I recently began dabbling in Ham Radio again after having my radios turned off for a few years; the endless prattle of right-wing nutjob conspiracy theorists moaning on every band had become tiresome, solar conditions weren’t great, and I just had a lot of other things going on. With the sun waking up again of late, and my husband insisting I spent some bonus money from work on something frivolous rather than something responsible, I got myself a shiny new Elecraft K4, a snazzy new antenna from HyPower Antennas, and got myself back on the air.
Things were going great for a few hours until The Buzz kicked in. The Buzz is, as best I can tell, some piece of failing PG&E equipment, probably an insulator or lightning arrestor, which has become an inadvertent spark-gap transmitter. It is somewhat intermittent, but almost always present in the late afternoon or early evening, and it generally persists well into the night. Once it starts, it nearly blanks out everything from 160m through 6m. It’s unclear what causes it to come and go, though there seems to be some correlation between moisture, temperature, and even wind.
Today after a few days of quite wet conditions followed by cold air at about 60% humidity, The Buzz was back with a vengeance. A new variant today is that we’re having strong, gusty winds, apparently adding some modulation to The Buzz. Here’s what it sounds like on 5MHz. I haven’t normalized the audio in this file; this is directly recorded off the K4. The signal strength was around -70dB:
You can hear some subtle interruptions in The Buzz. This is not coming from loose antenna connections. I suspect somewhere a powerline or bit of cabling is getting tossed around in the wind, and this in turn is introducing that modulation to the signal.
To prove it wasn’t just a bad connection on my antenna, and my antenna swinging around in the wind instead, I tuned to 15 MHz so I could try to listen to WWV along with The Buzz. In this recording, you can hear how the intermittent nature of The Buzz happens independently of the WWV signal; The Buzz comes and goes, but WWV stays more or less consistent throughout (though it can be a little hard to hear when The Buzz is in full force):
Here you can see exactly 12 pulses in 0.1 seconds, which equates to 120 pulses in 1 second.
Recall that the frequency of a sine wave- like that used in 60Hz utility power- refers to the time it takes to complete one full cycle, which includes both the positive and negative peaks. Thus, a 60 Hz wave while completing 60 cycles per second completes 120 peaks (and 120 zero crossings) per second. My suspicion is that PG&E has a faulty insulator somewhere and the arcing is happening across the insulator, between one phase and neutral or ground. Once the voltage reaches a high enough positive value, it begins to arc until the voltage comes down enough that the insulator is sufficient. Then the power crosses through 0 volts, and when it reaches a high enough (absolute) value, it again arcs until the (absolute) voltage comes back enough again. Then the process repeats. If we overlay a sine wave we can actually see what’s happening:
My alignment of my generated 60Hz sine wave to the recording isn’t perfect (Audacity on my ham radio PC is kind of a pain to work with), but you can see pretty effectively how each peak and trough of a 60Hz sine wave lines up with a burst of powerline noise. Given the highly predictable nature of the offending transmission, if we knew the RMS voltage of the source, we could probably even calculate the breakdown voltage at which the insulator is failing to prevent an arc.
Given the age of the infrastructure in my neighborhood — there are even still glass insulators on many of the utility poles here– it’s not exactly surprising that there would be some old equipment starting to break down. Indeed, in the two years prior to this year, we experienced lengthy power outages after insulators saturated with rain exploded, sending powerlines into trees and leaving crossbars smoldering.
With PG&E’s reputation of incinerating neighborhoods and even entire towns, you might think they’d be a little more interested than they are in taking preventative measures, especially when given the opportunity to fix a problem while it’s still just generating RFI but not yet fire. Sadly, this does not seem to be the case. I’ve contacted them (so far) on March 12, 20, 28, and April 5, for updates on my original case and to date, nobody has even looked at it, let alone gotten back to me. I am, of course, documenting everything, and after 60 days, I will make this an FCC RFI complaint, at which point I’m sure the FCC will remind PG&E once again that they are obligated to fix these problems, as they have had to do many times in the past.