Hi Gary, That is exactly what I am considering. Because of the inconvenience of reset and lack of automatic shutdown, I suggest the use of solenoids with the Classic Aux control so the system will shut down the instant arc fault is detected. It is easily reset from the battery location or anywhere you wire the reset circuit. By supplying the coil voltage until the controller takes over, the entire power system will restart; no trip to the roof. I built a reset control using a simple wireless relay with a key fob remote to perform the reset. Cost about $20.
The Birdhouse requires human action, my idea does not but can be still be activated by a person. Of course the Birdhouse offers many other shutdown features for grid tie. But for a typical off grid installation, shutting down the PV array and battery means all power is off at the source. If there is a reason this will not work, I would like to know it. For a couple hundred dollars, it seems like a cost effective and desirable approach. Larry On Sep 24, 2015, at 8:51 PM, Gary Willett <g...@icarussolarservices.com> wrote: Larry: The MidNite Solar 250A breakers used for battery bank disconnect, and the breakers in the "Bird House" controlled roof-top mounted disconnecting combiners, use a "shunt-trip" mechanism inside the circuit breaker. This requires a manual reset to restore the disconnected circuits. This can be inconvenient if the enclosure housing the shunt-trip breaker is not easily accessible (i.e. on a two story house with a 6:12 roof pitch. Something to consider. Regards, Gary Willett PE Icarus Engineering On 9/24/15 7:26 PM, Starlight Solar Power Systems wrote: > William, Ray, > > I asked Midnite about using the Aux circuit for control for ground or arc > faults. They said this will (should) be added on the next firmware update. > This means if an arc fault is detected, the Classic will shut down AND > conductors leaving the array would be de-energized by switching off the HV > relay. All automatically. A second relay could be connected to the battery > for total system shutdown. Should be easy to build a circuit to re-energize > everything after a fault. > > Wouldn't this automatic method be better than waiting for someone to throw a > switch to shut things down? You would have to run the low voltage control > wire and perhaps put the relays in an enclosure. A disconnect switch could be > in series for manual shutdown. What am I missing? > > Larry > > > > On Sep 24, 2015, at 11:03 AM, Ray Walters < > <mailto:r...@solarray.com>r...@solarray.com <mailto:r...@solarray.com>> wrote: > > The other option is Midnite Solar's remote controlled breakers or combiner > boxes. They make up to a 250 amp breaker, but I found on large battery > systems that we need some thing larger. Colorado is now requiring Rapid > Disconnect for the batteries as well, which is NOT the original intent of > that article. Is the Gigavac UL listed? > R.Ray Walters > CTO, Solarray, Inc > Nabcep Certified PV Installer, > Licensed Master Electrician > Solar Design Engineer > 303 505-8760 > On 9/24/2015 10:45 AM, Starlight Solar Power Systems wrote: >> William and Wrenches, >> >> I have pondered situations like this one and wonder the following: If a high >> voltage DC solenoid were placed at the PV array and the coil was controlled >> by an arc fault detector along with a means of manually disconnecting, would >> that not work to satisfy shut down requirements and safety concerns? >> >> We have been using 350A, 800 volt solenoids from Gigavac in our lithium >> battery system on both the positive and negative terminals (controlled by a >> CPU) to provide 100% disconnect if case of any battery fault. >> >> Larry >> >> >> >> On Sep 23, 2015, at 2:26 PM, William Miller <will...@millersolar.com >> <mailto:will...@millersolar.com>> wrote: >> >> Dear Fellow Wrenches >> >> Below is a design conundrum that may resonate with some of you: >> >> We are finalizing a design for an off-grid residential system. The customer >> insist the PV should be on the roof and pre-installed a 1-1/4” PVC conduit >> from his roof to a crawl space, in anticipation of a solar install. This >> created real problems, because we all know we can’t pull PV source or output >> circuits in (or now, on) the envelopes of habitable buildings. >> >> There was no practical way to replace the PVC. We contrived a method to >> sleeve ¾” liquid-tight through the 1-1/4” PVC to the crawl space, continuing >> on with EMT. This is the largest metallic conduit we could fit. The >> distance was greater than 10 feet so we couldn’t use EMT. Due to the >> conduit size restriction, we upgraded to Morningstar 600 volt charge >> controllers, allowing us to reduce conductor size. >> >> (As a sidebar, although the Morningstar is listed as a 600 volt charge >> controller, we have found no circumstance were we could take advantage of >> that high a voltage. With the currently available high wattage modules, by >> the time we added enough in series to get to 600 volts, we were well beyond >> the wattage capabilities of the controller. For sake of design >> considerations, I suggest one regard these units as ~300 volt charge >> controllers.) >> >> We now have plans for 300 volt PV feeders running down an interior wall and >> under the house, with no roof-top disconnecting means. It is my >> understanding none are required. I am not comfortable with this. In this >> scenario, there is no safe way to replace either of the two Morningstar >> controllers. Should someone drill through or damage the EMT in the wall or >> under the floor, there would be no way to turn off the feeder. >> >> I don’t like putting HU361RBs on a roof. They must remain vertical and so >> they stick up too high and are hard to provide mounting for. Sola-deck >> units are another option, but they require integrating with shingles, not >> practical on this job or many others. I finally settled on a DC-Sunvolt >> PV-X16A-4X-RG disconnect as a possible solution. At $216 it is not out of >> range. The unit will provide means to turn off the feeders for service. I >> will report back on my impressions of the unit. >> >> To distill this scenario, I don’t believe the code requires a disconnect, >> but I feel morally obligated to install one. I’d be interested in >> verification of the code interpretation and others response to similar >> situations. >> >> I found no other options for rooftop disconnecting means that would be >> small, reasonably priced and not present a high profile. If there are >> products I don’t know about, I would be most grateful to receive your input. >> >> While researching the hardware I stumbled upon this article, linked below. >> It seems to present a real dilemma, but I am not convinced. Please remain >> skeptical as you read. It appears all of the links direct you to the same >> source. >> >> https://www.linkedin.com/pulse/greatest-debacle-solar-pv-australias-rooftop-dc-isolator-lucas-sadler >> >> <https://www.linkedin.com/pulse/greatest-debacle-solar-pv-australias-rooftop-dc-isolator-lucas-sadler> >> >> Thanks again to all of you for helpful advice and expertise. I learned >> about Sunvolt here, just one of many great suggestions. >> >> Sincerely, >> >> William Miller >> >> >> <image002.jpg> >> Lic 773985 >> millersolar.com <http://www.millersolar.com/> >> 805-438-5600 >> > > >
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