28A0807-0A2 Laird Technologies, 28A0807-0A2 Datasheet - Page 4

28A0807-0A2

Manufacturer Part Number

28A0807-0A2

Description

FERRITE CYLINDER CLAMP-ON BLACK

Manufacturer

Laird Technologies

Series

Stewardr

Type

Core-Splitr

Datasheets

1.CM3322U610R-10.pdf (2 pages)

2.28A0807-0A2.pdf (1 pages)

3.28R2170-000.pdf (24 pages)

Specifications of 28A0807-0A2

Filter Type

Round Cable, Snap On

Shape

Cylindrical

Frequency

100MHz

Impedance

348 Ohm

Package / Case

24.82mm O.D. x 10.00mm I.D. x 55.91mm L

Shielding

Unshielded

Test Frequency

100 MHz

Product

Clamp-On Ferrite Suppressors

Operating Temperature Range

- 40 C to + 125 C

Termination Style

Cable Snap

Diameter, Cable

0.394 "

Impedance, At 100 Mhz

348 Ohms

Impedance, At 25 Mhz

160 Ohms

Impedance, At 300 Mhz

514 Ohms

Material, Core

Special Features

Black Plastic Snap-On Case

Termination

Cable

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

240-2580

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FERRITE MATERIAL COMPARISON

· Select the appropriate ferrite material for the EMI frequency range to be attenuated (refer to cable core material impedance vs.

· Ferrite material composition affects core performance most. High performance material is best. Cheap, low performance materials

· Shape (design) and mass of the ferrite core significantly affect impedance.

· Don’t over size. Use high performance ferrite material and select the smallest core that will do the job. High performance material allows

· Select a ferrite core that fits over the cable’s outside dimensions. Core should slide easily over the cable during installation.

· When possible, install a cable core over wires in a common-mode configuration (out and back lines inside the same ferrite cable

· Install the ferrite core near the noise source

· Additional turns through a core will provide multiple amounts of peak impedance.

· Two piece split cores are available. One-piece cylindrical or flat ribbon ferrite core shapes are usually preferable but, split cores can be

· Side by side impedance testing of ferrite cores is the best way to compare performance of different cores.

Example: Two wire turns provide 4 times the impedance of one turn (pass through) the ferrite core. Also, with each added turn, the peak

0.3

frequency chart above).

require the use of larger, heavier cores.

the use of smaller, lighter and lower cost cores.

core). A differential cable pair inside the same core will make the ferrite core a common mode choke that is not susceptible to

saturation from very high currents.

impedance shifts to a slightly lower frequency.

used in applications where cores cannot slide over cable ends and connectors. Some split cores are available with snap-on plastic

cases or metal clips.

Ferrite core impedance measurement equipment and test methods are not standardized in the industry. Every ferrite company has

their own test methods. Catalog (web site) impedance data cannot be accurately compared.

0.5

Optimized, high performance, low cost custom part designs are available.

LF, 8, HF Material Impedance vs Frequency ( 00 KHz - GHz )

LF Low Frequency

8 Broadband High Performance

HF High Frequency

DESIGN & SELECTION “RULES OF THUMB”

Impedance Materials for Cable & Wiring Harness Cores

Frequency ( MHz )

100

500

1000

2000

28A0807-0A2 Laird Technologies, 28A0807-0A2 Datasheet - Page 4

28A0807-0A2

Specifications of 28A0807-0A2

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