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flux leakage of the transformer 113 and a board wiring(passive) caused byleakage inductance
magnetic shunts in the core(passive) caused byleakage inductance
The penetrating magnetic flux in this statecausesleakage " inductance
a magnetic flux that is unable to couple with other windings(passive) is caused byLeakage inductance
the magnetic flux that passes between the two conductors(passive) is caused byleakage inductance
magnetic flux not being 100 % coupled between windings in a transformer(passive) is caused byLeakage inductance
magnetic flux which does not completely link primary and secondary windings(passive) caused byLeakage inductance
Ideal transformer magnetic flux Leakage magnetic fluxcausesthe Leakage reactance
the spatial higher harmonic components and effectively utilizing the odd - order spatial higher harmonic components of armature reaction magnetic fields(passive) caused bythe leakage reactance
the interaction of magnetic flux outside the core ‘ cutting ’ some primary coil winding turns(passive) is caused byLeakage inductance
imperfect coupling between its primary and secondary windings(passive) caused byleakage inductance
poor coupling between windings which leads to amounts of flux “ leaking ” out and not being transferred to the other winding(passive) is caused byLeakage inductance
The flux linking the windings via the corecan causeleakage inductance
Insulation ResistancesetsLeakage Reactance
a poor flux connection(passive) is caused byLeakage inductance
insufficient flux connections(passive) is caused byLeakage inductance
partly the relatively few interleavings and partly the low fill(passive) can be caused byLeakage inductance
low coupling(passive) caused byleakage inductance
The magnetic coupling of the coils over the air gapcausesleakage inductance
leakage magnetic fluxes of windings and magnetizing reactance of windings etc(passive) caused byleakage reactance
that part of the primary flux that does n't make the primary flux to the secondary(passive) is caused byLeakage inductance
the design of the core and the windings(passive) is primarily caused byLeakage inductance
magnetic leakage fluxes of the windings and(passive) caused byleakage reactance
damping(passive) caused byleakage inductance
a less than perfect magnetic coupling between primary and secondary(passive) caused byleakage inductance
the use of magnetic shunts in PCB winding transformersto createleakage inductance
poor magnetic - field coupling between primary winding 242 and secondary winding 243(passive) is caused byLeakage inductance
that very small fraction of the flux from one section 's winding which fails to thread the rest of the windings(passive) is caused byLeakage inductance
A wide variety of shapes may be selected for skip or unwound end teethto influenceleakage inductance
the induction motorsresultsinto leakage reactance
a magnetic field that links one winding but not the other(passive) is caused byLeakage inductance
the magnetic isolated segment(passive) is caused byThe leakage reactance
imperfections in the transformer coils(passive) created byleakage inductance
the leakage fluxcausesleakage inductance
This magnetic leakage in the secondary satellitescreatesa leakage reactance
this inductance(passive) created bythe leakage reactance
the drain voltage spike(passive) caused bythe drain voltage spike
voltage drop on a loaded transformercausesvoltage drop on a loaded transformer
the turnoff voltage spike(passive) caused bythe turnoff voltage spike
the leakage voltage spike(passive) caused bythe leakage voltage spike
drain voltage waveform oscillations(passive) caused bydrain voltage waveform oscillations
the leading edge voltage spike(passive) caused bythe leading edge voltage spike
the peak voltage(passive) caused bythe peak voltage
C3 limits drain voltage spikes(passive) caused byC3 limits drain voltage spikes
the switching - off voltage spikes(passive) caused bythe switching - off voltage spikes
additional voltage dropcreateadditional voltage drop
a voltage spike in winding 37 on turn off of the switching device 34causinga voltage spike in winding 37 on turn off of the switching device 34
large voltage spikes during the switchingcreatinglarge voltage spikes during the switching
no o ringing problem(passive) caused byno o ringing problem
the potential ringing and overshoot problems(passive) created bythe potential ringing and overshoot problems
power to prevent rising of DRAIN Voltage(passive) caused bypower to prevent rising of DRAIN Voltage
undesired voltage spikes or ringing which can lead to a requirement for snubbing circuits and their associated energy lossescan causeundesired voltage spikes or ringing which can lead to a requirement for snubbing circuits and their associated energy losses
to EMI ... especially from ringingcan leadto EMI ... especially from ringing
all sorts of problems like voltage spikes , ringing , and robbing volt*seconds from the secondarycausesall sorts of problems like voltage spikes , ringing , and robbing volt*seconds from the secondary
voltage drop on a loaded transformerFigure 5 shows a configurationcausesvoltage drop on a loaded transformerFigure 5 shows a configuration
the secondary from removing all of the energy stored by the primarypreventsthe secondary from removing all of the energy stored by the primary
overshoot - voltage problems for flyback converterscausesovershoot - voltage problems for flyback converters
a major box challenge for giant facility distribution transformerscan createa major box challenge for giant facility distribution transformers
energy conversion , which not only reduces the problems of low efficiency and difficulty of control(passive) caused byenergy conversion , which not only reduces the problems of low efficiency and difficulty of control
energy to be stored in the non - magnetic area between the windings of the transformer and the poles of the core halvescausesenergy to be stored in the non - magnetic area between the windings of the transformer and the poles of the core halves
energy that is stored in a non - magnetic region between the transformer windings and the separate core polescreatesenergy that is stored in a non - magnetic region between the transformer windings and the separate core poles
some HF falloffwill causesome HF falloff
a voltage peak(passive) caused bya voltage peak
the interference(passive) caused bythe interference
the peaking in the OPT(passive) caused bythe peaking in the OPT
the transient(passive) caused bythe transient
current limits(passive) caused bycurrent limits
from the leakage fluxresultingfrom the leakage flux
any drainvoltage spikes(passive) caused byany drainvoltage spikes
from the loosely coupled windings of L1 in combination with capacitors across the line ( C3 , C96resultingfrom the loosely coupled windings of L1 in combination with capacitors across the line ( C3 , C96
volts spi ke(passive) caused byvolts spi ke
shoot through conditions in a half bridgecan causeshoot through conditions in a half bridge
issuescausesissues
a fast enough turn offpreventsa fast enough turn off
Excessive VoltageCreatesExcessive Voltage
Spikes caused by the slow forward recovery of diodes are often wrongly thought(passive) to be caused bySpikes caused by the slow forward recovery of diodes are often wrongly thought