How best to find the "best" small solar panel of a particular size?
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Also, you don't technically even need a supercap. I find that I can power-up an atmega328p and send two packets from an RFM69W using a mere 100uF capacitor charged to 3 volts. With most solar panels, such a capacitor will charge up almost instantly. I think with some adjustments to my setup I can do the same using an even smaller capacitor if I wanted to.
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I want to make a small weather station so I want to be sure to have enough juice for the night as I increase the number of sensors. I found some cheap 2.7v 100F that cost as much as a 5V 4F, so I think I can have enough stored energy for a while.
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That should be plenty. I have a node that wakes up every 100ms and listens for 1ms each time to see if another node is trying to contact it. It also updates the gateway with its cap voltage level every 5 minutes. So, on average it's probably busier than your weather station. It can do all that for 24 hours on less than 5F charged to 2.7v. So, with 100F, you should have plenty of margin.
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Are you still using your solar Harvester to control the supercap charge? I am going to use a 5v panel so I'll have to use 2 supercaps in series and a diode.
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You mean the BQ25504? I dropped that quite a while ago. It was rather expensive in the first place, but it was also miserably hard to solder.
One of the simplest circuits is just LDO plus diode plus one 2.7v supercap.
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What LDO did you use?
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This post is deleted!
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@gohan said in How best to find the "best" small solar panel of a particular size?:
What LDO did you use?
MAX8887EZK27
However, if you're going to be ordering new parts, I suggest you wait a bit. I'll be posting a better circuit after I receive and test the pcb.
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I was just curious, since I already ordered the boost-buck converters. I only need to close the order for the supercaps and diodes
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The best deal I've seen is 10F supercaps on Digikey for $2 each, which would be good enough for most applications.
The good news is that the pricing on supercaps is favorably non-linear. By that I mean you can, for example, purchase a good 400F supercap from Digikey for around $12, not $80.
Which buck-boost converters did you buy?
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I was checking my orders and I forgot to order it...
Anyway, this was what I was looking at: it was the only one I found with a low input voltage. That actually is the 5V version, but there was another one that had 3.3v output that I can't find it right now
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@gohan said in How best to find the "best" small solar panel of a particular size?:
I was checking my orders and I forgot to order it...
Anyway, this was what I was looking at: it was the only one I found with a low input voltage. That actually is the 5V version, but there was another one that had 3.3v output that I can't find it right nowWell, the chart in the description foretells of a problem you're likely to encounter: to get 50ma of 5v output, you need to provide it with 260ma current at 1.2v. I don't know your setup, but I'm guessing your solar panel won't be delivering that. Will it scale to the available current, or just fail entirely? Who knows, because there is no datasheet. Of course, at 3.3v, it won't require as much current, but still.... you might want to look into that.
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of course, but I am counting for the supercap to supply the power and the solar panel to charge it during the day. With 2 100F supercaps voltage should never reach that low level within one night. I found the 3.3V version. The values in the table are just for reference, so you need to scale it down to the power required for an arduino pro mini and few sensors.
I could also very well be that I may only need a voltage regulator to 3.3V because the voltage from the 2 caps would never drop below that.
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@gohan
Because there are so many different solutions that work, it's a fun problem to compare notes on.
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@gohan said in How best to find the "best" small solar panel of a particular size?:
of course, but I am counting for the supercap to supply the power and the solar panel to charge it during the day. With 2 100F supercaps voltage should never reach that low level within one night. I found the 3.3V version. The values in the table are just for reference, so you need to scale it down to the power required for an arduino pro mini and few sensors.
I could also very well be that I may only need a voltage regulator to 3.3V because the voltage from the 2 caps would never drop below that.Well, given your approach, you may want to try this: https://www.openhardware.io/view/279/Adjustable-Boost-Converter#tabs-instructions
Seems better than anything I see on AliExpress.
Or this, which has a very low start-up voltage of just 250mv:
https://www.openhardware.io/view/281/Solar-Energy-Harvester
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Also, do you have any particular reason you want to boost to 3.3v? If not, then if using an RFM69W, it would be more efficient to boost to a lower voltage, like maybe 2v.
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Not really, it's just the standard voltage for Arduino, radio modules and sensors. I did look at that project, but smd is still unknown to me.
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Here's a link to a basic LDO 2.7v supercap solar charger:
https://www.openhardware.io/view/382/Basic-27v-Supercap-Solar-Charger
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@gohan
I found a module from the same seller, but it can convert from 0.7v:
https://www.aliexpress.com/store/product/0-7-5V-to-3V-3-3V-5V-DC-DC-Boost-Converter-voltage-Step-up-Module/2348129_32800430445.html?spm=2114.12010615.0.0.SYUdHL
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Also, Pololu sells a pre-made one that can take an input voltage of 0.5v and has an adjustable output voltage: https://www.pololu.com/product/2560
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The one from aliexpress is only step up, the other it's interesting but I don't need the variable output voltage since pretty much everything runs at 3.3v.
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@gohan
Good luck with it then. Let us know how it works out for you.
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@NeverDie Wow, that digikey solar cell is tiny at 7mm x 22mm! I'd love to see one of these worked into the plant monitor, as really that only needs to transmit a few times during the day at most and would be fantastic without need of batteries.
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@tomtastic said in How best to find the "best" small solar panel of a particular size?:
@NeverDie Wow, that digikey solar cell is tiny at 7mm x 22mm! I'd love to see one of these worked into the plant monitor, as really that only needs to transmit a few times during the day at most and would be fantastic without need of batteries.
Yes. And since plants need light....
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@gohan I think you may run into a problem with your step-up design. From a cold-start with dim light, very likely the step-up will drain current from your buffer capacitor faster than it's being added, and it will just spin its wheels and produce no usable output. Please do let me know if that's NOT what happens or if you have a design which avoids that happening.
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I thought about that too, that's why I choose to use big capacitors, so that voltage would never go that low.
In that case I think there should be some components that are able to wait a minimum 1volt or such before allowing current to pass through
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@mfalkvidd said in How best to find the "best" small solar panel of a particular size?:
@NeverDie did you get anywhere with this? I'm building a low-power solar node and would like to know as well
The truth is worse than I imagined. For instance, I purchased four of these panels:
https://www.aliexpress.com/item/6V-0-6W-Solar-Power-Panel-Poly-DIY-Small-Cell-Charger-For-Light-Battery-Phone-Toy/32573510541.html?spm=2114.13010608.0.0.QVU7RI
and measured the open circuit voltage of each under the same deliberately dim ambient room light. Each had a different open circuit voltage: 3.2v, 2.7v, 2.5v, and 2.2v. That's quite a spread in performance! I'm not sure what accounts for the difference, but you can't really guess just by looking at them which would be better or worse. So, really, there's no way to predict from the advertising alone what you're going to get.
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what did you expect from the quality checks in China?
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@gohan said in How best to find the "best" small solar panel of a particular size?:
what did you expect from the quality checks in China?
Well, to be honest, what I expected was that they would all be roughly the same, but probably far short of what was claimed.
Where are your solar cells made? China, right? How are you dealing with the variation in what you get? I could buy solar cells from Digikey that are much more uniform, but they'd probably cost 6-10x as much. So, should I just buy more than I need from China and bin them myself? Or should I change the design to assume the worst of the possible range? Or buy from a seller with a better reputation? I think I'll try the later first.
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Interestingly, in direct sunlight they all measure at an open circuit voltage of 7v +- 0.1v. So, go figure as to why the range is so much wider under dim conditions.
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@NeverDie couldn't the variations be due to small changes in lighting when you tested?
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@mfalkvidd I doubt it. I measured it more than once, and it was repeatable.
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Anyhow, I'm going to string a number of these cheap panels in series and see if I can power a mote off of mere moonlight. I think it will probably work, which would be pretty cool.
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@NeverDie Interesting. Let us know what result you get.
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@mfalkvidd
Will do. Have you found a good source for mini/micro solar panels? Not being confident about what I would actually get, to date my purchases have been somewhat random.I think the Solar Bit would probably be excellent for moonlight powered motes, if only because their combined size would still be small enough so as not to be awkward. Of course, being powered by moonbeams is an artificial objective. What it would really mean is that your mote could probably be powered just about anywhere that's not completely sealed off from light. Any indoor living space that's not a closet would probably get enough light.
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@NeverDie I bought my first two over a year ago. Have not used them yet. So no, nothing useful unfortunately.
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@mfalkvidd
It's a pity this topic hasn't attracted more interest. I guess people are happy with their batteries.
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There seems to be a sweet spot at 6V 1W when it comes to price/performance, at least specified performance. Smaller panels are relatively expensive, and so are larger. I have ordered four of these but they haven't arrived yet.
I have been looking for flexible panels, something that could be folded or rolled up, but haven't found anything with a decent price so far.
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I think that's because that's where the market demand is. It's hard to find smaller panels generally. I have these on order, but neither has yet arrived:
https://www.aliexpress.com/snapshot/0.html?orderId=83597824322273&productId=32253274314
https://www.aliexpress.com/snapshot/0.html?orderId=83519564882273&productId=32644217312
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The problem of adding up panels is that your node would get quite big. The other day I was listening to a podcast and they were talking about a new sensor device with a special paint on the case that acts as a solar panel that charges the internal battery/supercap that needs to be much smaller than usual battery powered sensors
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@gohan said in How best to find the "best" small solar panel of a particular size?:
The problem of adding up panels is that your node would get quite big. The other day I was listening to a podcast and they were talking about a new sensor device with a special paint on the case that acts as a solar panel that charges the internal battery/supercap that needs to be much smaller than usual battery powered sensors
Yes, that's why I mentioned that Solar Bits (which are just 7mm x 22mm in size but deliver 4.7v) might be a good fit for multiple panels in series. The sum of their areas wouldn't be large. But they come at a price... https://www.digikey.com/product-detail/en/ixys/KXOB22-01X8F/KXOB22-01X8F-ND/4840081
Do you have a link to the podcast? Never before heard of a paint that produces solar power. Is it something I can buy?
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@mfalkvidd said in How best to find the "best" small solar panel of a particular size?:
@NeverDie Interesting. Let us know what result you get.
I just now tried four 6v panels powered in series by moonlight just to see what would happen, and it produced only 0.06v.
So, scratch that idea.
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@NeverDie ths is slightly off topic, but can you recommend any rectifier with low drop voltage to use to prevent the solar panel from discharging the supercap/battery? I'm not comfortable with SMD, so I need to find something that's big enough to hand solder, has low drop and doesn't cost too much.
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@NeverDie I have to look at it but it's in Italian and the paint it wasn't just simple paint, but different layers of semiconductor materials printed on the case, so something quite difficult to do at home.
@mfalkvidd I usually seen schottky diodes on the solar panel for that purpose.
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Not sure about through-hole blocking diodes. I'm using 1PS79SB30, which is SMD, but reverse current leakage is just 10na. Practically all the new good stuff is SMD, so you're severely impaired if you don't make the jump to SMD. SMD is nothing to be afraid of. Presently I'm hand soldering everything, including all SMD parts.
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@NeverDie thanks. How do you handle lead times för pcb manifacturing? Or is it possible to buy prototype pcb cards? I'm worried project lead times will 10x if I need to wait for pcb milling for each iteration.
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@mfalkvidd said in How best to find the "best" small solar panel of a particular size?:
@NeverDie thanks. How do you handle lead times för pcb manifacturing? Or is it possible to buy prototype pcb cards? I'm worried project lead times will 10x if I need to wait for pcb milling for each iteration.
I'm not sure how others handle it, but what I do is solder each individual SMD part onto pre-made breakout board for SMD parts. Here's an example of one I use frequently: https://www.aliexpress.com/item/100pcs-SOT23-SOP10-MSOP10-Umax-SOP23-to-DIP10-Pinboard-SMD-To-DIP-Adapter-Plate-0-5mm/32769473900.html?spm=2114.13010608.0.0.exgj0t
Then I attach header pins to it and complementary header pins onto a general purpose protoboard, such as: https://www.aliexpress.com/item/10pcs-3X7cm-3-7cm-Double-Side-Prototype-pcb-Breadboard-Universal-for-Arduino-1-6mm2-54mm-Practice/32655345057.html?spm=2114.13010608.0.0.exgj0t
Then I literally plug the SMD part into the protoboard. I then solder wired connections among the various parts. Sometimes I'll use breadboards, but I prefer this method because the wiring on breadboards can get rather loose, which becomes a headache, whereas doing soldered wire connections on protoboard, the connections are great quality and "made" forever until you decide to change them. I do it this way first rather than going straight to PCB because of the long PCB fab time (on average around 2 weeks for me from OSH PARK). Once I verify the design is correct using the protoboard, then I'll translate it to PCB as the final step. Also, while I'm waiting for the PCB to arrive, I have a solid working prototype, so I can continue working on whatever is next and the turnaround time for PCB fabrication isn't quite so painful.Does that answer your question?
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@NeverDie it answers my question completely. Great stuff. Thanks a lot!
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Back to the OP. I finally received these smaller solar panels:
https://www.aliexpress.com/item/10Pcs-Lot-5V-30mA-53X30mm-Micro-Mini-Small-Power-Solar-Cells-Panel-For-DIY-Toy-3/32811111041.html?spm=2114.01010208.3.10.2aPJ36&ws_ab_test=searchweb0_0,searchweb201602_5_10152_10065_10151_10130_10068_5160013_436_10136_10157_10137_10060_10138_10155_10062_10156_10154_10056_10055_10054_10059_100032_100033_100031_10099_10103_10102_10096_10147_10052_10053_10050_10107_10142_10051_5150015_10084_10083_10119_10080_10082_10081_10178_10110_10111_10112_10113_10114_10037_10181_10183_10182_10185_10033_10032_10078_10079_10077_10073_10123_10120-10033_10077,searchweb201603_4,ppcSwitch_4&btsid=98b799be-2ff3-401c-aaeb-fa49f82cdc7c&algo_expid=a78e15b1-b89c-40bf-849b-b9f99d840f0d-1&algo_pvid=a78e15b1-b89c-40bf-849b-b9f99d840f0d
However, they're disappointing. They do produce 5v if put into direct sunlight. However, indoors, they produce maybe 1/3 the open-circuit volts of a larger mini panel. Instead, I had expected it would produce the same open circuit voltage, but simply able to produce less current.So, I think what may be going on is that these panels may have some kind of internal leakage. In direct sunlight, that leakage is relatively small. However, in the less good mini solar panels, that internal leakage starts to dominate as lighting conditions get dimmer.
I've tested even smaller mini solar panels from Digikey, and they do manage to produce much more voltage under dimmer lighting than these cheap ones from China, which I'm now doubting will be of much use to me.
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70 cents a panel... doesn't get more Chinese that this
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@NeverDie too bad. Thanks for sharing your findings.
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I suppose if you were to boost them, then for some inside applications, like a potted plant moisture meter, they would be adequate because for that you don't actually need updates all that often. So, they may not be a complete loss, but they aren't as good as even smaller panels that you can buy on digikey for more money. For instance, in my testing, this micro panel performs much better indoors than the cheap Chinese ones, and it's smaller too: https://www.digikey.com/product-detail/en/panasonic-bsg/AM-5610CAR/869-1009-ND/2165194
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I just completed a battery-free outdoor node reporting temp/humid based on the information in this thread. Works great, thanks to @NeverDie for his insights. Node is a sensebender micro, RFM69W, 10F supercapacitor, and 5V solar panel. Reporting every 4 minutes it sends temp, humid, supercap %, & solar V. Uses the simple tiny solar charger schematic from @NeverDie shown above.
Results: The supercapacitor cost $2 at Digikey, is about 2/3 the size of a AAA battery, and lasts 40 hours without the solar panel connected. The 40 hours is when the supercapacitor reaches 1.9v as the low end for operating the node. Easily gets through the longer dark winter nights.
The solar panel is from China, Ebay, 110mmx70mm, 5V, 1.25W. The panel works great also. It reaches 4V in the smallest amount of light, and 5.45V (no load) in modest indirect light. In fact, it will fully recharge the supercapacitor in the morning before the sun even rises above the horizon, just from the sky brightening. (From the ~20% overnight discharged state.) It seems to charge a fully empty supercap in ~10 minutes under average light.
Bottom line: no longer walking through 1ft of snow in 10 degrees (F) to get the node, bring it inside, remove water seals, and change the batteries. This is the solution I was looking for.
Also have a 2nd outside node in testing using the Ceech solar board (A great PCB also!), a 18650 battery and the same solar panel. So far the battery has gone 2 months and is at 3.85V without the panel connected. In testing, the solar panel has no problem charging the battery. In fact so much, I am going to add a FET to disconnect the solar panel periodically to allow the battery to cycle some.
This site is excellent, such great talent, thank you all!
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Cool! That's great info. Thanks for sharing your findings.
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@novicit Could you share schematic and software of your node?
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@novicit if you could make the battery work between 20% and 80% it will help the battery life.
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@novas said in How best to find the "best" small solar panel of a particular size?:
@novicit Could you share schematic and software of your node?
also links to the hardware would be appreciated
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@novicit said in How best to find the "best" small solar panel of a particular size?:
Also have a 2nd outside node in testing using the Ceech solar board (A great PCB also!), a 18650 battery and the same solar panel. So far the battery has gone 2 months and is at 3.85V without the panel connected. In testing, the solar panel has no problem charging the battery. In fact so much, I am going to add a FET to disconnect the solar panel periodically to allow the battery to cycle some.
I'm not aware of any advantages to cycling a LiPo battery. As mentioned by Gohan, though, charging to just 80% does seem to extend lifespan.
Better yet, use a LiFeP04 battery. They're safer, and you don't need to down convert their voltage because their max charge is 3.6v.
I prefer supercaps mainly because they should last practically forever.
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@NeverDie Did you look at @ceech solar harvesting boards?
My experience with solar panels is this. There are so many of them with the claiming same spec,. but behaving differently in real life. I think the same reason is quality. I have a weather station using ceech's board with temp/hum/baro/lightning/light sensors and nrf24l01+, 5V 1.2W solar panel and 3.7v 400mA LiPO. This has been running for some time. I was actually surprised that the battery is being charged even on a dark winter day. Some harvesting even is possible without the sun.Now I have been looking at replacing LiPO with a solar harvesting board and a few supercaps. Do you think 10F would be enough? Or shall I go for something higher like 20F or 50F?
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@NeverDie were they all at the same angle to the light source? If you laid them out on a table and shone a lamp, theynwill be at different angles and have different results.
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@wallyllama I would say that in the similar circumstances different solar panels do behave differently due to quality solar cells, i.e. manufacturing quality as well as efficiency.
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@NeverDie said in How best to find the "best" small solar panel of a particular size?:
@novicit said in How best to find the "best" small solar panel of a particular size?:
Also have a 2nd outside node in testing using the Ceech solar board (A great PCB also!), a 18650 battery and the same solar panel. So far the battery has gone 2 months and is at 3.85V without the panel connected. In testing, the solar panel has no problem charging the battery. In fact so much, I am going to add a FET to disconnect the solar panel periodically to allow the battery to cycle some.
Thanks for the pointer to Ceech. I hadn't been aware of him, but I see that his Ebay store has a lot of interesting boards, including this one:
http://www.ebay.com/itm/Solar-Energy-Harvesting-power-supply-w-LTC3108-and-super-capacitor-storage-/331974364829?hash=item4d4b36ce9d:g:tXwAAOSwmLlX4Osy
which I may order just for fun.Impossible for me to really answer your question, as it all depends on what your current drains are. A 10F supercap isn't really much compared to a 400mah Lipo.
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@NeverDie OK, I have a low powered board based on ceech 328p (pro mini footprint) board with a few sensors and nrf24l01+. LiPO 400mA is an overkill - the battery almost never goes below 4V. I just have a spare one from my RPi3 UPS (UPS Plco).
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This is proposed by Sparkfun - very simple diagram
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That's a simple circuit, but it lacks the balancing of the supercaps or at least the individual overvoltage protection
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@gohan you can go for one large cap. I think the idea here is to keep it very simple
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The idea is to put them in series to increase voltage
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It's a buck converter. Here's the datasheet for the chip that's on it: http://cds.linear.com/docs/en/datasheet/35881fc.pdf
So, it's for the case of having a solar panel that produces more volts than the target device can handle. It's a larger solar panel than the ones we've been discussing.
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Even with a 5V panel you still need 2 supercaps in series or get the 5v supercaps but they have less capacitance. I have ordered those 5v 4F too so I'll have to see how they behave
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@gohan can you ask what is it you are trying to use supercapacitors for? Which board? What's your sleep / TX consumption?
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@gohan said in How best to find the "best" small solar panel of a particular size?:
Even with a 5V panel you still need 2 supercaps in series or get the 5v supercaps but they have less capacitance. I have ordered those 5v 4F too so I'll have to see how they behave
It depends on how you want to handle the charge termination. If all you want to do is use a blocking diode, as in the sparkfun schematic, then yes. However, remember that if you put two capacitors in series, they have half the capacitance. Furthermore, if you do charge them to 5v, you'll have to step down that voltage one way or another, or else you'll fry the radio on your node. That's why I've gone the direction of using a larger supercap, but terminating the charge when it gets near its rated limit. Yes, you can buy supercaps that are rated up to 5.5v, but they're relatively expensive compared to the 2.7v rated ones.
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it is all a matter of what components you want to use: if you go 5v you can still use a LDO to power your devices, otherwise you need a boost converter at least for arduino. As soon as I receive those buck-boost converters I'll put them to the test, but so far they are in an unknown place (tracking shows they left china a month ago and still missing any further info)
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@gohan said in How best to find the "best" small solar panel of a particular size?:
it is all a matter of what components you want to use: if you go 5v you can still use a LDO to power your devices, otherwise you need a boost converter at least for arduino. As soon as I receive those buck-boost converters I'll put them to the test, but so far they are in an unknown place (tracking shows they left china a month ago and still missing any further info)
Well, yes and no. I think the challenging case is how to make it as small as possible but still low cost and fairly simple.
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Personally, with exception of a few cases, I dropped 5V boards in favour of 3.3V ones. All transmitters - nrf24l01+ or rfm69 or rfm95 or eap8266 / esp32 are using 3.3V and can be fed by 2.7V
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I think nobody is talking about using 5v boards
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I think I'm trending toward including a 3.3v boost converter with a "pass-through". So, either:
https://www.openhardware.io/view/285/33v-Boost-Converter-with-Pass-Through
or
https://www.openhardware.io/view/279/Adjustable-Boost-Converter-with-Pass-Through
or possibly:
https://www.digikey.com/product-detail/en/microchip-technology/MCP1642D-33I-MS/MCP1642D-33I-MS-ND/5137719That way, if you have a sensor that needs to be powered at 3.3v, or the voltage on the supercap has fallen below 1.8v, you turn on the boost converter, but only for as long as it's needed. All the other times, you leave it turned off and running your node directly from the supercap voltage, because boost converters are generally quite inefficient.
Thoughts?
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@gohan perhaps I misunderstood you - why do you need 5V caps?
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because if you have a 5v solar panel you can charge it directly from the solar panel and then use an LDO to get the 3.3v or a buck-boost converter to always have 3.3v (in case you are using rfm69hw that requires a little higher voltage than rfm69h). Of course you could have a 5v->2.7v buck converter to charge the supercap and then use it to directly power your boards. My only biggest concern it to avoid overcharging the supercap, so using a 5.5V supercap you have a safe margin when using a 5V solar panel (could be a 6V panel and add 1 or 2 diodes to drop voltage a little )
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@gohan I suggest looking into this if you want to avoid overcharging supercaps:
Automatic cell balancing prevents overvoltage damage to either supercapacitor while maximizing charge rate.
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I have seen theese too, it only gets more complex/expensive to make the circuit and source those special components
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@gohan Did you see this?
Click here@ceech is selling a few interesting solar harvesting boards.
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Here's the thing: when you consider the "quantity 1" price of either the chip or Ceech's boards, you could boost your voltage more cheaply by just buying a bunch of cheap solar panels and stringing them together in series. For instance, today's Digikey price for the BQ25770 is $8.12: https://www.digikey.com/product-detail/en/texas-instruments/BQ25570RGRT/296-37014-1-ND/4430487
I'm not sure how they price these chips, but it seems like they price themselves out of much of the market to the point where they become almost like novelty items.
BTW, I like what I can see in Ceech's boards, and I think they're fairly priced considering the cost of the components. I'm just trying to be objective about this.
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Likewise, I don't understand by the LTC3525D-3.3 (above) is about 4.5x the price of the MCP1642D-33 (also above), especially when the latter chip actually appears to be superior, at least on paper. Am I missing something?
[Edit: Answering my own question, it appears that the LTC3525D-3.3 has a much lower operational quiescent current. The MCP1642D-33's appears to be around 40x higher. So, that might definitely matter if you're planning to have the boost converter running all the time. ]
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I went ahead and made the switch on the node that I'm experimenting with: I'm now using a LTC3235D 3.3v passthrough boost converter. I switch it on when the node wakes up, do various measurements, then switch it off before transmitting the results if the supercap voltage is above threshold. Everything working smoothly.
I think I may next try putting a buck converter on the solar panel so I can get more juice out of it when its voltage is above 3.3v. I'll be trying this one:
https://www.openhardware.io/view/276/33v-Buck-Boost-DC-DC-Converter
because it's the only one I have on hand. If it seems to help, then I'll look for something more on-point (and less expensive!).
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UPDATE: I finally received these:
https://www.aliexpress.com/snapshot/0.html?orderId=83519564882273&productId=32644217312Even though they are smaller, under dim lighting, they showed ~4x the open circuit voltage as compared to: https://www.aliexpress.com/snapshot/0.html?orderId=83597824322273&productId=32253274314
That said, the panasonic solar panels (which are even smaller!) are about 4x their voltage (i.e. about 16x the 53mmx30mm ones) under the same dim lighting.
So, regarding the OP: yes, there are definitely quality differences that express themselves in dim lighting, and this is proof.
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@NeverDie Interesting find. Could you post the product links instead of the order links? Order links can't be visited without being logged in as the user who made the order.
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@mfalkvidd said in How best to find the "best" small solar panel of a particular size?:
@NeverDie Interesting find. Could you post the product links instead of the order links? Order links can't be visited without being logged in as the user who made the order.
I can't post a link now to the good ones, because it looks as though they are no longer being sold. I had posted links before that worked. Believe me, no one is sorrier about this than me, because I want to order more of them.
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Maybe somebody else figured too that they are good and got all of them
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I just today started using a smart diode between the solar panel and the supercap. Voltage drop across it is a mere 0.03v, so I assume that means more power is faster transfered from the panel into the supercap.
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@NeverDie said in How best to find the "best" small solar panel of a particular size?:
smart diode
what's that?
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@gohan said in How best to find the "best" small solar panel of a particular size?:
@NeverDie said in How best to find the "best" small solar panel of a particular size?:
smart diode
what's that?
It's this:
It better approximates an "ideal diode" than an actual diode does. So, it behaves like a diode, but the voltage drop is much less. I measured the reverse current leakage on it, and it's about 1ua, which is higher than some of the best diodes, but not bad.
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TI also makes a single integrated "smart diode": http://www.ti.com/product/SM74611
which I've also tried. However, it has a bigger voltage drop, so I don't like it as much. Also, TI's chip is more expensive.
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Back to the OP, here's a screen scrape of what had been the "good" small solar cells:
Here's a closeup photo of one:
It may not show so well in the photo, but what I think may be key is that it wasn't pieced together out of scrap solar cell fragments (like the "bad" one was) but rather appears to be a single piece. So, that may be a clue on what to look for in the future.
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Here's a schematic for the ideal diode that is pictured above:
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Do those solar panels handle outdoor weather?
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Not sure. There's probably a risk of UV damage to the epoxy, but that's just a guess.
At the moment, I'm focused on indoor use, which is a largely ignored category. I think outdoors is easier because, well, it's a lot brighter. For instance, novicit (above) reported "The solar panel is from China, Ebay, 110mmx70mm, 5V, 1.25W. The panel works great also. It reaches 4V in the smallest amount of light, and 5.45V (no load) in modest indirect light. In fact, it will fully recharge the supercapacitor in the morning before the sun even rises above the horizon, just from the sky brightening. (From the ~20% overnight discharged state.) It seems to charge a fully empty supercap in ~10 minutes under average light."
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If anyone has a favorite buck converter chip, or one they want to recommend, I could possibly make a PCB for it and post it on mysensors.org. Suggestions anyone?
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I received the 0.7v to 3.0v boost converter module from Aliexpress whose link I had posted earlier above. Can anyone identify the chip which is on it?
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@NeverDie it is a ME2188 from MicrOne
http://www.sz-hxdz.com/uploadfile/pdf/201605111221584282.pdf
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Anyone interested in super capacitors.
I'm working on a backup super capacitor storage board. It connects directly to the power rail and charges and balances super capacitors bank. When and if power fails the board steps in and provides power to the circuit.
It is based on LTC3110 super capacitor bi-directional charging IC.
