-
between individual inductors.
Mutual inductance occurs when the
magnetic field of an
inductor induces a
magnetic field in an
adjacent inductor.
Mutual induction...
-
current through the
inductor,
labeled 2, that is
coupled to the
first inductor; and M {\displaystyle M} is the
mutual inductance. The
minus sign arises...
- it will have a
higher magnetic field and thus
higher inductance and Q
factor than an
inductor of the same m**** with a
straight core (solenoid coils)...
-
voltage across it, and an
inductor stores energy in its
magnetic field (B),
depending on the
current through it. If an
inductor is
connected across a charged...
- form as Z
inductor = ω L e j π 2 {\displaystyle Z_{\text{
inductor}}=\omega Le^{j{\frac {\pi }{2}}}} or,
using Euler's formula, as Z
inductor = j ω L {\displaystyle...
-
across the
inductor (opposite to the drop at on-state), and now the
inductor becomes a
current source. The
stored energy in the
inductor's magnetic field...
- buck-boost
converter may use a
single inductor which is used for both the buck
inductor mode and the
boost inductor mode,
using switches instead of diodes...
- for
certain applications, be
closer to an "ideal
inductor" than any (practical)
physical inductor can be. Thus, use of
capacitors and
gyrators may improve...
-
inductor in the
clockwise direction and the
inductor stores some
energy by
generating a
magnetic field. The
polarity of the left side of the
inductor...
- in emf is
opposed by the
finite rate of
change of
magnetic flux in an
inductor. The
resulting phase lag in
voltage is
identical for both
energy storage...
