CDS 1100 and 2100 High-End Spectrometers
First to pave the way for array spectrometers with lighting application software, Labsphere’s high-end spectrometers with LightMtrX software continue to set the pace.
MEASURES:
Total spectral flux (Watts/nm)
Total radiant flux (Watts)
Total luminous flux (lumens)
Spectral intensity (Watts/sr-nm)
Averaged luminous intensity (lumens/sr)
Averaged radiant intensity (Watts/sr)
Spectral irradiance (Watts/cm2-nm)
Irradiance (Watts/cm2-nm)
Illuminance
Dominant wavelength
Spectral purity
Correlated color temperature
Peak wavelength
Color rendering index (CRI)
Chromaticity coordinates
Correlated color temperature
Half-bandwidth
Temporal (W/s, lm/s, CCT/s…)
FEATURES:
High dynamic range for a broad range of applications
Multiple spectral ranges to choose from unmatched LightMtrX Software designed for application usability
Fast, low noise; TE Cooled back-thinned CCD Array Detector
Choice of 3m-fiber optic input cables
Bench top and rack mountable compact design for today’s demanding workspaces
Adapts to any of Labsphere’s light metrology systems and components with NIST traceable calibration options
The base design of the CDS 1100 ans 2100 is the proven Crossed Czerny-Turner spectrograph, with a top of the line electrically cooled back thinned illuminated CCD detector designed for highly efficient stray-light rejection. These spectral engines include user activated integrated shutters for real-time dark correction and the most intuitive software modules for research, development and production.
Labsphere’s CDS 1100 and 2100 CCD array spectrometers are multi-channel spectral analyzers designed for real-time spectral characterization. When calibrated for the application with auxiliary hardware and LightMtrX software, the instantaneous acquisition can provide the gamut of spectroradiometric photopic, colorimetric, electrical and thermal characteristics of the device under test (DUT).
These high-end spectrometers are designed to transition from research, the integral design and graphical user interface makes it easy to transition from research to production with the same high performance that is demanded from the lab with the ease of use operations desires.
MEASURES:
Total spectral flux (Watts/nm)
Total radiant flux (Watts)
Total luminous flux (lumens)
Spectral intensity (Watts/sr-nm)
Averaged luminous intensity (lumens/sr)
Averaged radiant intensity (Watts/sr)
Spectral irradiance (Watts/cm2-nm)
Irradiance (Watts/cm2-nm)
Illuminance
Dominant wavelength
Spectral purity
Correlated color temperature
Peak wavelength
Color rendering index (CRI)
Chromaticity coordinates
Correlated color temperature
Half-bandwidth
Temporal (W/s, lm/s, CCT/s…)
FEATURES:
High dynamic range for a broad range of applications
Multiple spectral ranges to choose from unmatched LightMtrX Software designed for application usability
Fast, low noise; TE Cooled back-thinned CCD Array Detector
Choice of 3m-fiber optic input cables
Bench top and rack mountable compact design for today’s demanding workspaces
Adapts to any of Labsphere’s light metrology systems and components with NIST traceable calibration options
The base design of the CDS 1100 ans 2100 is the proven Crossed Czerny-Turner spectrograph, with a top of the line electrically cooled back thinned illuminated CCD detector designed for highly efficient stray-light rejection. These spectral engines include user activated integrated shutters for real-time dark correction and the most intuitive software modules for research, development and production.
Labsphere’s CDS 1100 and 2100 CCD array spectrometers are multi-channel spectral analyzers designed for real-time spectral characterization. When calibrated for the application with auxiliary hardware and LightMtrX software, the instantaneous acquisition can provide the gamut of spectroradiometric photopic, colorimetric, electrical and thermal characteristics of the device under test (DUT).
These high-end spectrometers are designed to transition from research, the integral design and graphical user interface makes it easy to transition from research to production with the same high performance that is demanded from the lab with the ease of use operations desires.
