Compact: The AQ2200-331 features an optical variable attenuator and an optical power meter for monitoring the optical output power in a one-slot module. Ideal for bit error testing Compatible with SMF (core diameter of 10 µm) or MMF (core diameter of 62.5 µm) Attenuation accuracy: within ±0.1 dB With the output monitoring function, the AQ2200-331 allows direct setup of optical power at the output terminals Can be combined with various AQ2200 series modules or other Yokogawa's optical communication measuring instruments to build versatile measuring systems
Compact and space saving: The AQ2200-342 features two optical variable attenuator in a one-slot module Wavelength range: 1260 to 1640 nm Maximum attenuation range: 40 dB Fast attenuation control: 100 ms Shutter isolation: 70 dB or more Reduced energy, emission of CO2, NOX and SOX about 45% compared to the previous model.
The AQ2200-131 and AQ2200-132 are single and dual channel tunable light source modules for mounting into the AQ2200 series multi application test system. The output wavelength can be conveniently set to the predefined DWDM grid channels. Reduced energy, emission of CO2, NOX and SOX about 10% compared to the previous model.
The AQ2200-215 is an optical power meter designed specifically to measure high optical power up to +30dBm. It features high speed sampling and advanced data processing functions. The AQ2200-215 is an ideal measurement tool for optical output power measurement and margin test of WDM transmission equipment, as well as gain measurements of optical fiber amplifiers. It is commonly used in conjunction with other AQ2200 Series modules and the AQ6370C Optical Spectrum Analyzer to offer a flexible customized optical measurement system.
Compact: Optical switches of 1 x 4 or 1 x 8 port configuration in a one-slot size module Compatible with SMF (core diameter of 10 µm) or MMF (core diameter of 62.5 µm) Low insertion loss: 1.0 dB (typ.) High switching reproducibility: within ±0.01 dB Can be combined with various AQ2200 series modules or other Yokogawa's optical communication measuring instruments to build versatile measuring systems DETAILS HIGH-PERFORMANCE OPTICAL SWITCH The AQ2200-411 OSW module is a space-saving optical switch featuring low insertion loss and superior switching reproducibility, and allows selection of 1 x 4 or 1 x 8 port configuration according to the application.Moreover, the optical fiber type can also be selected between SMF (core diameter of 10 µm) and MMF (core diameter of 62.5 µm), allowing a wide range of measuring systems to be built corresponding to the systems or devices used in optical public networks or optical LANs. EXAMPLES OF MEASUREMENT APPLICATION For measuring multiple objects, with switching of the object to be measured For measuring device characteristics, etc. by switching multiple measuring...
Compact: Optical switches of 1 x 16 port configuration in a two-slot size module Compatible with SMF (core diameter of 10 µm). MMF (core diameter of 50 or 62.5 µm) is also available on request. Low insertion loss: 1.0 dB (typ.) High switching reproducibility: within ±0.01 dB Can be combined with various AQ2200 series modules or other Yokogawa's optical communication measuring instruments to build versatile measuring systems
Compact: Optical switches of 1 x 2 or 2 x 2 port configuration in a one-slot size module Compatible with SMF (core diameter of 10 µm) or MMF (core diameter of 62.5 µm) Low insertion loss: 1.0 dB (typ.) High switching reproducibility: within ±0.01 dB Can be combined with various AQ2200 series modules or other Yokogawa's optical communication measuring instruments to build versatile measuring systems
The AQ2200-642 reduces the complexity and cost of 10G optical transceiver testing by combining bus and power control features into the same mainframe that performs Signal Generation, BERT and Optical testing. This allows a single programming interface to control all aspects of the transceiver test, simplifying test setup, decreasing test time and increasing productivity. The wiring complexity and test bench size are reduced by replacing separate Digital Multi-Meters, Programmable Power supplies and Serial I/F controllers with a single module.