Hello everyone,
I recently discovered something a bit annoying I wanted to share on here. Another member had previously expressed that their GE 175W MV 201SA tripped their Siemens AFCI/GFCI combo breaker. I was intrigued in seeing this, as I had never heard reports of HID fixtures tripping AFCI breakers. And, at least with modern AFCIs, I had figured that 1) the technology would be able to differentiate that type of arcing from a "hazardous" one, and 2) that having the power run through a ballast would "lessen" the intensity of startup arc waveforms that could possibly cause "nuisance tripping."
But, I was proven wrong the other day. In my bedroom, I have a Leviton dual function AFCI/GFCI receptacle installed in one location, as it is old, ungrounded wiring, and I wanted to attain full code compliance when replacing the (unsafely-installed) regular three-prong receptacle that was previously there. So, now curious, I decided to bring in my 100W Lithonia PSMH/MV converted flood (it was sold as a PSMH fixture, but truly just has a modified HX 100W H38 MV ballast).
Anyways, I plugged it in, turned it on with the switched plug I have attached, and it initially seemed to ignite. But, a few seconds into initial fire-up (as the swirling magenta "startup" flashes occurred), the outlet suddenly tripped off - "SNAP!!" And, afterwards, the outlet's indicator light (which is usually green) flashed twice red, followed by a pause (which is the "flash code" for tripping on an arc fault). Not knowing if this was a "glitch," I reset the outlet, and tried a couple more times - but with the same, annoying result.
My best guess for this tripping is that when the startup arc occurs, the AFCI's microprocessor sees this as a sustained and "hazardous" (pulsating and sputtering) arc that is of a frequency close enough to arcing that may occur within damaged wiring, for example. In any case, though, it annoys me that it can't even stay on when no REAL hazard exists and the fixture is simply operating as intended.
One "solution" (albeit expensive) was to plug the fixture into a very high-end power filter. I recently bought a "Zero Surge" branded power filter for the "low" price of $250, as it is the one and only type of surge protector that will function on non-grounded wiring (through a proprietary method known as "series mode filtering," as opposed to MOVs that rely on the ground line to divert surges). And, currently, none of the other circuits in our home have AFCI breakers, but for those who have no other option (if not comfortable working on a service panel oneself to swap out breakers) and will stop at nothing to power their lighting collection, I simply wanted throw this out there. I can post a website link to Zero Surge if anyone is interested. So, long story short, the Zero Surge filter seems to not only suppress interference and "noise" on the incoming line, but has such good-quality power filtering that it even cuts the "waveform signature" of the startup arc to such a level that the outlet no longer detects it (causing it to nuisance trip).
I guess if there is any one way to force LED lighting on people, this is one way to do it - by mandating breakers that are inherently "incompatible" with that light fixture type by virtue of how they function - by producing an arc, of course!
