AQ1210 Series Optical Time Domain Reflectometer

The Yokogawa AQ1210 series OTDR is designed to empower field technicians to make fast and precise measurements with confidence. The AQ1210 OTDR delivers high reliability with its robust design for operating under harsh field conditions. Engineered with innovative technology, the AQ1210 features dual operation mode by multi-touch touchscreen and hard-key buttons as well as fully automatic measurement and easy-to-read analysis reports through new software applications. In addition, the AQ1210 enhances productivity and operability with its lightning startup time, multi-tasking operation, and immediate reporting via wireless connectivity.

7 types of Model lineup

Seven models ideal for installation and maintenance of various optical communication access networks

Compact body with long hour operation

Footprint approx. size of A5 paper, weight of 1 kg (2.2 Lbs.)
10 hours battery operation

Intuitive operation by touch and hard keys

The AQ1210 features a capacitive multi-touch touchscreen, 5.7-inch LCD, and a “field use” friendly rotary dial.

Connectivity

Data transfer and remote control via Wi-Fi or ETHERNET connection.

Enhanced OTDR performance

Measurement of PON systems with up to 128 splits
Hi-Speed real-time measurement

Functions and features for improved work efficiency

Multi-fiber measurement, Smart mapper function, PDF reporting

Much more than an OTDR

A variety of optional features for multi-tasking.

Much more than an OTDR

Model lineup

Model Number of
wavelength
Cut Filter Number of
OTDR port
Dynamic range (dB)(Typ) Application
Port1 (nm) Port2 (nm) Installation Maintenance
1310 1550 1625 1650 MM
850
MM
1300
Dark Live
AQ1210A 2   1 37 35          
AQ1215A 2   1 42 40          
AQ1210E 3 2 37 35 35      
AQ1215E 3 2 42 40 39      
AQ1215F 3 2 42 40   37    
AQ1216F 3 2 42 40   40    
AQ1210D 4   2 37 35     25 27  

PON optimized

Excellent hardware performance and advanced analysis algorithm enable the AQ1210 to accurately characterize Passive Optical Networks (PON) through high-port-count splitters (up to 1 × 128)*.
The AQ1210 assists beginner/expert users in simply configuring OTDR measurement settings based on PON topology information for optimal results. Short event dead zone and high sampling resolution enable users to detect as close as 0.5 meters (<20 inches)*.
*Typical, with AQ1215A/E/F and AQ1216F

PON optimized

Dual-operation mode

Touchscreen and hard-key buttons
Tap, swipe, pinch or press. Choose between the high resolution 5.7-inch multi-touch capacitive touchscreen or the robust hard-key buttons in any combination desired. OTDR operations have never been easier!

Dual-operation mode

Dual-operation mode

 

Long battery operation time

Over 10 hours!
No worrying about running out of battery power during your daily work. The AQ1210’s high capacity Li-Ion polymer battery will last for 10 hours under the Telcordia standard conditions.

 

Quick boot-up

Under 10 seconds!
From completely OFF to measurement ready in under 10 seconds!

 

High-speed, high-performance real-time measurement

When detecting/identifying the position of a fiber end point or bend of an installed optical fiber network, a user, according to the operating environment, can choose among the two modes: the high-speed mode with less measuring time and the high accuracy mode that is capable of reproducing a high-quality trace.

High-speed, high-performance real-time measurement

Yellow: Real-time (Hi-Speed), Blue: Real-time (Hi-Reflection), Red: Averaged (Hi-Reflection)

 

Multi-fiber measurement

Measurement conditions of up to 2000 cores are managed in a table, allowing efficient measurement of multi-fibers.
For each core number, OTDR measurement, loss measurement and fiber core surface image can be saved.
Cores that have been measured are highlighted in color and saved data can be shown in the preview window by selecting the core number in the table. This prevents unintended omission in core measurements and reduces your working time at a site.

Multi-Fiber Project

 

OTDR view mode

traceThe OTDR view can be switched between the trace and the map by simply tapping the icon. The trace is a traditional view with an OTDR trace and event markers, and the map is an icon-based view for easy interpretation of network events, which is also used for the Smart mapper function.

OTDR view mode

 

Loss test

Use the light source and optical power meter to measure optical loss.*1

High power measurement

The high power optical power meter (/HPM option) can measure the high optical power up to +27 dBm. It allows to measure video services and long distance transmission lines where an optical amplifier is used to boost the optical signal power.

 

Auto loss test function*2

The AQ1210 can transmit the wavelength information of light source to the other AQ1210 placed at the other end to set the same wavelength for the optical power meter, and they are capable of switching the wavelengths automatically; therefore, the loss measurements can always be performed at right wavelengths.

Auto loss test function

 

Multi-fiber loss test*2

The Multi-fiber loss test function incorporates two AQ1210s as master and slave through the communication fiber in the cable under test. They share a test project information including fiber numbers to be tested and measurement conditions, so that you can ensure the measurement is performed properly for each fiber of the cable under test.

Multi-fiber loss test

*1: /SPM or /HPM option is required.
*2: AQ1210, AQ1200, and AQ1100 with /SPM or /HPM option can be used.

 

PON power measurement*3

The PON power meter can measure the optical power both at 1490 nm and at 1550 nm simultaneously by separating those wavelengths. It is a suitable tool for measuring the optical power of OLT and V-OLT.
*3: /PPM option is required.

PON power measurement

Direct data saving

Simply pressing “Direct save” icon, measured data can be saved in SOR, PDF, or both formats according to users’ prior selection.

 

 

PDF reporting

Built-in post-processing software for generating OTDR reports in PDF format. Flexible configuration of report template to meet users’ report requirements.

 

File transfer and remote control

AQ1210s can be controlled remotely by using an external device through a USB cable or Wired/Wireless LAN*.
* Conversion adapter using USB port is required

File transfer and remote control

Web browser function

The AQ1210 series have a web server feature, so file transfer and remote control are possible using a web browser on an external device without worrying about the OS of the external device.

Web browser function

AQ7933 Emulation software

Software to display and analyze the trace data measured on an OTDR. It can also create and output reports of analysis results on a PC. Equipped with the remote controller and file transfer applications, this is a more powerful tool to assist your work.

Data transporter

By using the data transporter, the AQ1210’s data files are able to be saved to cloud storage or be attached to an email by a mobile device connected to the AQ1210 with wireless LAN.

Data transporter

 

Advanced trace analysis

Multi-trace analysis

Up to four traces can be overlaid on the display for analysis and comparison. This is useful for evaluating the locations and loss of connections after installing multiple fibers.

2-way trace analysis

Averages the two traces measured from one end of fiber link and the other to nd the connection loss properly and accurately. When only measured from one end, the connection loss may be shown incorrectly due to the difference in the backscatter coefficient between the connected fibers.

Differential trace analysis

Displays the difference between two specified traces. Makes it simple to check aging of fibers or connection points, or variation in loss among fibers, and other phenomena.

Section analysis (Return loss)

Finds the total return loss in specific section of fiber link. It is often required because the multiple reflections from optical fiber networks can affect the optical communication signal from transmitters of CATV for instance.

 

Connector quality assurance

Using a video fiber inspection probe*, fiber connector surface is visualized for inspection of scratches and dirt. The Fiber Surface Test function (option) can automatically analyze scratches and dirt and makes PASS/FAIL judgment based on IEC61300-3-35 compatible or arbitrary decision criteria.
*Recommended probe: Dl-1000-B2/ Dl-2000-B2 (Lightel), FVO-730B-P (Eternal)

Connector quality assurance

 

Smart Mapper

Single button measurement. Comprehensive network characterization. Easy to read report Measurement acquisitions with multiple pulse widths and smart-algorithm enable users to detect and comprehensively characterize network events by pressing one single button. Simple, icon-based map view for easy interpretation of network events. Immediate PASS/FAIL judgment based on user-defined thresholds.
Easily toggled trace view for manual supplementary analysis.

Smart Mapper

 

Multi-tasking

Enhancing productivity
Managed by a highly efficient operating system, multiple functions can be performed simultaneously.
Now, users can perform OTDR measurements on a particular fiber core while simultaneously checking the power level, connector surface quality and visible fiber ID/bending on three other fibers.

Multi-tasking

 

Enlarging the trace window

By simply tapping the dedicated icon, the trace display window can be enlarged for easy viewing and manipulation.

Enlarging the trace window

 

Macro bending detector

Macro bending events along a fiber under test can be identified and located automatically by OTDR measurements using multiple wavelengths trace comparison and event analysis based on user-defined thresholds.

Macro bending detector

 

AQ1210 Interfaces

Power switch

AVG Key

CHARGE LED

REAL TIME Key

ESC Key

LCD

SETUP Key

USB port Type-C

MENU Key

USB port Type-A

ENTER Key

OTDR port (PORT2)

Allow Key

OTDR port (PORT1)

Rotary dial

OPM port (option)

LASER LED

VLS port (option)

LCA  Reduced energy, emission of CO2 about 29% compared to the previous model.

PDFResults of Life Cycle Assessment

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