RFI and EMI - Contacts, Fingerstock and Gaskets

Part Number	Description / PDF	Quantity
1447009-8 TE Connectivity AMP Connectors	SHIELDFINGER3525Z	33651
2336713-2 TE Connectivity AMP Connectors	SPRING FINGER 1.45H	2261
1447360-8 TE Connectivity AMP Connectors	SHIELDFINGER1312ATYPE	189683
1734303-1 TE Connectivity AMP Connectors	SHIELD FINGER	10107
3-2199250-4 TE Connectivity AMP Connectors	3.6H SPRNG FINGER TYPE C SMT	0
2199249-3 TE Connectivity AMP Connectors	SHIELD FINGER, LOOSE PIECE, TYPE	1760
2286211-3 TE Connectivity AMP Connectors	HIGH CURRENT SPRING FINGER	60579
1551572-5 TE Connectivity AMP Connectors	PRE-LOADED SPRING FINGER 1.8MM	12094
1447009-5 TE Connectivity AMP Connectors	SHIELDFINGER0820TYPE	33054
2306334-3 TE Connectivity AMP Connectors	SPRING FINGER 1.2H	34298
2108612-5 TE Connectivity AMP Connectors	2.05H SPRING FINGER W/EMBOSS	63758
2108693-4 TE Connectivity AMP Connectors	1.1H SPRING FINGER W/EMBOSS	88542
1554901-1 TE Connectivity AMP Connectors	RFI SHIELD FING CU ALLOY AU SLDR	33627
2134078-2 TE Connectivity AMP Connectors	RFI SHIELD FING CU ALLOY AU SLDR	1486
2306454-3 TE Connectivity AMP Connectors	SPRING FINGER 2.3H	6678
1674954-1 TE Connectivity AMP Connectors	ACCY SPRING SHIELD FINGER	49113
1857724-4 TE Connectivity AMP Connectors	SHIELD FINGER	23693
3-2199250-5 TE Connectivity AMP Connectors	3.8H SPRNG FINGER TYPE C SMT	34058
2199249-4 TE Connectivity AMP Connectors	2.3H SHLD FINGER LOOSE TYP B SMT	51444
3-2199250-2 TE Connectivity AMP Connectors	2.9H SPRNG FINGER TYPE C SMT	36712

RFI and EMI - Contacts, Fingerstock and Gaskets

1. Overview

RF/IF (Radio Frequency/Intermediate Frequency) and RFID (Radio Frequency Identification) systems require effective electromagnetic interference (EMI) and radio frequency interference (RFI) shielding to maintain signal integrity. Contacts, fingerstock, and gaskets are critical components for ensuring electrical continuity and shielding performance in electronic enclosures. These components prevent electromagnetic leakage while maintaining mechanical functionality in connectors, housings, and assemblies.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Contacts	Conductive elements for maintaining electrical connections under compression	RF connectors, PCB grounding pads
Fingerstock	Resilient metal strips with finger-like projections for continuous shielding	Server chassis, military equipment
Gaskets	Conductive elastomers or mesh materials for sealing gaps	Automotive sensors, medical devices

3. Structure and Composition

Typical structures include:

Contacts: Beryllium copper or phosphor bronze cores with conductive platings (gold, silver, nickel)
Fingerstock: Canted coil springs or stamped metal fingers with corrosion-resistant coatings
Gaskets: Silicone rubber with embedded silver-aluminum particles or wire mesh

4. Key Technical Parameters

Parameter	Typical Range	Significance
Contact Resistance	0.1-10 m	Affects signal transmission efficiency
Shielding Effectiveness	60-120 dB (100 MHz-10 GHz)	Determines EMI/RFI attenuation
Compression Force	0.5-5 N/mm	Impacts mechanical durability
Temperature Range	-55 C to +150 C	Defines operational stability

5. Application Fields

Main industries include:

Telecommunications (5G base stations, microwave links)
Automotive (V2X communication systems, radar sensors)
Aerospace (avionics shielding compartments)
Medical (MRI shielding enclosures)

6. Leading Manufacturers and Products

Manufacturer	Representative Products
Parker Chomerics	CHO-SEAL conductive gaskets
Laird Performance Materials	Form-in-Place EMI gaskets
3M	EMI Shielding Tapes 9703/9706
Samtec	RFI/EMI shielded connectors

7. Selection Recommendations

Considerations include:

Frequency range of the application (higher frequencies require tighter tolerances)
Environmental conditions (temperature, humidity, chemical exposure)
Material compatibility (avoid galvanic corrosion between mating surfaces)
Cost-effectiveness (balance performance vs. budget constraints)

Case Study: In automotive radar systems, Parker Chomerics' silicone-based gaskets reduced EMI leakage by 40% compared to traditional metal fingerstock.

8. Industry Trends

Key development directions:

Miniaturization for 5G mmWave applications
Low-PIM (Passive Intermodulation) material formulations
Multi-functional integration with thermal management
RoHS-compliant plating processes (eliminating hexavalent chromium)