The transformer core
, the flow paths, designed to provide the magnetic field for the induction voltage between the two winding is needed.
However, this type of transformer structure, two of the winding coil in separate branches is not effective, because the primary and secondary windings are well separated from each other.
This leads to low magnetic coupling between the two winding and a large number of magnetic flux leakage from the transformer itself.
But in addition to the 'O' shape structure, there are different types of transformer structure and design are available, and is used to overcome the low efficiency, resulting in a small compact transformer.
Close contact with each other through the two winding to improve the magnetic coupling, can increase the efficiency of the simple structure of transformer.
Increase and magnetic circuit around the focus coil can improve the magnetic coupling between the two winding, but it also has to increase the effect of the magnetic loss of transformer core.
In addition to providing low reluctance path for the magnetic field, the magnetic core is designed to prevent the core itself within the loop current.
Called 'vortexing' loop current lead to the heating and energy loss inside the core, thereby reducing the efficiency of transformer.
These losses are mainly caused by iron circuits of induction voltage, continually external sinusoidal voltage setting of the iron circuit effect of alternating magnetic field.
To reduce the unnecessary power consumption of a kind of method is made of steel sheet transformer core.
One increasingly popular managerial tactic to improve problem-solving performance of nanocrystalline cores
is to increase the connectedness, or what academics call clustering, of the organization
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As the manufacturing procedure of nanocrystalline cores becomes more regulated, the costs to businesses will increase and the workforce will suffer as a result.