RFI and EMI - Shielding and Absorbing Materials

Image	Part Number	Description / PDF	Quantity	Rfq
	8508-0416-56 Laird - Performance Materials	EMOW SILSD MON DC PSA	0
	8860-9062-100-72 Laird - Performance Materials	EMI	0
	18150084 Laird - Performance Materials	RF ABSORB SHEET 12.008"X12.008"	0
	21109146 Laird - Performance Materials	RF EMI ABSORB SHEET 36"X12.008"	0
	21510147 Laird - Performance Materials	RF EMI ABSORBER SHEET 12X36	0
	4007LG01D00473GOG Laird - Performance Materials	RF EMI 86750 SERIES CUSTOM	0
	21451250 Laird - Performance Materials	RF EMI ABSORBER SHEET 12X36	0
	21199173 Laird - Performance Materials	RF EMI ABSORB SHEET .030X12X36	0
	21451257 Laird - Performance Materials	RF EMI ABSORBER SHEET 12X36	0
	2333 Laird - Performance Materials	RFSW,S,040	0
	5182 Laird - Performance Materials	RFLS,30,250,PSA	0
	21199219 Laird - Performance Materials	RF EMI ABSORB SHEET .060X12X36	0
	8508050256 Laird - Performance Materials	EMOW SILSD MON DC PSA	0
	LT18CU1254 Laird - Performance Materials	RF EMI ECCOSTOCK LOK 29X280MM	0
	24428192 Laird - Performance Materials	RF EMI DIELECTRIC LOAD STOCK SIL	0
	21199215 Laird - Performance Materials	RF EMI ABSORB SHEET .015X12X12	0
	5172 Laird - Performance Materials	RFLS,48,0.250,PSA	0
	21199160 Laird - Performance Materials	RF EMI ABSORBER SHEET .030X12X36	0
	28017006 Laird - Performance Materials	RF EMI ABSORBING SHEET 12"X12"	0
	SFT-5.5-16.0 Laird - Performance Materials	RF EMI ABSORBER SHEET	0

RFI and EMI - Shielding and Absorbing Materials

1. Overview

Radio Frequency Interference (RFI) and Electromagnetic Interference (EMI) are disruptive electromagnetic emissions that affect the performance of electronic devices. Shielding and absorbing materials mitigate these effects by blocking or dissipating electromagnetic energy. These materials are critical in RF/Intermediate Frequency (IF) circuits, RFID systems, and high-frequency electronics to ensure signal integrity, regulatory compliance, and operational reliability.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Metallic Shielding Foils	High conductivity, flexible, corrosion-resistant coatings	Smartphone enclosures, RFID tags
Conductive Elastomers	Elastomeric base with conductive fillers (e.g., silver, nickel)	Aerospace connectors, medical devices
EMI Absorbing Sheets	Flexible polymer matrices with magnetic particles (e.g., ferrite)	5G base stations, radar systems
Conformal Coatings	Thin-layer conductive paints or sprays	PCB shielding, IoT device casings
Textile-Based Shields	Woven fabrics with conductive yarns (e.g., silver-coated)	Wearable electronics, flexible antennas

3. Structure and Composition

Typical products feature multi-layer architectures:

Base Substrate: Polymer films (PET, polyimide) or woven fabrics
Conductive Layer: Metal deposits (aluminum, copper) or conductive inks
Adhesive Interface: Acrylic or silicone-based adhesives for bonding
Protective Coating: Anti-oxidation layers (e.g., nickel-gold plating)

Absorbing materials often embed lossy magnetic particles (ferrite, carbonyl iron) in elastomeric matrices to convert EMI energy into heat.

4. Key Technical Specifications

Parameter	Description	Importance
Shielding Effectiveness (SE)	dB attenuation across 30 MHz 40 GHz	Directly impacts signal-to-noise ratio
Surface Resistivity	0.01 100 /sq	Determines DC grounding performance
Relative Permeability	1 1000 (absorbing materials)	Influences magnetic field absorption
Temperature Stability	-55 C to +150 C operational range	Ensures reliability in harsh environments
Thickness	0.05 5.0 mm	Affects weight and flexibility

5. Application Areas

Primary industries include:

Telecommunications: 5G/6G infrastructure, fiber optic transceivers
Automotive: V2X communication modules, ADAS sensors
Healthcare: MRI-compatible devices, wireless patient monitors
Consumer Electronics: Foldable smartphones, AR/VR headsets
Defense: Electronic warfare systems, stealth coatings

6. Leading Manufacturers and Products

Manufacturer	Product	Key Features
3M	Scotch 9703LE	Anisotropic conductive film for RF shielding
Laird Performance Materials	HF Absorber 41	8 40 GHz broadband absorption
Saint-Gobain	TYGARD TC 1191	Transparent conductive film for RFID antennas
Parker Chomerics	CHO-SEAL 1335	0.05 mm thick EMI gasket material

7. Selection Guidelines

Key considerations:

Frequency Matching: Align SE performance with target bands (e.g., 2.4 GHz for Bluetooth)
Environmental Resistance: Chemical exposure, humidity, and vibration tolerance
Form Factor: Thin profiles for portable devices vs. rigid panels for infrastructure
Cost-Performance Balance: Silver-filled materials offer superior conductivity but higher cost

Case Study: Automotive radar systems use ferrite-loaded silicones to suppress 76 81 GHz interference while maintaining thermal stability.

8. Industry Trends

Emerging developments include:

2D materials (graphene-enhanced composites) for sub-10 nm shielding layers
4D-printed reconfigurable absorbers with tunable frequency response
RoHS-compliant alternatives to traditional heavy metal-based coatings
Integration with AI-driven EMI prediction models for optimized design

Market growth is driven by 5G expansion, with projected CAGR of 9.2% (2023 2030) according to Grand View Research.