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ID: C0250007tek

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Product Description


GAOTek Basic OTDR combines the industry’s leading OTDR technology with visible laser source in one handheld unit. The instrument is designed for point-to-point testing of passive optical networks (PON), it offers several wavelength configurations and a wide range of options, for first-class flexibility and full coverage of short-haul OTDR test applications. The software provided can produce the status of tests according to the wavelength, span loss, ORL, fiber length, and macro bends locations.

Key Features

  • Test smart, accurate, and direct fiber link given event type, location and loss information
  • Event dead zone less than 16.4 ft (5 m)
  • USB-based OTDR and large data storage
  • 650 nm visible light output
  • Handheld design, compact-size, and light weight
  • Anti-seismic and shockproof protection
  • 1 in (2.5 mm) universal connector, FC/ST/SC exchangeable
  • Low-power consumption design
  • Auto shutdown, power saving design
  • Simple, fast, without complex training, suitable for field operation, User-friendly

Technical Specifications

Available Wavelength 5.16 x 10-5  in (1310 nm) or 6.10 x 10-5  in (1550 nm) or 5.16 x 10-5  in / 6.10 x 10-5 in (1310 nm /1550 nm)
Dynamic Range 5.16 x 10-5  in (1310nm): 23db

6.10 x 10-5  in (1550nm): 21db

5.16 x 10-5  in / 6.10 x 10-5 in (1310 nm/1550 nm): 23/21 db

Fiber Type Single mode fibers
Photo Detector InGaAs
Pulse Duration 20, 50, 100, 200, 500, 1000 ns
Max. Measurement Distance 37.3 mi (60 km)
Dead Zone 16.4 ft (5 m)(Reflective Event)

< 32.8 ft (10 m)(Non-reflective Event)

Loss Measurement Accuracy 0.1 dB/ dB
Visual Light Output 2.56 x 10-5 in (650 nm)
Distance Accuracy +/- 79 in (2 m) +3 × 10 – 3 × distance +/- 79 in (2 m) + 3 × 10 – 3 × Distance
Power Supply 1.5 V Battery × 3
Data storage 100 event information
General Specifications
Fiber Connector FC/PC
Operating Temperature 0 to 122 ºF (0 ℃ to 50 ℃)
Storage Temperature -4 to140 ºF (-20 ℃ to 60 ℃)
Operating Humidity 0 % ~90 %  RH (non-condensing)
Dimensions(L×W×H) 8.27 in x 4.72 in x 2.13 in (210×120×54 mm)
Weight 1.1 lbs (500 g)

Operating Instructions

Power on – Three seconds after pressing the key   , the welcome interface will be displayed on the LCD.

Connect Optic Fiber

  • Connect optic fiber to OTDR optic output directly, no tools needed. Make sure aim at the location hole.
  • Clean connectors carefully.
  • Clean tie-ins and check whether they are FC/PC tie-ins or not.
  • Connect optic fiber to the instrument

Parameter Setting

If the parameters are unclear, please use the default parameters of the instrument, however, this may cause an increase of measurements errors.

Operating steps:

Press the key 【MENU】, using the direction key 【】 and 【】 to choose the option 【SCANSET】, press the key 【ENTER】.

Manual mode – If  the  operators  have  full  knowledge  of  measured  optic  fiber, they  can  set  accurate parameters, and achieve optimal measurement results.

Change “Range”:

The following parameters need to be set up:

Scan Mode:Choose the manual mode;

Scan Range:Choose the parameter which is a little longer than the real range;

IOR Setting:Set the IOR of optic fiber;

Pulse Width: With narrow pulse width, there will be higher resolution and smaller dead zone; however, the dynamic range will be decreased. On the contrary, wide pulse width can bring higher dynamic range and measure comparatively long distance, but resolution and dead zone will be affected. Therefore, users should make choice between dynamic range and dead zone;

Average Num】:The longer the average time is, the higher SNR is;

nRef Thresh】:Only events GE the nRef threshold will be listed;

Ref  Thresh】:Only reflection events GE the Ref threshold will be displayed in events list;

Scatter Co-ef】:Scatter coefficient determines the value of backward scatter power.

Auto mode- Auto measurement  can  be  applied  in  case  that  the  length  of  optic  fiber  is  unidentifiable. OTDR auto select adequate range for measurement. In this mode, parameter

【Scan Range】and 【Pulse Width】will be ignored .Besides, users should set up parameter【IOR Setting】and【Scatter Coef】based on the real optic fiber. Others could choose the default setting.

After setting up, press the key【QUIT— choose【SAVE】— 【RETURN】


Press the key【SCAN】waiting for the end of measuring progress bar.

View results and save trace.

Definition of Trace: After one measurement, reflection power diagram will be displayed as distance function. This diagram is referred to as trace.

The instrument will show the result on the information window after the end of   measuring.

Trace of OTDR shows the results include total length of the optical fiber, number of events, total signal loss of the optical fiber and attenuation coefficient.

The y-axis stands for power, and the x-axis stands for distance.

No. 0/7: 0 is the total trace. There are 7 events in this trace.

Press the key 【】and 【】can choose a event.

Press the key 【ENTER】can view magnifying trace.

In the total trace window, press the key【ENTER】can view the event list. Press the key【】and【】can view every event.

Save the file

Press the key【QUIT】— choose【SAVE】— using the direction key modify time and name —【ENTER】—【ENTER】—【ENTER】—【RETURN】

Browse saved traces


This operation can browse saved traces. Choosing a file through direction key【】and 【】—【ENTER】—【Detail】

Upload data to PC

Saved traces can be uploaded to PC through the associated software “OTDRViewer”, with which traces can be further processed on PC.

  • Install the software, and run
  • Power on OTDR
  • Connect OTDR to PC through USB interface cable
  • 【MENU】—【HISTORY】— 【ENTER】【】【】—【ENTER】—【Upload】Upload data with the software. The whole process is as  in,

Restore default setting

【MENU】—【SYSSET】—【Load Default】—【YES】—【ENTER】—【QUIT】—【SAVE】

Real-time measurement

With the associated software “OTDRViewer”,users can upload data while measuring.

  • Install the software, and run
  • Connect OTDR to PC through USB interface cable
  • Power on OTDR and choose auto or manual mode
  • Start measuring
  • The software will show the trace after measuring.

Finding fault location by visible light

The instrument can find fault location by visible light. Wave length of the light is 650nm. Frequency of the light is CW/1Hz.

Operating steps:

Press the key 【MENU】— 【SYSSET】— 【VFL Setting】— Changing the

【CW】and【1HZ】 by direction key 【】and【

You can see the visible light outputting though the VLS interface. Changing to the option

【OFF】, the light will be closed.

Reasons of Measurement Failures

If measurement failures occur, reasons may be one of the following:

  • Events may be too close to each other shorten the pulse width, and make another try. If failure still occurs, please try to measure at the other end of the Optic Fiber Low SNR
  • Try to use wider pulse or increase average time, and make another try incorrect parameter configuration
  • Check parameter configuration, and make another try.


1 OTDR 1
2 FC Adapter 1
3 User Manual 1
4 USB Data Cable 1
5 CD 1
6 1.5 V AA-size alkaline batteries 3
7 Power Adapter 1
8 Quality Certificate 1
9 BB-002 Clean Cotton Stick 1