Unlock precision in pulsed light analysis with SciPulseSpec. Designed for solar simulators, LEDs, flash lamps, and adaptive lighting systems, this advanced spectroradiometer captures the temporal evolution of a pulse with integration times as short as 50 µs. Featuring an integrated optical trigger, NIST-traceable calibration, and automatic spectral irradiance calculation, SciPulseSpec delivers accurate spectral data for 1 Sun measurements (1000 W/m²). Complete with fused silica fiber optics for collection, BNC outputs, and intuitive RunSpectrometer software for customizable scripting and data visualization, SciPulseSpec is your solution for high-performance spectral characterization.
Intended Irradiance Range: 0.5 - 1.5 Suns (500-1500 W/m^2)
Spectral Range: 300–1050 nm
Spectral Resolution: 1.2 nm
Wavelength Accuracy: ±0.5 nm
Signal-to-Noise Ratio: >380 (no average)
Dynamic Range: >2300 (no average), >10,000 (average 10)
Integration Time: 50–1000 µs (1 µs step)
Delay Time: 0–∞ µs
Detector: Linear CCD
Power: 24 V DC
While designed for pulsed light source measurements, SciPulseSpec can also be used to measure continuous light sources. A shutter or other source of modulation will be needed to activate the optical triggering mechanism.
Unlock precision in pulsed light analysis with SciPulseSpec. Designed for solar simulators, LEDs, flash lamps, and adaptive lighting systems, this advanced spectroradiometer captures the temporal evolution of a pulse with integration times as short as 50 µs. Featuring an integrated optical trigger, NIST-traceable calibration, and automatic spectral irradiance calculation, SciPulseSpec delivers accurate spectral data for 1 Sun measurements (1000 W/m²). Complete with fused silica fiber optics for collection, BNC outputs, and intuitive RunSpectrometer software for customizable scripting and data visualization, SciPulseSpec is your solution for high-performance spectral characterization.
Intended Irradiance Range: 0.5 - 1.5 Suns (500-1500 W/m^2)
Spectral Range: 300–1050 nm
Spectral Resolution: 1.2 nm
Wavelength Accuracy: ±0.5 nm
Signal-to-Noise Ratio: >380 (no average)
Dynamic Range: >2300 (no average), >10,000 (average 10)
Integration Time: 50–1000 µs (1 µs step)
Delay Time: 0–∞ µs
Detector: Linear CCD
Power: 24 V DC
While designed for pulsed light source measurements, SciPulseSpec can also be used to measure continuous light sources. A shutter or other source of modulation will be needed to activate the optical triggering mechanism.
