Published in , this study describes the Longitudinal EMT attributes and demographics study design, testing, data collection and data collection methodology. It is the only national, randomized, and longitudinal data source for studying EMS professionals in the U. Receive Email Updates.
National EMS Research Agenda This document makes recommendations to improve EMS research and can be used by policy makers, EMS professionals and administrators, academicians, and interested members of the public as a rationale for the allocation of resources to EMS research.
Stop the Bleed Training Materials This website offers critical information about how to stop serious bleeding during emergencies, and shares helpful resources and training materials. Efficacy of Prehospital Application of Tourniquets and Hemostatic Dressings This report analyzes the military's use of tourniquets and hemostatic dressings and its potential benefits for civilian use. Our job is to model effect of velocity on eddy currents generation and hence distortion of MFL signal.
After the review of various offers we stated that EMS has all features we need. The great advantage of this package is that it is based on SolidWorks. Thanks to this design of even very complex models becomes child's play. My first magnetostatic model in EMS was created in just a few minuts!
Magnetic products inc. MPI , based in southeastern Michigan, is a worldwide provider of both magnetic and non-magnetic material handling solutions. MPI leads the industry by continuously engineering inventive magnetic equipment and advancing customer education though significant investments in research and development and proactive product training.
The program itself works well in conjunction with inventor and what is most valuable is the hands-on responsive support we receive from EMWorks when we need help.
ETI has been designing and delivering reliable transformers and inductors for industrial applications for more than 50 years. ETI also delivers transformers for medical research and railway systems.
The software is user friendly, very easy to learn, and most important it has been very useful in the evaluation and designing process. EMWorks Support has been prompt and helpful.
The main campus is located on a 1,acre ha site near Goleta, California, United States, 8 miles 13 km from Santa Barbara and miles km northwest of Los Angeles. Tracing its roots back to as an independent teachers' college, UCSB joined the University of California system in and is the third-oldest general-education campus in the system. This modeling was meant to investigate the efficiency and efficacy of inductive coupling as a means to heat and stir a metal solvent for a high temperature crystal growth process.
I found the software to be well integrated with Solidworks, with intuitive menus and feature commands. The array of parameters available for adjustment was quite broad; I was able to easily set up a good proxy for my actual experimental setup. EMS software represents a powerful and robust tool for anyone conducting research, design or development of systems involving electromagnetics.
The Silesian University of Technology SUT is one of the biggest universities of technology in Poland, with more than years successful tradition in education, research and development as well as cooperation with industry. The Faculties cover the whole range of engineering disciplines, as well as elements of management, sociology and administration.
Educational and research activities benefit from large number of modern lecture halls and advanced laboratories and are carried out by remarkable university staff consisting of over academic teachers including professors and DSc degree holders.
The interface is intuitive and clear. EMS for Inventor allows for fast and accurate linkage analysis in the field of electro-thermal and magnetic as for the design of highly complex projects is very useful. EMS saves time and avoids the problems associated with the transformation of files between different programs - in this way we gain time, which in the case of very complex analysis is priceless. Since then EMS always gave us reliable electromagnetic analyses and viable targeted solutions.
Most importantly, EMS analyses overlapped perfectly with test results for our spring applied electromagnetic brakes. When needed, the result-oriented technical team was there for us until the job is done. Hereby we can recommend EMS add-ins for Solidworks without any hesitation. Our design will revolve around the analysis of a new electron catcher Faraday cup and design an Electron Catcher for target station EMS from EMWorks has been a valuable tool for integrating electromagnetic component design into our SolidWorks environment.
EMS has allowed us to simplify the development stages for RF and high power AC componentry by reducing the number of experiments required during prototyping. The intuitive user interface combined with the simple transition between the design environment and finite element suite ensure that any required changes to a design can be completed, implemented, and brought back into the EMS environment for further simulation in a very short timeline.
Thank you for your valuable tool and help triumf website: www. I used EMWorks for an undergraduate biomedical engineering project. I am thankful that EMWorks is very well integrated with SolidWorks, which makes constructing 3D geometries straight-forward. The step-by-step tutorial of EMWorks also helped me in learning the software. Many other multiphysics software applications don't have easy-to-use tutorials. Overall, EMWorks has been helpful software for my project.
I got used to EMS very fast. I just needed two days to get a first result. Especially the simplicity to apply boundary conditions or to refine the mesh at certain surfaces or solids is great! And also the options to plot the results are very nice and intuitive. In the end the results of the simulation matched very well with the experimental values. Our magnetic bearing design requires dynamic and electromagnetic FEA verification.
EMS solver is fully compatible with Solidworks and it allowed us a very short learning curve. With basic knowledge of Solidworks we have mastered EMS in less than two working days. The use of EMS definitely added value to the course and enhanced students' learning experience. EMS is quite useful program for finding electric and magnetic fields in unorthodoxly shaped assemblies.
It has been especially helpful for me when I was trying to design circuits with high voltage and current applications, which are potentially lethal for students.
EMS comes with a set of tutorials that guide users through the model setup and demonstrate a large variety of applications. Overall, a very professional electromagnetic simulation software. The EMS magnetostatics module has been amazing for designing permanent magnet configurations to optimize magnetic field shape. The interface with SolidWorks is really intuitive and I was able to start using it quickly. Even better, the customer service and tech support have been wonderful!
I highly recommend this software. I started using EMS because I was looking for a software that could compute accurate 3D magnetic field results, and at the same time provide all the associated variables, such as inductance, force, losses etc. Not only EMS perfectly fulfilled my simulation demands, but I also benefited from the great tech. I used EMS software for the induction heating analysis of a gear.
The transient magnetic analysis helped me obtain good simulation results which corroborate what is mentioned in the literature.
The software has a user-friendly interface. Moreover, The EMS license comes with a set of pre-defined tutorials and Demo Viewer examples to guide the users and help them get familiar with the software. I had a good experience with EMS. It is a powerful simulation tool that I would recommend to anyone who is doing projects on induction heating. With this tool, we can model many types of coil designs, such as using thin magnet wire, and water cooling it, or instead going with hollow-core type of wiring with finite diameters and realistic spiraling modeled in SW and running cool water through that.
We can then see our magnetic field profiles all around the coils, and of course in the center of our Helmholtz configuration, where we would like to ensure very flat magnetic fields. In a complex environment such as a cold-atom experiment, I want to ensure that the vacuum chamber geometry itself would not impede our ability to ramp up and down the current on the magnetic coils, due to eddy currents. By tuning the materials, and in real-time designing components the way they would be engineered, we will be able to fine-tune our apparatus to our needs and constraints.
In the future, we will continue to evaluate the eddy currents present in our system as we try different parameters for our magnetic field control see image. One great aspect to continue expanding on would be the video tutorials highlighting the many ways to get students started on using EMWorks for their applications.
The image shows a cut-away view from our new vacuum chamber. We want to verify the compatibility of a new magnetic coil system with the chamber. EMS can be used as a transformer design software. EMS can be used to virtually study critical transformer design parameters, including:.
A transformer shall not store any energy but rather transfer instantaneously from input to output. Unfortunately, in real life transformers do store some undesired energy. EMS computes the leakage inductance which represents the stored energy between windings regions occupied by non-magnetic media. Similarly, EMS calculates the mutual inductance which indicates the amount of undesired stored energy in the magnetic core and small air gaps. To calculate the said temperature rise, EMS takes into consideration all transformer losses including, eddy loss, hysteresis loss, core loss, winding loss, and heat loss as well as the surrounding liquid temperature and convection properties.
EMS calculates the magnetic flux density and saturation levels in the core which can help in selecting the proper core material, shape, and size for any frequency and desired power output. Open and short circuit tests of a transformer are critical but costly and time consuming. EMS enables the designer to virtually run these tests accurately and efficiently. EMS calculates the dielectric breakdown which is instrumental in selecting the proper bushings, surge arrestors and other insulating infrastructure.
This type of calculation helps the designer meet the various insulation coordination standards. EMS calculates the magnetic force acting both on the windings and the core material as well as the stress and structural displacement due to these forces. This type of calculations is helpful in guaranteeing the structural integrity of the transformer. EMS can be used as a motor design software and can be used to virtually study critical electric motor design parameters, including:.
Cloud access security broker with discovery, behavioral analytics, risk assessment, data protection, and threat protection.
Intelligent insights and guidance that help maximize your security posture with Microsoft and Azure. Protect your time and empower your team Stay secure and productive anywhere, on any device, with identity and intelligence-driven innovations. Free trial. Protect your time and empower your team.
Read the report. Identity and access management Ensure secure connections between people, devices, apps, and data. Get to Know Accruent See how our commitment to optimizing real estate, facilities and asset management makes us a market leader. Learn More. Higher Education Campus scheduling solutions designed for colleges and universities of all sizes. Webinars Join a variety of discussions designed to drive value for your organization. Get Started Watch Demo.
Case Study. Thank you for downloading. Please fill out the form to have the PDF delivered to your inbox.
0コメント