I have an Alpha Delta grounding switch with the arc plug as the first piece of equipment in the shack after the cable (just one HF/6M antenna line). It is in line after ICE arrestors which have static drains, one at the base of the tower and another on my grounding panel at the entrance to the house.
Additionally, I have a DX Engineering remote antenna switch at the top of the tower that grounds all antennas when it is off. I switch the Alpha Delta to ground when I shut down for the night. I disconnect it and everything else from the antenna during local lightning storms. Last April, I foolishly didn't disconnect because I didn't think the storm was that close. I didn't have the Alpha Delta in line, and a major strike was pretty painful but instructive! Jim N7US -----Original Message----- While the K3 has static protective devices that have been mentioned by others, I prefer to err on the side of caution. The UHF connector has one problem for antenna/feedline static charge - if the antenna has built up a static charge, when the feedline is connected to an SO-239 jack, the center conductor makes contact first, followed by the shield. So the best solution is a DC path provided within the antenna/feedline system itself rather than relying on any protection in the K3. Type N and BNC connectors do it differently, the shield is connected prior to the center conductor, thus allowing any charge on the feedline to be safely discharged through the radio's protective devices. With UHF connectors, the radio's protective devices may not work because only the center conductor of the feedline is connected, and there is no return path to the coax shield until the shell is properly tightened. With UHF connectors, any "antenna disconnection" would best be done using an antenna switch rather than a physical disconnection. The disconnect will cause no harm, but the re-connection can do damage without warning. The antenna switch itself is a good place to provide that DC return path - either an RF Choke (100 uHy) or a high value resistor (500k to 1 megohm) between the center conductor and ground of the common connection to the transceiver. When the transceiver is not in use, switching to a dummy load is a prudent thing to do, so if you have 5 antennas to switch, a 6 position switch is best with a dummy load connected to the 6th position. Note that this is applicable to any transceiver - I know the question was asked about the K3 specifically. 73, Don W3FPR ______________________________________________________________ Elecraft mailing list Home: http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/mmfaq.htm Post: mailto:[email protected] This list hosted by: http://www.qsl.net Please help support this email list: http://www.qsl.net/donate.html
