The Circuit Navigation System in companies
This text is available as PDF document in english and in german language:
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Line graphs are often used in companies
The daily work of an electrical engineer consists of reading documentation, understanding circuits, testing them in your operation, adjusting them, and documenting the results.
Depending on the exact field of activity, the portion of these activities and how they are performed may vary. But you always have to deal with line graphs.
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Those who read documentation, look at line graphs.
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Those who want to understand the circuit, analyze it with line graphs.
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Whoever tests its operation receives measured values and combines them into line graphs.
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Whoever adjusts it, compares the line graphs before and after the adjustment.
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And anyone who documents or presents circuits creates a document or presentation with line graphs.
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Zyklus des Ingenieurwesens. In jedem Schritt werden in der Elektrotechnik Liniengraphiken verwendet
Man liest ein Dokument oder hört eine Präsentation mit Liniengraphiken
Und am Ende des Prozesses erstellt man eine Dokumentation oder eine Präsentation der Ergebnisse. Der Kreislauf beginnt von vorne.
Zyklus des Ingenieurwesens. In jedem Schritt werden in der Elektrotechnik Liniengraphiken verwendet
Line graphs are often not useful
Dokumentation mit Liniengraphiken nachzuverfolgen ist unnötig aufwendig
Verschiedene Dokumente haben verschiedene Bezeichnungen. Das verwirrt den Leser.
Doch zum Glück kann man Dokumente zu Schaltplänen auch mit dem CNS erstellen.
Dokumentation mit Liniengraphiken nachzuverfolgen ist unnötig aufwendig
Despite their frequent use, line graphs have major disadvantages:
Anyone reading documentation is often confused by the many designations of all the lines and components, and does not even know which line belongs to which component. Matching all the curves and components in one' s head takes a long time and is prone to errors.
We have to do the same, unnecessarily exhausting and error-prone assignment in our heads when we create our own analysis, our own series of measurements.
And when we have gotten the results and then document and present them, the colleague who reads our documentation or listens to our presentation has the same problem: he does not know the names we have given to the lines and tries to assign them in his head.
Animations are created quickly and easily with CirNavSys
With the CirNavSys, current and voltage values can be automatically generated as an animation video. For this you need only a few clicks:
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First you have to feed a circuit to the CirNavSys.
Then in the second step, you can either let the program make a simulation calculation or you can transfer your own measurement series as tables to the program.
And you can choose which voltage and which current should be displayed.
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CirNavSys does the rest automatically. In a few seconds you get an animation which is quicker and easier to understand and which gets along without unnecessarily confusing designations of current curves and voltage curves. So you have not only saved hours of tedious assignment, but also a lower risk of error.
Ein Video mit dem CNS zu erstellen ist einfach. Das schwierigste, ist die Schaltung zu erstellen. Hier ein Funktionsgenerator erstellt in KiCad
Dann öffnen Sie das CNS
... wird die Simulation durchgeführt und schon haben Sie die Animation im CNS! Sie können diese Animation auch als Video ausgeben, siehe https://youtu.be/EvZYZc4WSKM
Ein Video mit dem CNS zu erstellen ist einfach. Das schwierigste, ist die Schaltung zu erstellen. Hier ein Funktionsgenerator erstellt in KiCad
Conclusion
Wherever you have to deal with line graphs at work:
Ask yourself if it is really necessary to assign all the curves to the components in your head again or if an animation of the CirNavSys would be better at this point. You can use your working time and your concentration for more important things.