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Multi-Aperture cores (2867000102)

Part Number: 2867000102
67 MULTI-APERTURE CORE
67 Material
Suppression Components
Board Component
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Part Number: 2867000102

67 MULTI-APERTURE CORE

Explanation of Part Numbers:
– Digits 1 & 2 = Product Class
– Digits 3 & 4 = Material Grade
– Last digit 2 = Burnished

Multi-aperture cores are used in suppression applications and in balun (balance-unbalance) and other broadband transformers. They are also employed in airbag designs to prevent accidental activation.

All multi-aperture cores are supplied burnished.

Our “Multi-Aperture Core Kit” (part number 0199000036) is available for prototype evaluation.

For any multi-aperture requirement not listed here, feel free to contact our customer service group for availability and pricing. 

Catalog Drawing
3D Model

Weight: 3.5 (g)

Dimmmmm tolnominal inchinch misc.
A13.3±0.600.524_
B13.4±0.300.528_
C7.5±0.350.295_
E5.7±0.250.224_
H3.8±0.250.15_

Chart Legend
+ Test frequency

Electrical Properties
AL(nH)89 Min

Multi-aperture cores in 73 and 43 materials are controlled for impedance only. The 61 NiZn material is controlled for both impedance and AL value. The high frequency 67 material is controlled for AL value. Minimum impedance values are specified for the + marked frequencies. The minimum impedance is typically the listed impedance less 20%.

Catalog Drawing

Multi-aperture cores in 73 and 43 material are measured for impedance on the E4990A Impedance Analyzer. The 61 and 67 multi-aperture cores are tested on the E4991A / HP4291B Impedance Analyzer. All impedance measurements are performed with a single turn to both holes, using the shortest practical wire length.

The 61 and 67 material multi-hole beads are tested for AL value. The test frequency is 10 kHz at < 10 gauss. The test winding is five turns wound through both holes.

 

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A high frequency NiZn ferrite intended for broadband transformers. Antennas and Hi Q inductor applications up 50MHz. Excellent stability characteristics.

Strong magnetic fields or excessive mechanical stresses may result in irreversible changes in permeability or losses.

Available in 67 material:
Multi-Aperture Beads
Rods
Toroids
Application Specific Custom Components

67 Material Characteristics
Property Unit Symbol Value
Initial Permeability @ B < 10 gauss µi 40
Flux Density @ Field Strength Gauss
Oersted
B
H
2300
20
Residual Flux Density Gauss Br 1000
Coercive Force Oersted Hc 3
Loss Factor @ Frequency 10 -6
MHz
Tan δ/ µi 180
50
Temperature Coefficient of Initial Permeability (20 -70°C) %/°C 0.05
Curie Temperature °C Tc >450
Resistivity ohm-cm ρ 1×107

**** Characteristic curves are measured on standard Toroids (18/10/6 mm)  at 25°C and 10 kHz unless otherwise indicated. Impedance characteristics are measured on standard shield beads (3.5/1.3/6.0 mm) unless otherwise indicated.

Material Safety Data Sheet (MSDS)

Click here to download the data for 67 Material Power Loss vs. Temperature (see graph below)

Click here to download 67 Material Power Loss Density vs. Flux Density at 25°C  (see graph below)

Click here to download 67 Material Power Loss Density vs. Flux Density at 100°C (see graph below)

Click here to download 67 Material Complex Permeability vs. Frequency (see graph below)

Ferrite Material Constants

Specific Heat
0.25 cal/g/°C
Thermal Conductivity
3.5 - 4.5 mW/cm-°C
Coefficient of Linear Expansion
8 - 10x10-6/°C
Tensile Strength
4.9 kgf/mm2
Compressive Strength
42 kgf/mm2
Young's Modulus
15x103 kgf/mm2
Hardness (Knoop)
650
Specific Gravity
≈4.7 g/cm3
The above quoted properties are typical for Fair-Rite MnZn and NiZn ferrites.


Storage and Operating Temperature
Printer Friendly Data Sheet - Download as pdf file

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