Brooke TENSOR II Research Grade Fourier Transform Infrared Spectrometer

Whether used for universities or research institutesTENSOR II is the perfect choice for both R&D research and routine QA/QC application analysis in the industrial field.

l TENSOR II provides the highest sensitivity and superior performance

l TENSOR II simplifies the entire infrared analysis process from sample preparation to generating analysis reports

l TENSOR II is solid and reliable, with zero maintenance costs

l TENSOR II sample chamber is suitable for all sampling accessories, with highly flexible and expandable external online technology

l TENSOR II meets all certification requirements

l BRUKER provides users with all support related to applications, authentication, and technical services

Smooth workflow

Simple and fast sampling/Fast, high-sensitivity measurement/reliable spectral evaluation/rich and practical analysis report

Continuous high-performance testing/Performance verification

TENSOR II provides a smooth and complete solution for your analysis workflow. When you analyze the sample, the intuitive software wizard will guide you step by step to complete the operation. Simple and smooth sampling, fast and sensitive testing, and the most suitable spectral evaluation method greatly save your valuable time. Before analyzing the next sample, you can generate a comprehensive and practical analysis report, and a measurement analysis process can be successfully completed.

The intelligent network function of TENSOR II verifies instrument performance in real-time, ensuring that all your measurement work meets performance indicators and certification requirements.

TENSOR II can help you achieve your dream of conducting all routine QC/QA analyses simply and quickly.

In addition,TENSOR II can meet high sensitivity testing and applications in any configuration. A wide variety of built-in and external measurement accessories are suitable for various industrial research and development and scientific research applications.

Low purchase cost

In recent years, Fourier transform infrared spectroscopyFT-IR has successfully replaced many other expensive and time-consuming analytical methods, becoming one of the preferred techniques in the analytical industry.

All inherent components of TENSOR II have a long service life, minimizing maintenance costs and time for users. The "core" part of each FT-IR spectrometer is the interferometer. The 'heart' of TENSOR II is Brook's renowned RockSolid^TMInterferometer. So far, RockSolid^TMThe interferometer has played its reliable and solid core role in over 20000 Brooke infrared spectrometers delivered for use worldwide.

TENSOR II adoptsAdvanced diode laser technology ensures that you no longer need to replace expensive lasers during the lifespan of the spectrometer. Compared with traditional infrared light sources,The light source of TENSOR II adopts stronger electronic voltage stabilization technology, greatly extending its service life.

The fully moisture-proof window panel and beam splitter ensure that the instrument can work normally even in humid environments; can beThe permanent sealed Perma Vac MCT detector used on TENSOR II avoids instrument shutdown caused by regular vacuuming of ordinary MCT detectors.

TENSOR II eliminates your worries from all aspects.

certification

Nowadays, many conventional laboratories must comply with certifications from various regulatory agencies. Brooke Spectral Instrument Company（Bruker Optics provides comprehensive system authentication, relevant documents, and the necessary steps for the authentication process. TENSOR II supports all certification requirements from Design Qualification (DQ) to Daily Performance Qualification (PQ). The comprehensive system certification manual of Brooke Spectral Instrument Company also provides relevant documents and detailed guidance on the certification steps required during the certification process. Certification, instrument installation, and annual inspection are all provided by trained and certified engineers from Brook Company, further reducing certification costs. TENSOR II uses NIST traceable reference standards with integrated certification, suitable for fully automated instrument validation testing.

High quality, high performance

Adhere to the quality commitment

Striving for excellence in products and creating extraordinary quality is our firm philosophy at Brook, and it is also our fundamental purpose to serve you.We believe that even if the instrument is only used for routine testing, it should have a high-quality optical system and optimal performance.

Trustworthy performance

TENSOR II takes the already popular TENSOR series to the next level through innovative design.

TENSOR II is the first spectrometer of its kind to use advanced diode lasers. In addition, TENSOR II has designed a new electronic voltage stabilization function for its infrared light source. These improvements greatly increase the service life of the two main vulnerable components on the infrared spectrometer, while reducing your maintenance costs and time.

Time testedRocks^TMThe interferometer provides high-intensity light flux, ensuring excellent sensitivity of TENSOR II. The advanced electronic control platform endows it with strong stability and anti-interference ability.

Brooke'sDigiTect^TMThe fully digital detector adopts an advanced dual channel self-excited analog-to-digital converter, integrated with the detector's preamplifier, to achieve true 24 bit ADC dynamic range and greatly reduce electronic noise.

TENSOR II offers a unique Power mode. When the measured luminous flux is low, this mode can improve the signal-to-noise ratio of the standard DTGS detector.

High performance interferometer

Brooke has always been leadingWe take pride in the innovative development of the FT-IR industry with high-level customer support and technological achievements. The interferometer is the core part of the Fourier transform infrared spectrometer, and it is also one of the main reasons for the superior performance of the Bruker spectrometer. Stereoscopic angle interferometer is widely used in laboratory and process analysis spectrometers, and it has its unique optical characteristics. The difference between a solid angle mirror and a flat mirror is that it is almost unaffected by the tilt of the mirror (i.e. the angular motion of the mirror). This is a very important factor because the two beam paths passing through the beam splitter must be kept precisely consistent, otherwise it will reduce the stability, spectral resolution, and spectral quality of the interference light. RockSolid^TMThe interferometer adopts a dual solid angle mirror coupled dynamic mirror torsion pendulum design, and the wear-resistant bearings are always located at the center of mass. This widely recognized design can eliminate various errors caused by mirror tilting and mechanical motion, while also suppressing vibration and thermal effects. RockSolid^TMThe wear-resistant bearings in the interferometer ensure that the spectrometer maintains its excellent stability and reliability even in harsh environments. Its high luminous flux design provides the best signal-to-noise ratio, resulting in the fastest and most accurate measurement results.

Make full use of your infrared analysis

Why is signal-to-noise ratio so important?

The signal-to-noise ratio of a Fourier transform infrared spectrometer is an important parameter used to measure the performance of the spectrometer, which reflects the quality of the spectrum measured within a given measurement time. In Fourier transform infrared spectroscopy, infrared spectrum is the result of multiple scans and accumulations. The required collection time depends on the sample and sampling technique, as well as the performance of the Fourier transform infrared spectrometer. The better the signal-to-noise ratio, the shorter the measurement time. According to statistical calculations, the measurement time is directly proportional to the square of the signal-to-noise ratio. In other words, if you want to improve the signal-to-noise ratioIf it is 3 times, the measurement time needs to be extended by 9 times. Compared to Brooke and other manufacturers' Fourier transform infrared spectrometers, you will find that TENSOR II has significant advantages.

Expand sampling function/Spacious sample compartment

TENSOR II has a spacious sample compartment that can be used with almost all FT-IR sampling accessories. When the sampling attachment is inserted into the sample compartment, it can be automatically recognized by the Intelligent Attachment Recognition System (AAR). At the same time, the spectrometer will automatically perform a quick test to ensure that the sampling attachment meets the specifications, and automatically call the parameters suitable for the sampling attachment to prepare for subsequent measurements.

TENSOR II is equipped with platinum ATR accessories

Attenuated total reflection（ATR is currently the most widely used infrared sampling technique. Brooke's platinum diamond ATR single reflection attachment can significantly simplify your daily measurement work. Its ergonomic single finger pressure clamp design and flat and spacious operating platform make infrared analysis of solid and liquid samples particularly convenient and simple.

The design of pure diamond crystals can meet the requirements of near, medium, and far infrared testing. Extremely sturdyThe ATR device can withstand extremely high pressure and can measure even very hard samples. In addition, diamond crystals also have ultra-high chemical corrosion resistance.

CONFOCHECK protein analysis system

If you need to analyze protein and its aqueous solution samples, you canTENSOR II upgraded to CONFOCHECK

Based on the selection of specialized accessories and optimal system components,The CONFOCHECK system can perfectly meet the ultra-high requirements of protein infrared spectroscopy analysis. You will no longer be limited by measurement technology and can easily choose the conditions for analyzing protein concentration, conformation, and structural transformation.

External attachments and sampling options

TENSOR can also add an external output optical path to connect one or more external accessories, further enhancing the sampling capability.

l HYPERION series FT-IR microscope

l HYPERION 3000 FT-IR Imaging System

l HTS-XT high-throughput infrared microbial identification

l TGA module

l forVCD and PM-IRRAS polarization modulated PMA 50

l External sample chamber; Can be evacuated or blown

l External ultra-high vacuum reactor（UHV adapter

l External scoring ball

l Liquid automatic sampler

HYPERION series FT-IR microscope

The HYPERION series infrared microscope provides the best optical design for visible observation of samples and infrared data acquisition, thus possessing the highest level of infrared microscopy analysis capability. Its modular design can meet your various personalized special applications.

The focal plane array (FPA) detector technology equipped on the HYPERION 3000 makes infrared imaging of samples easier, and its spatial resolution is limited only by the diffraction limit of wavelength light.

Joint technology

The combination of thermogravimetric analysis and infrared spectroscopy can provide important information on thermodynamic transformations, thermal stability, decomposition, chemical reactions, as well as the type and amount of decomposition gases in the sample.The TG-FT-IR integrated system, jointly designed by BRUKER and NETZSCH, is a perfectly integrated functional unit in both hardware and software. The perfect combination of high-sensitivity gas analysis, PROTEUS thermal analysis software, and infrared OPUS software is the biggest feature of this combined system.

Optimal designTEN Perfect Design SOR System Design

The design of TENSOR II gives it the highest luminous flux and spacious sample compartment, while maintaining compactness.The optical table is designed with precision, sturdy and durable, and has superior sealing performance.

Real time performance verification

TENSOR IIAutomatically ensure the reliability of analysis results in real-time. The intelligent network system will monitor the performance of all important instrument components such as interferometers, light sources, detectors, etc. in real time. Of course, you can also set up regular verificationPerformance indicators of TENSOR II.

certification

TENSOR II provides fully automated PQ (Performance Qualification) and OQ (Operational Qualification) instrument certification for pharmaceutical laboratories. The built-in NIST traceable standard unit ensures that TENSOR II can run certification tests required by the US, EU, and Japanese pharmacopoeias. OPUS software supports 21CRF Part 11.

Spectrum expansion capability

TENSOR II can be equipped with a broadband beam splitter to extend the spectral range to near-infrared or far-infrared. You can easily and quickly replace the corresponding light source and detector according to the spectral range you need. All components of TENSORII are electronically coded, so the instrument will automatically enter the set parameters after you replace the parts.

TENSOR FT-IR Infrared Spectrometer

l 5 separate sealed chambers design

l Users can replace components themselves

l Spacious and flexible sample compartment

l Optional external light path expansion port