In the above diagram, the parallel branch containing *Rc* and *jXm* represents the excitation branch.

My question: I just can't seem to understand why the core loss current and the magnetization current had to be modeled using a *parallel* branch?

If you didn't connect anything to the secondary you would just have, in effect, an inductor formed by the primary. If you measured the inductance (for instance) you would get a few henries for a standard AC power transformer.

That measurement implies the inductance is in parallel with the primary connections. It's a big value inductance of course because you don't want massive reactive currents being taken by electronic appliances or the electicity companies would be up in arms about it. So that's why a regular AC transformer has up to a 1000 primary turns.

So, if that big inductance were in series with the "ideal" transformer in the transformer model, you would, at best get a few tens or maybe a hundred milli amps into the primary on full load on the secondary and that doesn't make a very good transformer.

To double check this, think again about it being in series with the ideal transformer in the model. Now, with the secondary unloaded there would be absolutely zero reactive current into the primary and this is just not the case.

March 25, 2016 10:23 AM

yo wtf is going on here my dog

October 09, 2019 18:00 PM

- Serverfault Help
- Superuser Help
- Ubuntu Help
- Webapps Help
- Webmasters Help
- Programmers Help
- Dba Help
- Drupal Help
- Wordpress Help
- Magento Help
- Joomla Help
- Android Help
- Apple Help
- Game Help
- Gaming Help
- Blender Help
- Ux Help
- Cooking Help
- Photo Help
- Stats Help
- Math Help
- Diy Help
- Gis Help
- Tex Help
- Meta Help
- Electronics Help
- Stackoverflow Help
- Bitcoin Help
- Ethereum Help