AQ1210 Series Optical Time Domain Reflectometer (OTDR)
OTDR-Prüfgerät AQ1210
- Die OTDR-Tester der Serie AQ1210 von Yokogawa wurden entwickelt, um Technikern im Außendienst die Möglichkeit zu geben, schnelle und präzise Messungen vorzunehmen.
- Das optische Zeitbereichsreflektometer (OTDR) AQ1210 bietet mit seinem robusten Design hohe Zuverlässigkeit für den Betrieb unter rauen Feldbedingungen.
- Das mit innovativer Technologie ausgestattete AQ1210 verfügt über einen dualen Betriebsmodus mit Multitouchscreen und Tasten sowie über vollautomatische Messungen und leicht lesbare Analyseberichte durch neue Softwareanwendungen.
- Darüber hinaus steigert das AQ1210 die Produktivität und Bedienbarkeit durch seine schnelle Startzeit, den Multitasking-Betrieb und die sofortige Berichterstellung über eine drahtlose Verbindung.
Details
Features
Compact body with long-lasting battery operation
- Footprint approx. size of a “Mini” tablet, weight of 1 Kg (2.2 Lbs.)
- 10 hours battery operation
- USB power feeding
*USB power adapter (Type-C) is required for battery charging (sold separately).
Touchscreen and hard-key buttons
The AQ1210 features a capacitive multi-touch touchscreen, 5.7-inch LCD, and a “field use” friendly rotary dial.
Multiple functions in one unit
Functions
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.
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.
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 waveform.
Multi-Fiber Project
Database view. Organized. Quick preview of network characteristics
- OTDR-based application in a database view.
- Guiding users in tracking multi fibers measurements in sequence.
OTDR trace, power level and connector surface image of a particular fiber core are organized as one group.
With PASS/FAIL judgment, fiber core performance is easily characterized.
File transfer and remote control
File transfer
The AQ1210’s data files can be transferred to a smartphone or tablet through Wi-Fi using a web browser or the OTDR data transporter, or a WindowsTM PC through Wi-Fi or LAN using a web browser or the AQ7933 Emulation software.
Remote control
The AQ1210 can be controlled remotely by a smartphone or tablet using a web browser and by a WindowsTM PC using a web browser, the AQ7933 Emulation software, or remote- control commands through Wi-Fi or LAN.
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: DI-1000-B2 (Lightel)
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.
OTDR view mode
The 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 waveform 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.
Optical loss test using light source & optical power meter
Optical loss test is performed by adjusting the optical output power (P1) at the end of launch fiber and measuring the output power of fiber under test (P2) afterward.
Total fiber loss = P1 − P2 (dB)
Auto loss test function
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 (1310 and 1550 nm) automatically; therefore, the loss measurements can always be performed at right wavelengths
*/SPM or /HPM option is required.
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.
Multi-fiber loss test
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.
*/SPM or /HPM option is required.
Design
Modellübersicht / Spezifikationen
Model | AQ1210A | AQ1215A | AQ1210E | AQ1215E | AQ1215F | AQ1216F | |
---|---|---|---|---|---|---|---|
Wavelength (nm) | 1310 ±25 / 1550 ±25 | 1310 ±25 / | 1310 ±25 / 1550 ±25, 1625 ±25 | 1310 ±25 / 1550 ±25, 1650 ±5 *6 | 1310 ±25 / 1550 ±25, 1650 ±25 | ||
Number of optical ports | 1 | 2 (Port 2: 1625 nm, including a filter) | 2 (Port 2: 1650 nm, including a filter) | ||||
Applicable fiber | SM (ITU-T G.652) | ||||||
Distance range (km) | 0.1 to 256 | 0.1 to 512 | 0.1 to 256 | 0.1 to 512 | |||
Pulse width (ns) | 5 to 20000 | 3 to 20000 | 5 to 20000 | 3 to 20000 | |||
Event dead zone (m) *1,*8 | 0.75 | 0.5 | 0.75 | 0.5 | |||
Attenuation dead zone (m) *2,*8 | 4 | 2.5 | 4 | 2.5 | |||
PON dead zone (m) *3 | 35 | 30 | 35 | 30 | |||
Dynamic range (dB) *4,*8 | 37 / 35 | 42 / 40 | 37 / 35, 35 | 42 / 40, 39 | 42 / 40, 37 | 42 / 40, 40 | |
Loss measurement accuracy *5 | ±0.05 dB/dB | ±0.03 dB/dB | ±0.05 dB/dB | ±0.03 dB/dB | |||
Optical return loss measurement accuracy | ±2 dB | ||||||
Number of sampling points | max. 256000 | ||||||
Sampling resolution | min. 5 cm | min. 2 cm | min. 5 cm | min. 2 cm | |||
Minimum readout resolution | Horizontal axis: 1 cm, vertical axis: 0.001 dB | ||||||
Distance unit | km, mile, kft | ||||||
Distance measurement accuracy | ± (0.75 m + measured distance × 2 × 10−5 + sampling resolution) | ||||||
Group refractive index | 1.30000 to 1.79999 (0.00001 intervals) | ||||||
Optical connector | SC, FC, LC, or SC angled-PC | ||||||
OTDR function | Measurement items | Distance, loss, return loss, return loss between two arbitrary points, dB/km | |||||
Analysis | Multi-trace analysis, two-way trace analysis, differential trace analysis, section analysis, auto event search, pass/fail judgment, fiber surface test (option) | ||||||
Other functions | Multi-fiber project, rerouted fiber comparison, work completion notice, smart mapper, remote control, web server, report generation | ||||||
Light source function | Output power | −3 dBm ±1 dB | |||||
Output power stability *7 | ±0.05 dB (1310 nm, 1550 nm), ±0.15 dB (1625 nm, 1650 nm) | ||||||
Modulation mode Optical | CW, 270 Hz, 1 kHz, 2 kHz | ||||||
output port | OTDR port | ||||||
Laser class | Class 1M (IEC 60825-1: 2007, GB 7247.1-2012), Class 1 (EN 60825-1: 2014) | ||||||
Display *9 | 5.7-inch color TFT LCD (resolution: 640 × 480, multi-touch capacitive touchscreen) | ||||||
Interfaces | USB 2.0 type-A × 2: USB mass storage device, fiber inspection probe, USB dongle (LAN, WLAN), USB 2.0 type-C × 1: DC power supply, storage, remote control | ||||||
Data storage | Storage | Internal: ≥1000 traces, external: USB storage | |||||
File format | Write: SOR, CSV, SET, SMP, BMP, JPG, report Read: SOR, SET, SMP | ||||||
Power requirements *10 | USB power supply (Type-C), DC 5 V ±5 %, max. 3 A | ||||||
Battery *8 | Type: Lithium ion polymer Operation time: 10 hours or more (Telcordia GR-196-CORE Issue 2, September 2010), Recharge time: 5 hours (power-off state) | ||||||
Environmental conditions | Operating temperature: −10 to 50 °C (10 to 35 °C when charging the battery), operating humidity: 5 to 90 %RH (non- condensing), storage temperature: −20 to 60 °C, storage humidity: 0 to 90 %RH (non-condensing), altitude: 4000 m, dust and drip protection: IP51 equivalent *12 | ||||||
EMC*11 | Emission | EN 61326-1 Class A, EN 55011 Class A Group1 | |||||
Immunity | EN 61326-1 Table2 | ||||||
Laser safety standard *11 | EN 60825-1: 2014, IEC 60825-1: 2007, GB 7247.1-2012, FDA 21CFR1040.10 and 1040.11 | ||||||
Environmental regulation standard | EN 50581 | ||||||
Dimensions | Approx. 210 mm (W) × 148 mm (H) × 69 mm (D) (excluding projections) | ||||||
Weight | Approx. 1 kg (including battery) |
*1: Minimum pulse width, return loss: ≥55 dB, group refractive index: 1.5, at 1.5 dB below the unsaturated peak level.
*2: Pulse width: 10 ns, at 1310 nm, return loss: ≥55 dB, group refractive index: 1.5, at a point where the backscatter level is within ±0.5 dB of the normal level.
*3: Pulse width: 100 ns (AQ1210A, AQ1210E), 50 ns (AQ1215A, AQ1215E, AQ1215F, AQ1216F), at 1310 nm, for non-re ective ber with a loss of 13 dB.
*4: Pulse width: 20000 ns, measurement time: 3 minutes, SNR=1, decrease by 0.5 dB with an angled-PC connector.
*5: ±0.05 dB for a loss of 1 dB or less.
*6: At 20 dB below the spectral peak of pulsed optical output, at 23 ̊C, after 30 minutes warm up.
*7: Constant temperature, for 5 minutes after 5 minutes warm up.
*8: Typical.
*9: The LCD may contain some pixels that are always on or off (0.002% or fewer of all displayed pixels including RGB), but this is not indicative of a general malfunction.
*10: Require approx. 3 amperes for recharging during operation, approx. 2 amperes for recharging in power-off state.
*11: With Optical power meter and Visible light source option
*12: All the rids are being closed.
Dokumente und Downloads
Beschreibung | Downloadinfo |
---|---|
AQ1210 Series – Optical Time Domain Reflectometer – Smart and fully-featured OTDR | 1.79 MB |