cell PIV rating

SUNUP · March 2013

Hi
What is the PIV rating of each cell in a solar panel?

Thanks Charlie.

mike95490 · March 2013

Re: cell PIV rating

Since that is not a spec'd item, we should assume it's only a couple of volts. PV cells are not "diodes" although they sometimes seem to act that way.

BB. · March 2013

Re: cell PIV rating

I believe the typical "safe" PIV (peak inverse voltage) would be ~12 volts (probably around 17-22 volts Voc). That is the normal maximum range of series cells (~36 cells in series) is bypassed with diodes (to protect cells that are shaded from being damaged in a panel/array).

http://www.windsun.com/General/tech_tips.htm

-Bill

SUNUP · March 2013

Re: cell PIV rating

Hi, thanks for the reply. I am not referring to the bypass diode or the blocking diode. I was asking about the cells that make up the solar panel. I understand they are not diodes, but they are a PN junction so at some reverse voltage they will break down and conduct. I suppose it might not be an issue.

niel · March 2013

Re: cell PIV rating

SUNUP wrote: »

Hi, thanks for the reply. I am not referring to the bypass diode or the blocking diode. I was asking about the cells that make up the solar panel. I understand they are not diodes, but they are a PN junction so at some reverse voltage they will break down and conduct. I suppose it might not be an issue.

you are correct that they are pn junctions and there is a similarity to diodes as they originated from diodes that were discovered to emit a small voltage under bright light. that is an interesting question that i don't have the answer for. and as all diodes would differ slightly then i would imagine that point of breakdown would vary considerably and that it would be so for pv cells as well. even identically manufactured diodes have some variance in the exact breakdown points.

i am curious as to why you would need this info? just what is it that comes to your mind that this becomes an important factor?

BB. · March 2013

Re: cell PIV rating

Found a chart of reverse voltage for a generic solar cell:

http://www.mpi-halle.de/mpi/publi/pdf/8454_09.pdf

Around 13 volts is the "hard" breakdown voltage range.

-Bill

mike95490 · March 2013

Re: cell PIV rating

SUNUP wrote: »

Hi, thanks for the reply. I am not referring to the bypass diode or the blocking diode. I was asking about the cells that make up the solar panel. I understand they are not diodes, but they are a PN junction so at some reverse voltage they will break down and conduct. I suppose it might not be an issue.

I've heard that if you connect a PV backwards to a 12V battery, it blows the PV, (fries all the diodes).

BB. · March 2013

Re: cell PIV rating

Yes, a solar panel connected backwards to a battery bank will be fried.

-Bill

SUNUP · March 2013

Re: cell PIV rating

Hi,Thanks again for all the replies.

niel wrote: »

i am curious as to why you would need this info? just what is it that comes to your mind that this becomes an important factor?

We were talking about solar panels with a group of Amateur Radio Operators and the question came up, as far as needing the info probably not.

Thanks for the Link.

This is a great Forum for Info, I spend a lot of time here reading and learning.

Charlie.

BB. · March 2013

Re: cell PIV rating

Just trying to be helpful.... Many times we get questions that are based on "different" uses of equipment/materials. Some of which are not very safe.

For example, a 100+ DIY solar panel built with plastic and wood and mounted on a home/over brush. There is a very significant fire hazard and (for the most part) the panels will not last more than a few months in full sunlight before they fail (and the failures can become ignition points for fire).

Also, many people build DIY solar panels from cells purchased on EBay--Many times, those cells are rejected from by panel vendors because of mfg. defects. One of which can include "current defects" where cells can overheat (again fire hazard) as in that last link I put up about breakdown voltage.

The obvious "fix" for protecting a string of solar cells from reverse voltage is a blocking diode (or bypass diode for series strings)--But that was not what you were looking for--So "we" were just wondering what the application was. There are many "secondary" issues which can be hazardous--And we try to be very careful here that we don't lead people down a road where they can get hurt because of lack of knowledge on either party's side.

-Bill

SUNUP · March 2013

Re: cell PIV rating

Hi
Thanks bill I understand your concern about giving out information that could cause injury or worse. I do go down the wrong road sometimes. I am a retired Industrial Electrician and have been known to use a few things as they were not made for to get a job done. We learn along the way by making a few mistakes. I read a lot of forums and know the advice that is given by some can be very dangerous to some Individuals to say the least. Not all are as concerned about safety as you are. It would appear there is not an issue with peak inverse voltage within the panel, only outside the panel between the solar panel and the load. And using bypass diodes to bypass current around a low producing panel.

inetdog · March 2013

Re: cell PIV rating

SUNUP wrote: »

And using bypass diodes to bypass current around a low producing panel.

Commercial panels will typically have three or more bypass diodes connected internally, basically so that each section with a voltage higher than ~18 volts will have its own bypass diode. That will allow some power output from the panel in a series string if it is only partially shaded. DIY panels should follow the same plan. If you have only one bypass diode, shading just one cell will cost you the full output of the panel.
That takes care of the forward breakdown voltage, and a blocking diode or fuses will take care of reverse breakdown voltage (or maybe I have the two reversed. It is not really clear with a photodiode. :-))

niel · March 2013

Re: cell PIV rating

" It would appear there is not an issue with peak inverse voltage within the panel, only outside the panel between the solar panel and the load. And using bypass diodes to bypass current around a low producing panel."

in the cases of higher voltages being pressed against that of a pv's voltage then a blocking diode comes into play there. this, as you know, would prevent power flow into the pv from external sources providing it is of the same polarity. be aware there is no protection by either diodes or fuses that stop things if you were to reverse the leads of 2 or more power sources with pv being at least one of them. sounds confusing, but it's simple. take two pvs with + to + and - to - in parallel through a fuse rated for the current of both pvs. all is well. put + to - and the pvs don't get damaged and no fuse blows because it is roughly the imp of 1 of the pvs that will flow as the 2 pvs are now a closed circuit unto themselves. put a battery into the mix as we normally do and the paralleled arrangement just allows the full benefit of both pvs charging the battery. with the pv leads reversed to each other going to the battery you will have the current of both the battery and 1 pv going to the pv that was placed in reverse. this could be blocked by the blocking diode from entering the reversed pv, but without that a fuse would pop from the high current being fed by the battery. if there's only pvs but 3 pvs without a battery the current can get high enough to damage the single pv that was reversed and still not blow a fuse unless a blocking diode is present.

i can keep going on with the differing scenarios, but i think you get a bit of this picture. with 3 or more power sources paralleled with at least one of them as pv then fusing is a must for each pv or string of pvs. there was an incident long ago where an early member accidentally reversed the connections on one of his pvs (pre mc connection days) in a 3 pv array and it popped the one pv as it was being loaded with the power of the other 2 pvs. he had not fused each pv's output and there weren't any blocking diodes involved either. today's polarized pv connections do limit this reverse possibility and blocking diodes are rarely needed especially being most all controllers block any back flow of power from the battery to the pv.

out of curiosity, was this on a net or particular band/freq that you guys get into these conversations as many of us are hams? if you don't want it publicaly known then you could withhold that info and you can optionally pm that info to me if you wish to answer me.
73s n3ghx

RCinFLA · March 2013

Re: cell PIV rating

If the 'PIV' is referring to Peak Inverse Voltage rating then it could have two meanings. One of the cell itself, other for bypass diodes.

Most panel manf. rate maximum system DC voltage (not PIV for a panel) which is the maximum overall voltage allowed for series stacking of panels, typically important to GT inverter setups. The typical number is 600 vdc. This is set by 'PIV' rating on bypass diodes.

boB · March 2013

Re: cell PIV rating

You will most likely never see or run into the PIV rating of module bypass diodes because the forward voltage (Voc) of the module will be
hit way before that happens. They are kind of like 2 paralleled back to back diodes.

cell PIV rating

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