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Coaxial Connectors (RF) - Contacts

Image Part Number Description / PDF Quantity Rfq
FFS.5B.250.ZTAE63

FFS.5B.250.ZTAE63

REDEL / LEMO

CONN PIN CONTACT

0
FFS.5B.275.ZTAE63

FFS.5B.275.ZTAE63

REDEL / LEMO

CONN PIN CONTACT

0
FFS.2B.250.DLLE20

FFS.2B.250.DLLE20

REDEL / LEMO

CONN SOCKET CONTACT SOLDER

0
FFS.2B.250.ZTCE30

FFS.2B.250.ZTCE30

REDEL / LEMO

CONN PIN CONTACT

0
FFS.2B.401.ZLC17

FFS.2B.401.ZLC17

REDEL / LEMO

CONN PIN CONTACT CRIMP

0
PSS.F7.125.LCE23

PSS.F7.125.LCE23

REDEL / LEMO

CONN SOCKET CONTACT CRIMP

0
PSS.2B.250.ZTME31

PSS.2B.250.ZTME31

REDEL / LEMO

CONN SOCKET CONTACT

0
PSS.5B.275.ZTL25

PSS.5B.275.ZTL25

REDEL / LEMO

CONN SOCKET CONTACT

0
FFS.2B.250.ZTC17

FFS.2B.250.ZTC17

REDEL / LEMO

CONN PIN CONTACT

0
PSS.2B.250.ZTM17

PSS.2B.250.ZTM17

REDEL / LEMO

CONN SOCKET CONTACT

0
FFS.2B.250.ZTCE31

FFS.2B.250.ZTCE31

REDEL / LEMO

CONN PIN CONTACT

0
FFS.2B.250.ZTCE24

FFS.2B.250.ZTCE24

REDEL / LEMO

CONN PIN CONTACT

0
PSS.2B.250.ZTME30

PSS.2B.250.ZTME30

REDEL / LEMO

CONN SOCKET CONTACT

0
PSS.2B.250.ZTME24

PSS.2B.250.ZTME24

REDEL / LEMO

CONN SOCKET CONTACT

0
PSS.2B.401.ZLM17

PSS.2B.401.ZLM17

REDEL / LEMO

CONN SOCKET CONTACT CRIMP

0
PSS.2B.250.ZKME30

PSS.2B.250.ZKME30

REDEL / LEMO

CONN SOCKET CONTACT

0
PSS.5B.275.ZTL37

PSS.5B.275.ZTL37

REDEL / LEMO

CONN SOCKET CONTACT

0
PSS.2B.250.ZLME37

PSS.2B.250.ZLME37

REDEL / LEMO

CONN SOCKET CONTACT

0
PSS.5B.275.ZTLE63

PSS.5B.275.ZTLE63

REDEL / LEMO

CONTACT SKT COAX 75OHM

0
FFS.2B.250.ZLCE37

FFS.2B.250.ZLCE37

REDEL / LEMO

CONN PIN CONTACT

0

Coaxial Connectors (RF) - Contacts

1. Overview

RF coaxial connectors are critical components for transmitting high-frequency electrical signals between devices. Their contacts (center contacts and outer contacts) form the core conductive path in these connectors. These components maintain signal integrity in RF systems by ensuring precise impedance matching and minimal signal loss. With the rapid development of wireless communication, 5G networks, and aerospace technologies, RF coaxial contacts have become essential for maintaining reliable high-frequency connections in modern electronics.

2. Main Types and Functional Classification

Type Functional Characteristics Application Examples
BNC Contacts Bayonet locking mechanism, 50 /75 impedance, quick-connect design Test equipment, video systems, military radios
N-Type Contacts Threaded coupling, weatherproof design, 0-11GHz frequency range Cellular base stations, microwave links, broadcast systems
SMA Contacts Subminiature threaded connectors, 0-18GHz performance RF modules, IoT devices, aerospace avionics
SMC Contacts Smaller threaded connectors, 0-10GHz operation Military communication systems, medical devices
F-Type Contacts Compression connectors, 75 impedance Cable TV systems, satellite receivers

3. Structure and Composition

Typical RF coaxial contact structures include:

  • Center Contact: Precision-machined pin/socket with gold-plated brass or phosphor bronze for conductivity
  • Dielectric Insulator: PTFE or ceramic materials maintaining 50 /75 impedance
  • Outer Contact: Spring-loaded beryllium copper housing with EMI shielding
  • Retention Mechanism: Threaded, bayonet, or quick-lock interfaces

Advanced designs incorporate anti-reflective geometries and corrosion-resistant coatings for harsh environments.

4. Key Technical Specifications

Parameter Importance
Impedance (50 /75 ) Ensures signal reflection minimization
VSWR (1.2:1-1.5:1) Measures impedance matching quality
Frequency Range (DC-40GHz) Determines operational bandwidth
Contact Resistance ( 2m ) Impacts power transmission efficiency
Dielectric Withstanding Voltage Specifies voltage breakdown threshold
Mechanical Lifecycle (500-5000+ mates) Defines durability rating

5. Application Fields

Major application sectors include:

  • Telecommunications (5G base stations, fiber optics)
  • Aerospace (radar systems, satellite payloads)
  • Test & Measurement (spectrum analyzers, signal generators)
  • Industrial IoT (wireless sensors, automation systems)
  • Broadcast (TV transmitters, studio equipment)

6. Leading Manufacturers and Products

Manufacturer Representative Products
Amphenol RF141-4SMA, 0-18GHz SMA contacts
TE Connectivity Deutsch DMC Series, ruggedized N-Type contacts
Rosenberger 4.3-10 connectors for 5G massive MIMO
Molex RF-Bay Mini coaxial contacts
Southeastern Electronics SL Series blind-mate contacts

7. Selection Recommendations

Key selection factors:

  • Match impedance to system requirements (50 for data, 75 for video)
  • Verify frequency range vs. application needs
  • Consider environmental factors (temperature, vibration)
  • Evaluate mating cycles requirements
  • Select appropriate plating (gold for corrosion resistance)
  • Check PCB footprint compatibility for surface-mount designs

Example: For 5G massive MIMO systems, select multi-port SMA contacts with 3.5mm pitch and IP67 rating.

8. Industry Trends

Current development trends include:

  • Miniaturization for mobile device integration
  • 6G-ready connectors supporting 100GHz+ frequencies
  • High-density arrays for MIMO systems
  • Advanced materials with lower PIM (Passive Intermodulation)
  • Smart connectors with integrated sensing capabilities
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