FT-NIR Spectrometer
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Antaris™ II FT-NIR Analyzer

Antaris™ II FT-NIR Analyzer

Easily implement laboratory-based FT-NIR performance in a ready-for-plant package using the Thermo Scientific™ Antaris™ II FT-NIR Analyzer. With industry-leading method transfer performance, the Antaris II FT-NIR Analyzer provides robust and reliable data collection for at-line, online and in-line analysis. You can customize an Antaris II FT-NIR Analyzer for specific applications or choose the Antaris II MDS Method Development Sampling System, which includes transmission, fiber-optic and integrating sphere diffuse reflection analysis all in one turnkey system.


Specification

The Antaris II FT-NIR Analyzer Allows You To:

  • Analyze any sample type rapidly and accurately
  • Make regulatory compliance (DQ, IQ, OQ and PQ) easy with the Thermo Scientific™ ValPro™ Instrument Qualification Package
  • Reproduce results regardless of configuration, maintenance, user or environment
  • Achieve fast, precise and accurate measurements in the lab or in the plant

Ordering Information:

The Antaris II FT-NIR Analyzer is sold as a configured system designed to meet your specific needs. For more information, contact your Thermo Scientific Sales Representative.

Recommended for:

  • Solids
  • Powders
  • Grains
  • Tablets
  • Paste
  • Gel
  • Syrup
  • Films
  • Liquids

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카탈로그 번호 제품 크기 Description Source Type Spectral Range
IQLAADGABCFADUMAAV - Thermo Scientific™ Antaris™ II FT-NIR Analyzer sets an industry standard, providing laboratory-based FT-NIR performance in a ready-for-plant package. Long-life, high intensity halogen NIR source; spare source included with system, guaranteed filament image alignment package 12,000 - 3,800 cm-1 (833 - 2,630 nm)
제품 크기 -
Height (Metric) 33 cm
Length (Metric) 68.5 cm
Voltage 90 - 264 VAC
Weight (Metric) 47.7 kg
Width (Metric) 40.6 cm
Communications Plug and Play USB communications to PC, no addressing or administration required
Description Thermo Scientific™ Antaris™ II FT-NIR Analyzer sets an industry standard, providing laboratory-based FT-NIR performance in a ready-for-plant package.
Detection High sensitivity, high stability matched InGaAs
Interferometer Proven, frictionless, stable, long-life Michelson
Operating Temperature Range 15° to 35°C (59° to 95°F)package.
Operator Communication Indicators Red, yellow and green LED indicators communicate pass/fail/prompt
Photometric Linearity Slope 1.0 ±0.05 and an intercept of 0.0 ±0.05
Purge Optional
Resolution 4 cm-1 across spectral range (.6 nm at 1,250 nm); 2cm-1 option across spectral range (.3 nm at 1,250 nm)
Sealed and Desiccated Yes
Spectral Range 12,000 - 3,800 cm-1 (833 - 2,630 nm)
System Status Indicators Yes
Wavenumber Accuracy ±0.03cm-1 (.005nm at 1,250nm)
Wavenumber Repeatability Single System: 10 measurement standard deviation <.006 cm-1
Wavenumber Reproducibility System to System: Better than .05 cm-1 (.008 nm at 1,250 nm)
Analyzer Type Fourier Transform Near-Infrared
Item Description Antaris II FT-NIR Analyzer
Network Protocol Direct PC to Ethernet allows file system and OPC communications
Sampling Mode Configurable with reflection, transmission, fiber optics, or tablet transmission.
Source Type Long-life, high intensity halogen NIR source; spare source included with system, guaranteed filament image alignment
Application Note: A Guide to Raw Material Analysis using Fourier Transform Near-Infrared Spectroscopy Application Note: Advantages of Fourier-Transform Near-Infrared Spectroscopy Application Note: Advantages of Fourier-Transform Near-Infrared Spectroscopy Application Note: Classification of Herbs by FT-NIR Spectroscopy Using the Antaris II Analyzer Application Note: Density and Copolymer Content in Polyethylene Samples by FT-NIR Spectroscopy Application Note: Determination of Moisture Content in Freeze-dried Materials by FT-NIR Spectroscopy Application Note: Determination of Plasticizer Content in PVC by FT-NIR Spectroscopy Application Note: Direct Transfer of a Quantitative Model between Antaris FT-IR instruments Application Note: Discriminant Analysis of Cellulose Esters Using FT-NIR Application Note: FT-NIR Analysis of the Hock Process for the Production of Phenol and Acetone Application Note: FT-NIR Analysis of Wine Application Note: FT-NIR for Online Analysis in Polyol Production Application Note: Incoming Analysis of Sugars and Polysaccharides Application Note: Investigation of Different Sampling Techniques for the Analysis of Capsule Contents by FT-NIR Spectroscopy Application Note: Lactose Particle Size Analysis Using FT-NIR Spectroscopy Application Note: Measurement of Samples by Transmission Spectroscopy with the Antaris FT-NIR Analyzer Application Note: Measuring Content Uniformity in Low-Dose Tablets Using Near-Infrared Transmission Analysis Application Note: Near-Infrared Analysis of Critical Parameters in Lyophilized Materials Application Note: Nutraceutical Ingredient Identification by FT-NIR Application Note: Polymerization Cure Rates using FT-NIR Spectroscopy Application Note: Prediction of Choline Chloride Concentration on Silage by FT-NIR Spectroscopy Application Note: Protein, Fat and Moisture Analyses of Fresh Fishmeal with an Antaris II FT-NIR Analyzer Application Note: Quantification of the Active Ingredient in a Pharmaceutical Topical Gel Formulation Application Note: Quantification of Vitamin C Using FT-NIR Spectroscopy Application Note: Quantitative Characterization of Lactose Crystalline Forms Application Note: Rapid Analysis of Key Chemical Products in the Haber-Bosch Ammonia Synthesis Process Application Note: Rapid Analysis of Multiple Components in Tobacco Using the Antaris II FT-NIR Analyzer Application Note: Rapid In-Process Moisture Determination on a Fluid Bed Dryer Application Note: Raw Materials Qualification Within a Workflow: FT-NIR Analysis Using the Antaris II Analyzer Application Note: Sampling Considerations for the Measurement of a UV Stabilizer in Polymer Pellets Application Note: The Advantage of Resolution in the FT-NIR Quantification of Fatty Acid Components in a Quaternary Mixture Application Note: The Analysis of Beer Components Using FT-NIR Spectroscopy Application Note: The On-Line Monitoring of Powder Blending in a Bin Blender Application Note: The Use of Transmission FT-NIR Analysis for the simultaneous analysis of Carbamazepine and PEG 2000 in Extrudates Application Note: Trace Contaminant Analysis in Biodiesel with an Antaris II FT-NIR Analyzer Application Note: Two Case Studies of the Transfer of Near-Infrared Methods for the Analysis of Pharmaceutical Solid Dosage Forms Application Note: Use of Diffuse Reflectance FT-NIR Spectroscopy to Confirm Blend Uniformity Application Note: Validated Transfer of a Working Food Method from a Dispersive Instrument to the Antaris FT-NIR Analyzer Brochure: Antaris Analyzers Brochure: Antaris Feed and Ingredient Analyzer Brochure: Antaris II Near-IR Analyzers Case Study: Monitoring and Controlling Powder Case Study: The Use of Near-Infrared (NIR) Spectroscopy for Raw Material Identification by a Contract Pharmaceutical Manufacturer Presentation: Inline Monitoring of a Hot Melt Extrusion Process by Near Infrared Spectroscopy Specification Sheet: NutraChek Solution Specification Sheet: ValPro for Antaris: TQ Analyst Algorithms Technical Bulletin: Advanced Near IR Algorithm Compensates for Spectral Features Related to Changes in Sampling Vials Technical Bulletin: Automatic Power-Outage Recovery with an Antaris Process FT-NIR Analyzer and RESULT Software Technical Bulletin: Comparing the Performance of a Fiber Optic Probe to an Integrating Sphere Technical Bulletin: Effective Heated Transmission Cell Techniques for Antaris Method Development Sampling Systems Technical Bulletin: Effective Heated Transmission Cell Techniques for Antaris Method Development Sampling Systems Technical Bulletin: Improving the Accuracy of Near-infrared Measurements Using Spectral Corrections: Back-reflection and Transfer Backgrounds Technical Bulletin: Measurement Reproducibility — A Case Study of the Long-Term Performance of an FT Near-Infrared Analyzer Technical Bulletin: Method Transfer through Superior Engineering: Analysis of Variance Related to User-replaceable Components Technical Bulletin: NIR and Raman: Complementary Techniques for Raw Material Identification Technical Bulletin: NIR Model Transferability Using Binary Mixtures of Talc in Iron Sulfate and Water in Ethanol Technical Bulletin: Process Data Communications with the Antaris FT-NIR Analyzers: Analog, Digital, OPC and LIMS Technical Bulletin: REACH Compliance with Near-infrared and Raman Spectroscopy Tools Technical Bulletin: Seamless Transfer of Bruker Spectra and Methods to an Antaris FT-NIR analyzer Technical Bulletin: Simple Method Transfer from FOSS NIR to Antaris FT-NIR Analyzers Technical Bulletin: Verifying the Performance of the Fiber Optic Reflectance Probe on the Antaris FT-NIR Analyzer Technical Bulletin: Verifying the Performance of the Integrating Sphere Module on the Antaris FT-NIR Analyzer White Paper: Process Analytical Technology: A Framework for Innovative Pharmaceutical Manufacturing