0199000019 Fair-Rite, 0199000019 Datasheet - Page 125

0199000019

Manufacturer Part Number

0199000019

Description

BEAD KIT, EMI SUPPRESSION

Manufacturer

Fair-Rite

Datasheet

1.0199000019.pdf (715 pages)

Specifications of 0199000019

Kit Contents

Contains 28 Different Beads In Three Suppression Materials, 73, 43 And 61.

Component Type

Shield Bead Kit

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Technical Information

Air Core Inductance - L

The inductance that would be measured if the core had unity

permeability and the flux distribution remained unaltered.

Coercive Force - H

The magnetizing field strength required to bring the magnetic

flux density of the magnetized material to zero.

Core Constant - C

The summation of the magnetic path lengths of each section of

a magnetic circuit divided by the corresponding magnetic area

of the same section.

Core Constant - C

The summation of the magnetic path lengths of each section of

a magnetic circuit divided by the square of the corresponding

magnetic area of the same section.

Curie Temperature - T

The transition temperature above which a ferrite loses its ferri-

magnetic properties.

Disaccommodation - D

The proportional decrease of permeability after a disturbance of

magnetic material, measured at constant temperature, over a

given time interval.

Disaccommodation Factor - DF

The disaccommodation factor if the disaccommodation after

magnetic conditioning divided by the permeability of the first

measurement times log

Effective Dimensions of a Magnetic Circuit -

Area A

For a magnetic core of given geometry, the magnetic path length,

the cross-sectional area and the volume that a hypothetical

toroidal core of the same material properties should posses to

be the magnetic equivalent to the given core.

Field Strength - H (oersted or A/m)

The parameter characterizing the amplitude of the alternating

field strength.

Flux Density - B (gauss or mT)

The corresponding parameter for the induced magnetic field in

an area perpendicular to the flux path.

Flux Density, saturation - B

The maximum intrinsic induction possible in a material.

Inductance Factor - A

Inductance of a coil on a specified core divided by the square of

the number of turns. (Unless otherwise specified the inductance

test conditions for the inductance factor are at flux density <10

gauss).

Loss Factor - tan d/m

The phase of displacement between the fundamental compo-

nents of the flux density and the field strength divided by the initial

permeability.

Phone:

Fair-Rite Products Corp.

15th Edition

(cm

(888) FAIR RITE / (845) 895-2055 -

(888) 324-7748

), Path Length

(cm

(oersted or A/m)

(nH)

-1

-3

(

of the ratio of time intervals.

)

(henry)

(cm) and Volume V

(gauss or mT)

FAX:

(888) FERRITE / (845) 895-2629

(888 337-7483

(cm

)

Magnetic Constant - m

The permeability of free space.

Magnetic Hysteresis

In the magnetic material, the irreversible variation of the flux

density or the magnetization which is associated with the change

of magnetic field strength and is independent of the rate change.

Magnetically Soft Material

A magnetic material with low coercivity.

Permeability, amplitude - m

The quotient of the peak value of the flux density and the peak

value of the applied field strength at a stated amplitude of either,

with no static present.

Permeability, complex series - m

The real and imaginary components respectively of the complex

permeability expressed in series terms.

Permeability, effective - m

For a magnetic circuit constructed with an air gap or air gaps, the

permeability of a hypothetical homogeneous material which

would provide the same reluctance.

Permeability, incremental - m

Under stated conditions the permeability obtained from the ratio

of the flux density and the applied field strength of an alternating

field and a superimposed static field.

Permeability, initial - m

The permeability obtained from the ratio of the flux density, kept

at <10 gauss, and the required applied field strength. Material

initially in a specified neutralized state.

Power Loss Density - P (mW/cm

The power absorbed by a body of ferrimagnetic material and

dissipated as heat, when the body is subject to an alternating

field which results in a measurable temperature rise. The total

loss is divided by the volume of the body.

Remanence - B

The flux density remaining in a magnetic material when the

applied magnetic field strength is reduced to zero.

Temperature Coefficient - TC

The relative change of the quantity considered, divided by the

difference in the temperatures producing it.

Temperature Factor - TF

The fractional change in the initial permeability over temperature

range, divided by the initial permeability.

PO Box J, One Commercial Row, Wallkill, NY 12589-0288

www.fair-rite.com

E-Mail: ferrites@fair-rite.com

(gauss or mT)

', m

)

125

0199000019 Fair-Rite, 0199000019 Datasheet - Page 125

0199000019

Specifications of 0199000019

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