Light-Solution
Flame-NIR+ Spectrometer
Product Details
A powerful combination of the compact Flame optical bench and an uncooled InGaAs detector, the Flame-NIR+ is a versatile, affordable instrument for shortwave NIR spectroscopy from 970-1700 nm. With its NIR responsivity and ultra-low power consumption needs, the Flame-NIR+ is an attractive option for integration into handheld and portable systems.
New Features!
The Flame-NIR+ has better sensitivity and a wider spectral range (at higher wavelengths) than our original model. This allows users to detect weaker levels of NIR light at lower limits of detection and with shorter integration times. Increased sensitivity is important in diffuse reflectance and other applications, while the extended range (especially between 1650-1700 nm) makes it possible to measure samples comprising C-H hydrocarbons. The Flame-NIR+ offers all the advantages of the Flame product line, including interchangeable slits and low unit to unit variability. The Flame-NIR+ is an ideal choice for applications including moisture measurement in grain and feed, measurement of fats and oils, detection of hydrocarbons, and pharmaceutical ingredients blending.
Product Overview
New with Flame-NIR+!
Extended wavelength range — shortwave NIR response from 970-1700 nm
Enhanced sensitivity — design improvements enable lower limits of detection and shorter integration times
Compatible — works with Ocean Insight light sources, accessories and software
Easy to use — plug and play via the micro USB connection
User interchangeable slit — vary the resolution and throughput of the spectrometer on demand
Indicator LEDs — indicator of power and data transfer status at all times Compact and lightweight — 89.1 mm x 63.3 mm x 31.9 mm and just 265 g
Quick tip: A spectrometer wavelength calibration source can be a useful tool for your lab. For NIR applications, your options include Mercury Argon (HG-2, 253-1700 nm), Argon (AR-2, 696-1704 nm) and Xenon (XE-2, 916-1984 nm) emission sources.
Flame-NIR+ in the literature: Check out this assessment of NIR spectrometers for identifying adulterated coriander seeds
