Grounding your SOLAR PANELS? 🤔 You Better watch this First! *KNOW DC/Inverter POWER is not Utility

Hi John
Just wondering if you got that battery situation figured out yet, or did you change your mind ?
Thanks
Douglas Gordon

@@dagordon1150 Yes. I have to bring them up to post office to get them priced. May have to take them to Fed Ex, What ever is cheapest to you. Either way, they are yours. I had to spend a week off everything to deal with a close friends losses. But getting back on track.

@@JOHNDANIEL1 Tat´s sad... my condolences
and all good !

People who find voltage coming from their solar panel frames are the folks who worry me 😂. They need to ask why one isolated piece of aluminum (solar panel frames) makes its own power, but another one of identical build (aluminum window frame) don't. And funny thing is when I removed all the ground wires it disappeared.
People who put a array up far from their homes ground rod and don't connect the solar ground to their home also seem to have no transient voltage from their panel frames. Hmmm.

Did getting electrocuted hurt?

Obviously this guy doesn't live in Florida, If you don't ground it all equipment will be destroyed after lightning strike.

I never let Kiera get on junk filled Cell phones, social web sites or have friends who don't respect her future. 50 years ago we would have called that parenting, today they call that being a mean prick! A title I accept with glee!

@@JOHNDANIEL1 Actually, recent research studies support your perspective.

yes

The absolute best method to protect solar is a lightning rail, installing on metal roofs, or a nearby pole as described preferred circuit for such lightning.

Big no shitter on getting hit with 500volts dc when the squirrel nested under a panel and shorted it to my array. Grounding is important for fatal voltage levels. Plus it hurts really bad!

Aluminum panels oxidize creating an oxidize layer and will require over 1000 voltage before that current can jump to your body.

I believe electricity goes in a circuit back to source, so it won't go to the ground for no reason

You must be "educated", which is a no-no, apparently...

You're right except that the DC circuit from your panels is an isolated circuit. There is no potential to earth ground unless you create it by bonding the return (-) to ground first. Shorting the positive wire to the frame will do nothing unless the positive and negative both are shorted. Then something is going to blow, hopefully fuses that you've installed on your panels instead of your panels.
Equipment grounding is absolutely best practice where that potential exists and does include most all AC circuits and non-isolated DC circuits.

I base my study and results on 2 things, Sir Benny Franklin and Faraday's laws. Faraday using a all copper roof on a cabin next to a all wood shingle roof was trying to prove how copper was dangerous, He was a pissy man. He learned the opposite. He learned that electrochemistry was not that simple, the lightning on the project in north France on the coast, right in the marsh, a storm hot spot, it struck the carbon loaded chimney of the wooden house 3 times. Never touched the copper house or its chimney right next to it. Conclusion by Vander Hoff the resident, the copper make the house protected. Private notes to his parish.
In reality it made the load of the ground sourcing much more spread out. In reality, lightning DID strike both. But the concentration of energy diffusing outward was spread out on the all copper, leaving no real damage. But the energy was so focused on the wood framed houses chimney it blew the top off it and the cast iron frame from Ingles ship wrights, which both homes had, down below warped.
Little is known of his off Britain experiments done by fellows, but his findings on electrolysis caused by as he put it, the silent energy, showed how the later designs of the Faraday cage came about.
Note to be accurate, I am prejudiced toward his Savant Qualities, I am kin to Sarah Barnard, she was married to Michael Faraday, her grand father is direct blood line from my Germanic/Lithuanian roots.

Very smart. If you ever share wiring with a grid designed system your looking for problems. I wired to use my power in dedicated lines, and never lost a solar panel in 16 years.

You won't get arcing till you exceed 32 volts and not even unless you have your panels grounded will you get a arc from your positive wires. Buying used panels if about the worst thing anyone does, they were pulled due to imbalance and cell issues, no such as "oh we just wanted to upgrade" as if they are some new car model. The panels get pulled when the insurance company says they are not in spec or are failing. As for solar on vans, RV's and boats, about 2/3 who install them are running 2 or more panels in series with voltage exceeding 75 volts on average since they are using MPPT with 150 volt capacity.

Yeah, we got that same static problem with our van, and aluminum house windows. Working on it.

Good point. Their knowledge of grounding is very limited.

Ground if you feel its for you. But just know that about 99% of those who say they have voltage in their panel frames got it from sharing a single homes ground rod with the common neutral/structural ground bonded 120/240 utility panels, inverters ground lug, solar controllers ground lug and solar panels. So if you do ground them, DO NOT connect that circuit to the home or inverters system, ground them separately at least 30 feet away from any existing ground rod. They do collect atmospheric static in rare conditions but so does you car pop you with a static jolt from time to time.

Exactly like that!

Yes, and we ordered a few million feet of wire to stay in code on our RV as we haul it.

I think I've said here and everywhere that exceeding 60vdc should have a fault system. That includes neon alert bulbs from frame to independent ground to active grounding but not residential shared.

Exceeding 60vdc meaning input from the panels? I have circuit breakers on my solar system in my rv. My system is not grounded. My rv is not grounded. I know I’ve asked this question before, but now I’m unsure of what I should do. Can you help?

@@Blackbird-zo1su If your choosing to go as high as 60 volts DC, you need real safety by using at least inline fuses or breakers. I prefer staying under 44 volt, ( pair of 100 watt panels in series is 44 open voltage ) and likely to be felt but not likely to injure. Over that it gains deadly levels fast. You do not need to ground the panel frames, no one has to. But creating a short safety is wise no matter what your voltage is. Best breakers to use are Mathus, you need a box amzn.to/4fgc0Zd And sized breakers that are just higher then your panel amps amzn.to/3SiWDVN
Example - 300 watts solar would be 25 amps in a 12 volt system. Always buy a few extra breakers, and always get a box with at least 1 or 2 more spaces than your solar already uses so you can expand or option other sources.

@@JOHNDANIEL1 thanks, I do have adequate breakers.

But you would need Residual circuit breaker and 3-wire wiring for this to work. There are still 2-wire systems in old houses which only breaks on short circuit and won't protect you from injury if properly grounded or not. Nowadays when the household devices are mainly plastic such events are less frequent unless you are in e.g. bathroom.

You use 4 sections of 1-3/8 Fence Top rail that is sold in 21 foot -6" sections. Very Cheap. You can get used on classifieds like craigslist or facebook often. Set them in concrete in a triangle 3 points at 4 feet apart 18" deep in concrete. You taper them to a peak, using bolts or plating connect the tops as you place another one in the center with a added 10 foot 6" piece down low under the 4th one ( single piece home depot $15), to end up about 29 feet total tube height. Very stable. You place 1/2 rebar up the center of the 4th one, the middle tube till its 2 feet out the top of the center tube with additional 1/2 rebar welded or clamped with heavy cable clamps till your down to the bottom and into the ground of the center tube about 2+ foot deeper than its 12 to 18" concrete. I may do a drawing and place it on my web page www.mydcvolts.com that I have been forgetting to update for a few months LOL!
This 30+ feet is generally much much taller than any solar, much taller by 10+" feet than a 2 story home, and more static attractive than any trees. You can go a little higher with a little common sense addition or adaptation.
Mine cost about $130 to build, and is why I will not worry about my solar.

Kiera has collected 2 more for rebuilding/repairing. 4 total now. She has the Murray, very old old ladies rider with only 54 hours on it, to make a fruit orchard trailer/water hauler, but it has a failed governor in it, so she got a case and gasket kit and new governor on the way. The other Huskee is a forest model to abuse, bush hog plan to deal with the back of her property it has as she says a transmission drive pully bound up, so it will be fixed when she collects enough $$ for one. Yes, I call it her property since I can't live forever and parents should build futures for their kids, not shove them off in crazy people making schools.

I love my mowers!

@@ayoungandoldsoul wouldn’t mind to see videos of lawn mower repairs, 80% of lawn mowers out there are MTD, might get a lot of hits

What do you suppose caused totally isolated aluminum frames to be electrified? It's like saying I installed a inverter and solar into my Dodge van, now my Chevy pick up parked near it shocks me every time I touch it. Literally, the same way of thinking!
The voltage you get when touching a ground wire to a panel is from the existing ground wire "supplied common ( bonded circuits)" loop being made, It happens when your panels are mounted on metal racking on metal frames or metal roofs. This does not ever happen to any electrically floating un grounded panels mounted on wood!
Wonder why right! Induced current is looking for a conductor when your playing with it, and find it in reverse by a ground that's connected to a homes existing system of wiring which has a bonded Common(neutral)/Ground design. Technically, your making a jumper, and it makes many things behave odd.
People seem to think a inverters output is identical to a power plants system, it is not. It is a imperfect clone not designed to rely on earth ground for balance. It's not a identical product.
Yet, using a All-In-One inverter charger is not the problem that will make 100% non-electrified aluminum become current carrying items, connecting it to something upstream is what does that.
See how it all behaves when you DO NOT connect and share your inverter to the homes metal, ground, or bonded utility based and still connected to utility, system!

@@JOHNDANIEL1 thank you for the reply I appricieat your input. My panels are mounded on a wood frame i made 2x6 with big 6x6 post. then i put unistrut on top of that. I am off grid and do not have any utility power. when I ran my AC out from the invertter to my home panel i did run a line, neutral, and ground and have my main home circuit breaker ground neutral bonded. Would you still think i should remove the ground from my inverter to my main panel with this type of set up?

@@chasegj Yes, Just do a experiment. Remove the ground line on the inverter or run 2 wire for 120 volt, 3 wire for 240 volt and watch how the whole thing changes.
Consider how you would wire the same system into a old school bus/RV, Grounding is to chassis, not to anything else. NO ground rod, no ground strap related to AC voltage on the panels, but some do a DC ground to chassis due to static from 70 mph air flowing over panels. And no one gets electrocuted, it is safe there, so its same for a home system. RV's do not bond ground and neutral and if they do they tell you to separate it if installing a inverter. The ground on them is often only metal BOX to chassis, not a shared Neutral bar to Chassis.
I prove this all by disconnecting the ground, plugging into a inverter, and then measuring the volts from the ground wire to the ground post on the inverter and getting wild voltage on it anytime it is fed into a bonded power box. This feedback sometime affects your DC negative to your panels.

Just realize the design of the power grid, with the earth involved, power created by rotating mass is not in any way the same as the generation/conversion of power from DC current. The "HAIR ON FIRE" panic stricken fear mongers who demand you ground connect all your DC circuits would fire you in 1 second if you drove a ground rod through the floor of their pick up to "ground it" since it has a AC alternator and DC circuits.
Solar for safety is fused. All DC should be fused. But be very careful back flowing your inverter through some residential wiring since it can be bonded common with neutral (ground direct) and may fry your inverters or introduce stray voltage in your existing ground circuits.

Thank you for the quick reply. I do know that the main panel they just installed is bonded common to neutral at the outside box. The power is then distributed inside to a 200amp service panel which (of course) is not bonded ground to neutral. It's one of those circuits that feeds my living room outlet where the SunGoldPower inverter/charger will be plugged in. Keep up the good work, it's appreciated by us still "in school". @@JOHNDANIEL1

@@avlisk When we install the common 240 volt 6000 watt Sun Gold into a space like your doing, we use this transfer switch amzn.to/3T9ItYr system. If you use a smaller 120 volt inverter with nothing over 3000 watt you can use this single sided model amzn.to/3GrP7ld

Easiest path for lightning via your panels is by grounding them, it attracts the lightning by making a sure path for it. By them getting struck you will destroy your connected electronics no matter what you do just based on the flushing effect lightning has on earth ground. We want to believe, and your welcome to do so, that lightning is a thin line of electrical energy that just tracks as if by a rule the wire you installed for it. It absolutely does not. Solar arrays are more damaged due to group grounding than floating ungrounded. The more you make a massive target for lightning ( using a ground rod ) the more likely you will get your strike. Adding a nearby target that is fully attractive and taller totally prevents any lighting and sourcing your array. Consider this test. Take a 10 foot pole, add a heavy copper wire, connect to a deep ground rod, now hold that metal pole in your hands in the air during a lightning storm. Does all the lightning only go though the pole and wire? Or does or radiate into you that's holding the pole too?
Now do it separately with all mounted but you not holding it and note it does not radiate into you. Same effect if you ground the solar ( represented by you holding the pole ) or make a target not connected to you ( diversion mounted to draw strikes away from you ).
We choose diversion lightning rods (post) and omit our solar being the choice target.

@@JOHNDANIEL1 I presume you didn't read the entire response or misunderstood it as I indicated that the ground for the panel frames needed to be separated a significant distance from the equipment ground to avoid the flashover.
Having survived 2 near lightening strikes (within 10 feet), I am well aquainted with flashover. I have had my wind turbine pole(grounded) hit by lightening several times and the panels underneath the pole were fine as was the inverter.

@@JOHNDANIEL1 That may be truth only if all parts in vincinity are insulated from ground and not "naturally" grounded by rain. E.g. for cars and caravans with solar panels.
But it's usually not true for buildings, therefore even if the panel is not getting hit from lightning it will receive high voltage potential from lightning in vincity which will probably damage the regulator and other devices.

Still doing a long term 2 month test on them. They have Pouch Cells in them, Rumor has it, Pouch Cells like those in Cell Phones deteriorate faster no matter the chemistry in them. ( samsung engineers warning 2020 on LiFePO4 Pouch/leaf Cell use) Something to do with the effect of stretch during folding of the materials inside. So I got them, the company wants me NOW NOW NOW to show them since what I paid was less than list price and upon agreement I would do a video on them, but I will not just do a video saying WOW THESE ROCK if they may SUCK! *I will leave the Show and Tell videos for sales up to Professional Promoters with fancy cars, deep pockets and high paid channels who tongue swab the rears of Google.

Those models have a built in isolator ground circuit, it is based on a GFCI polarization circuit. If you test them you will find that once power is removed from the grid the pass through ground at the terminals vanishes. It returns when you reconnect the grid power. This is a relay in them that does it. If you connect that ground from the house/grid to the chassis then pass it into the wiring from the inverter you will notice a 2 to 3 volt reduction in the inverters output when not on grid.

It is but not fully it is not a conductant but a bad insulator it may take some time untill the potential voltages are the same.
Cars are grounded to their own ground (forming Faraday cage).

Earth Neutral is a defined function of Grid Power, a part of its actual circuit. You do not create a circuit using the ground with Off grid power. Floating is the common and line ( hot) in a isolated use not a ground/common bonded like in a utility system. People can't get it into their heads that Utility power is mechanically created, nothing to do with inverters that create their output from synthesized electronic only methods. A comparison. Utility power ( mechanical over rotation over magnetic generators ) call it NON GMO Corn. Inverters, Switching and boosting from DC voltage using self contained conversion, Call it Franken food. With Corn you need the earth to plant it in, with franken food you need a clean soil free laboratory! Connecting to a ground with a inverter will damage the inverters, it will stop or damage your induced short detection safety system in that inverter so may makers knowing "people do not understand the output is NOT utility" often make a burn trace on the board to vaporize when a bonded system is connected to. A industry secret but a must have ability.

@@Urge38 think about if you have ever used a generator to power your home appliances (like refrigerator or cheat freezer during a power outage, or using one on a jobsite for running your saws and air compressors and such. That system is AC, just like whats coming out of your inverter, correct? Most smaller and even midsized generator aren't bonded to earth ground, because they utilize the same thing John is referring to here, a floating neutral. It seeks a path back to its OWN source to complete the circuit, NOT a path to earth.

Any voltage over 36 VDC I recommend inline fuses at the panels. Lower than 36 I install in line before the controllers.

@@JOHNDANIEL1 I’ve had 450 volt string go live to my array from squirrel damage. Flat knocked my dink in the dirt, grounded would have been better for me

Still do not ground it, Fuse it. Order you some burn safe fuse links, Add them in.
Contact Josh with Windy Nation, he will explain why to fuse what you have. And the best thing for dealing with squirrels chewing on your wiring is spraying risky areas with rustoleum underbody rubberized coating amzn.to/3HXWKRw . Place some cardboard under the wiring to protect back drop, and spray coat it with 2 coats. It retards sun damage, and it makes varmits vomit! Will last 10+ years.

Clearing a fault is not in the limited vocabulary of this discussion.

We will work on that when installing the 30 frameless panels this spring. However, when you do not ground your solar panels you get the same result as you do for not grounding your aluminum framed house windows. Static does not build up in non ferrous materials ( aluminum ) at the same rate as iron/steel, not even close.

When you go to AC voltage and anything over 60 volts DC then proper breakers and grounding is required on the AC side if its to join a existing system, the DC side can be left ungrounded as long as you have proper breakers but if your doing the most evil thing on the planet *GRID TIE* connecting then you must pay all the massive fees, follow every rule, connect to all ground connections and expect your pay off in a few hundred years.
As for the panel frames, you can ground by choice unless forced to do so, using a ground rod on them separate from anything your house is using and over 25 feet from a existing ground. Myself, I choose NOT to attract lightning to my panels but instead a dedicated lightning post but if you can get good replacement insurance on the panels then it's not a horrible idea to attract lightning so you can get new ones ever so often from a insurance claim.

You should ground if its part of a building with its own path to building's ground unless you have metal roof. But not ground the power wires from panels, you should use overvoltage/surge protection against ground together with fuses before FV regulator.

According to metallurgy, science, math and physics they are lying! Placing a ground rod on your panels, that are as electrically isolated as your car windshield, means their product is dangerous and they are looking for YOU to be to blame for damage or lack of safety of their product for "not doing it exactly right" no matter how you follow their plan because once you involve ( as a insurer will tell you ) Mother Nature, the earth, then the company is immune to claims.

Probably that's just "noise" or EMI.

Yeah I never quite liked their response on that one. I know enough to be dangerous and to know what they said doesn't fully add up :p

A grounding rod at the panels, or from the panels back to the main ground off the main service panel? The later is correct. You should never have the panels grounded separately from the main service panel grounding rod(s).

@@ssoffshore5111 yeah I completely agree. I ended up grounding off of an outlet I had nearby that was connected to the main service and that took care of my problem.

Lots of confusion is created by sellers and installers of power items. They want to confuse so they get the $$$$ from the fear.

You can and should on a GFCI or shock protection circuit using a new and totally separate ground rod far from the existing ( 20 + feet) then add a 10 awg ground to any surge protector. There is no need to ground any DC voltage under 36 volts unless its to chassis ( RV-BOAT-AUTO) . You can add a ground to them using the system your using for AC voltage but you should use a large Schottky diode or non active circuit ground when doing so.

The only man on planet internet that speaks plainly. Thank you@@JOHNDANIEL1

🥰

Using a multi meter, with everything up and operating go and test from those ground lugs to the Positive & Negative on your DC system/Battery +/-. See if you get any circuit power, such as 10+ Volts DC in your results. If you do not, its only chassis grounding and you can using a 10 awg wire connect those items together and earth ground them for a simple static controlling ground. Static can gather in a chassis for a DC system ( touch the outside of your car body get a little ZAP when weather and atmospheric is right ) That only requires 3 feet of stripped copper coiled up in a 18" to 24" deep hole in the ground near your system.
As for safety on your solar frames or any roof mounted metals, go at least 50 feet and place a basic lightning rod 10+ feet higher than your solar is and you will cover those needs too.

Why would you get a shock from a isolated inverter unless you had its common running in the houses wiring, and the house has bonded common and ground. A inverter can not "receive" a lightning strike in any way unless your incorrectly using it. It is like saying your unplugged TV started to play 1960's sitcoms!

Same static that you would get from your car, a aluminum storm door or RV body is what can come from solar panels if installed right. Yes, 48 volt is getting into the deadly voltage, That is why I am 36 volt and less. Earth grounding it is not a solution to produced DC under 200 volts since it will not naturally equalize to the ground during a short, you or a item in line will become the path. Not the same as AC that is checking to ground 60 times a second. The best thing is simply isolating with covers and proper breakers and durable battery switches on your system. Also, not running to many panels in series so you keep input voltages lower to prevent a high ended differential. I use a max of 65 to 70 volts solar on any 48 volt build to prevent such leakage from a failed Mosfet or Diode that may put my system at risk. .

I would if you want to save $50 easy, go to Sun Gold right now, they are best thing going shrsl.com/42bmr
If you get 18 panels, you can run 6 at a time on 3 of the HQST 40 amp controllers ( amzn.to/41wEohx ) running them 2x2x2 like a 24 volt set up, 44 volt, that will make your outcome perfect for your 12 volt RV system on those controllers. I say to use the HAT metal for mounting them, but work with what you have. The best battery is a pair of the TIME USB 220 shrsl.com/42bna so when you can afford it you can add one more, or end up with 4 total which will make your plans complete. But 2 will run a 3200 watt SWI power inverter to run a good sized AC unit, you would need 3 or 4 of them to run a AC unit, Microwave, TV, Refrigerator and more on a pair of inverters or a 4000 watt Sun Gold. I Prefer the Sungold 4k for RV use.

What your referring to is Common / Neutral and ground Bonding. A process is to increase the speed and safety of the circuit breakers. By doing so you get the line ( hot ) less able to default the energy into a identical size conductor ( neutral/common). Just do what 3 teens in Dallas did, Walk up to a few dozen poles and chop the "non circuit" ground wire. See how many smart meters responded back to the utility with shut down request. Then it was over 200 of them. It is a part of the engineered design to promote the center taps balance and return. When we installed over 130 massive wind turbines in the Texas Panhandle, western Nebraska, and most of southern Idaho from 2005 to 2008 the swash control switch on the transformers readings came solely from the ground cables. Not the HVT or the TRC.
A simple test used in the past was to connect the hot line to a ground directly to check the amp draw before circuit interruption. If Ground was not or never a circuit, it would do nothing.

If lightning hits your panels there is nothing to stop it's effect on modern electronics. Nothing. The only solution is diversion like they use in massive arrays. Sacrificial sections or attraction mast are used. Grounding your panel frames only assist the lightning to find them. Does not stop the static energizing all of it.

It has something to do with insulating the whole object from ground potential. So it might work for Faraday cage type of installation like caravans. But even for those installation you should ground everything (e.g.regulator) to the common ground of the insulated object to avoid potential differences.
So the video is partly true, but the explanation is rather confusing.

There are people who will connect their solar panel frames to ground, some even their DC battery negative. They have all been lied to by sellers of materials related to the bad misinformed act.

yup, we're ok, thanks for thinking of us.

When you connect a inverter, to a existing ground of a building or house then your sharing that ground. If a electrical condition exist that relies on that ground you can end up with a damaged inverter. They place this option on inverters to pass a improper UL and NEC rating. It is ok to do this with generators with a AVR in them, not ever to be done with brushless generators for the same reason. I only run on a GFCI from the inverter, then only use 2 wire on all shared circuits. Many inverters are different, but almost all will not run safe, especially high frequency models, sharing a ground with existing wiring. The best outcome is NOT to share house wiring, install new dedicated unless your buying a pricy quasi grid tie style inverter but using them means a huge cut in ability when grid fails.

@@JOHNDANIEL1 Exactly!!! The only reason a UPS can do that; even though it's not really the same as having an inverter tied directly to the main breaker box, is because it has a lot of power conditioning circuitry and is specifically designed to act as a filter/conditioner for the grounded power going into it and to also automatically switch to backup battery power if the main power going into it is lost or over voltage or under voltage. I don't actually use inverters in my solar setups, I use all industrial grade high power with high power factor rack mounted APC UPS units that I have custom programmed for working as both UPS and standalone inverter systems.
Knurlgnar24 has a LOT of good information regarding modifying and reprogramming UPS backups to use as standalone and backup systems here on youtube.

@@JOHNDANIEL1 Thank you. Of course. Victron has me ground the inverter to a rod outside the shed it is in too. Then when ac shore goes out it internally connects the ground and neutral. … as the batteries, solar controller and batteries are all connected to feed the shed’s ac wiring… the built in transfer switch etc helps.

@@johnbrizendine7716 These replies sure helped me understand more clearly. They also have me connect the negative battery cable to the ground rod by the shed. I don’t have the panel frames connected to ground though they are currently (pun intended) close to it.

@@georgedrenes8143 what happened?

Yes I remember them! Some even used short lengths of chain!
Their purpose was to prevent static build up ...... resistance through tarmac is Not good ;o) ..... which is what allows you to build up the static in the first place!

*Roof needs grounded for safety* ( missing WHY you have power into your roof and panel frames!!!!!! )
Wanna stop that connection? Remove the inverter from the earth ground, you stop wild AC from being shared in a DC system that is connected to earth in the same location. Treat a inverter and solar controllers *As NOT BEING A UTILITY COMPANIES 3600 rpm generating earth circuit conducive power system,* and Voila! everything fixed!

If your wired wrong and your using the isolated aluminum frames as a conductor your already on the wrong path. However, if your up on a roof when rain is obvious your also starting the day bad. As for the rain and shock hazard the roof being metal far exceeds your conductivity of pure water ( rain water has no magnesium or saline in it to conduct much power under 500 volts ). **The scenario is like saying: *If I jump out a plane without a parachute but the ground is all marshmallows, and the wind is blowing 900 mph how hard will I hit the apple tree that's not there!* In other words, random rarity that if you die, it's a world record worth bragging about in the afterlife!

@@JOHNDANIEL1 Thanks John!

As explained in the video, this is for DC non commercial systems and home power use. Mine is 12 to 36 volt, many I have installed are 140 to 300 volt and require a arrestor and some structural grounding by code but not the panels frames. All must be fused, all are fused, but no DC circuit can share a ground with a AC system.
We installed NiCad in many Telecom systems, mostly Sprint, some T-mobile. No grounding on the 56 volt modules was ever done, just the battery case and shunts had a circuit breaker to ground. All the solar used on those were 90 volt and frameless with no ground on them but the cables were in metal conduit that was grounded.

@@JOHNDANIEL1 Section 690 applies to all PV arrays, it’s not limited to commercial ones. So even the metal frames of residential PV arrays must be grounded.

@@altuber99_athlete That only applies to commercially installed, not home owner installed to be used with Grid Connecting hardware. And not even in every state. There is zero regulations on owner installed that is not to be connected to the grid unless the county/city provides a code requirement. In Texas, that's only in 16 counties of the 254 counties we have. And for DC systems 36 volt and less, that is only applied to in 18 counties of the 254 counties. For 48 volt and higher its in 83 of the 254 counties. 2014 NEC Article 690 and all alterations does not include by mandate: Home Owner, Mobile, Non Domicile, Recreational, Farm, Non Occupied structures, and Remote Rural sites.
690 is procedures and guidelines ( if adopted by your state or municipality ) for Licensed Electricians or Service Techs to follow during install and service of such systems. Continually trying to read into it a Boogie Man to play games with is not realistic. enkonn-solar.com/wp-content/uploads/2023/08/Article-690-Photovoltaic-PV-System.pdf

@@altuber99_athlete Spend some time telling this guy your findings. He's teaching it, He needs straightened out ruclips.net/video/nKWf7XTg-wg/видео.html

Consider this basic reality. A solar panel is in no way different in electrical conductivity than a aluminum house window. Yes the cells in the glass make power however none is sent through the metal frames and no electrical characteristic exist until you do one unusual thing to the solar panel that you do not do to your aluminum house windows. The one thing that "enhances, conducts and creates" it's electrical property is when - YOU GROUND IT.
Science, if you still believe in it Post Covid 19, says one thing. When you add a earth ground to anything that is not electrically phased then you introduce a non-natural attraction to lightning and a atmospheric eddy current into that item.
To show you how that works. Get a 100 foot extension cord, using one wire in it ground well one end. Go to the other end and with a multimeter place the + probe into the ground and the neg probe onto the corresponding wire you grounded 100 feet away. Note the now existence of voltage. The earth is electric. And when you connect isolated aluminum panel frame to it, you end that neutral isolation and induce a pending static charge.

@@JOHNDANIEL1 Earth is not electric. Earth have stable electric potential which may get different against sky or clouds which gets "electric" by weather. The difference of potentials (voltage) is the drive for lightnings.

NO! Not if it ends up on same ground that the utility uses without putting in a inline circuit breaker safety. I have seen back feed destroy many inverters in RV's when they plug in and get chassis feedback. Use this, amzn.to/3ODDsDr for 30 amp, or this amzn.to/3DW7A87 for 50 amp then yes you can use the chassis ground, but I also install a 100 amp diode amzn.to/3DZmDOq to ground so NO back flow. When a AC unit kicks on, a high inductive load happens, and your on utility plug in, the common can get high loaded, it's spike can feed to ground, the chassis, and POOF your inverter or controllers eat it! Diode I use is so a fault in your system passes through, but a fault in something else does not. You take all solar, Inverter, Controller chassis with 10 awg wire to a buss bar, isolated, from it the Diode to frame.

Burned on the back through the EVA layer is defective cell buss tabbing.

Working on drafting drawings for installs makes you a engineer, repairing it in the field due to mother nature makes you a blue collar maintenance man.

@@JOHNDANIEL1 And taking the equipment back to your shop and fixing the engineering oversights/mistakes to make it actually work how it "theoretically should" make you a technician.

@@johnbrizendine7716 Yet the Edjumacated End-janeers get 500% more pay to guess at it.

​@@johnbrizendine7716 i think i fall into that category, lifelong

*also forgot to add this, safety equipment that protects against Arc Fault on DC current, which you know does NOT extinguish itself (Gain solar vids on this) Need a ground connection to the Negative DC solar connection. Then you use GFDI type breakers to detect if your solar array is arcing somewhere causing a fire. Grounding is important but yes, it is not quite the same as AC grounding.

Ionic static can and does affect solar panel frames, but that is only common on very remote stand alone systems. Around any home or location with infrastructure you never see this. The best way to deal with arrant chance is to install actual static grounding which is NOT involving actual ground rods, but surface ground plates. We do use those if the array is framed, just not rods. science.howstuffworks.com/nature/natural-disasters/lightning2.htm

That will make the Snowflakes SNAP!

Yep, wrong about that. The Solar panel is a device that only makes DC voltage. A Solar Controller is a device that takes that "wattage" and converts it to DC Charging to place the results into a storage battery system. From that storage battery you get again, DC voltage until you send that to a Inverter, which is a device that synthetically makes a alternating current/voltage to use on AC devices. Since a Inverter is not a power generation system ( utility ) it is making the conversion from DC to AC power with some form of buck boosting and switches to create a sine wave, usually Mosfets and transformers. That process only creates 2 fields. Some are both synthesized as both hot + Line 1, hot - line 2 and some from pure sinusoidal wave of ZERO on Hertz. NONE are using a ground to create the output. The controller circuit in a inverter is used as the safety system, it actually can not fail either, so it is safer than a actual "earth Ground" since it does not require numerous connections to function. It works as follows. *Billy grabbed the output of a inverter, he was SHOCKED to see it immediately shut off. He heard from the brilliant code talkers that it would kill him. Then Billy learned a Inverter is sensitive to "wave variation" and will fault so fast that it's considered the safest power system to use in Ambulances and Hospital equipment since only 1.5% wave variation will fault it to stop working verses up to 15% in a Utility Grid non GFCI systems with double bonded circuits.*
The Ground post on a inverter do not actually do anything but chassis grounding, however you do not have voltage in the chassis, TILL YOU GROUND IT!!!

@@JOHNDANIEL1 Grounding and null pole (blue conductor wire of AC wiring) are not the same! Old wiring schemes used only 2-wire AC which one was null conductor and null pole which was grounded, but only in the local end (house wiring after 3phase division). Modern AC wiring uses Power, Null and Earth protective wire (yellow/green) which are never connected except where it begins - in residual and overcurrent switch device (best solution for higher safety). Same as modern inverters use the 3-wire output which reacts to residual current and will shut down once live wire output is tampered (except the cheap ones). Residual protection works due to Earth/protective grounding!
I would say that the whole explanation is quite a misconception.
You are true in some points in the video but not here.

Connected as a DC circuit. Not grounded. Unless your planning on leaving your truck in one spot.

Thanks John 😊

No, but I probably should do one. It's smarter to divert a possible lightning strike instead of attempting to manage one and that should be goal 1 for everyone.

@@JOHNDANIEL1 Funny, I'm building a greenhouse with top rail right now. I'm picturing it with a ground rod attached from the peak. My aluminum sailboat mast with a pipe and my wind turbine are making me nervous now.

Grounding terminal on them don't usually connect in a bonded way so if you want to YES, will it do anything, very unlikely but it's a great confidence builder!

I explain that in the video, to use 3 cheap 21 foot Fence Top Rail to make a triangular mast, then it support 3/4 rebar another 6 or 7 feet further up to become the preferred path.

That's psychotic. I'd buy lots of lottery tickets if I was you. A one in a 5 billion happened to you already. Solar panels with no attraction to lightning gets hit when next to it the ones screaming *THROUGH ME THROUGH ME* we are the shortest route, gets ignored. LOL!

@@JOHNDANIEL1 I worked in the broadcast industry years ago and over my long career, I witnessed lightning strike the ground, some 8 feet from a 250' radio tower. Totally changed my belief system!
My wife caught the event with her phone camera!
ruclips.net/video/e1Tx9ABR4hE/видео.html

I didn't see the lightning hit the panels, looks like maybe behind them. Ungrounded would not make it attract the strike. Like I said, buy some lottery tickets! Adding a ground or being grounded attracts lightning to that easier more conductive source to get to the ground. I worked in the telecom industry for some years and the towers got hit a lot, the internal components and equipment was all floating as well as the building it was in to prevent lightning using it as a path. More likely something in the ground attracted that lightning, not those panels or you'd seen some immediate damage. I have seen lightning strike next to a water tower but that was the visible light, the strike went though the tower frying 4 large solenoid valves in it. The light energy made no marks on the ground but heavy scoring was on the intermediate cross members 30 feet up.

@@JOHNDANIEL1 It definitely hit the 3rd or 4th top panel and in the very next frame, you can see fire and sparks jumping from panel to panel along the entire left half of the array.
Lightning is attracted by a potential difference path. Usually a sharp edge is a good attractor. That's why on tops of radio towers we used to install dissipators that look like a metal tree like thing with lots of spikes.
The purpose of grounding panels is to provide a path to ground, not through your equipment to ground. All building electrical systems have a ground, so there's no way to float the electrical system. The best approach is to shunt it at the source.

Thank you!

$$$$. Nothing explains why you would have to ground the frames on a solar panel, but not a Aluminum Skylight! If you let the panel float electrically like you do the skylight you get no path to ground to attract lightning. In fact, Pella Windows tells its builders this exact fact.

Make sure the inverter or anything to do with it is touching the trailer frame or ground is being shared anywhere on the trailer first. If it is doing this to your phone it is due to something touching or connected that is giving some sine wave effect to your USB ports. By grounding it to the battery your shunting it and yes using some juice to do it. So its related to the inverter and how its wired to AC outlets or sitting on metal frames or similar actions. Phone touch screens react to open ground in the screen layers to your touch, if your inverter is sending it a few odd hertz of sine wave it can behave wild.

The real cure is remote higher targets like lightning rods. Or placing solar on metal roofs. Using metal roofs makes it where the lightning discharge is so expansive that it repels into atmospheric static. No single point collection or dispersion. In test of a AC unit on a roof of a building, the one on wood framing was destroyed by lightning, the one mounted on a full sheet metal roof had its relays damaged. Not allowing the 1 mm wide arc of lightning to concentrate all its energy into one square foot of discharge weakens its ability to do damage.

@@JOHNDANIEL1 I haven't yet set up a solar array but I've been thinking about this for a while when I do start building a system. What I've thought of was instead of mounting the solar panels on my roof I can just have them on the ground itself - this will make it easier to clean them when they get dusty & no ground is really needed since they are not in high elevation & the solar panels temps will also be a lot lower and make more energy.l

The steel mast is grounded via its methods of mounting in the ground and that grounds the metal body of the turbine due to the mechanical attachment on the pole, but not the turbine wiring.

@@JOHNDANIEL1 thanks a bunch!

@@JOHNDANIEL1 one other question,
Do tou put a phenolic gasket between the wind generater flange and the tower flange

See if a set of aluminum windows set up the same would give you voltage. Because a solar panel and a window are no different in electric conductivity to the aluminum frame.

Not confused one bit, but if grounding solar panel frames is important to you, do it. Grounding unpowered things that are on everything will need a few trillion tons of copper. Argument being equal, unless its to be cherry picked to eliminate inconvenient facts. See you at the aluminum skylight grounding party.

@@JOHNDANIEL1 iron is good enough for putting those electrostatic buildups to rest ;)
You reminded me tgat a local hardware shop used to sell copper plate, cables and rods for grounding and I found out after they sold it all and never stocked back again because it sat in shop gor years
Edit: and I was writing specifically about electric/electronic stuff not skylights but I'd ground that too.
Let me tell you about a personal experience I had a month ago. I lost $5 worth of equipment but that is not the point.
My pv system at my new home is currently under construction. Nothing fancy or big, just 1.2kw of pv on the roof.
The grounding and suppressors are still work in progress and I forgot to disconnect the array when I left for a while.
There was a storm, not much but with some lightning in the area. The house was disconnected from mains, the charger was disconnected from the battery but still plugged in the solar array.
One digital voltage/current monitor was fried. Nothing else but if the esd/surge
protection box would've been grounded (and populated with the appropriate IGDs :)) ) nothing would've happened.
Stay safe. The costs of grounding and protections are no match for the costs of property, health or life.

@ So far, and thats just due to medical center records deaths from any form of DC voltage is responsible for 108 deaths since 1980, nearly all are misuse of a welder. AC voltage is responsible for 331,800 deaths since 1978.
When a solar and controller event happens, 99% of the time it is that the controller was earth grounded, using the chassis post or shared a ground with the structures utility rated ground circuit. Any if not all ground rods produce a eddy current to above ground objects, and can in storms release a discharge voltage. They are for AC voltage, not DC. ep2000.com/understanding-neutral-ground-grounding-bonding/ and the facts about DC voltage can be easily summed up by the following www.history.com/news/what-was-the-war-of-the-currents
Your frames on your solar panel are like your frames on your windows, skylights, metal flashing on a shingled roof. In fact, the National Roofing Contractors Association recommends NOT to deliberately ground metal objects on your roof to deter corrosion and lightning opportunity.
Lightning arrestors, EMP devices and grounding non in circuit solar panel frames is snake oil and only increases your likely damage.

Have you grounded your inverter or connected its output to the house/structures wiring? If so, your common in the inverter and the eventual path made will lead to ground and you will get that kind of effect.

@@JOHNDANIEL1 the inverter is grounded and it's not connected to any house wiring. I did some investigating and found I was getting 140 volts from an inductive effect from unused wires packed in the conduit so I'm looking in to that. Still can't beleave I got a shock from a completely unconnected at both ends ground wire.

@@Ranch321 People for some reason ground their inverters to Earth ground that is on or near a system used for Utility power. Even being close to those systems can cause voltage leakage. The inverters output is wild AC, common is a created format, not a result or earthing like a utility has to do. So you have a active phase from the inverter getting into the ground or common, or even earthing, I prove this to so many people it's not even funny but they insist some genius says they have to do it. In reality, a inverter or generator is a stand alone power creation and has to be 100% treated as one. NO sharing of wiring without 100% dedicated transfer equipment in the link.

@@Ranch321 If you have 1 single volt with enough non atmospheric amperage to shock you on your solar panel frames, you caused it to exist, it simply can not exist due to the fact the frame is metal in any way. The aluminum frame is NOT in the circuit of your DC voltage, the earth or your inverter without you making a connection to it. It is 100% isolated, just like your car, fence, lawn mower is until you introduce a circuit into it from a source.

@@JOHNDANIEL1 so after grounding the unused wires in the conduit the voltage seems to have all but disappeared so I think it was feed back from an inductive load generated by the proximity of the unconnected wires in the conduit. Also the grounding rods im using are 600 + feet from the utility grounding.

Yes, but we have had to make a order for 2 AWG cable to wire them up safe and proper and the supplier ( ACDC Delco) after 3+ weeks of trying cancelled the order as out of stock, then the next supplier WINDY NATION we ordered from said 5 days, and latest email monday said it is on back order but arriving in week.
So I may have to pull cable from another source to show how nice these batteries are as a perfect set for all RV made to be used. Many have bought them from my forum link and are very happy with them and I am tired of waiting on the right wire to use on them to make a video showing why they are great. However, people must use the right wire for these to get them to result in optimum performance and safety, a real quandary of issues to deal with material shortages. I will also viewers to buy their cables at a walmart store, easier I just learned to get pre-made cables. I only wished the battery companies would sell cables for their batteries from their websites LOL! The LiTime battery is a Ampertime product, You get them here shrsl.com/42bde it is superior in every way from the ones on Aliexpress and Ebay. They have real efforts in design.
If you buy these batteries you will be very happy with them, Pouch Cell design, Very robust power. But if you do not use 2 Awg Gauge or at the least 3 Awg Essex Welding Cable on them you can as any battery damage them and you will not be able to get warranty for foolish wiring mistakes.

Wise. And that way you do not open a path that did not exist.

So you rather have a path of higher resistance going into your house?
There's no way to prevent lightning strikes, but there surely are ways to prevent them entering your house!

You connect your panels to a ground cable. It's OK, I hope anyone who buys the lie to ground them does so. 70% of solar installs are grounded, however I repair arrays all the time with grounded panels due to electrolysis and stray voltage, I never get calls for ungrounded. For us, we choose not to give Lightning a shorter happy attracting path direct to our panels/cables/controllers/inverters that a ground wire creates when the easiest most approved Department of Forestry, Marine, Military, & World method is a basic Lightning Diversion collector.

You got a lot of work ahead of you on Iron then going out warning all the Cell Phone companies who use it, the AM radio stations since the 1920's who use it, and the hydro electric dams that base their system on it. In fact, a few hundred million use it in their homes as ground rods. It's 1.2 mil thick copper plated high iron steal rods you buy at Home Depot.
Iron in the ground will turn to a number of minerals over time, about 8,000 years it's man altered refined state can be a large amount of carbon. I really don't expect to be in that era discussing it though.

Correct. There's many people who choose to talk and actually not say anything. Thank you for joining them.

Yes, but your likely picking up Alien signals now.

Great discourse! Why build an Electro Magnetic Pulse magnet to blow up your own stuff! Your spark gap solution is brilliant!

I install on METAL buildings or metal roofs, I argue with lots of people telling them to use metal roofing as a install base. Now the why: You are 27X more likely to get a antenna on a chimney struck by lightning than a metal barn roof. Wonder why? Mass Squared. Lightning is 1mm in width, looks huge, thats the light. But it is seeking ground resource to build from. A large metal roof takes that charge and equalizes over volume of area. But a single antenna on a chimney gives it concentration to arc up. So, mounting on metal makes your panels less of a pinpoint target. I build ( making video later ) a array that uses metal roofing panels, that is why I got so much laying around here. Using lamination cross link methods. Very strong, very lightning resistant.

@@hellandbackhoe Electrical current runs perpendicular to electro magnetic fields, so if an electromagnetic field passes over electrical conductors, it generates some current and can cause voltage spikes and unwanted interference, so by putting a choke on all connecting wiring, it will literally absorb that extra current/interference (see faraday's law). Not sure what you mean by building an electro magnetic pulse magnet, though. The spark gap concept was widely used from the 20's through the 50's for protecting sensitive electronic equipment and preventing lightning and static discharge damage.

@@JOHNDANIEL1 Have you heard of Nikola Tesla's lightning rod/lightning repeller, it follows pretty much the same concept that you use for mounting solar panels on metal structures.

Yes, as previous comments I am a deep follower of Land, Tesla, Faraday and even Augustus Lemont of Westinghouse. These guys understand energy, they understand most important environmental issues.