Antaris™ MX FT-NIR Process Analyzer

Thermo Scientific™

Antaris™ MX FT-NIR Process Analyzer

Optimize your QC testing and remotely monitor the process using fiber optic simultaneous multiplexing technology with the Antaris™ MX FT-NIR process analyzer.

카탈로그 번호	분석기 유형	소스 유형	스펙트럼 범위
IQLAADGABCFADUMAAZ	Fourier Transform Near-Infrared	Long-life, high-intensity halogen NIR source; spare source included with system, guaranteed filament image alignment	12,000 to 3800 cm^to1 (833 to 2500 nm)

카탈로그 번호 IQLAADGABCFADUMAAZ

제품 가격(KRW)

견적 요청하기

분석기 유형:

Fourier Transform Near-Infrared

소스 유형:

Long-life, high-intensity halogen NIR source; spare source included with system, guaranteed filament image alignment

스펙트럼 범위:

12,000 to 3800 cm^to1 (833 to 2500 nm)

Thermo Scientific Antaris MX FT-NIR 프로세스 분석기를 사용하여 광섬유 동시 멀티플렉싱 기술과 실시간 피드백을 위한 통합 통신을 사용하여 프로세스를 원격으로 모니터링하면서 QC 테스트를 최적화하세요. Antaris MX FT-NIR 프로세스 분석기는 재료 분석 및 온라인 프로세스 모니터링 애플리케이션을 위한 완벽하고 용도에 맞는 솔루션을 제공합니다.

이 사용하기 쉬운 NIR 분석기를 사용하면 단일 프로세스를 여러 지점에서 모니터링하거나 여러 프로세스를 동시에 모니터링할 수 있습니다. Antaris MX 프로세스 분석기는 백그라운드 수집 또는 적격성을 위해 프로세스 스트림에서 프로브를 제거할 필요도 없습니다.

Antaris MX FT-NIR 프로세스 분석기 기능:

Thermo Scientific ValPro 기기 적격성 패키지
항상 켜진 내부 백그라운드
광섬유용 SMA905 산업 표준 커넥터 – 프로세스에 적합한 프로브 선택
프로세스 통신을 위한 OPC, 4-20mA 및 디지털 I/O

주요 어플리케이션:

프로세스 중 액체 분석
실험실 액체 분석

주문 정보:

Antaris MX FT-NIR 프로세스 분석기는 특정 애플리케이션 요구 사항을 충족하도록 설계된 구성된 시스템으로 판매됩니다. 자세한 내용은 Thermo Scientific 영업 담당자에게 문의하십시오.

분석기 유형Fourier Transform Near-Infrared

설명Antaris MX FT-NIR Process Analyzer

검출High sensitivity, high stability matched InGaAs

높이(영국식 단위)18.97 x 15.98 x 9.72 in.

높이(미터법)48.2 x 40.6 x 24.7 cm

인터페이스Direct PC to ethernet allows file system and OPC communications

간섭계Proven, frictionless, stable, long-life Michelson

작동 온도 범위15°C to 35°C (59° to 95°F)

광도 선형성Slope 1.0 ±0.05 and an intercept of 0.0 ±0.05

분해능4 cm^-1 across spectral range (0.6 nm at 1250 nm), 2 cm^-1 option across spectral range (0.3 nm at 1250 nm)

샘플링 모드Fiber optic multiplexing

밀봉되고 건조됨Yes

소스 유형Long-life, high-intensity halogen NIR source; spare source included with system, guaranteed filament image alignment

스펙트럼 범위12,000 to 3800 cm^to1 (833 to 2500 nm)

시스템 상태 인디케이터Indicator lights report scan, laser, power, and source status continuously

전압90/264 V

파수 정확도±0.1 cm^-1 (0.02 nm at 1250 nm)

파수 반복성(System to System) Better than 0.05 cm^-1 (0.008 at 1250 nm)

파수 재현성(Single System) 10 measurement standard deviation <0.006cm^-1

중량(영국식 단위)105.16 lb.

중량(미터법)25.8 kg

Unit SizeEach

자주 묻는 질문(FAQ)

How are probes used for in-line NIR analysis?

Fiber optic probes can be used for analyzing liquid samples in transmission or solid samples in reflection. For samples that have bubbles or solids or change state between liquid and solid, a transflectance probe works the best. A fitting attached to the probe mates it with a port on a tank, pipe, reactor, hopper, or above a conveyor. The common fittings used with probes are Swagelok, sanitary tri-clamp or bolt-on.

How can I use an Antaris FT-NIR analyzer for in-line process analysis?

If the process environment has water hose down, CIP, dust, high temperature, corrosive or explosive chemicals, the Antaris FT-NIR analyzer needs to be placed in a safe area or enclosed in an environmentally stabilized enclosure. Fiber optics run from the NIR analyzer to probes or flow cells installed in production process pipes, tanks, hoppers, conveyors, reactors, etc. The fiber optics carry the NIR source light to the probe sampling window and then carry the light after it has interacted with the sample back to the NIR analyzer detector. The end of the probe will have a window or an air gap for reflection or transmission analysis. The product being analyzed must be self-cleaning or the probe engineered to automatically clean itself by high pressure air. The computer that controls the NIR analyzer is also located in the safe area with Thermo Scientific RESULT Software exporting NIR results to text or Microsoft Excel files, LIMS, OPC or by 4-20 mA.

Can current calibrations from a different manufacturer be transferred to the Antaris FT-NIR analyzer?

Yes, using the Thermo Scientific Standards converter utility program, spectra from other NIR manufacturers can be converted to a format directly compatible with the Antaris FT-NIR analyzer. The utility program converts spectra from wavelength to wave number as well as converts to a standard absorbance format. Then it automatically transfers the converted spectra and all associated wet chemistry data into Thermo Scientific TQ Analyst calibration development software. The method developer then sets the spectral processing and regions in TQ Analyst and calibrates the method into Antaris format.

What is Raman spectroscopy?

In Raman spectroscopy, an unknown sample of material is illuminated with monochromatic (single wavelength or single frequency) laser light, which can be absorbed, transmitted, reflected, or scattered by the sample. Light scattered from the sample is due to either elastic collisions of the light with the sample's molecules (Rayleigh scatter) or inelastic collisions (Raman scatter). Whereas Rayleigh scattered light has the same frequency (wavelength) of the incident laser light, Raman scattered light returns from the sample at different frequencies corresponding to the vibrational frequencies of the bonds of the molecules in the sample.

If you wish to learn more about Raman spectroscopy, visit our online Raman Spectroscopy Academy (https://www.thermofisher.com/us/en/home/industrial/spectroscopy-elemental-isotope-analysis/spectroscopy-elemental-isotope-analysis-learning-center/molecular-spectroscopy-information/raman-technology.html), where you will find basic Raman tutorials, advanced Raman webinars on sample applications, and a helpful instrument guide.