The
LambdaCommander™ Model OSP-9500 is a Programmable Spectral Source (PSS) for complete control in testing environments of source optical spectral characteristics.
The LambdaCommander PSS is a fiber-coupled instrument that is dynamically re-configurable, capable of generating static or time-dependant spectral profiles over a range of 100 nm. Based on Digital Light Processing™ technology, LambdaCommander uses the Digital Micromirror Device that is at the heart of DLP™ technology to rapidly switch segments on-and-off, in an incremental manner, transforming a diffracted spectral profile into an optical output.
Effectively, the fiber-coupled instrument can apply a desired transformation of the internal Amplified Spontaneous Emission (ASE) source or external optical signal to create the exact spectrum from simply passing selected narrow wavelengths and blocking others.
The instrument allows creating, activating, and saving transmission profiles from the instrument menu options allowing storage of up to 300 spectral transmission profiles that can be retrieved via the front panel or its PC interface. Pre-programmed filter functions can also be uploaded from the instrument into a PC, modified, and stored back in the instrument for immediate use.
Custom profile generation with sub-nanometer control is easily achieved, and there are simple commands to superimpose new or saved profiles, permitting the realization of ...
The
LambdaCommander™ Model OSP-9500 is a Programmable Spectral Source (PSS) for complete control in testing environments of source optical spectral characteristics.
The LambdaCommander PSS is a fiber-coupled instrument that is dynamically re-configurable, capable of generating static or time-dependant spectral profiles over a range of 100 nm. Based on Digital Light Processing™ technology, LambdaCommander uses the Digital Micromirror Device that is at the heart of DLP™ technology to rapidly switch segments on-and-off, in an incremental manner, transforming a diffracted spectral profile into an optical output.
Effectively, the fiber-coupled instrument can apply a desired transformation of the internal Amplified Spontaneous Emission (ASE) source or external optical signal to create the exact spectrum from simply passing selected narrow wavelengths and blocking others.
The instrument allows creating, activating, and saving transmission profiles from the instrument menu options allowing storage of up to 300 spectral transmission profiles that can be retrieved via the front panel or its PC interface. Pre-programmed filter functions can also be uploaded from the instrument into a PC, modified, and stored back in the instrument for immediate use.
Custom profile generation with sub-nanometer control is easily achieved, and there are simple commands to superimpose new or saved profiles, permitting the realization of complex functions required in research, manufacturing or quality assurance.