YOKOGAWA TELECOM OPTICAL SPECTRUM ANALYZER AQ6370D

World-Class Optical Performance

  • Wavelength range: 600 to 1700nm
  • High wavelength accuracy: ±0.01nm
  • High wavelength resolution: 0.02nm
  • Wide dynamic range: 78dB typ.
  • Wide level range: +20 to -90dBm
  • Fast measurement: 0.2 sec. (100nm span)
  • Applicable to single-mode and multimode fibers

Related Products

Offers higher Wavelength Accuracy, but reduced span, and sensitivity compared to the AQ6370D OSA

 

World-Class Optical Performance

  • Wavelength range: 600 to 1700nm
  • High wavelength accuracy: ±0.01nm
  • High wavelength resolution: 0.02nm
  • Wide dynamic range: 78dB typ.
  • Wide level range: +20 to -90dBm
  • Fast measurement: 0.2 sec. (100nm span)
  • Applicable to single-mode and multimode fibers

Standard and High-Performance Models

There are two models available, Standard and High performance. The High performance model provides even higher wavelength accuracy and dynamic range.

High wavelength resolution: 0.02nm

High Wavelength Accuracy: ±0.01nm

  • High performance model: ±0.01nm (C band)
  • Standard model: ±0.02nm (C+L band)
Wavelength Range Standard (-10) High Performance (-20)
1520 to 1580 nm
1580 to 1620 nm
1450 to 1520 nm
Full range
±0.02 nm
±0.02 nm
±0.04 nm
±0.1 nm
±0.01 nm
±0.02 nm

±0.04 nm
±0.1 nm

Ultra-High Dynamic Range: 78dB typ.

With the reduced stray-light in the monochromator, AQ6370D achieves ultra-high dynamic range of typ. 78dB.
  Standard (-10) High Performance (-20)
Peak± 1.0 nm
Peak± 0.4 nm
Peak± 0.2 nm
73 dB
62 dB
45 dB
73 dB (Typ.78dB)
64 dB (Typ.70dB)
50 dB (Typ.55dB)
*Resolution setting 0.05 nm

AQ6370D 1 1

Example of the dynamic range
Peak ±1.0nm, Resolution setting 0.05 nm,
High dynamic mode: ON, High performance model

Sharper Filter Edge

The high performance model can also achieve a higher dynamic range within 0.2nm of the peak wavelength. With the sharper spectral characteristics of the monochromator, spectral signals in close proximity can be separated clearly and measured accurately.

  Standard (-10) High Performance (-20)
Peak± 0.2 nm
Peak± 0.1 nm
55 dB
37 dB
58 dB (Typ.60dB)
45 dB (Typ.50dB)
*Resolution setting 0.02 nm

AQ6370D 2

Example of the spectral shape

Stray-light suppression ratio: 80dB typ. 

This new specification provides stray-light suppression capability when High dynamic mode, usually taking longer measurement time, is not used. The AQ6370D contributes to shortening the measurement time with the high stray light suppression ratio.
Standard (AQ6370D-10) High Performance (AQ6370D-20)
73dB 76dB (Typ. 80dB)
*Resolution setting 0.1nm

AQ6370D 3

Example of the stray-light suppression ratio
High dynamic mode: ON, Resolution setting 0.1 nm, High performance model

Wide Level Range: +20DBm to -90dBm

The AQ6370D can measure high power sources such as optical amplifiers and pump lasers for Raman amplifiers, and very weak optical signals as well. Measurement sensitivity can be chosen from seven categories according to test applications and measurement speed requirements.

  • Improved level sensitivity: -85dBm (1000 to 1300nm)
  • Smoothing Function - Reduce noise on the measured spectrum
  • High dynamic mode - Obtain a better dynamic range by reducing the influence of stray-light, which is caused when the input is a strong optical signal.

Free Space Input

  • AQ6370D 4Multimode and single mode fiber on the same OSA.
  • AQ6370D's low insertion loss for multimode fiber is also beneficial to maintain the excellent measurement efficiency.
  • Small insertion loss variation at the input
  • connector increases measurement repeatability.
  • No damage connecting fibers
  • because there is no physical contact.
  • APC level correction
  • The APC level correction function corrects the level offset caused by an insertion loss of angled PC connector.

Excellent Efficiency

Fast Sweep: 0.2sec./100nm

With an advanced monochromator, faster electrical circuits, and noise reduction techniques, the AQ6370D achieves fast measurement speed even when measuring a steep spectrum from DFB-LD or DWDM signals, or when measuring a low power signal from a broadband light source.

Fast Remote Interface (Ethernet, GP-IB)

Wide Span Sweep yet High Resolution

The 50,001 data sampling points expands measurement range in a single sweep while keeping a high wavelength resolution. This makes your measurement easier and more efficient than conventional systems.

Easy Operation

Trace Zooming
  • Change display conditions, such as center wavelength and span, by clicking and dragging the mouse.
  • Enlarge your area of interest instantly and move it at will.
Mouse & Keyboard Operation
  • Front panel operation proven intuitive and easy to use by our many of users.
  • Even easier with a mouse.
  • The keyboard helps enter labels and file names.

Easy Data Handling

  • AQ6370D 5USB Storage
  • USB interfaces support large-capacity removable memory and hard disk drives.
  • 512MB Internal Memory
  • for over 20,000 traces
      • All-at-Once Trace Filing
      • All seven traces can be saved in one file at once.
    FUNCTIONS

    Data Logging Function

    The Data Logging function records analysis results such as WDM analysis (OSNR, optical signal/noise ratio), distributed feedback laser diode (DFB-LD) analysis, and multi-peak measurements at up to 10,000 points per channel with time stamps. Recorded data can be displayed in table and graphical forms. This function is useful for the long-term stability testing and temperature cycle testing of systems and devices. The optical spectrum of each measurement can also be stored for reviewing and troubleshooting.

    AQ6370D 8
    Example of the data logging display

    Advanced marker function

    The Advanced Marker function adds markers to obtain the power density and the integrated power of a designated spectrum. This new feature makes it easy to get an OSNR value of the signal, whether modulated or not, directly from its spectrum.

    AQ6370D 8
    Example of the advanced marker

    Gate sampling function

    The Gate Sampling function facilitates the recirculating loop testing of optical transmission systems. Using an external gate signal, the AQ6370D obtains the optical spectrum of the signal which is passing through a certain loop. The advantage of this approach is its speed compared with the conventional External Trigger or Sweep Enable function.

    Resolution calibration function

    The Resolution Calibration function is used to calibrate the noise equivalent bandwidth with an external light source. With this new feature, the measurements of power density of a broad spectrum light source will be more accurate

    Various Analysis Functions

    7 Indvidual Traces

    • Simultaneous multi-trace display
    • Calculation between traces (subtraction between traces)
    • Max/Min hold
    13 Spectral Analysis Functions
    for popular applications, such as:
    • Spectral width analysis
    • WDM (OSNR) analysis
    • WDM-NF (EDFA) analysis
    • DFB-LD analysis
    • FP-LD analysis
    • LED analysis
    • SMSR analysis
    • Various filter analysis
    • With the macro programming, multiple analyses can be combined and executed automatically.

    Building Automated Test System

    Macro ProgrammingAQ6370D 6
    • Build a simple auto-measurement system without an external controller.
    • Easy to create test program by recording the user's actual key strokes and parameter selections.
    Fast Remote Interfaces
    • GP-IB, RS-232, and Ethernet (10/100Base-T) interfaces
    • Improve the testing throughput of test systems by the fast measurement, command processing, and data transfer speed.
    • SCPI compatible commands and AQ6317 Emulation Mode
    • LabVIEW® Driver available

    Easy to Keep Accurate

    Ambient condition change, vibration and shock to an optical precision product, like an optical spectrum analyzer, will effect the optical components, and eventually degrade optical performance. Using standard functions, AQ6370D can maintain its high optical performance within a couple of minutes so that you can quickly start a measurement.

    • Built-in wavelength reference source
    • AQ6370D comes equipped with a wavelength reference source for the wavelength calibration and optical alignment.
    • Wavelength calibration function
    • Automatically calibrates with the built-in wavelength reference or an external light source, to ensure the wavelength accuracy.
    • Optical alignment function
    • Automatically aligns the optical path in the monochromator using the built-in source to maintain high performance.
    APPLICATIONS AQ6370D's overall high performance can cover not only manufacturing of optical devices and optical transmission systems but also research and development, and a variety of other applications.
    • Optical active devices
    • Laser diode/Fiber laser/Optical amplifier/Optical transceiver
    • Optical passive devices
    • Filter/FBG/AWG/WSS/ROADM/Optical fiber
    • Optical transmission equipment (DWDM, CWDM)
    • Development support of Applied photonics equipment

    OSNR Measurement on DWDM System

    AQ6370D 7
    AQ6370D's wide close-in dynamic range allows accurate OSNR measurement of DWDM transmission systems (up to 50 GHz spacing). The built-in WDM analysis function analyzes the measured waveform and shows peak wavelength, peak level and OSNR of WDM signals up to 1024 channels simultaneously.

    Optical Amplifier (EDFA) Measurement

    AQ6370D 8
    The ASE interpolation method is used to measure gain, NF, and key parameters for optical fiber amplifier evaluation. With WDM-NF analysis function, up to 1024 channels of multiplexed signals can simultaneously be tested. An ASE level for NF measurements is calculated by using a curve-fit function for each WDM channel.
    • LIFE CYCLE ASSESSMENT
      LCA Reduced energy, emission of CO2, NOx and SOx about 17% compared to the previous model.
    ACCESSORIES

    NA Conversion Adapter

    NA Conversion Adapter

    The 735383-A001 and A002 are unique adapters that reduces the numerical aperture (NA) of a connected fiber to half and is only applicable to the free space optical input structure on the Yokogawa AQ6370 series optical spectrum analyzers

     

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