• Impedance: 50 Ω is the standard for most RF transmit/receive systems; 75 Ω is the standard for video, broadcast, and CATV.
• Design rationale: ~30 Ω gives maximum power handling; ~77 Ω gives minimum loss. 50 Ω is a compromise between power handling and loss; 75 Ω is closer to minimum-loss for air/foam dielectrics.
• Loss: For similar size and quality, 75 Ω tends to have slightly lower attenuation per unit length, especially at high frequencies. Actual loss depends on specific cable type.
• Power handling: 50 Ω generally handles higher transmit power safely. 75 Ω is optimized for lower-power or receive-only distribution.
• Connectors: 50 Ω systems use N, SMA, 50 Ω BNC, TNC. 75 Ω systems use F-type, IEC, 75 Ω BNC. Mismatching connector types can add reflections.
• Mismatch effects: Connecting 50 Ω gear to 75 Ω cable (or vice versa) gives VSWR ≈ 1.5:1 (≈4% power reflected). Often fine for receive-only; risky for high-power transmitters. Use matching pads/transformers if you must mix.
Which to use:
• Use 50 Ω for transmitters, two-way radios, ham, cellular/Wi‑Fi, test equipment, RF labs, antennas designed for 50 Ω.
• Use 75 Ω for TV/CATV, satellite LNBs, CCTV, long receive-only runs, and equipment specified for 75 Ω (e.g., many video/audio interfaces, SDRs with 75 Ω inputs).
• Always match the system’s specified impedance end-to-end. If unsure:
– Transmitting more than a few milliwatts → 50 Ω.
– Receive-only distribution or video → 75 Ω.
– Mixed systems → add proper impedance matching.