1. Background. At the 2016 IEEE Product Safety Engineering Society symposium, the use of 'hobby' (arduino) processor boards, and related power-control related modules that have found their way from the home shop to the industrial/commercial setting was discussed. Should be noted that the director of OSHA's NRTL program was present at some of these discussions, so the feds are now aware. An informal poll among a group of compliance engineers indicated some have direct experience with "more than one" incident related to use of non-compliant arduinio stuff.

b. Your efforts to design a conforming product are commendable and very much appreciated. Compliance requirements are a morass and lie at the unholy intersection of law and physics. Few designers have successfully navigated a formal product submittal for stuff intended to be connected AC mains; most have to seek a member of the Dark Side of engineering (that would be me) to avoid being seduced by the power of hate and anger.

c. Am not at work, so clause number and wording from standards are based on my diminishing ability to remember the multitude of garbage in the hundreds of standards and directives that taught me to embrace my anger and hate and serve well to crush my being on a daily basis.

d. creepage requirements for 60950-1 are similar, as both are based on IEC60664-1. The seminal reference for the physics of electrical spacings is K. Stimper, ”The physical fundamentals of low-voltage insulation coordination”, VDE-Schriftenreihe, Vol. 57, Berlin, Offenbach vde-verlag 1991. Per 60950-1, a minimum clearance (spacing through air)is 1.0mm for 120V, but this number has no margin and is intended for a widget that is enclosed in a box. Spacings for safety are based on the mains transient voltage for the intended OV category. So the absolute minimum transient rating for 120V mains would be 800V, which is used to determine the increased spacing for 'Basic Insulation' and to ensure that the equipment can pass the di-electric withstand test ('hi-pot'). A more realistic transient voltage would be 1500V, which is the typical test level for Class I equipment per 60950-1.

e. Many are in denial on the impending cruel death of national standards based on IEC60950-1, so will ignore UL62368-1 and only reference product conformity per CSA/UL60950-1.

2. Would typically not recommend seeking a component recognition from UL, as there are other competent NRTLs that have more reasonable scheduling and rates.

3. Subclause 1.5 and annex P1 - ratings for PCB material per UL796.

4. subclause 3.2 and annex P1 - ratings for connectors per UL498.

5. subclause 3.3 and annex P1 - ratings for field-wiring connectors per UL486.

May the Light Side of The Force guide your future design efforts. And we all know that "once you start down the dark path, forever will it dominate your destiny". So there is no hope for me...

Because it's badly made, and probably doesn't have the required clearance and creepage distances.

Evidently whoever designed this - not Sparkfun, incidentally - did not know that (decent...) relays implicitly provide rather good isolation, and thus decided to throw in a set of optocouplers and a isolated DC/DC supply. With proper design and component selection, you could've made this for $10-15 less while also allowing 250V AC.

The kicker? Sure, as designed it's isolated from the low-voltage side. But is the channel-to-channel isolation good enough? Probably not!