EMI, Filter Kits

Part Number	Description / PDF	Quantity
EMINLKIT PulseLarsen Antenna	KIT EMI	0
EKDMAT03-KIT TOKO / Murata	CHIP FERRITE BEADS/BLOCK TYPE EM	1
0199000034 Fair-Rite Products Corp.	EXPANDED SNAP-IT KIT #34	0
0199000027 Fair-Rite Products Corp.	WOUND BEAD KIT #27	0
0199000038 Fair-Rite Products Corp.	FLAT CABLE CORE KIT	0
BMBLABKIT TE Connectivity AMP Connectors	BMB BEADS LAB KIT	0
4310-900 CTS Corporation	PRESS-IN EMI/RFI FILTER KIT	0
B82722X0001 TDK EPCOS	COMMON MODE CHOKE KIT	0
B82731X0002 TDK EPCOS	KIT CHOKE POWER LINE E-CORE	0
B82789X001 TDK EPCOS	KIT CHOKE DATALINE B82789 SERIES	0
0199000017 Fair-Rite Products Corp.	#17 SNAP IT KIT	0
EK28B27SB Leader Tech Inc.	ENGINEERING KIT - SADDLE BEADS F	0
4100-901 CTS Corporation	EMI FILTER KIT PI TYPE	0
KIT_EMC_BEAD Samsung Electro-Mechanics	KIT CHIP BEAD SMD 26 VALUES	0
ELK1-KIT Panasonic	KIT EMI/DIGITAL NOISE FILTER	0
B39000Z3410A002 RF360 - A Qualcomm-TDK joint venture	SAMPLE KIT FOR WIRELESS AMI	0
EKEMBL18G TOKO / Murata	KIT FERRITE CHIP BLM 0603	0
EKEMBL15Q TOKO / Murata	KIT FERRITE CHIP BLM 0402	0
4400-900 CTS Corporation	SMT EMI FLTR / FEEDTHRU CAP KIT	0
K-802LF CAN-BUS Laird - Performance Materials	KIT COMMON MODE CAN BUS	0

EMI, Filter Kits

1. Overview

Electromagnetic Interference (EMI) filter kits are essential components designed to suppress conducted electromagnetic noise in electrical systems. These passive devices ensure electromagnetic compatibility (EMC) by attenuating unwanted high-frequency signals while allowing desired frequencies to pass. With increasing electronic device density in modern applications, EMI filters play a critical role in maintaining signal integrity, complying with regulatory standards (e.g., FCC, CISPR), and preventing performance degradation across industries such as telecommunications, automotive, and medical equipment.

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
-Type Filters	Three-stage LC configuration with high attenuation at specific frequencies	Power supplies, industrial machinery
T-Type Filters	Asymmetric structure for differential-mode noise suppression	Audio equipment, precision instrumentation
LC Filters	Combination of inductors and capacitors for broad-spectrum filtering	Switching power converters, motor drives
Feedthrough Filters	Low-inductance capacitors for high-frequency noise bypass	Aerospace systems, RF equipment

3. Structure and Components

A typical EMI filter kit comprises: - Capacitors (X/Y capacitors for line-to-line and line-to-ground noise suppression) - Inductors (common-mode chokes for differential noise filtering) - Resistors (for damping and impedance matching) - Enclosures (shielded metal/ceramic packages for mechanical protection) The components are mounted on PCBs or integrated into modular housings, with connections via screw terminals, PCB pins, or wire leads.

4. Key Technical Specifications

Parameter	Importance	Typical Range
Frequency Range	Determines effective noise suppression band	10 kHz - 1 GHz
Rated Voltage	Defines maximum operational voltage	12 V - 600 V AC/DC
Insertion Loss	Measures noise attenuation capability (dB)	10 dB - 100 dB
Current Rating	Specifies maximum continuous operating current	0.1 A - 100 A
Impedance Matching	Ensures minimal signal reflection	50 - 600

5. Application Fields

Telecommunications: 5G base stations, fiber optic transceivers
Medical Equipment: MRI machines, patient monitors
Industrial Automation: PLCs, CNC machine controllers
Transportation: EV charging stations, onboard chargers
Consumer Electronics: Switching power supplies, LED drivers

Case Study: In electric vehicles, EMI filters reduce conducted noise from inverters, ensuring compliance with CISPR 25 standards for automotive EMC.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Schaffner Group	FN 2000 Series	High-performance industrial filters up to 100 A
Murata Manufacturing	NFM Series	Ceramic feedthrough filters for GHz-range applications
TDK Corporation	ACT Series	Common-mode chokes for automotive powertrains
EPCOS (TDK)	B84143 Series	Three-phase filters for industrial motor drives

7. Selection Guidelines

Key considerations include: - Frequency Requirements: Match filter's cutoff frequency to target noise spectrum - Environmental Conditions: Temperature (-55 C to +150 C), humidity, and vibration resistance - Space Constraints: Miniaturized SMD packages vs. panel-mount solutions - Compliance Standards: Regulatory requirements (e.g., MIL-STD-461G for military) - Cost vs. Performance: Balance between insertion loss and budget limitations

8. Industry Trends

Emerging developments include: - High-Frequency Optimization: Filters for 5G mmWave (24 GHz+) and EV charging systems - Integration: System-in-Package (SiP) EMI solutions combining filtering and power management - Smart Materials: Nanocrystalline alloys for high-permeability, low-loss cores - Environmental Compliance: RoHS-compliant, halogen-free filter designs