The 86121A is an optical analyzer from Agilent. An optical spectrum analyzer, also called an optical analyzer, is a precision instrument that measures the power of an optical source. This electronic test equipment is for monitoring power distribution over a specified wavelength span. It displays the measurement in a graph, where power is the vertical scale and wavelength is the horizontal scale.
Additional Features:
Wavelength range: 1270 to 1650 nm
Easy to use for WDM system test in the field
Measure wavelengths to within 3 pm absolute accuracy (NIST-traceable)
Simplify transfer of measurement results using the built-in floppy disk drive, printer or the RS-232 interface
Rugged and Portable
The Agilent 86121A WDM Channel Analyzer is a Michelson interferometer-based instrument that measures wavelength and optical power of laser light in the 1270 to 1650 nm wavelength range. Simultaneous measurements of multiple laser lines are performed allowing measurements of dense division multiplexed signals. Each laser line is assumed to have a linewidth (including modulation sidebands) of less than 5 GHz.
The 86121A is an optical analyzer from Agilent. An optical spectrum analyzer, also called an optical analyzer, is a precision instrument that measures the power of an optical source. This electronic test equipment is for monitoring power distribution over a specified wavelength span. It displays the measurement in a graph, where power is the vertical scale and wavelength is the horizontal scale.
Additional Features:
- Wavelength range: 1270 to 1650 nm
- Easy to use for WDM system test in the field
- Measure wavelengths to within 3 pm absolute accuracy (NIST-traceable)
- Simplify transfer of measurement results using the built-in floppy disk drive, printer or the RS-232 interface
- Rugged and Portable
The Agilent 86121A WDM Channel Analyzer is a Michelson interferometer-based instrument that measures wavelength and optical power of laser light in the 1270 to 1650 nm wavelength range. Simultaneous measurements of multiple laser lines are performed allowing measurements of dense division multiplexed signals. Each laser line is assumed to have a linewidth (including modulation sidebands) of less than 5 GHz.
