Explanation of results: Powers and losses

Introduction

It is necessary to give more details about the computation of different powers and losses.

Active power and Joule losses: Why?

In the steady state AC application, Flux can compute:

• the apparent power S = ModC(PowV)
• the reactive power Q = Imag(PowV)
• the active power P = Real(PowV)
• the Joule losses:
  • region of coil conductor type:
  • region of solid conductor type:

Question: the active power and Joule losses are they identical?

Answer: yes and no, according to the modeled case. (see following block)

Formula details

Here is a reminder of formulas in steady state AC application:

with

The first part is mandatory a real because J* can't be complex.

But the second part can have a real part and an imaginary part when the case is modeled with a complex permeability:

• if ì isn't complex → active power = Joule losses
• si ì is complex → active power ≠ Joule losses

Joule losses (coil conductor)

Two possibilities to compute Joule losses of a coil conductor:

• on a region:

  (in steady state AC Magnetic)

(in transient magnetic)

with R_CCreg = resistance computed in function of the material and of the fill factor* associated to the region of coil conductor coil*.

• on a component:

  (in steady state AC Magnetic)

(in transient magnetic)

with R_CCcomp = R_CCreg + R_CCadd

where R_CCadd corresponding to the resistance defined in the coil conductor