HFWorks is a high frequency MHz to millimeter wave electromagnetic simulator that uses a full wave approach to model electric and electronic components and systems.
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To use magnetic stripe cards, you will first print your card design and then encode the cards.
To start a design, you first select the core family and material. After you enter the operating frequency, the Core Wizard function will select the best core for the job. You may browse through the core database and choose an alternate core, if desired. You can lock the selected core geometry or let the program alter it during the optimization process.
Finally, the electrical specifications such as voltage and current per winding are entered on the Transformer screen. This is done to minimize total power dissipation for a given temperature rise in the smallest possible core. The program takes into account design constraints such as the maximum allowed window fill, peak flux density and temperature rise.
Once finished, Magnetics Designer will provide a summary of the cores it tried to optimize, and suggests on how to possibly improve the design if design constraints were not met. After the initial optimization pass, the transformer screen lets you change any of the more than 20 design parameters, such as number of turns; wire gauge and type; number of parallel strands; gap length; layer insulation thickness; wrapper thickness and end margin lengths.
The program will analyze your changes and immediately show the calculated results each time a parameter is altered. You can easily optimize and compare several designs using different core types and materials.
Once the design is complete, the winding specification and a complete electrical performance summary can be displayed or printed. The Transformer Design Screen provides trade off of more than 20 different design parameters. Magnetics Designer automatically flags any design constraints that are violated. Just enter the power supply specification and Magnetics Designer computes the transformer or inductor spreadsheet entries.
Necessary data includes input power supply voltage; the output voltage s and current s with frequency; duty ratio and ripple current. An automatic design phase synthesizes the transformer or inductor. The user can then interact with Magnetics Designer to perfect the design. When acceptable results are achieved, an IsSpice4 model is generated for use in one of the template power supplies.
This feature is available in the demo version of the Magnetics Designer program, which provides a limited number of windings and cores. These templates include Flyback, Forward, and Push-Pull topologies. The demo software will run average and switching models for these pre-designed templates. The templates accept the IsSpice4 transformer models generated using Magnetics Designer for cycle-by-cycle switching simulations.
The transformer parameters can be input to the "Average" models. In this brief note, I will discuss a bit about a different kind of bearing, Magnetic bearing and highlight its advantages when compared to a mechanical one. Magnetic Bearing Limitations of mechanical bearings Mechanical bearings have limited life due to wear and tear and they require lubrication. In many high speed applications they also may need special type of cooling. Nevertheless it is an exhaustible component that needs to be replaced several times during the life of its parent device.
How does a magnetic bearing work? A magnetic bearing facilitates the same functions of a mechanical bearing by employing a magnetic array of permanent magnets. In short there are 2 sets of concentric magnetic arrays which are held in place by the magnetic forces.
Since there is no contact there is no wear and tear and technically the magnetic bearing has a very long life.
In addition it can handle very high speeds and large loads with zero friction. This makes a magnetic bearing an excellent choice for machine design, marine, automotive, aerospace and medical devices industry. Recently, there has been a surge in the use of magnetic bearings across various industries.
In this design the outer bearing is stationary and the inner bearing is connected to a shaft and is spinning.
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MagNet 2D/3D is a powerful simulation software which engineers and scientists worldwide use for the design of motors, sensors, transformers, actuators, solenoids or any component with permanent magnets or coils. You will not upload, post, reproduce or distribute any information, software or other material protected by copyright or any other intellectual property right (as well as rights of publicity and privacy) without first obtaining the permission of the owner of such rights.
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