Yokogawa offers AQ6374 optical spectrum analyzer for 350-1750 nm range

Jan. 12, 2017
Yokogawa has introduced the AQ6374 optical spectrum analyzer (OSA), the successor to the Yokogawa and ANDO-branded AQ6315A wideband OSA. The benchtop AQ6374 features diffraction grating based monochromator technology for highly precise measurement performance, an enhanced user interface, and an air purging feature for applications over the wavelength range from 350 to 1750 nm.

Yokogawa has introduced the AQ6374 optical spectrum analyzer (OSA), the successor to the Yokogawa and ANDO-branded AQ6315A wideband OSA. The benchtop AQ6374 features diffraction grating based monochromator technology for highly precise measurement performance, an enhanced user interface, and an air purging feature for applications over the wavelength range from 350 to 1750 nm.

The new OSA inherits enhanced versions the control technologies originally developed for the AQ6370 series. The AQ6374 therefore offers improved operability and measurement speeds up to 40X that of its predecessor. For example, the ability to sample 100,001 points of data is 100X as much as the AQ6315A and enables measurement over a broad wavelength range with high resolution. Meanwhile, data-transfer rates during remote control via Ethernet are up to 100X faster than for the AQ6315A.

Thanks to its monochromator technology, the OSA offers:

  • wavelength resolution setting from 0.05 to 10 nm
  • wavelength accuracy of ±0.05 nm (at 633 and 1523 nm) or ±0.2 nm (from 350 to 1700 nm)
  • level accuracy of ±1.0 dB
  • level sensitivity of -80 dBm (from 900 to 1600 nm)
  • measurable power range from -80 to +20 dBm
  • close‐in dynamic range of 60 dB (peak ± 1.0 nm, resolution 0.05 nm)
  • sweep time of less than 0.5 sec.

The instrument features internal data storage of 512 MB; external data storage is supported via a USB interface. The OSA also has Ethernet RJ-45 and GP‐IB interfaces. A built‐in calibration source enables fully automatic optical alignment and wavelength calibration in "just a few minutes," Yokogawa says.

The new purging feature is designed to minimize the influence of water-vapor absorption on spectral measurements. It continuously supplies a pure purge gas such as nitrogen (or dry air) to the monochromator through dedicated connectors on the back panel.

For related articles, visit the Test and Measurement Topic Center.

For more information on test equipment and suppliers, visit the Lightwave Buyer's Guide.

Sponsored Recommendations

State of the Market: AI is Driving New Thinking in the Optical Industry

Dec. 5, 2024
The year 2024 marked an inflection point for AI. In August, OpenAI’s ChatGPT reached 200 million weekly active users. Meanwhile, McKinsey reported that 72% of ...

Getting ready for 800G-1.6T DWDM optical transport

Dec. 16, 2024
Join as Koby Reshef, CEO of Packetlight Networks addresses challenges with three key technological advancements set to shape the industry in 2025.

From Concept to Connection: Key Considerations for Rural Fiber Projects

Dec. 3, 2024
Building a fiber-to-the-home network in rural areas requires strategic planning, balancing cost efficiency with scalability, while considering factors like customer density, distance...

Linear Pluggable Optics – The low-power optical interconnects for AI and Hyperscaled data centers.

Dec. 23, 2024
This LightWave webinar discussion will review the important technical differentiators found in this emerging interconnect field and how the electro/optic interoperability and ...