50 Ohm 3/16" OD For Interconnecting Electronic Devices
Ancor's superior quality coaxial cables feature signal loss ratios up to 50% less than other coax cables. Ancor Marine Grade coaxial cables feature a tinned copper center conductor as well as tinned copper outer braid for corrosion resistance and easy soldering.
Tinned copper center conductor and outer braid
Tightly woven braided metal shielding provides 96% coverage for best signal strength and least interference
Braid and center conductor are 100% tinned copper for best corrosion resistance and easiest soldering
UV inhibited white jacket for longest life
20 AWG center wire gauge (solid core)
50 Ohm impedance
Maximum attenuation (signal loss) measured at 750 MHz in decibels per 100 ft = 13.04 dB/100 ft
Outside diameter = 0.195"
Ancor recommends: RG-58 CU for interconnecting electronic equipment.
Heavy on the technical side...
RG = Radio Guide, an obsolete military designation applied to all coaxial cables. These days, there is some much variation (even within a specific RG-#) that the RG number is mainly useful for identifying compatible connectors. To known the exact make-up of a particular RG cable, you need to look at the specifications.
U = "Universal".
Coaxial cable, or coax, is designed to carry high-frequency signals while protecting those signals from electromagnetic interference from external sources.
Coax cable has an inner conductor surrounded by a tubular insulating layer, surrounded by a tubular conducting shield, typically also surrounded by an outer insulating jacket. The term coaxial comes from the inner conductor and the outer shield sharing the same geometric axis.
Most people probably associate it with their cable television (CATV) service, but it is also commonly used in commercial radio communications, ham radio, undersea cable systems, closed-circuit television (CCTV), home video equipment, and broadband Ethernet applications.
Coaxial cable is used as a transmission line for radio frequency signals.
Its applications include feedlines connecting radio transmitters and receivers with their antennas, computer network (Internet) connections, and distributing cable television signals.
One advantage of coaxial over other types of radio transmission line is that in a high quality coaxial cable, the electromagnetic field carrying the signal exists only in the space between the inner and outer conductors. This allows coaxial cable runs to be installed next to metal objects such - as rain gutters outside a building - without the power losses that occur in other types of transmission lines.
Importantly in marine applications, coaxial cable also provides protection of the signal from external electromagnetic interference from other nearby sources.
The ends of coaxial cables usually terminate with connectors. Coaxial connectors are designed to maintain a coaxial form across the connection and have the same impedance as the attached cable.
Connectors are usually plated with high-conductivity metals such as silver or gold. Due to the skin effect, the RF signal is only carried by the plating at higher frequencies and does not penetrate to the connector body. Silver connectors can tarnish quickly, and the resulting silver sulfide produced is poorly conductive - degrading connector performance - making tarnish proof gold-plated connectors a better choice for this application.