Installing an SSB Radio

Article from www.cruisingworld.com: A single-sideband radio is much more powerful than your onboard VHF and requires thoughtful installation.

Published 12 years ago, updated 5 years ago

An excerpt from Advanced Marine Electrics and Electronics Troubleshooting: A Manual for Boatowners and Marine Technicians

Single-sideband (SSB) radio is the long-range counterpart to VHF radio. Where marine VHF is limited to line-of-sight communications and a maximum of about 25 miles, SSB radio has the potential to transmit and receive over hundreds or even thousands of miles. An SSB radio bounces radio signals off the lower layers of the earth’s atmosphere, which in turn reflect the signals back to earth. (You can think of SSB transmissions as giant triangles spanning many miles.)

Voltage and Current Requirements

An SSB’s appetite for amps covers a fairly broad spectrum, ranging from about 2 to 3 amps in Standby/Receive mode to about 30 amps when transmitting. This is not too much of a problem unless the operator is the chatty type or spends a lot of time downloading weather charts via a modem. However, 30 amps of consumption is a considerable amount, and it will drain batteries rather rapidly if they are not being recharged.

Installation guidelines

• Be sure to use correctly sized power feed wires to serve the unit, especially in consideration of restricting voltage drop to a maximum of 3%. Based on ABYC E-11, you will need a minimum of 6 AWG (13 mm2) wire to supply power to a 12V SSB set over a 20-foot cable run.

• Adhere to voltage supply parameters. Most if not all SSB units operate at a nominal 12V. For a boat with a 24V or 32V system, you will need a DC-to-DC power converter. Overvoltage supply to the transceiver will damage the unit quicker than you can snap your fingers! A typical l2V (nominal) SSB has a voltage operating range of 13.6VDC, ±15% maximum. Consider this 15% an absolute maximum because performance will definitely be affected if power falls below -15%.

• Use the 3% voltage drop parameter to ensure peak performance. Lower-than acceptable voltage will have a profound impact on power output from the unit and its potential range. It may be useful to think of potential power out of the unit is proportional to the power available to operate the unit.

• An SSB requires a first-class grounding system to function at its peak, and the antenna needs what is known as a counterpoise, a ground that is an integral part of the antenna system.

• For best results, use the multicable harness provided by the SSB manufacturer, which typically includes the coaxial antenna lead, power cables, and a cable to connect the automatic antenna tuner (a commonly specified available option). All the individual cables in the harness are terminated with watertight connectors for the tuner or transceiver, and all the individual conductors within each cable are connected to the right pins. Stick with the original manufacturer’s harness! This is not an area where you will win high marks for creativity.

Regulations for SSB use vary from one country to another. In the United States, FCC rules apply. Additionally, specific regulations apply if the radio includes DSC and GMDSS.

This is where a true electronics equipment specialty house can put you on the right course. Electronics specialists are usually FCC licensed and will be well versed in the specific regulations as they apply not only to installation of equipment but also to licensing requirements for equipment operators. Inquire before you get in trouble because the rules changed a few years ago. In some cases, an FCC license is required to perform installations.

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