optical cable.
Function Overview:
- Includes laser light source, test connection optical cable and adapter
- Laser Light Source generates 1310nm and 1550nm Wavelengths
- Used with Fluke network's optical power meter (DSP-FOM) and Optical Cable Testing adapter (DSP-FTA410S)
- Light and durable, suitable for on-site use
Multimode cable axis
Look at the Multi-Mode Optical Cable axis of fluke networks, which ensures that the Multi-Mode Optical Cable axis complies with the TIA/EIA standard.
The multi-mode optical fiber axis of fluke network is a simple and economical method:
- Improved repeatability and continuity of multimode optical power and loss measurements when using LED light sources and 0mm patch cords
- Ensures your measurement complies with TIA/EIA-568-B standards
- The correctness of the outer packing number used for different diameter axes is ensured.
- Prevent 3.0mm optical cable from being damaged or bent inadvertently
The multi-mode optical fiber axis of fluke network can provide a simple and economical way to improve the repeatability and continuity of multi-mode optical power and Loss Measurement when using LED light sources. It can ensure that the use of different diameter axis packaging number meets the TIA/EIA-568-B standard, to prevent the 3.0mm optical cable from being damaged or inadvertently bent.
The Multi-Mode Optical Cable axis of the fluke network allows you to wrap the optical fiber around the axis for five Gb/s, so that the optical fiber can be fixed without tightening the optical fiber reversely and is easy to use.
The optical cable axis is used for 3.0mm optical cables-the most common jumper in the industry. In addition, there are 22mm red axis for 50/125 μm optical fiber cables and 17mm gray axis for 62.5/125 μm optical fiber cables.
VisiFault technical indicator
Optical Cable testing kit |
|
FTK100 basic Toolkit
|
FTK200 enhanced Toolkit |
|
FM130 Optical Power Meter |
FM150 Optical Power Meter |
Detector Type |
Germanium |
Germanium |
Calibration Wavelength |
850 nm, 1300 nm, 1310, and 1550 nm |
850 nm, 1300 nm, 1310, and 1550 nm |
Measurement Range |
+ 6 dBm to-50 dBm |
+ 6 dBm to-50 dBm |
Resolution |
0.01 dB |
0.01 dB |
Loss Measurement Accuracy |
0.25dB, 25oC, and-10dBm |
0.25dB, 25oC, and-10dB |
Operating Temperature |
0oC to + 50oC Storage 30oC to + 60oC |
0oC to + 50oC Storage 30oC to + 60oC |
Humidity usage |
0 to 95% RH, non-Condensation |
0 to 95% RH, non-Condensation |
Battery Type and life cycle |
9V alkaline (NEDA 1604A or IEC 6LR61) typical 50 hours |
9V alkaline NEDA 1604A or IEC 6LR61) typical 30 hours |
Remaining power indication |
The single-key operation shows the remaining power |
The single-key operation shows the remaining power |
Insufficient power indication |
Battery symbol display |
Battery symbol display |
Display |
4-bit LCD display |
4-bit LCD display |
Memory |
|
500 measurement data per wavelength stored to non-Easy loss storage data can be downloaded to PC or printed directly |
Shape and size |
8.1x14.7x3.8 |
8.1x14.7x3.8 |
Weight |
244 GB |
244 GB |
|
FOS-850/1300 Fiber Optic Source
|
FS150 Fiber Source
|
Light Source |
Infrared LED |
Infrared LED |
Wavelength |
850 nm ± 30 nm; 1300 nm-40 nm/+ 50 nm |
850 nm ± 30 nm; 1300 nm-10 nm/+ 50 nm |
Generation Power |
-20dBm to rated 62.5 Multimode Optical Fiber Cable |
-20dBm to rated 62.5 Multimode Optical Fiber Cable |
Connector |
ST |
ST |
Light Scattering |
0.3 radian |
|
Maximum output |
200 million (Free Space Launch) |
|
Stability |
0.2dB is pushed every 8 hours, 20oC, and 20 minutes. |
0.1dB, every 8 hours, 25oC |
Temperature Coefficient |
-0.08dB, ranging from 18 to 28oC |
|
Battery Type and life cycle |
9 V Alkaline (NEDA 1604A or IEC 6LR61); 24 hours |
9 V Alkaline (NEDA 1604A or IEC 6LR61); 30 hours |
Insufficient power indication |
Blinking LED |
Blinking LED in power switch |
Temperature range |
Use: 0oC to 40oC; Storage:-20oC to + 70oC |
Use: 0oC to 50oC Storage:-20 to + 70oC |
Humidity |
Up to 75% RH, 0 ° C to 40 °C |
To 90% RH |
Compliant with standards |
CE stands for IEC 1010-1 |
CE |
Shape and size |
11.4x6.4x3.8 |
8.1x14.2x3.8 |
Weight |
142 GB |
204 GB |
Optical Cable test suite |
|
FT120 Optical Cable Detector |
FT140 Optical Cable Detector |
Wavelength |
850 nm 1310 nm |
1550 nm |
Optical Density |
2.05 5.10 |
1550 nm |
Attenuation |
20.5dB 51.0dB |
43.0dB |
Peak power ratio |
49 mW 1000 W |
190 million |
Magnification |
FT120: 200X |
FT140: 400X |
Adapter |
5mm universal multimode or single-mode optical cable metal ring Adapter |
Power Supply |
3-Section 1.5 v aaa battery (NEDA 24A or IEC LR03) Typical use time of alkaline battery for 35 hours |
Light Source |
White LED (100,000 hours) |