Coaxial Cables (RF)

Part Number	Description / PDF	Quantity
7032-6757 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMPM-2.92MM 6"	49
7038-0249 SV Microwave (Amphenol SV Microwave)	SMPS FEMALE R/A TO SMPS FEMALE R	24
7012-1329 SV Microwave (Amphenol SV Microwave)	SMP FEMALE R/A TO SMA MALE CABLE	0
7029-3436 SV Microwave (Amphenol SV Microwave)	SMA MALE TO SMA MALE 12" CABLE A	6
7016-0057 SV Microwave (Amphenol SV Microwave)	2.4MM MALE TO 2.4MM MALE CABLE A	2
7016-0060 SV Microwave (Amphenol SV Microwave)	2.4MM MALE TO 2.92MM MALE CABLE	6
7015-0995 SV Microwave (Amphenol SV Microwave)	CBL ASSY 2.92MM M R/A TO SMP F	10
7012-0797 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMP JACK-JACK 12"	38
7038-0337 SV Microwave (Amphenol SV Microwave)	SMPS MALE VITA 67.3 TO SMA MALE	19
7012-0800 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMP JACK TFLEX-405 12"	31
7012-1284 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMP-2.92MM 12"	0
7029-3413 SV Microwave (Amphenol SV Microwave)	SMA MALE KEYED (150) TO SMA MALE	50
7016-0073 SV Microwave (Amphenol SV Microwave)	2.4MM MALE TO SMPS FEMALE R/A CA	15
7012-1065 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMP-2.92MM 12"	34
7032-7237 SV Microwave (Amphenol SV Microwave)	SMPM FEMALE R/A TO SMA MALE CABL	33
7029-2560 SV Microwave (Amphenol SV Microwave)	SMPM FEMALE TO SMA FEMALE CABLE	0
7015-0615 SV Microwave (Amphenol SV Microwave)	CBL ASSY 2.92MM TFLEX405 12"	28
7029-2557 SV Microwave (Amphenol SV Microwave)	SMA MALE TO SMA MALE CABLE ASSEM	0
7032-7156 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMPM JACK-JACK 6"	75
7012-1300 SV Microwave (Amphenol SV Microwave)	CBL ASSY SMA-SMP JACK-PLUG 24"	14

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

Type	Key Features	Applications
Rigid Coaxial Cable	Metallic outer conductor, fixed geometry	Test labs, high-power transmitters
Semi-Rigid Cable	Formable but non-flexing, excellent shielding	Microwave systems, aerospace
Flexible Coaxial Cable	Braided shield, bendable	General-purpose communication systems
Low-Loss Foam Dielectric	PE/PTFE dielectric, reduced attenuation	5G infrastructure, satellite links

3. Structure and Composition

Typical construction includes:

Center Conductor: Solid/stranded copper/aluminum for signal transmission
Dielectric Insulator: Polyethylene (PE) or PTFE foam maintaining uniform impedance
Shielding Layer: Braided copper/aluminum with 85-95% coverage (single/double layers)
Outer Jacket: PVC/PE for mechanical/environmental protection

Critical dimensions determine characteristic impedance (commonly 50 for data/75 for video).

4. Key Technical Parameters

Parameter	Description	Importance
Characteristic Impedance	Matched load resistance (50/75 )	Minimizes signal reflection
Attenuation (dB/100m)	Signal loss per unit length	Determines transmission distance
Frequency Range	Operational bandwidth (e.g., 0-18GHz)	Limits application scope
VSWR	Voltage Standing Wave Ratio	Measures impedance matching quality
Power Handling	Max RF power capacity	Prevents 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

Manufacturer	Key Products
Amphenol Corporation	SUCOFLEX 104, 106 series
TE Connectivity	Radiation-resistant RG-58
HUBER+SUHNER	RF flexible cables (SST series)
CommScope	Heliax FSJ1-50A
Southwest Microwave	832 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