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Coaxial Cables (RF)

Image Part Number Description / PDF Quantity Rfq
CABLE 235 RF-100-A-2

CABLE 235 RF-100-A-2

GradConn

CBL ASSY MHF1-TNC RG178 3.937"

12
CABLE 197 RF-150-A-4

CABLE 197 RF-150-A-4

GradConn

CBL ASSY MHF-RP SMA RG178 5.906"

440
CABLE 272 RF-0150-A-1

CABLE 272 RF-0150-A-1

GradConn

CBL ASSY MHF1-BNC RG174 5.906"

211
CAB420RF-0200-A-1

CAB420RF-0200-A-1

GradConn

CBL ASSY SMA-MHF4 7.874"

0
CAB412RF-0200-A-1-S

CAB412RF-0200-A-1-S

GradConn

CABLE IP69K IP68 I-PEX MHF TO ST

0
CABLE 138 RF-0050-A-2

CABLE 138 RF-0050-A-2

GradConn

CBL ASSY MHF1-RP SMA 1.969"

193
CAB425RF-0200-A-1

CAB425RF-0200-A-1

GradConn

CBL ASSY SMA-MHF4 7.874"

0
CABLE 348 RF-050-A-1

CABLE 348 RF-050-A-1

GradConn

CBL ASSY MHF1-SMA 1.969"

779
CABLE 196 RF-0100-A-1

CABLE 196 RF-0100-A-1

GradConn

CBL ASSY SMA-MMCX RG178 3.937"

208
CAB434RF-0200-A-1

CAB434RF-0200-A-1

GradConn

CBL ASSY SMA-MHF5L 7.874"

0
CABLE 272 RF-0050-A-1

CABLE 272 RF-0050-A-1

GradConn

CBL ASSY MHF1-BNC RG174 1.969"

464
CABLE 305 RF-0300-A-1

CABLE 305 RF-0300-A-1

GradConn

CBL ASSY SMA RG178 11.811"

129
CABLE 196 RF-0150-A-1

CABLE 196 RF-0150-A-1

GradConn

CBL ASSY SMA-MMCX RG178 5.906"

165
CABLE 366 RF-200-A

CABLE 366 RF-200-A

GradConn

CBL ASSY SMA-JSC 7.874"

183
CABLE 406 RF-200-A

CABLE 406 RF-200-A

GradConn

CBL ASSY SMA-JSC 7.874"

156
CABLE 377 RF-200-A-1

CABLE 377 RF-200-A-1

GradConn

CBL ASSY MHF1-RP SMA 7.874"

246
CAB426RF-0200-A-1

CAB426RF-0200-A-1

GradConn

CBL ASSY SMA-MHF4 7.874"

0
CABLE 161 RF-150-A-1

CABLE 161 RF-150-A-1

GradConn

CBL ASSY MHF1-SMA RG178 5.906"

679
CABLE 385 RF-200-A-2

CABLE 385 RF-200-A-2

GradConn

CBL ASSY SMA-MHF4 7.874"

224
CAB432RF-0200-A-1

CAB432RF-0200-A-1

GradConn

CBL ASSY SMA-MHF5L 7.874"

243

Coaxial Cables (RF)

1. Overview

RF coaxial cables are cylindrical transmission lines consisting of concentric conductors separated by dielectric materials. They enable efficient transfer of high-frequency electrical signals (typically 1 MHz to 110 GHz) with minimal interference, making them critical components in telecommunications, broadcasting, aerospace, and test equipment. Their shielded structure ensures signal integrity in noisy environments.

2. Main Types and Functional Classification

TypeKey FeaturesApplications
Rigid Coaxial CableMetallic outer conductor, fixed geometryTest labs, high-power transmitters
Semi-Rigid CableFormable but non-flexing, excellent shieldingMicrowave systems, aerospace
Flexible Coaxial CableBraided shield, bendableGeneral-purpose communication systems
Low-Loss Foam DielectricPE/PTFE dielectric, reduced attenuation5G infrastructure, satellite links

3. Structure and Composition

Typical construction includes:
  1. Center Conductor: Solid/stranded copper/aluminum for signal transmission
  2. Dielectric Insulator: Polyethylene (PE) or PTFE foam maintaining uniform impedance
  3. Shielding Layer: Braided copper/aluminum with 85-95% coverage (single/double layers)
  4. Outer Jacket: PVC/PE for mechanical/environmental protection
Critical dimensions determine characteristic impedance (commonly 50 for data/75 for video).

4. Key Technical Parameters

ParameterDescriptionImportance
Characteristic ImpedanceMatched load resistance (50/75 )Minimizes signal reflection
Attenuation (dB/100m)Signal loss per unit lengthDetermines transmission distance
Frequency RangeOperational bandwidth (e.g., 0-18GHz)Limits application scope
VSWRVoltage Standing Wave RatioMeasures impedance matching quality
Power HandlingMax RF power capacityPrevents dielectric breakdown

5. Application Fields

  • Telecommunications: 5G base stations, fiber-wireless systems
  • Broadcasting: TV antenna feeds, studio equipment
  • Aerospace: Radar systems, avionics
  • Test & Measurement: Oscilloscope probes, signal analyzers
  • Industrial IoT: Wireless sensor networks

6. Leading Manufacturers

ManufacturerKey Products
Amphenol CorporationSUCOFLEX 104, 106 series
TE ConnectivityRadiation-resistant RG-58
HUBER+SUHNERRF flexible cables (SST series)
CommScopeHeliax FSJ1-50A
Southwest Microwave832 Series semi-rigid

7. Selection Guidelines

Key considerations:
  • Match impedance to system requirements
  • Verify frequency/attenuation specifications
  • Environmental factors (temperature, UV resistance)
  • Mechanical requirements (flexure life, bending radius)
  • Connector compatibility (SMA, N-Type, etc.)
Example: 5G massive MIMO deployment requires low-PIM (Passive Intermodulation) cables with <0.1dB/100m loss at 3.5GHz.

8. Industry Trends

  • High-Frequency Demand: Development of 110GHz+ cables for 6G research
  • Weight Reduction: Composite materials in aerospace applications
  • Green Manufacturing: Halogen-free jacket materials adoption
  • Smart Cables: Embedded sensors for condition monitoring
  • Standardization: 5G NR band-specific cable specifications
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