The pioneer manufacturers of lamination film in China.

bruker corporation (brkr)

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Use these links to quickly view document tables and contents of content 8 Financial statements supplementary data sheets of the US Securities and Exchange Commission, Washington, D. C. C. 20549Form10-
Annual reports submitted under sections 13 or 15 (d)
According to sections 13 or 15, the December 31, 2016 Securities Trading Act for the fiscal year ended 1934 (d)
Document 1934th commsion of the securities trading law-
30833 Brook Company (
The exact name of the registrant specified in the articles of association)Delaware(
State or other jurisdiction of company or organization)04-3110160(I. R. S.
Employer identity number)
40 Manning Road, Marika (
Main executive office address)01821(Zip Code)
The telephone number of the registrant, including the area code :(978)663-
3660 securities registered under section 12 (b)
Title of the act: each class name of each exchange registered for common stock, $0.
01 Nasdaq Global Select Market securities registered under section 12th per share face value (g)
Key points of the act: if the registrant is healthy, a non-indicby check mark
Well-known experienced issuers, as defined in Rule 405 of the Securities Act.
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Indicate the registrant by check mark (1)
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Securities Trading Act for the first 12 months (
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Yesnoo indicates by check mark whether the registrant has been submitted electronically and posted on its company website (if any), submitted and published in accordance with the provisions of Rule e405
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A smaller reporting company.
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Defined in Rule 12b-
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Non-voting shares held
Affiliates of registrants as of June 30, 2016 (
The last working day of the second fiscal quarter recently completed by Theregistrant)
According to the last sale price announced on the NASDAQ Global Select Market, the price is $2,392,086,523.
This amount does not include 56 of the 316,142 ordinary shares held by senior staff and directors as of June 30, 2016, as well as each person known to the registrant who holds 10% or more of the outstanding common shares of the registrant.
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As of February 24, 2017, the number of outstanding shares of the registrant\'s common stock was 884,435 shares.
Documents contained in the reference section of the information required in Part ii of this report (
Sub-items 10, 11, 12, 13 and 14)
Quoted from the registrant\'s final proxy statement, 2017 annual meeting of shareholders will be submitted within 120 days of the end of the registrant\'s fiscal year.
ContentsBRUKER Company Annual Report on table 10
Contentspageitemitem 1 business 3 item 1 factork factors17item 1 bunresoved employee comment 33 item 2 property 33 item 3 legal action s34item 4 mining safety 35 related shareholder matters and issuer Purchase of equity securities 36 items 6 Selected finances data 39 items 7 Management Discussion and Analysis of financial status and operational results 41 items 7 quantitative and qualitative disclosure of market risk disclosure121Item9AControls and procedure121item9bother Information124PartIIIItem10Directors, executive officers and corporate governance of certain beneficial owners and management and related shareholders 124 item 11 executive compensation 124 item 12 secured title certain relationships and related transactions and Principal Accounting fees for director independence 12 item 14
K Summary129Signatures130Anystatements Form10 is contained in this annual report-
K, which is not a statement of historical facts, can be considered forward-
Outlook statement in the sense of Section 21e of the Securities Trading Act of 1934.
Without limiting the foregoing, the words \"believe\", \"expect\", \"plan\", \"expect\", \"seek\", \"estimate\", etc, \"should\" and similar explanations are intended to identify forward-
Look at the report. Any forward-
The forward-looking statements contained in this article are based on current expectations, but there are some risks and uncertainties.
Factors that may lead to significant differences between actual future results and current expectations include, but are not limited, adverse changes in the economic and political conditions of the countries in which we operate, the integration of businesses we have acquired or may acquire in the future, the risks and uncertainties associated with our restructuring and costs
Control plans, changing technologies, product development and market acceptance of our products, cost and pricing of our products, manufacturing and outsourcing, competition, capital to partners, major suppliers and third-party distributors spending and government funding policies, changes in government regulations, intellectual property, litigation, exposure to foreign exchange fluctuations, our ability to repay our debts and the ability to fund our expected cash needs and other factors, many of these factors are more detailed in the Annual Report on form 10K under Item1A.
\"Risk Factors\" and other documents that we may submit from time to the Securities and Exchange economic delegations.
Although the company may choose to update forward-
Looking into the future, it explicitly denies any obligation to do so, and readers should not rely on these forward-looking statements even if the company\'s estimates change
From any date from the date of submission of this report, a statement representing the company\'s point of view.
\"We\", \"management\" or \"Company\" refer to the Brook company, which in some cases is its subsidiaries, as well as all former entities.
Our main executive office is located at 40 Manning Road, Billerica, MA 01821, and our telephone number is (978)663-3660.
Information about Brook. bruker. com.
The information on our website is not incorporated into this report by reference, nor is it part of this report.
All trademarks, trade names or copyrights referred to in this report are the property of their respective owners.
2 ContentsPART IITEM 1 business table we are a developer, manufacturer and distributor
Performance science instruments and analytical diagnostic solutions enable our customers to explore life and materials at the micro, molecular and cellular levels.
Many of our products are used to detect, measure and visualize the structural features of samples of chemical, biological and industrial materials.
Our products meet life science research, pharmacy, biotechnology, application market, cell biology, clinical research, microbiology, in-
In vitro diagnosis, nanotechnology and scientific research of materials.
Our technical platform includes magnetic resonance technology, mass spectrometry technology, gas phase and liquid phase chromatography triple four-bar mass spectrometry technology, X-
Spark-ray technology
Optical emission spectroscopy, atomic force microscopy, stylus and optical metrology techniques, fluorescent optical microscopy, and infrared and Raman molecular spectroscopy techniques.
We also develop, manufacture and distribute extensive field analysis systems for chemical, biological, radiological, nuclear and explosive or CBRNE detection.
We also develop, manufacture and sell high and low temperature superconductive materials and devices mainly based on metal low temperature conductors.
Our company is headquartered in Bianca, Massachusetts.
We have major technology and manufacturing centers in Europe and North America and sales offices around the world.
We have two market segments that can be reported, Brooke science instruments (BSI)
During the year ended December 31, 2016, andBruker Energy & Supercon Technologies accounted for about 93% of our revenue (BEST)
This represents the rest of our income.
In BSI, we are divided into three operations: Brook bio-rotation group, Brook CALID group and Brook Nano group.
For the purposes of financial reporting, Bruker BioSpin, Bruker CALID and Bruker Nano operations are aggregated into departments where BSI can report, because each department has a similar approach to economic features, distribution and regulatory environments.
Brusgmentbruker BioSpin Group Bruker BioSpin Group includes Bruker magnetic resonance, applied industrial and clinical, clinical imaging and services, and life cycle support departments and design, manufacturing and selling support life sciences tools based on magnetic resonance technology.
Magnetic resonance is a natural phenomenon that occurs when the molecules placed in the magnetic field emit characteristic RF.
Characteristic radio frequency is a characteristic of a specific molecule, providing a large amount of accurate chemical and structural information.
According to the expected application, we sell the NMR system or EPR system to the customer (
Each definition is as follows).
BrukerBioSpin also uses MRI, PET, SPECT, CT, MPI (
Each definition is as follows)
Optical imaging technology in the pre-clinical market.
Bruker BioSpin\'s products have special applications in the fields of structural proteomics, drug discovery, pharmaceutical and biotechnology research and production, and food and material science, provides customers with the dynamics and functions of specific molecules (such as proteins) that determine the structure, as well as the representation and determination of the composition of the mixture.
The bulk of Bruker BioSpin\'s revenue is generated by academic and government research clients.
Other clients include pharmaceutical and biotechnology companies, non-profit laboratories, and chemical, food and beverage, clinical and polymer companies.
During this period, we introduced many new products and technologies, including NMR pesticide and drug killing analysis systems, NMR ministechnoology technology and optimized low temperature probes, as well as the next generation of software for our existing products.
We also installed the first shield.
High Field 1 gihertz nuclear magnetic resonance system.
The instruments of BrukerBioSpin Group are based on the following technical platforms: MRI;
Electron shunmagnetic resonance;
Magnetic resonance imaging;
Magnetic particle imaging;
Electron Emission Tomography;
Single Photon Emission Tomography;
Computed tomography;
Optical Imaging (
Fluorescent and bio-luminous).
Nmr is a qualitative and quantitative analytical technique for determining the molecular structure and purity of samples.
The molecule is placed in a magnetic field and sends out a radio frequency (rf) signal recorded by a sensitive detector.
The analysis software helps to determine the molecular structure of the sample.
NMR technology is used in academia, pharmaceutical, biotechnology, food and beverage and clinical companies, as well as other industrial users in life sciences and materials science research.
The Epr is the process of absorbing microwave radiation by shunmagnetic ions or molecules, with at least one unpaired electron rotating under a static magnetic field.
EPR can detect unpaired electrons without ambiguity, while other techniques can only provide indirect evidence of their existence.
In addition, EPR can identify the detected shunmagnetic species that provide information on molecular structures near unpaired electrons and gain insight into dynamic processes such as molecular movement or fluidity.
Our EPR instruments are widely used in advanced materials research, material analysis and quality control.
MRIis is the process of creating an image through manipulation of hydrogen atoms in a magnetic field.
In the presence of an external magnetic field, the atom will be aligned or aligned with the external magnetic field.
The application of radio frequency can cause atoms to jump between high energy and low energy.
Magnetic resonance and magnetic resonance imaging include many methods, including diffusion-
Perfusion weighted
Weighted, molecular imaging and contrastenhance.
MRI provides high-resolution morphological information, as well as functional, metabolic, or molecular information.
Customers use our MRI System in drug research, including metabolic OMICS, to study a number of diseases, including diabetes, neurology, oncology, and cardiovascular diseases.
MPIis is the process of creating images from magnetic particles to the animal\'s body.
Magnetic particles are manipulated in a combination that shows the oscillating magnetic field in the no-magnetic field area.
The response of the particles allows real-time 3D data collection of the entire body of the animal, showing contrast agents distributed in the body and flowing through the body.
This imaging method is used to detect cardiovascular diseases.
4 The content table is a process of creating images from positrons after applying a pet to animals to emit radionuclides.
The destruction of positrons produces two photons, with an angle of 180 ° between them, separating these photons from other sources.
PET tracerenriches are rich in certain areas of interest in the body and obtain molecular information from animals.
This is widely used in oncology, inflammation, neurology and cardiovascular diseases, as well as metabolic diseases, drug discovery and bone diseases.
Spectuse contains a contrast agent for radionuclides that directly emit single photons.
Contrast agents are rich in certain parts of the animal\'s body and produce images of the distribution of radionuclides in the body.
In animal in vivo research, the most important thing is that in oncology, neurology and cardiovascular diseases, tomography has a wide range of applications.
Technology based on X
Light used to generate a complete 3D data set.
The most important application is organization sample analysis or non-
Imaging of living animals.
CT provides the highest spatial resolution of all pre-clinical imaging patterns, especially to help generate morphological information about the object or animal being investigated.
CT is being used in all areas of pre-clinical research, such as bone
Orthopedics, cardiovascular, lung, tumor, metabolism, etc.
The process by which OIis creates images from light emitted from the animal body.
This is achieved by dosing the fluorescent imaging agent and activating the fluorescence accordingly through an external light source or fluorescence imaging.
Alternatively, it is possible to manipulate the animal being studied so that it contains molecules that glow without external irradiation or Bioluminous imaging.
Optical imaging is a very sensitive imaging technique used to generate molecular information in the study.
The main areas of application are oncology, neurology, inflammation, stem cell research, and bone and infectious diseases.
The Bruker CALID Group is composed of the Bruker Daltonics department, a former life science and clinical (LSC)
Chemical and applied markets (CAM)
Department, as well as the Brooke detection and Brooke optics department.
The Bruker Daltonics Division primarily designs, manufactures and distributes life sciences mass spectrometry or MS instruments that can be integrated and used with other sample preparation or chromatography instruments.
These products are used in research, pharmaceutical and biotechnology development, and in clinical diagnostic environments.
Mass spectrometer is a precision device for measuring molecular mass or weight, which can provide accurate information about the identity, quantity and primary structure of molecules.
Mass spectrometry-based solutions typically combine advanced mass spectrometry instruments, automated sampling and sample preparation robots, kits, and other disposable products for testing or analysis, as well as Bioinformatics software.
We offer mass spectrometry systems and integrated solutions for applications in multiple existing and emerging life sciences markets as well as in the chemical and application markets, including Expression proteomics, clinical proteomics, molecular diagnostic studies and molecular and Systemic Biology of metabolic and peptide biomarkers, as well as basic molecular medical research and clinical microbiology (
For IVD only in certain countries and in certain configurations).
TheBruker Detection department provides various systems based on mass spectrometry, ion migration spectrum, infrared spectrum and radiation/nuclear detectors for chemistry, biology, radiation, nuclear and explosives (CBRNE)
Detection in emergency response, homeland security and defense applications.
TheBruker optical division produces and sells research, analysis and process analysis instruments and solutions based on infrared and Raman molecular spectroscopy technologies.
These 5 catalog products are used in industry, government and academia for a wide range of applications and solutions for life sciences, pharmaceutical, food and agricultural analysis, quality control and process analysis applications.
Infrared and Raman spectra, as simple, fast, non-destructive and reliable techniques, are widely used in research and industry, from basic sample identification and quality control to advanced research.
The Bruker optics department also uses Fourier transform and dispersed Raman measurement techniques in a wide range of laboratory and process spectrometer.
The products of the Brook optics department are supplemented by a variety of sampling accessories and techniques, including microanalysis and high
Through screening, users can find suitable solutions to effectively analyze samples.
Our customers in the brookcard group include pharmaceutical, biotechnology and diagnostics companies, contract research organizations, academic institutions, medical schools, non-profit orfor-
Profit forensics, agriculture, food and beverage safety, environmental and clinical microbiology laboratories, hospitals and government departments and institutions.
In 2016, we launched a number of new product solutions based on mass spectrometry, including timstof02 , a solution for optimizing the separation and analysis of unparsed compounds and
We also present rapifleX MALDI pharmse0213 designed to help speed up drug discovery.
We have also expanded the Raman product line by introducing Senterra II, which is a simple-to-
Use confocalmulti-
Laser imaging microscope
Our instrument solutions were released in 2016 and software was released at the same time.
The instruments of TheBruker CALID Group are based on the following technical platforms: alimmaldi-TOFx97Matrix-
Analytical Ionization Time by auxiliary laserof-
Flight Mass Spectrometry including tandem timeof-Flight system (MALDI-TOF/TOF); x95ESI-
Ionization Time of electric sprayof-
Flight spectra, including ESI-based tandem mass spectrometry systemsquadrupole-
Time of flight mass spectrometry (ESI-Q-q-TOF);
Fourier transform mass spectrometry, including a hybrid system with an aquadrupole front end (Q-q-FTMS);
Ion Trap Mass Spectrometry; x95GC-
Gas chromatography-
Using the triple mass spectrometry systemquadrupoletime-of-
Flight Mass Spectrometry; x95LC-
Liquid chromatography-
Using the triple mass spectrometry systemquadrupoletime-
Flight Mass Spectrometry; x95FT-
Fourier transform-
Infrared spectrum; x95NIRx97Near-
Infrared spectrum;
Raman spectrum. MALDI-
TOFmass spectrometers uses the ionization process to analyze solid samples using a laser that combines high sample flux with a high quality range and sensitivity. Our MALDI-
The application of time-of-flight mass spectrometry in clinical diagnosis, environmental and classification studies, and food processing and quality control is particularly useful.
The specific applications include: Analysis of oligomer nucleotide and synthetic polymer;
Identification and quantification of proteins;
Peptide sequencing from scratch;
Determination of position
Translation modification of protein
Analysis of proteomics and protein function
Discovery and development of drugs;
And rapid detection of body fluids and tissue peptides or protein biomarkers.
MALDI mass spectrometry allows users to quickly and reliably classify and identify microorganisms with minimal sample preparation workload and lifecycle costs.
Our MALDI Biotyper solution serves the clinical microbial market and is able to identify microorganisms such as bacteria, yeast and fungi, classify or log off 6 tables of content.
In 2016, we acquired a molecular testing manufacturer to expand the company\'s product supply and set up a second leg for Brooke\'s microbial business to enter the molecular testing market, and take advantage of the installation of large maldi-biotyper (MBT)
The basis for lowering pcr entry thresholdMALDI assays. ESI-
TOFmass spectrometers analyze liquid samples using an electric spray ionization process.
This ionization process, which does not disintegrate molecules, allows for the rapid acquisition and analysis of data from large biological molecules. ESI-
Time-of-flight mass spectrometry is particularly useful for identification, protein analysis and functional complex analysis in proteomics and protein function;
Molecular Identification in analysis of metabolites, natural products and drug metabolites
Combined chemistry for high throughput screening
And rapid liquid chromatography mass spectrometry or liquid chromatography mass spectrometry (LC-MS)
In drug discovery and development.
Ftmsystems take advantage of high
Field magnets provide the highest resolution, selectivity and mass accuracy currently achievable in mass spectrometry.
Our systems based on this technology don\'t usually take time.
Consumption separation technology in complex mixture analysis.
In addition, our system can perform fragmentation of molecular ions and perform accurate mass analysis of all fragments to determine the molecular structure.
The FTMS system is particularly useful for studying the structure and function of biological molecules, including proteins, DNA and natural products;
Complex Mixture analysis including body fluid or combination Library; high-
Proteomics and metabolic OMICSand top-
Before the analysis, no enzyme digestion of the protein is required to reduce the proteomics of intactproteins. We offer next-
A generation of hybrid FTMS systems that combine the conventional external four-stage bar mass selector and six-pole collision pools with high
Performance FTMS for further ion dissociation, top-
Next proteomics tools and super
High resolution detection.
ITMSsystems collects all ions at the same time, which improves sensitivity compared to the previous four-stage Rod mass spectrometer.
Ion trap mass spectrometry is particularly suitable for sequencing and identification based on peptide structure analysis, quantitative liquid chromatography mass spectrometry, combination library identification, and generally improving the speed and efficiency of drug discovery and development processes. GC-
MSsystems combines the features of gas chromatography and mass spectrometry to identify the different substances in the test sample.
These two components are used together, and when used separately, finer substance recognition is allowed than any system.
The result is a quantitative analysis of the composition and mass spectrum of each component. Our GC-
The MS system is equipped with a triple four-bar configuration and can be configured with multiple options to suit various applications. Our GC-
MS systems are used in food and product safety, forensics, clinical and toxicology testing, and environmental, pharmaceutical and chemical analysis. LC-
MSsystems combines the separation features of liquid chromatography with the molecular identification features of mass spectrometry for the separation, identification and quantitative testing of different substances in samples.
As a supplementary technique of GC-
Analysis of ms lc-for volatile compounds-
MS can be used to analyze a variety of non-
Volatile compounds in complex samples. Our LC-
In order to meet the specific needs of users, there are multiple configurations available for the MS system.
Although it is mainly used in life science applications, our lc-
MS systems are also used in food and product safety, forensics, clinical and toxicology testing, and environmental, pharmaceutical and chemical analysis. FT-
In the use of IRspectrometersand far-
Infrared region of the spectrum. Our FT-
Infrared systems are commonly used in a variety of quality control and material research applications.
NIRspectrometers take advantage of the near
Infrared region of the spectrum.
Our NIR instruments are mainly used for quality and process control applications in pharmaceutical, food and agricultural and chemical industries.
The pharmaceutical industry is a leading user of content instruments nir7 table, with applications including quality control, R & D and process analysis technologies.
The food and agriculture industry is the second largest user of NIR instruments and there is a growing demand for quality control of food, feed and beverages.
Ramanspectroscopy provides information about molecular structure.
The mechanism of Raman scattering is different from infrared absorption, because the Raman spectrum and infrared spectrum provide complementary information.
Raman spectroscopy is useful for the identification of organic and inorganic compounds and functional groups.
It is a non-destructive technology that can be used for the analysis of liquids and solids.
Raman is ideal for use in the polymer and pharmaceutical industries, as well as applications in the metal, electronics and semiconductor industries.
This technology is also used in life sciences, forensics and artwork certification.
In addition, our testing department provides a wide range of portable and bioanalytical testing systems and related products for CBRNE testing.
Our customers use these devices for nuclear, biological and chemical agent defense applications,-
Terrorism, law enforcement, process and facility monitoring.
Our CBRNE inspection products use many of the same technology platforms as our life sciences products, as well as other technologies including infrared brackets
Off detection and ion migration spectrum of handheld chemical detectors.
We also offer integrated, comprehensive inspection kits including our multiple inspection systems, consumables, training, and simulators.
The Brook Nano group includes the Brook AXS, The Brook nano-surface, the Brook nano-analysis and the brook semiconductor division.
Brook AXSDivision advanced X-design, manufacturing and distribution-
Ray instruments using very short-wavelength radiation to determine matter and three features
Size structure of molecules.
This includes a portfolio that includes X-based-
X-ray fluorescence spectrum (XRF), X-
Ray diffraction (XRD)and X-
X-ray computed tomography (µCT)
And the spark emission spectrum system (S-OES)
Used to analyze the concentration of elements in metal samples.
The products of the BrukerNano surface division include atomic force microscope instruments (AFM).
This instrument uses nano-scale probes to provide atomic or near-atomic resolution of surface topography and mechanical, electrical, and chemical information.
In addition, the Brook nano-Surface division also provides advanced fluorescent optical microscope instruments for multiple fields.
Photon, multi-point scanning co-focus, highspeed 3D super-
Resolution Studies in Life Sciences.
Brook Nano Surface division also provides non-
Contact with nano-resolution terrain via white light interference and stylus contour.
Production and sales of electronic microscope analysis tools, including energy analysis tools, by TheBruker Nano Analysis Departmentdispersive X-
Ray Spectrometer (EDS)
Electron reverse scattering diffraction system (EBSD)
And ct accessories, as well as moving and benchestop micro X-
Ray fluorescence (µXRF)
Total reflection X-
X-ray fluorescence spectrometer (TXRF)
Handheld, portable and mobile X-
Ray fluorescence (HMP-XRF)
Spectrum instruments.
Manufacturers and markets X-
Ray metering and defects
Semiconductor process control testing equipment.
Our customers of Brook Nano group include biotechnology and pharmaceutical companies, academic institutions, government customers, nanotechnology companies, semiconductor companies, raw material manufacturers, industrial companies and other enterprises involved in material analysis.
In 2016, we introduced an all-optical simultaneous 3D simulation and multi-photon imaging system for optical genetics, which is used for multi-
Cell brain research, and manual analysis tables for content systems for advanced applications and research.
We have also released the next generation models of several products including EBSD probes and software.
The system of TheBruker Nano Group is based on the following technical platform: polycrystal line X-
X-ray diffraction, usually called X-ray diffractionRay diffraction; x95XRFx97X-
Ray fluorescence, also called X-
Ray Spectra including handheld XRFsystems; x95SC-
Single crystal X
X-ray diffraction, usually called X-ray diffraction
Raycryallography; x95µCTx97X-
Microscopic ct;
Energy dispersion X-
Ray spectrum on electron microscope
Electron reverse scattering diffraction on electron microscopex95S-
Spark Emission Spectrum;
Combustion analysis of carbon, sulfur, oxygen, nitrogen and hydrogen solids;
Atomic force microscope;
Fluorescent optical microscope;
Stylus and optical metering;
Friction and mechanical testing systems for friction and wear analysis.
XRDsystems studies multi-crystal samples or films with single wavelength X-rays.
Atoms in multi-crystal samples are X-
The light produces a unique diffraction pattern recorded by the detector.
Computer software processes patterns and produces a variety of information, including stress, texture, qualitative and quantitative phase composition, crystal size, percentage of crystals and layer thickness, composition, defects and density of thin films and semiconductor materials.
Our X-ray diffraction system helps reduce the development cycle of new products in the catalyst, polymer, electronics, optical materials and semiconductor industries.
Customers can also use our X-ray analysis system academic and government research facilities, as well as a variety of other areas including forensics, art and archaeology.
XRFsystems determines the composition of the elements of the material and provides a comprehensive qualitative and quantitative analysis.
Our X-
Ray on the sample, atomic absorption X-in the sample-ray energy.
Then the elements in the sample emit X-
Characteristic light of each element.
System acquisition X-
The data obtained by the software analysis to determine the existing elements.
Automation solutions for our products
Industrial users need automated, controlled production processes to reduce product and process costs, increase production and improve product quality.
Our X-ray products basically cover all the periodic tables and can analyze samples of solids, powders, or liquids. SC-
XRDsystems determine three-
The size structure of molecules in the chemical, mineral or biological substances analyzed. SC-
The X-ray diffraction system is able to determine the structure of small chemical molecules and large biological molecules. SC-
X-ray system
The beam harness on the solid crystal sample.
The atoms in the crystal sample disperse X-
The light produces an accurate diffraction pattern recorded by an electronic detector.
The software then rebuilds the structural model and provides a unique arrangement of the atoms in the sample.
Information about the precise arrangement of atoms in the sample is a key part of molecular analysis and can provide insight into various fields, including how proteins interact or interact with the second molecule. Our SC-
In the life sciences industry, academic research and a variety of other applications, X-ray diffraction systems are designed for use.
9 Content table X-ctis
3D ray imaging is used in hospital CT scans in the same way, but in a small range the resolution is greatly improved.
The 3D microscope allows the user to perform imaging of the internal structure of a non-object
Destructive on a very fine scale.
Brookct is available in a range of simple devicesto-
Using desktop instruments, these instruments generate 3D images of sample form and internal microstructure with resolution up to sub-resolutionmicron level.
Our ct systems are used in many applications in the material research and life sciences industries.
EDSsystems irradiated X-when the atoms of different chemical elements were exposed to high-energy electron beams produced by the microscope-
Rays of different energies.
The evaluation of the energy spectra collected by our spectrometer allows the determination of qualitative and quantitative chemical sample components at the current beam position.
The EDS system allows simultaneous analysis of all elements in the periodic table starting with atomic number 4 (beryllium).
Our EDS systems are used in a variety of applications, including nanotechnology and advanced material research, as well as material analysis and quality control.
Customers of EDS systems include industrial customers, academia and government research institutions.
EBSDsystems is used for quantitative microstructure analysis of crystal samples in electron microscopy.
The selected beam of the microscope strikes the tilted sample and forms a diffraction electron pattern on the fluorescent screen.
This pattern is characterized by the crystal structure and orientation of the sample area that produces this pattern.
It provides an absolute crystal orientation with a subcrystal orientation
Micron resolution.
EBSD can be used to characterize the crystal orientation, texture, stress, strain, and grain size of the material.
EBSD also allows the identification of crystal phases and their distribution and is applied to many industries such as metal processing, aerospace, automotive, micro-electronics and Earth Science. S-
OESinstruments is used to analyze metals. S-
Oe covers a wide range of applications from pure metal trace analysis to metal analysis of high alloy grades and allows for simultaneous analysis of a range of related elements. S-
These instruments transmit a spark to a sample that burns the surface of the sample, causing the atom to jump to a higher orbit.
Our detectors quantify the light emitted by these atoms and help our customers determine the elemental composition of the material.
This technology is widely used in the production control laboratory of Foundry and steel mill.
The CS/ONHcarrier gas system combines furnace and infrared or thermal conductivity detection for the analysis of inorganic materials used for the determination of carbon, sulfur, nitrogen, oxygen and hydrogen.
Combustion and inert gas fusion analyzers are used in applications in the fields of metal production and processing, chemistry, ceramics and cement, coal processing, refining and semiconductors.
AFMsystems provides atoms or near
Atomic Resolution of surface topography of materials using nanotechnology
Scale probe in light contact with the sample under investigation.
In addition to presenting surface images, AFM can also provide a quantitative nano-scale
Dimensional measurements of characteristic dimensions, material properties, electronic information, chemical properties, and other sample properties.
Our AFM systems are used in the development and manufacture of academic and government materials as well as applications in biological research and semiconductors, data storage hard drives, LED, batteries, solar cells, polymers, and pharmaceutical products.
FMproducts uses a fluorescence microscope to determine the structure and composition of life science samples.
We have two products.
Photon microscopy, multi-point scanning co-focal microscopy, laser lighting sources, light activation, light stimulation and light ablation accessories, and synchronous and analytical software. Two-
Photon microscopy can be used in the field of tissue and cell imaging and is widely used in Neurology.
The multi-point scanning co-focus system allows real-time cell imaging by quickly obtaining images for structure and component analysis.
We also offer super
Solution 10 table Contentsandsingle-
It can break the optical diffraction limit by an order of magnitude of molecular positioning microscope products.
SOMsystems provides atoms or near
Atomic 2D and 3D surface resolution using white light interference, co-focal optics, and stylus contour methods.
SOM profile from low range
Cost manual tools for single measurement, advanced, highly automated systems for production line quality assurance and quality control applications where a combination of throughput, repeatability and repeatability is critical.
SOM profiler supports a range of applications in automotive, plastic surgery, ophthalmology, research on highlighted LEDs, semiconductors, product development, friction, quality control, and fault analysis related to materials and processing, data Storage, Optics and other markets.
TMTsystems provides a platform for a wide spectrum of materials for a variety of common mechanical, friction, durability, scratch and indentation tests.
Friction systems are used in academic research on basic material properties and industrial applications in semiconductor, aerospace, petroleum, automotive and other industries.
Optimal segmented optimum design, manufacture and distribution of superconductive materials for magnetic resonance imaging, nuclear magnetic resonance, polymorph studies and other applications, mainly metal low temperature magnets.
BEST also develops, manufactures and sells ceramics, second generation high temperature super capacitors for energy technology and magnet research applications.
In addition, BEST is mainly based on metal low-temperature super conductors applied in \"big science\" research, including RF accelerator cavities and modules, developing, manufacturing and selling complex equipment and complex tools, power coupler and linear accelerator.
It\'s also the best manufacturer and sellsnon-
Mainly for customers engaged in material research and \"big science\" research projects, such as synchronous accelerators and beam line instruments.
We maintain direct sales in North America, Europe, Russia, China, Japan, Asia Pacific and Australia.
We also use indirect sales channels to reach customers.
We have a wide range of international distributors, independent sales reps and various other reps in parts of Asia, Latin America, Africa, Middle East and Eastern Europe.
These entities have expanded our direct sales team and provided coverage in areas where we do not have direct sales personnel.
In addition, we adopt the distribution business model to establish strategic distribution alliances with other companies to meet the needs of certain market segments.
The sales cycle of our products depends on the size and complexity of the system and the budget cycle of the customer.
Our sales cycle is usually three to twenty-four months.
Final research product for industrial products and two weeks to six months.
The sales cycle of our low-temperature superconductive materials is usually 4 to 12 months, some of which are high-powered.
Final material for more than a year.
Our high sales
The final NMR and superconductive equipment usually takes more than a year, while some large, complex contracts take more than two years to complete. Wehave well-
Equipped application and demonstration facilities and qualified application personnel who assist customers in specific application areas and provide product demonstrations.
We maintain our main demonstration facilities in our production facilities and other major market locations.
11 business content seasonal table from a business point of view, our fourth quarter income level is higher, the first quarter of this year\'s income level is lower, we think this is affected by the customer budget cycle.
The company has a wide and diverse customer base, and we do not rely on any customer.
As of December 31, 2016 or 10%, none of the clients accounted for more than 10% of their revenue in the last three fiscal years and accounts receivable accounted for more than 2015.
Competing for our existing products and solutions, and any products and solutions we will develop in the future, can compete in multiple competitive markets.
In addition, there is a trend of integration in our industry, and many of our competitors have far more financial, technical and marketing resources than we do.
Our competitors may successfully develop and deliver products that make our products or products of strategic partners obsolete or uncompetitive.
Our competitors may also have a cost and price advantage based on monetary value compared to the USS. dollar or Euro.
In addition, many competitors have more experience in the life sciences, chemistry and materials market.
Our ability to compete successfully will depend on our ability to develop proprietary products that enter our target market in a timely manner that are technically superior and/or cheaper, or more cost-effective, than our competitors sell products.
Current competitors or other companies may own or develop technologies and products that are more effective than us.
Our technology and products may become obsolete or uneconomical because of technological advances or completely different methods developed by one or more of our competitors.
We also compete with companies that offer analytics or automation tools based on other technologies.
These technologies may be more successful in meeting the market needs of our products and solutions.
In addition, other companies may choose to enter our field in the future.
We believe that the main competitive factor in our market is technology.
Based on application expertise, product specifications, functionality, reliability, marketing expertise, distribution capabilities, proprietary patent portfolio and cost-effectiveness.
BSI SegmentBruker BioSpin competes with companies that offer magnetic resonance spectrometer, mainly JEOL and Oxford Instruments.
In the field of pre-clinical imaging, BrukerBioSpin and Perkin Elmer, Mediso, Trifoil, MR Solutions, RS2D, Visualsonics (Fuji Film)and others.
Bruker CALID competes with a variety of companies that offer mass spectrometry-based systems.
Bruker CALID\'s competitors in the life sciences market, chemical and application markets include Danaher, Agilent, GE-
Healthcare, Waters, hot Fisher Science, Shimizu, Hitachi and JEOL.
In the microbial market, we compete with bio-Meilie.
Bruker CALID\'s CBRNE detection customers are very fragmented and we compete with many companies in this area, the most important of which is Smiths detection.
Bruker CALID also competes with a variety of companies that offer molecular spectrum-based systems, including Semer Fisher Science, PerkinElmer, Agilent, Foss, ABB
In addition, there are several smaller companies that specialize in various markets and we often compete with them.
Brook nano company and provide analysis X-
Ray solutions, systems of interest, AFM and SOM systems, and optical fluorescence systems, primarily the spectro Zeiss of Rigaku, Oxford Instruments, Agilent, thermal Fisher Science, ametek and Leica business of Danaher.
Best segment to compete with Luvata and JastecCo. ,Ltd.
In low temperature superconductive materials.
In addition, with the superpower Fujikura (
An ancient river Company)
, Superconductive nesiesinc. and SuNamCo. ,Ltd.
The second generation of high temperature conductive materials in the market.
In the development and supply of accelerator cavities, BEST on, Mitsubishi Motors and AES compete with Thales, Toshiba and CPI International for the development and supply of RF coupler, develop and supply supermagnetic accelerator modules with Mitsubishi Heavy Industries and provide AES and Thales for electronic linear accelerators.
Several of our manufacturing plants manufactured and supplied have passed the certification of ISO9001: 2008 and international quality standard iso13135.
We produce and test our magnetic resonance products at our factory in Faellanden, Switzerland;
Fort wensburg, France;
And Germany\'s carlsruer.
We produce and test our pre-clinical imaging products at our factory in Ettlingen, Germany;
Fort wensburg, France;
Kontich, Belgium;
And Faellanden in Switzerland.
We produce and test our mass spectrometry products, including CBRNE detection products, at our factories in Bremen, Germany and Leipzig, Germany.
We mainly produce and test our molecular spectrum products at our factory in Ettlingen, Germany.
We produce and test our X-
We offer ray, oe and AFM products at our factory in Carlsruhe, Germany;
Berlin, Germany;
American Wisconsin MadisonS. A. ;
California Santa Barbara AmericanS. A. ;
Washington, United States of AmericaS. A. ;
Migdar Haemek of Israel
We produce and test most of our energy and low temperature products at our factory in Hanau, Germany;
Borscher Gladbach, Germany
Perth, Scotland and Carteret, New JerseyS. A.
Our manufacturing process in factories in Europe, Israel and California, USAS. A.
Includes all stages of manufacturing such as processing, manufacturing, sub-components, system assembly, and final testing.
Our other facilities are mainly high.
System integration and final testing.
We usually have-
House that ensures critical capabilities.
In the past three years, we have been outsourcing all kinds of non-
As part of our cost savings program, provide key components such as circuit boards and certain electronics to third-party contract manufacturers.
We buy materials and components from a variety of suppliers that are either standard products or manufactured to our specifications.
We get some components contained in the product from a limited supplier group or a single supplier
Source supplier of charge coupling equipment area detector, X-and other items
Optical tube, robot, infrared optics, etc.
Bruker AXS has a continuous cooperation and joint development project with Siemens Medical Solutions vacuum technology department in Germany for the development of X-ray tubes.
Some of Bruker AXS\'s subsidiaries, BrukerNanoGmbH and Bruker AXS HandheldInc.
Now purchase key X-
X-ray detector chips and certain photoelectric detectors and micro X-ray detectors
From a single source of radiation
SOURCE supplier.
In addition, the best titanium and other products were obtained from one supplier.
R & D we invest a lot of money and resources for internal and cooperative R & D projects in order to provide innovative products and solutions to our customers.
We mainly conduct research to improve system performance and reliability of existing products and develop revolutionary new products and solutions.
We paid $149. 0million (9. 2% of revenue), $145. 7million (9. 0% of revenue)and $174. 2million (9. 6% of revenue)
In 2016, 2015 and 2014 were for research and development purposes, respectively.
Our research and development work is carried out for the relevant products of each operation department, and is also carried out in cooperation with other companies in the fields of micro-fluid, automation and workflow management software.
We have been recipients of grants from the governments of Germany and the United States. S.
Various items related to the contents of Table 13-
Research and development.
We usually keep it at least.
We have exclusive rights to any project or enhancements developed under these authorizations.
The German government has requested that weuse and market technologies be developed under the grant to retain our rights to the technology.
We have also accepted a number of sponsored research contracts from private sources.
The research and development carried out by the BSI division in the German division is mainly carried out at our factories in Bremen, ertringen, Carlsruhe and Leipzig, Germany;
Switzerland, France;
Fort wensburg, France;
Lilica, Massachusetts, United States of AmericaS. A. ;
American Wisconsin MadisonS. A. ;
And Santa Barbara, California. S. A.
TheBruker BioSpin group in core magnetic resonance technology and single-
Multimodal imaging techniques and capabilities including NMR, EPR, MRI, MPI, PET, CT, and OI.
Recent projects include the development of solid state dynamic nuclear polarization technology, an ongoing development that can improve the sensitivity of NMR, the use of high field Depp instruments for dedicated refrigerant-free magnets, high field magnet technology for pre-clinical MRI, basic NMR studies and biological studies with four-level tuned frozen probes, and MPIimaging for pre-clinical applications.
TheBruker CALID Group maintains technical capabilities in terms of core mass spectrometry technologies and capabilities, including: MALDI, ESI, EI/CI pollution sources;
Ion trap, FTMS, level 4 bar and IMS analyzer;
Bioinformatics and related software.
Recent projects include rapifleX MALDI Tissuetyper, high-in Bruker dalton-
Provide enhanced high throughput MALDI imaging solution
Analyze the molecular information and distribution in the organization.
Bruker CALID group also maintains technical capabilities in core vibration spectrum technology and capabilities, including FT-
IR, NIR and Raman spectra.
Recent projects include innovative timsTOF mass spectrometer for the separation and analysis of unresolved compounds and conformations.
TheBruker Nano group in core X-
Ray technology and capabilities, including detectors for X-ray detectionray and X-
X-ray diffraction
Generation and focusing of X-ray sources and optics
Ray, robot and sample processing equipment holding and manipulating experimental materials, and software that generates structural data.
Recent projects include refining
New generation of high brightness optics and microsources to develop new highpower X-
X-of X-ray source-
X-ray diffraction and protein crystal applications, developing an ATX-Ray System for the analysis of trace elements in semiconductor metrology, developing a new large perspective, highHigh resolution, high
Throughput energy dispersion X-
Ray detectors for trace analysis, create high sensitivity area detector systems and develop other solutions
Based on technology and software applications, including X-
X-ray scattering of protein crystals.
Bruker Nano group also has the ability in atomic force microscopy (AFM)
Technology, which involves
Horizontal position and motion control, and sub-
Control of Pico Newton force.
Bruker Nano Group technology also includes a microscope based on 3D optical inference, stylus contouring, friction testing, Nano
Double dent of optical fluorescence
Photon microscope, multi-point scanning microscope and highSpeed, 3D Super
Resolution flowering microscope.
Recent innovations include Element analysis systems for advanced applications and research, as well as simultaneous full-scale
An optical stimulation and imaging platform for neuroscience applications.
The best market segments are studied and developed in the best market segments mainly in our locations in Hanau, Germany, belghesh Gladbach and alzeno, Germany, and catteret, New Jersey, USAS. A.
Maintain the best technical capability in the production and development of low temperature and high temperature conductive materials and devices.
Your intellectual property consists of patents, copyrights, trade secrets, intellectual property
How and trademark.
Protecting our intellectual property rights is a strategic priority for our business, because the time and cost of bringing new products through the development process and the market is very long.
We have a large portfolio of patents and we intend to submit more patent applications as appropriate.
We believe that the patent portfolio that we have and are licensed gives us a competitive advantage.
This portfolio allows us to maintain access to some key technologies.
We license the patent rights we have in due course.
If necessary, we intend to enforce our patent right against the infringer.
The patent status of life science tools companies involves complex legal and factual issues.
Therefore, we cannot predict the enforceability of our patents with certainty.
In addition, we are aware from time to time that there are patents in certain countries that, if they are valid, may compromise our ability to produce and sell products in those countries.
We also rely on trade secrets.
How trademarks, copyright protection and licensing develop and maintain our competitive position.
We usually ask our employees, consultants, and other scientific consultants to perform confidential agreements.
These agreements provide that all confidential information known in the course of the relationship with us will be kept confidential and used only for our benefit.
In addition, these agreements provide that we have all the inventions that arise in the course of the relationship.
We are a party to various government contracts.
According to some of these government contracts, the government may obtain a license or similar right for intellectual property rights developed under the contract.
However, according to the government contract we sign, we usually receive at least
The exclusive right of any product or technology we develop.
Even though we do business with different government agencies, we don\'t think that the scale of a government contract is so large, to the extent that renegotiating profits or terminating contracts or subcontracts at the time of government elections can have a significant adverse effect on our financial results.
We must comply with federal, state and local environmental protection regulations.
We do not expect this compliance to have a significant impact on our capital expenditure, revenue or competitive position.
Priorto, our Bruker AXS subsidiary, launched a product in the United States and sent a notice to the United StatesS.
The Food and Drug Administration (FDA) provides identification information and operational features of the product in the form of a radiation safety initial product abbreviation report.
If the FDA finds that the report is complete, it will provide approval in the form of a so-called join number.
Bruker AXS may not sell the product until the registration number is received.
In addition, Bruker AXS submitted an annual report to the FDA, which includes the radiation safety history of all products it sells in the United States.
Bruker AXS must report to the FDA the incident of accidental exposure to radiation due to the manufacture, testing or use of any of its products.
Bruker AXS also reported on the installation of its products to the national government regulator responsible for the regulation of radiation launch devices.
For ingervice sales, Bruker AXS registered each system with the local authorities.
In some countries of the Bruker AXS sales system, Bruker AXS uses the licenses we have obtained from the German federal authorities to help it obtain licenses from the countries where sales occur.
In addition, as mentioned above, we are subject to various other domestic and foreign environmental, health and safety laws and regulations in the course of our operation.
In addition to these areas, we also comply with the laws and regulations applicable to businesses within the jurisdictions in which we operate.
Monthly Table ContentsOurBruker AXS branch has low
Permits for horizontal radiation materials from the United StatesS.
The Nuclear Regulatory Commission, which has reached an agreement with Wisconsin, has facilities in Madison, Wisconsin;
Gewerbeaufsichtsamt Karlsruhe facility in the karluru River, Germany, from the local radiation safety agency;
From the local radiation security agency, kanagawapperfecture, because of its facilities in Yokohama, Japan, and other countries where it sells its products.
Our Bruker Daltonics subsidiary has low
Horizontal radiation permits for facilities located in Bianca, Massachusetts and Leipzig, Germany. The U. S.
The Nuclear Regulatory Commission also provides for exposure of our employees to radiation.
Some of our clinical products are regulated in the United States by similar regulatory authorities in the FDA and other countries that sell such products.
For example, our MALDI Biotyper CA system is subject to FDA and our IVD-
CE-certified MALDI BioTyper system is regulated in the EU in accordance with the provisions of the direcc98/79/EC.
These and similar local regulations in other parts of the world govern a variety of products.
Related activities from quality management, design and development to labeling, manufacturing, promotion, sales and distribution.
As a result, we are continuously investing in our manufacturing infrastructure to obtain and maintain the certification required at the relevant regulatory licensing level.
Liquidity needs do not provide customers with credit terms that have a significant adverse impact on our liquidity.
When there is evidence of a persuasive arrangement, the price is fixed or determinable, and the risk of ownership and loss has been transferred to the customer, we will receive revenue from the sales of the system, the recoverable nature of the resulting accounts receivable is reasonably guaranteed.
Title and risk of loss is usually transferred in accordance with the terms of transportation or certain systems, based on the customer\'s acceptance of the system delivered to the customer and installed at the customer\'s facility.
For systems including customers
Specific acceptance criteria, we need to evaluate when we can demonstrate that the acceptance criteria have been met, which is usually done on the basis of the success of the factory acceptance test or the evidence of customer acceptance and installation.
Systems that have been shipped to the customer but have not yet been accepted by the customer are included in-transit.
-Finished productThe transit fee is $37.
$5 million and $44.
7 million per cent in December 31, 2016, 2015 per cent.
We also have
Equipment Applications and demonstration facilities, as well as qualified application personnel who assist customers in specific application areas and provide product demonstrations.
We hold $34 in total.
$8 million and $38.
The demonstration stocks in December 31, 2016 and 8 million were 2015 respectively.
The backlog consists of non-placed fixed orders
Cancelable purchase orders received from customers.
The total system backlog as at December 31, 2016 and 2015 was approximately $0. 932 billion and $0. 856 billion respectively.
We expect that as of December 31, 2016, approximately 78% of the backlog will be filled in 2017.
We experienced revenue changes and fluctuations in the first three quarters of this year, and our fourth quarter revenue has historically been stronger than the rest of this year.
Therefore, re-login on any specific date can indicate our short
Long-term revenue performance, but not necessarily a reliable indicator of long-term income
Long-term revenue performance.
We have about 2015 employees in December 31, 2016 and 6,000.
Global time staff.
As of December 31, 2016, some 1,075 and 9 80 of these employees were located in the United States and 2015 respectively.
Our employees in the United States have not joined the Union and have not joined any labor organization.
Employees based outside the United StatesS.
It is mainly located in Europe and has abundant labor force in Germany and France.
Several of our international subsidiaries are party to the contract with the Union and the workers\' committee.
We believe we have a good relationship with the staff and the workers Committee.
As of December 31, 2016, we have about 2,975 employees in production and distribution, 1,500 employees in sales and marketing, 940 employees in R & D, and the remaining employees are general and administrative
As of December 31, 2015, we have about 2,880 employees in production and distribution, 1,490 employees in sales and marketing, 950 employees in R & D, and the rest are general and administrative
Financial information about geographic regions and divisions financial information about our geographic regions and divisions can be found in Note 19 to our consolidated financial statements
K, as part of item 8 of this report, including information on the revenue we receive from external customers, the profit measure, and the total assets of the reportable portion.
Available information we are subject to the information requirements of the Securities Trading Act of 1934 (\"Exchange Act\").
Therefore, we submit periodic reports, agency statements and other information to the Securities and Exchange Commission (\"SEC\").
Such reports, proxy statements and other information can be read and copied by accessing the SEC public reference room located at 100F N StreetE. Washington, D. C. C. 20549.
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