28A2913-0A2 Laird Technologies, 28A2913-0A2 Datasheet - Page 27

28A2913-0A2

Manufacturer Part Number

28A2913-0A2

Description

FERRITE EMI SPLIT/SNAP-ON CORE

Manufacturer

Laird Technologies

Series

28Ar

Type

Core-Splitr

Datasheet

1.28A2005-0A2.pdf (28 pages)

Specifications of 28A2913-0A2

Filter Type

Round Cable, Snap On

Shape

Cylindrical

Frequency

100MHz

Impedance

177 Ohm

Package / Case

23.50mm O.D. x 13.06mm I.D. x 36.25mm L

Test Frequency

100 MHz

Product

Clamp-On Ferrite Suppressors

Termination Style

Cable Snap

Diameter, Cable

0.512 "

Impedance, At 100 Mhz

177 Ohms

Impedance, At 25 Mhz

86 Ohms

Impedance, At 300 Mhz

305 Ohms

Material, Core

Special Features

Black Plastic Snap-On Case

Termination

Cable

Dimensions

23.5 mm Dia. x 36.25 mm L

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

240-2605

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FERRITE EMI

www.lairdtech.com

FERRITE EMI CABLE CORES

EXAMPLE APPLICATION

Ferrite disks and plates provide a simple, cost-effective

solution for radiated and inductively-coupled electromagnetic

interference. After the PC board soldering process, a ferrite

disk or plate can be installed directly on the source of EMI

(such as active devices or unwanted antennas).

FEATURES:

• Easy installation • Each part for volume production is

provided with permanent, double sided 3,5 mil acrylic

adhesive with 218 oz. / inch2 adhesion. • Samples and

sample kits are available with removable and reusable

adhesive for “trial and error” testing • Variety of sizes offered

• Custom parts also available.

APPLICATIONS:

• Ferrite disks and plates can be utilized either as inductively

coupled components or EMI shields on PC board components

and traces. Inductive coupling occurs when the ferrite affects

the conducted wave form leaving the active component. The

rise time of the wave form is effectively slowed by the ferrite,

and the overshoot and associated ringing are attenuated.

EMI shielding occurs when the ferrite absorbs the radiated

emissions from active components, effectively protecting

other boards or components in the vicinity from radiated

contamination. • Can be used to locate unwanted EMI

antennas. • Flat flex & ribbon cables. • Can also provide

retrofit, auxiliary EMI attenuation.

EXAMPLE APPLICATION GRAPH

EXPLANATION:

The zero line on the graph represents the base line

noise recorded for an unprotected microprocessor. The

curve (dB down) represent the performance of the Laird

Technologies’ ferrite plate relative to the baseline. The

addition of the ferrite plates to the top of the processor

in this specific application exhibits up to a 5 dB EMI

reduction relative to the unprotected part. Performance

can vary with different sizes, materials, processors and

applications.

- 1

- 4

- 3

- 5

- 6

- 2

MP1040-100

Frequency MHz

100

DISKS AND PLATES

1000

PART NUMBER SYSTEM EXAMPLE

M - Material

H - Material

PART NUMBER

MM0650-100

MM0787-100

MM0787-200

MM1400-200

MM1400-300

Disk

MP0315-200

MP0350-000

MP0433-000

MP0512-200

MP0590-200

MP0591-200

MP0760-100

MP1040-100

MP1040-200

MP1040-300

MP1496-000

M - Disk

P - Plate

(inches)

A mm

(0.650)

(0.787)

(1.400)

(0.315)

(1.040)

(0.433)

(0.512)

(0.827)

(0.591)

(0.760)

(1.040)

(1.496)

16.51

20.00

35.56

26.42

11.00

13.00

21.00

15.00

19.30

26.42

38.00

8.00

Indentification

Part Size

0787

(inches)

B mm

(0.315)

(0.350)

(0.433)

(0.512)

(0.591)

(0.760)

(1.040)

(1.496)

11.00

13.00

15.00

19.30

26.42

38.00

8.00

8.89

Plate

Thickness

Code

100

(inches)

C mm

(0.050)

(0.075)

(0.100)

(0.079)

(0.050)

(0.077)

(0.079)

(0.050)

(0.075)

(0.089)

(0.079)

0.079)

1.27

1.91

2.54

2.00

1.27

1.96

2.00

1.27

1.91

2.25

2.00

28A2913-0A2 Laird Technologies, 28A2913-0A2 Datasheet - Page 27

28A2913-0A2

Specifications of 28A2913-0A2

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