jar546
CBO
I came across something interesting that’s been popping up in some parts of Colorado, and it raises a good discussion point about the difference between something that’s code-compliant and something that’s field-proven.
Inspectors out there are reporting nuisance tripping on AFCI breakers when the main service panel is installed outdoors. Ever since the 2020 NEC added the requirement in 230.85 for a readily accessible disconnect outside, builders have started placing the entire load center on the exterior wall. It meets code, no question about that, but it’s starting to expose another problem.
All breakers, including AFCIs and GFCIs, are tested and calibrated at an ambient temperature of around 104°F during UL certification. That’s fine in a controlled environment, but not when that same panel is baking in the sun. A metal cabinet mounted on a west or south wall can hit 120–140°F inside, and that’s before any load heat from the breakers themselves. AFCIs have electronic components on their circuit boards, and those electronics don’t love constant high heat, cold, or humidity swings.
Down here in South Florida, we see the opposite challenge: constant heat, humidity near 100 percent, and plenty of condensation. Even though our panels are usually indoors, any electrical equipment sitting in that kind of environment ages faster. So it makes sense that in Colorado, where panels are sitting outside in the sun and cold, those same AFCIs are tripping or failing sooner. It’s not a defect in the product; it’s the environment pushing the limits of how it was designed and tested.
This is one of those cases where the installation meets code, but we know it’s going to be a problem in the real world. So the question is, how do we as officials, inspectors, and installers manage something that’s technically compliant but predictably troublesome? Should there be guidance on panel placement, shading, or environmental derating? Or is this something that needs to come from the manufacturers and code panels in the next cycle?
Curious how others are seeing this play out in different climates, especially where outdoor panels have become standard practice.
Inspectors out there are reporting nuisance tripping on AFCI breakers when the main service panel is installed outdoors. Ever since the 2020 NEC added the requirement in 230.85 for a readily accessible disconnect outside, builders have started placing the entire load center on the exterior wall. It meets code, no question about that, but it’s starting to expose another problem.
All breakers, including AFCIs and GFCIs, are tested and calibrated at an ambient temperature of around 104°F during UL certification. That’s fine in a controlled environment, but not when that same panel is baking in the sun. A metal cabinet mounted on a west or south wall can hit 120–140°F inside, and that’s before any load heat from the breakers themselves. AFCIs have electronic components on their circuit boards, and those electronics don’t love constant high heat, cold, or humidity swings.
Down here in South Florida, we see the opposite challenge: constant heat, humidity near 100 percent, and plenty of condensation. Even though our panels are usually indoors, any electrical equipment sitting in that kind of environment ages faster. So it makes sense that in Colorado, where panels are sitting outside in the sun and cold, those same AFCIs are tripping or failing sooner. It’s not a defect in the product; it’s the environment pushing the limits of how it was designed and tested.
This is one of those cases where the installation meets code, but we know it’s going to be a problem in the real world. So the question is, how do we as officials, inspectors, and installers manage something that’s technically compliant but predictably troublesome? Should there be guidance on panel placement, shading, or environmental derating? Or is this something that needs to come from the manufacturers and code panels in the next cycle?
Curious how others are seeing this play out in different climates, especially where outdoor panels have become standard practice.
