What do ipg models do

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IPG Photonics is the leading developer and manufacturer of high-performance fiber lasers and amplifiers for diverse applications in numerous markets. IPG Photonics' diverse lines of low, medium and high-power lasers and amplifiers are used in materials processing, communications, entertainment, medical, biotechnology, scientific and advanced applications. Our products are displacing traditional technologies in many current applications and enabling new applications for lasers.

The Company is leveraging its brand and position as a pioneer and leader in developing and commercializing fiber lasers and amplifiers increasing its market share in the broader markets. IPG lasers continue to displace traditional lasers in many existing applications due to their superior performance and value.

Quite simply, IPG's products are disrupting the market by empowering tomorrow's applications today. YLS-AMB Adjustable Mode Beam Lasers provides independent programmable tuning of the output beam mode to any combination of a small-spot high intensity bright core to a larger ring-shaped beam. The smallest kW-class CW ytterbium fiber lasers in the industry that offer unmatched performance ultra-compact form factors with the highest power to volume ratios.

LDD in-line weld QA tool for remote scan welding applications offers five monitoring modes: keyhole depth, seam profile, workpiece height, finished weld surface height and bead profile. YLS-U lasers are built in the smallest form factor available on the market in its output power class. We offer. In general yes, however you may require an adapter to accept the IPG fiber connector. In some instances you may want to increase the focal length to take full advantage of the processing advantages that fiber lasers offer.

Yes, all IPG fiber lasers have a wide choice of industrial interfaces and can be easily interfaced to standard industrial controls. Yes, there are many other system builders who have successfully built turn-key systems using fiber lasers for a number of years.

IPG now also offers complete laser systems and sub-systems. IPG can supply a list of integrators and OEMs that can provide a turn-key solution that match the customer requirement. IPG offers the longest warranties in the industry: the typical warranty for standard fiber lasers is for a full 3 years after shipment. Some non-standard lasers and accessories may have different warranties. IPG also offers extended warranties. Contact your sales person for details.

IPG has extensive application development facilities at 14 locations around the world. In addition, various institutes and universities in North America, Europe and Asia are available for advanced research in applications development with fiber laser technology. These statements come from people not familiar with fiber laser technology. Our multi-kilowatt low mode fiber lasers are not susceptible to back reflection issues if the appropriate delivery fiber is utilized.

With single-mode lasers they in most cases do not have a problem, unless highly reflective materials are processed. However, if the back reflection is too high, the units sense the reflection and automatically shut down. The addition of an isolator eliminates this issue. IPG have numerous units in the field cutting and welding highly reflective material such as copper and aluminum on a production basis.

Diode bars AKA as monolithic laser diode arrays are made up of multiple emitters arranged in parallel in one crystal. Because of the high heat density in the junction area and strong thermal crosstalk between the emitters comprising the bars diode arrays must be mounted on copper with soft solder Indium and be water-cooled. High-speed and high pressure water flow through tiny gold coated channels in the copper called micro-channel coolers provides aggressive cooling.

However the water in the system must be kept extremely clean and be PH neutral as these channels are prone to failure due to cavitation and erosion in a relatively short period of time.

Keeping water quality to the specification is extremely challenging task in any, especially in industrial, environment. Copper heatsink and diode bar semiconductor are very dissimilar materials, including coefficient of thermal expansion.

You benefit from the clearly structured user interface which enables you to parameterize any model for your virtual test run quickly and easily, despite the high level of detail in the models. Information on the TruckMaker model environment.

Information on the MotorcycleMaker model environment. Motorcycle vehicle model. With our CarMaker tool environment, your virtual test runs are always in safe hands. Do you want to perform automated tests in every phase of your development process and manage your test maneuvers efficiently?

Then Test Manager is the ideal tool for you. The integrated Test Ware Designer and Test Configurator tools even make working with extensive maneuver catalogs easy.

They can deliver detailed and reliable information regarding all the important parameters, data and models for your individual test scenario at any point during the simulation. This way you always have an overview of your virtual test run! For test automation, you can access all available data or models, and automatically document your results in a test report once the test has been completed.

Use diagrams and image files to present and control your test results more precisely, or generate reports for individual sections of your test series — according to your individual requirements.

In addition to automated testing performed with the Test Manager, CarMaker also offers a choice between the two expansion tools, the Test Ware Designer and the Test Configurator. The Test Ware Designer makes defining catalogs quick and easy, allowing you to create, edit and call up test configurations in comprehensive, complex driving maneuver catalogs — so-called Test Ware Packages. The Test Configurator facilitates the generation of parameterized test series from the catalogs, which can subsequently be conducted using the Test Manager.

The Test Configurator also enables users with basic expertise in CarMaker to compile the necessary results for their test analyses. In the case of very extensive test catalogs, the use of high-performance computing HPC is a sensible option. Compared to the traditional approach of serial calculation, HPC allows you to gain an enormous advantage in terms of speed. Depending on existing hardware and the scope of tests, you can use different variants.

A computer with several CPU cores enables you to carry out parallel calculations, whereas within a network, you can use several computers simultaneously. For the highest possible computing power, an almost unlimited number of processes can be calculated parallel by means of cloud computing, thereby increasing efficiency to a major extent. These and other features help you manage automated tests efficiently and achieve optimal processes throughout every step of the development process.

A wide range of functions is available. Test runs can be displayed from different angles simultaneously as well as through various types of lenses or via mirrors. All active sensors as well as different lighting effects created by headlights can also be modelled, contributing to a realistic visualization. A reference vehicle can be displayed in addition to the test vehicle, making it possible to compare two test runs.

On-screen overlays, which clearly convey the most important information such as speed or the charge condition of the battery, round out the visualization options offered by IPGMovie.

The data analysis tool IPGControl creates clear and precise graphical representations of all the quantitative results of your simulation.