FTIR-50 TGA combined Fourier Transform Infrared Spectrometer (TG-FTIR)

Product Introduction

The FTIR-50 TGA combined Fourier Transform Infrared Spectrometer is an advanced instrument developed by our company combining the latest mechanical, electronic, AI and other technologies. This product uses many innovative technologies to make the instrument's light source energy transmission efficiency, interferometer stability, and receiver sensitivity reach the industry's advanced level. It can meet various levels of applications such as teaching, industry and research.

Instrument Principle

Using the working principle of interferometer frequency modulation, the light emitted by the light source is converted into interference light by the Michelson interferometer, and then the interference light is irradiated on the sample. The receiver receives the interference light with sample information, and then the computer software obtains the spectrum of the sample through Fourier transformation.

Instrument features

1. The interferometer uses a DSP-controlled electromagnetically driven non-orthogonal Michelson interferometer with continuous dynamic adjustment function, automatically optimizing system energy without manual adjustment.

2. Dynamic collimation technology: magnetic suspension interferometer, both the moving mirror and the fixed mirror are plane mirrors, with continuous dynamic collimation function of 130,000 times per second.

3. Electronic system of SuperTech digital technology. Fully digital, output digital signal. 24-bit, 500KHz A/D conversion, high-speed USB interface, to achieve real-time acquisition of spectral data, ensuring the authenticity and reliability of the data.

4. High-energy infrared single-point light source with electronic voltage stabilization, built-in uniquely designed reflector, greatly improves the energy utilization of the light source.

5. Excellent optical system design, the optical reflector adopts the overall SPDT cutting process to ensure the high reflection efficiency of the mirror and the consistency of the optical system.

6. The instrument has a built-in industrial-grade temperature and humidity display screen, which directly displays the temperature and humidity digitally, and has a humidity alarm device. The instrument is sealed as a whole to ensure that the entire cavity is sealed and dry, greatly improving the service life of each component.

7. Solid-state temperature-controlled diode laser.

8. Reusable 304 stainless steel box desiccant, which can be replaced without opening the cover.

9. The core components such as beam splitter, detector, window are made of KBr material with special anti-fogging coating, and moisture-proof materials such as KRS-5 and ZnSe can also be selected.

10. The expansion function is powerful, and it can be connected to transmission accessories, attenuated total reflection accessories (ATR accessories), diffuse reflection accessories, plane reflection accessories, external reflection accessories, infrared microscopes, etc.

11. Intelligent human-computer interaction design with operation guidance, intuitive and concise interface, easy to learn.

12. Rich spectral library, powerful self-built library function and high-quality spectral retrieval.

13. Real-time display of data acquisition, continuous display of data acquisition process and spectral preview mode.

14. The operating software includes baseline correction, data conversion, multi-component quantification, curve peak fitting, H20/CO2 automatic compensation, absorbance transmittance conversion, KK conversion, peak marking, four arithmetic operations, Y-axis normalization function, QC comparison, basic analysis and other functions; supports more than a dozen formats such as CSV, SPA, DPT, TXT; supports arbitrary switching of wave number cm-1 and wavelength um.

Significant advantages

Technical Parameter

Model	FTIR-50
Spectral range	7800-350cm^-1
Resolution	Better than 0.85cm^-1 (0.5cm^-1 optional)
Signal-to-noise ratio	45000:1 (P-P value, 4cm^-1, 1min scan）
Wave number accuracy	Better than 0.01cm^-1
Beam splitter	KBr substrate plated with germanium (imported)
Interferometer	Non-orthogonal Michelson interferometer
Receiver	High-sensitivity DLATGS receiver with moisture-proof film (imported)
Data transmission	High-speed USB2.0 (compatible with USB3.0)
Power supply	100V-240V, 50/60Hz wide-band power supply
Compatible operating system	WindowsXP, WindowsVista, Windows7, 8, 10, 11
Instrument dimensions	520mmx430mmx250mm
Weight	19kg

Applied industries

1. Jewelry identification

2. Crystal Q value determination

3. Textile fiber identification

4. Architectural glass parameter determination

5. Fatty acid methyl ester content determination

6. Asphalt traceability and SBS content determination

7. Measurement of carbon and oxygen content in silicon crystals

8. Testing of food, medicine and their packaging materials

9. Determination of mineral insulating oil and lubricating oil structure cluster composition

10. Identification and determination of typical unconventional additives in motor gasoline

11. Identification of polymer materials such as plastics, rubber, nylon, resin, etc.

Qualitative analysis

Qualitative analysis is often used for the overall identification of substances. For samples that can be anticipated in advance, the identification can be confirmed by comparing the sample infrared spectrum with the standard infrared spectrum. For samples that cannot be anticipated in advance, identification can be performed by searching the infrared spectrum library. Our company can provide about 220,000 Sadtler spectra.

1. Identification of textile fibers

2. Pharmaceutical GMP certification test

3. Testing of food and drug packaging materials

4. Application scheme for testing brake shoe materials

5. Screening of organic tin in electronic and electrical products

6. Trace evidence analysis, inspection of paint evidence

7. Testing of high molecular polymer materials such as plastics, rubber, adhesives, asphalt, resins, etc.

Quantitative analysis

Quantitative analysis is based on Lambert-Beer quantification, and a relationship curve between content and infrared characteristic peak absorbance or peak area is established, and then the unknown content sample is tested.

1. Benzene content in gasoline

2. Determination of hemispherical emissivity of building glass

3. Determination of SBS content in modified asphalt

4. Determination of free silica content in dust

5. Determination of fatty acid methyl ester (FAME) content

6. Determination of ethylene content and isotacticity in polypropylene

7. Identification and determination of typical unconventional additives in motor gasoline

8. Determination of vinyl acetate content in ethylene-vinyl acetate copolymer (E-VAC)