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OTDR with Vision Fault Locating (Various Test Mode)
OTDR with Vision Fault Locating (Various Test Mode)

GAO-OTDR-113 OTDR with VFL for FTTx Online Testing

USD $2,190.00

Out of stock

Overview

GAOTek OTDR with VFL for FTTx Online Testing feature (Various Test Mode) is a small, handheld, light weight instrument which helps in testing the fault locations in optical cables. It comes with various test modes such as automatic, manual, average, and real time. This instrument is equipped with anti-seismic and shock proof features which makes it suitable for field operations. It has a wavelength of 1625 nm with belt filter which supports FTTx online testing. It displays event information on its TFT color display and can save data through a USB interface, it can upload test data to a PC for later processing, saving and printing.

This OTDR can be widely used in the construction, testing, maintenance and urgent repair of optical fiber communication systems, the development, production and testing of optical fibers and cables, CATV networks etc.

Features

  • Handheld, light weight and easy to carry.
  • Anti-seismic, shock and drop resistant sheath for field measurements and on-site measurements.
  • 1310 nm/1550 nm/1625 nm wavelength with belt filter, supports FTTx online test.
  • 8 m event blind zone, simple test of fiber patch cord.
  • Starts measurement immediately in 3 seconds.
  • Maximum measure distance of 99.41 mi (160 km).
  • Can store more than 10000 curve information.
  • Various test modes: automatic / manual / average / real time.
  • Simple and user-friendly key design: In key operation, hotkey function, quick locating and event analysis points are integrated.
  • Intelligent testing to ensures simple operation and great functions.
  • Optical alarming function.
  • Optional large-capacity SD card.
  • Low power consumption design; optical lithium battery
  • Multiple light outputs, FC as standard ST/SC optional and exchangeable VFL (visual fault locating) function.
  • OTDR Viewer software for data analysis, editing and printing.

Applications

  • Construction and maintenance of telecommunication projects
  • Construction and maintenance of CATV projects
  • Generic cabling system
  • Production and research of optical devices
  • Other fiber-optics projects

Technical Specifications

Wavelength 1310 nm / 1550 nm 1310 nm / 1550 nm 1625 nm 1625 nm
Dynamic Range 1 28 dB/26 dB 32 dB/30 dB 30 dB 33 dB
Pulse Duration (ns) 10/20/50/100/200/500/1000/2500 10 /20/ 50 /100 /200 /500 /1000/2000/5000/10000/20000
Max Measuring Distance 0.62 mi – 74.56 mi (1 Km -120 Km) 0.62 mi – 99.41 mi (1 Km-160 Km)
Sensing Fiber Single mode fiber
Even Dead Zone2 ≤ 1.8 m
Attenuation Dead Zone2 ≤ 10 m
Attenuation Detect Accuracy ±0.05 dB/dB
Loss Threshold 0.01
Loss Resolution 0.01 dB
Sampling Resolution3 0.16 m – 5 m (0.16 0.32 0.64 1.28 2.56 5.08)
Distance Measure Accuracy4 ±(1 m + 5 × 0.005%  ×  distance + sampling space)
Data Storage More than 10000 records
Storage Format .sor bellcore file
Averaging Time 5 s, 15 s, 30 s, 1 min, 2 min, 3 min
General Specifications
Dimensions (H×W×T) 210 mm × 112 mm × 67 mm (8.27 in x 4.40 in x 2.63 in)
Weight 1 kg (2.2 lbs)
Screen Resolution 320 x 240, 3.5 inch.
Temperature Operating Temperature: 0 ℃ to 50 ℃/32 °F to 122 °F
Storage Temperature: -20 ℃ to 60 ℃/-4 °F to 140 °F
Relative Humidity 0 %-95 % (non-condensing)
Battery Life Lithium battery; continuous operating time ≥ 10 h (with optical ordinary dry batteries)
Interface Type
Connector  FC(ST/SC Interchangeable)/PC
Connectivity USB/SD card
Matching Function Modules
Visible Fault Locator Wavelength: 650 nm;

Farthest distance test: 3.10 mi (5 Km)

Note: The Specification describes the guaranteed performance with the typical PC type connector during the measurement. The uncertainty because the refractive index of the fiber is not considered.

1The dynamic range (SNR) of 1 is measured based on the maximum pulse width and a mean time of 3 minutes.

2Conditions for dead zone measurement: reflection strength below -45 dB, Event Dead Zone with 10 ns pulses width measurement, Attention Dead Zone with 50 ns pulse width measurement.

3The products with different specifications will have the different sampling rate.

4The uncertainty due to the refraction index of the fiber is not considered.

 

Ordering Information

Module Number Wavelength Dynamic Range
GAO-OTDR-113-A 1310 nm / 1550 nm 28 dB / 26 dB
GAO-OTDR-113-B 1310 nm / 1550 nm 32 dB / 30 dB
GAO-OTDR-113-C 1625 nm 30 dB
GAO-OTDR-113-D 1625 nm 33 dB

Packaging List

Sr. No. Item Description Quantity
1 OTDR main unit 1
2 FC connector, ST connector and SC connector 1 (each)
3 User Manual 1
4 USB data cable 1
5 OTDR Viewer Software CD 1
6 Power adapter 1
7 Cleaning cotton swab 1
8  Portable backpack 1
9 Certificate of quality 1


Additional Information

                    

 

  1. VLS- Turning on or off the visible red light (CW/1Hz)
  2. Power- Starting or stopping the instrument
  3. Esc- Exiting from the current menu or cancelling the current operation  Upward direction key
  4. Search- Second function key (compound key)
  5. Menu- Opening or exiting from a menu
  6. Leftward direction key
  7. Info- Displaying the trace parameter information
  8. Downward direction key
  9. Marker- Switching between posts A and B
  10. Rightward direction key
  11. Global trace display
  12. Enter- A confirmation key
  13. Upward direction key
  14. Enabling or disabling the measurement mode
  15. File- Opening or closing the file menu
  16. Display area of LCD
  17. Red light outlet- output frequency (CW/1Hz)
  18. OTDR interface- Used as an internal light source outlet for OTDR function measurements
  19. Memory card interface
  20. USB communication interface
  21. Power interface- To connect a standard power adapter

Directions for Use

Definitions of the parameters used by the instrument

Scanning parameter Definition
1. Distance Range The corresponding optical fiber length of the whole trace
2. Pulse Width Width of the laser pulse emitted by the OTDR to the optical fiber
3. Mean Time Duration of one measurement
4. Laser Wavelength Choosing the laser wavelength for measurements
5. Index of Reflection Index of reflection of the optical fiber (it has an impact on the transmission speed in the optical fiber)
6. Scattering Coefficient It has an impact on the backscattering power of light in the optical fiber
 7. Non-reflection Threshold The events with an insertion loss larger than this threshold will be in the event list.
8. Reflection Threshold The reflection events with a reflection strength equal to or larger than this threshold will be in the event list.
9. Ending Threshold The first event with an insertion loss equal to or larger than this threshold will be regarded as end of the optical fiber and all the events following it will be ignored.
10. Restore Defaults Defaults set for the scanning parameters before delivery
System parameter Definition
1. Auto Shutdown Choosing between Shut, 10 min., 30 min. and 1 h
2. Brightness Adjusting the LCD contrast
3. Lang. Choosing between a Chinese interface and an English interface
4. Date Date setup
5. Time Time setup
6. Length Unit Unit used in measurements by the instrument
 7. Restore Defaults Defaults set for the system parameters before delivery

Menu and submenus

The Menu includes File System, Parameter Setup, System Setup, Instrument Related Information, and Exit. See the figure below.

【Operate】Menu

  • Press the “Menu” key to enter the menu.
  • Press  and   to choose the item to be set.
  • Press Enter to confirm, or ESC or EXIT to exit.

File System

File System includes Open, Saved As, Delete and Format. Enter it through the “File” submenu under “Menu”.

Open

Open a file directory

First, enter the first-level directory.

  • Press  and   to choose the file folder.
  • Press Enter to enter the second-level directory, or ESC or CANCEL to exit from the file system.

Open a file

  • Press  and    to choose the file to be opened.
  • Press Enter to open the file, or ESC or CANCEL to exit from the file system.

Saved as

Press the direction keys to move to the figures or letters. Press Enter and input the file name. If the file name is wrongly input, press “<―” to erase the wrong part. After the file name is input,

  • Press the direction keys to move to the figures or letters. Press Enter and input relevant information. Press “<―” to erase the wrongly input part.
  • After the file name is edited, press ESC. After that, the cursor will move the “Save”. Press Enter.

Delete

Delete a file folder

  • Press and . After that, the cursor will move to the file folder to be deleted and press MARKER for choosing.
  • Press ESC. After that, the cursor will move to “Delete”. Press Enter.

Delete a file

  • Press  and . After that, the cursor will move to the file to be deleted and press MARKER (A-B) for choosing. This step may be repeated to choose multiple files.
  • Press ESC. After that, the cursor will move to “Delete”. Press Enter.

Measurement Instructions

Power on

Make sure the battery has been installed or the power adapter has been inserted and there is no light entering the optical port of the instrument. Press  for 3 seconds to start. After that, a startup interface will appear.

Connect an optical fiber

Connect the optical fiber with the optical port of the CuteOTDR by aligning with the locating hole and tightening the thread.

Connector cleaning: Clean the optical fiber connectors and inspect whether they are FC or PC connectors; connect the optical fiber with the instrument.

Measure an optical fiber in the Auto mode

In the Auto mode, the instrument will automatically estimate the optical fiber length, set the sampling parameters, acquire curves and display the acquired curves.

The following parameters can be set directly in the Auto mode.

Testing Wavelength, Mean Time, Index of Reflection, Scattering Coefficient, Non-reflection Threshold, Reflection Threshold, and Ending Threshold

Of all the other parameters, the application will execute the ones defined in the Manual mode (except for those always to be analyzed after measurements).

In the Auto mode, the application will automatically set the sampling parameters to be optimal values according to condition of the optical fiber link currently connected with the instrument.

Measure

Choose Auto behind Distance Range and hold. In the startup interface, press to start a measurement. The waiting time may differ with the specific parameters and mode. The interface will then display contents such as the measurement progress and the measurement stage. After the measurement, a result display interface will appear automatically. Press  at any time in the measurement can stop measuring and analyze the trace.

Measure an optical fiber in the Manual mode

In the Manual mode, user sets the designated measurement parameters manually. After that, the instrument will quickly and purposefully display the scanning results for use by professional users.

The parameters needing to be set include:

Distance Range: Set a Km value larger than the actual length.

Index of Reflection: Set the index of reflection of the optical fiber to be measured.

Pulse Width: A narrower pulse width can guarantee better detection of near or short-distance events; however, long-distance events cannot be acquired due to a too weak signal. A wider pulse width guarantee better detection of long-distance events; however, event detection may fail in near places due to signal saturation. Thus, the pulse width should be flexibly chosen in actual measurements.

Measuring Duration: The larger the measuring duration, the higher the signal-to-noise ratio; however, the waiting time will be longer. Thus, a longer measuring duration is recommended.

Non-reflection Threshold: The attenuation events or false gain events larger than this threshold will be detected.

Reflection Threshold: The reflection events larger than this threshold will be detected.

Scattering Coefficient: Set the scattering coefficient of the optical fiber to be measured. This parameter has an impact on calculation of the index of reflection.

Ending Threshold: The first event with an insertion loss equal to or larger than this threshold will be regarded as end of the optical fiber and all the events following it will be ignored.

Parameters can be set through menus of the instrument. If the optical fiber parameters are not clearly defined, the factory defaults of the instrument may be used directly; however, this will result in larger errors of the measurement results.

Measure

Set and hold all the parameters. In the startup interface, press  to start a measurement. The waiting time may differ with the specific parameters and mode. The interface will then display contents such as the measurement progress and the measurement stage. After the measurement, a result display interface will appear automatically. Press  at any time in the measurement can stop measuring and analyze the trace.

Save

After a measurement, user may enter the result saving interface directly by pressing hotkey File.

Upload data to PC

  1. Connect the CuteOTDR and the USB interface of a PC through a USB cable.
  2. Start the Cute
  3. Copy the curve content on the TF card.

Visual optical fault locating

The instrument can realize visual optical fault locating. The output wavelength and frequency are 650nm and CW/1Hz, respectively.

Operating steps: Connect an optical fiber with the red light output interface. CW red light and 1KHz red light will be output after VLS is pressed for the first and second time, respectively, and red light output will be disabled after the key is pressed for the third time.

Power off

Auto shutdown: If the power saving mode (namely the auto shutdown event) is chosen, the instrument will be powered off automatically after the set auto shutdown time is reached, no matter the instrument is powered by a battery or a power adapter and no matter whether there is key operation in the period.

Manual shutdown: If  is long pressed in any condition, the instrument will shut down automatically.

 

Questions from our customers

  1. A

    This OTDR offers a maximum measuring distance of 99.41 mi (160 km).

  2. A

    This OTDR can store more than 10000 curve information.

  3. A

    This OTDR has a ≤ 1.8 m narrow event dead zone.

  4. A

    The working wavelength for this OTDR is 1625 nm with belt filter which supports FTTx online testing.

Only registered users are eligible to enter questions