Cable Ferrites

Part Number	Description / PDF	Quantity
7427214 Würth Elektronik Midcom	FERRITE CORE 66 OHM SOLID	95
74270073 Würth Elektronik Midcom	FERRITE CORE 50 OHM SOLID 1.2MM	138
74271318 Würth Elektronik Midcom	FERRITE CORE 106 OHM CLAMP 8.2MM	82
782114076130 Würth Elektronik Midcom	WE-TEFA TOROIDAL EMI SUPPRESSION	1104
7427247 Würth Elektronik Midcom	FERRITE CORE 192 OHM HINGED	16
7427228 Würth Elektronik Midcom	FERRITE CORE 80 OHM SOLID	90
74270077 Würth Elektronik Midcom	WE-AFB EMI SUPPRESSION AXIAL FER	71
782114095100 Würth Elektronik Midcom	WE-TEFA TOROIDAL EMI SUPPRESSION	192
74272142 Würth Elektronik Midcom	STAR-TEC LFS SNAP FERRITE WITH S	0
74272132 Würth Elektronik Midcom	STAR-TEC LFS SNAP FERRITE WITH S	249
74271622S Würth Elektronik Midcom	FERRITE CORE 140 OHM HINGED	988
74270030 Würth Elektronik Midcom	FERRITE CORE 158 OHM SOLID 5MM	752
742724759 Würth Elektronik Midcom	STAR-FLAT SNAP FERRITE WITH SAFE	21
74271211 Würth Elektronik Midcom	FERRITE CORE 425 OHM HINGED 21MM	289
74271111S Würth Elektronik Midcom	FERRITE CORE 320 OHM HINGED 5MM	687
74272251 Würth Elektronik Midcom	STAR-TEC LFS SNAP FERRITE WITH S	54
7427006 Würth Elektronik Midcom	FERRITE CORE 70 OHM SOLID 8.5MM	146
74278081 Würth Elektronik Midcom	FERRITE CORE 19 OHM SOLID	0
74270015 Würth Elektronik Midcom	FERRITE CORE 95 OHM SOLID 2MM	3378
742701112 Würth Elektronik Midcom	FERRITE CORE 127 OHM SOLID	582

Cable Ferrites

1. Overview

Cable Ferrites are passive electronic components designed to suppress high-frequency noise in cables, reducing electromagnetic interference (EMI) and radio-frequency interference (RFI). Constructed from ferrite materials, these components absorb electromagnetic energy and convert it into heat. With the rapid development of high-speed electronics and wireless communication systems, cable ferrites play a critical role in ensuring electromagnetic compatibility (EMC) across industries.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Split Core (Snap-on)	Easy installation without cable disassembly; moderate noise suppression	Consumer electronics power cables
Wound Type	Higher inductance through multiple turns; superior EMI filtering	Industrial motor drives
Flat Cable Ferrite	Low-profile design; optimized for ribbon cables	Computer peripheral cables
High-Frequency Ferrite	Effective at GHz frequencies; specialized material formulation	5G base station cables

3. Structure and Composition

Typical cable ferrites consist of a manganese-zinc (MnZn) or nickel-zinc (NiZn) ferrite core with polymer coating. Split-core designs use two interlocking halves with snap mechanisms, while wound types feature pre-molded toroidal cores. Advanced models integrate conductive elastomers for improved EMI absorption. The core material's permeability determines the operating frequency range and noise suppression efficiency.

4. Key Technical Specifications

Parameter	Description	Importance
Impedance (100MHz)	100 - 2500	Determines noise attenuation performance
Frequency Range	1MHz - 3GHz	Defines effective operation bandwidth
Temperature Stability	-40 C to +125 C	Ensures reliability in harsh environments
Cable Compatibility	2-15mm diameter	Installation flexibility

5. Application Fields

Consumer Electronics: Notebook chargers, HDMI cables, USB hubs
Industrial Equipment: PLC systems, CNC machine cabling
Telecommunications: Fiber optic transceivers, 5G small cells
Automotive: CAN bus systems, EV charging cables

6. Leading Manufacturers and Products

Manufacturer	Key Product	Features
TDK Corporation	DFE3D25E102MA2D	2500 @100MHz, 3GHz high-frequency performance
Murata Manufacturing	BLE21HG102MN1D	Compact 10.5 6.5mm size for automotive applications
Steward Components	28B2043-0A0	High-vibration resistance for industrial motors

7. Selection Guidelines

Key considerations include:

Match impedance to target noise frequency range
Verify mechanical compatibility with cable diameter
Select material type (MnZn for low frequencies, NiZn for high frequencies)
Assess environmental requirements (temperature, vibration)
Balance performance with cost constraints

8. Industry Trends

Current trends show: - Increasing demand for high-frequency (>6GHz) ferrites driven by 5G and IoT - Miniaturization for wearable device applications - Development of wideband ferrites with multi-octave frequency coverage - Growing adoption in EV charging systems (SAE J1772 compliance) - Integration with cable connectors for space-constrained designs