Ferrites and Common-Mode Chokes
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Transcript of Ferrites and Common-Mode Chokes
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Ferrites and Common-Mode Chokes
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• Magnetic field tend to concentrate in high-permeability(磁導率 ) materials.
• Some of the flux leaks out and completes the magnetic path through the
surrounding air.
e.g. The magnetic flux
was confined to the
ferromagnetic core.
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• The quantity of reluctance( 磁阻 ) R depends on– The permeability of the
magnetic path.– Cross-sectional area A– Length l
• 用類比 lumped circuits 來分析 magnetic circuits– Voltage magnetomotive force
(mmf) NI– Current magnetic flux
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•High-permeability core: Rcore << Rair
–the majority of the flux confined to the core.
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The reluctances of the path
the permeablities of the path.
The portion of the total flux that remains in the core
the ratios of the relative permeablities of the two paths.
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Common-mode & Differential-mode current
Consider
the pair of parallel conductors carring current I1 and I2.
Decompose
with differential-mode current ID and common-mode current IC.
I1 = IC + ID
I2 = IC ID
ID = 0.5 ( I1 I2)
IC = 0.5 ( I1 + I2)
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• The differential-mode currents – are equal in magnitude but oppositely directed
in the two wires.
• The common-mode currents – are equal in magnitude and are directed in the
same direction.
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The differential-mode current are oppositely directed.
The resulting electric field will also be oppositely directed.
Two conductors are not collocated.
The fields will not exactly cancel.
It will subtract to give a small net radiated electric field.
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The common-mode currents are directed in the same direction.
Their radiated fields will add giving a much larger contribution to the total radiated field than will the differential-mode current.
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A pair of wires carrying currents I1 and I2 are wound around a ferromagnetic core.
Calculate the impedance
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Consider common-mode currents (I1=IC, I2=IC)
ZCM = p (L + M)
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If the windings are symmetric and all the flux remains in the core
L=M ; ZDM = 0
Consider differential-mode currents (I1=ID and I2=ID)
ZDM = p (L M)
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In the ideal case (L=M)
A common-mode choke
• has no effect on differential-mode current.
• but selectively places an inductance 2L in series with the two conductors to common-mode currents.
Thus, common-mode choke can be effective in blocking common-mode currents.
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Ferromagnetic materials – ''saturation effect'' at high currents– Their permeabilities tend to deteriorate wit
h increasing frequency.
The functional or differential-mode current ID are the desired currents and usually large in magnitude.
The common-mode choke– Fluxes (due to high differential-mode currents) c
ancel in the core.– No saturation.
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Typically: MnZn, NiZn
Ferrite core materials have different frequency responses of their permeability.
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The impedance for a typical MnZn core
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The impedance for a typical NiZn core
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The frequency response of the impedance of
a inductor (formed by winding five turns of #20 gauge wire on two toroids)
1 MHz 60 MHz
MnZn: 500 MnZn: 380
NiZn: 80 NiZn: 1200
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6.8 Ferrite Beads
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• Ferrite materials are basically
nonconductive ceramic(陶瓷 ) materials
• Ferrite materials can be used to
provide selective attenuation( 衰減 ) of high-frequency signals and not affect the more important lower-frequency compo
nents of the functional signal.
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• The most common form of ferrite materials is a bead.
• The ferrite material is formed around a wire, so that
the device resembles an ordinary resister.
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• The ferrite bead can be inserted in series with a wire or land, and provide a high-frequency impedance in that conductor.
• The ferrite bead affects both differential-mode and common-mode currents equally.– If the high-frequency components of the
differential-mode current are important from a functional standpoint, then the ferrite bead may affect functional performance of the system.
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• The current produces
magnetic flux in the
circumferential direction.
• This flux passes through the bead material
producing an internal inductance.
• The inductance
the permeability of the bead material
Lbead = 0rK
– K: const, dep. on the bead dimension
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The bead material is characteristized by
a complex relative permeabilityr = 'r(f) j "r(f)
– [The real part] 'r
is related to the stored magnetic energy in the bead material.
– [The imaginary part] "r
is related to the losses in the bead material.
– 'r & "r both are functions of frequency.
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From this result,
the equivalent circuit consists of a resistance (dep. on frequency) in series with an inductance (dep. on frequency)
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• Typical ferrite beads give impedances of order 100 above 100MHz.
• Multiple-hole ferrite beads can be used to increase the high-frequency impedance.
• The impedance of ferrite beads is typically used in low-impedance circuits.
• Ferrite beads and the other uses of ferrites are susceptible to saturation when used in circuits that pass high-level, low-frequency currents.
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