0199000019 Fair-Rite, 0199000019 Datasheet - Page 136

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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Figure 2 Lumped equivalent of a transformer.

Figure 3 Simplified equivalent transformer circuit

For other circuit parameters see Figure 2.

F a i r-Ri t e Produ cts C o rp .

Phone:

Technical Information

Secondary parameters reflected to the primary side.

' = secondary winding capacitance

' = resistance of secondary winding

' = secondary leakage inductance

' = load resistance

= source EMF

= source resistance

= primary winding capacitance

= resistance of primary winding

= primary leakage inductance

= open circuit inductance of primary winding

= shunt resistance that represents loss in core

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= L

= R

= C

+ L

+ C

+ R

Ideal

Transformer

(888) 337 -7483

Ideal

Transformer

primary reactance X

equivalent shunt loss resistance R

therefore be expressed in terms of the shunt inductance:

For most ferrite broadband transformer designs, the only ele-

ments that are likely to effect the transmission at the mid-band

frequency range are the winding resistances. The insertion loss

for the mid-band frequency region due to the winding resistance

may be expressed as:

In the higher frequency region the transmission characteristics

are mainly a function of the leakage inductance or the shunt

capacitance. It is often necessary to consider the effect of both

of these reactances, depending upon the circuit impedance. In

a low impedance circuit the high frequency droop due to leakage

inductance is:

This high frequency droop in a high impedance circuit, due to the

shunt capacitance, is as follows:

Reviewing the insertion loss characteristics for the three fre-

quency regions, it can be concluded that the selection of ferrite

material and core shape should result in a transformer design

that yields the highest inductance per turn at the low frequency

cutoff f

low frequency region with the least number of turns. The low

number of turns are desirable for low insertion loss at the mid-

band region and also for low winding parasitics needed for good

response at the high frequency cutoff f

Where R = R

Where R

= 10 log

= 20 log

= 10 log

. This will result in the required shunt inductance for the

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= R

x R

(

+ R

(

’ / R

(

’

(

�

with a negligible contribution of the

a +

�

+ R

= R

(

’

(

’

(

. The insertion loss may

0199000019 Fair-Rite, 0199000019 Datasheet - Page 136

0199000019

Specifications of 0199000019

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