I’ve watched this at least 4 times trying to understand that at the end you’re showing 70 A charged at 14.4 V (a 12 v battery) = 1,008 W max. I finally understand the max watt rating. We’ll see how long until I forget that and watch this again lol. Thank you so much for all your videos 💙🔋
Thanks for the effort but I got confused with all these calculations and what ifs. Your video was offered to me when I searched UA-cam for the simplest possible explanation for a diy design for a small (minimalistic) one person camper. I thought it makes more sense to start by calculating my max consumption and then work my way backwards to establish what hardware I need to support my needs. Is there a calculator to do that? Thanks!
Hi Nate, Glad I found you I will cut to the chase because I know you would rather sheer sheep then talk to an old guy who thought he had an original idea- ha I have a 2011 Dodge mini van I did a modular camping set up for my wife and I -test ran last year and loved it, but wanted to do more dry camping (summer time use only) I bought a Jackery1000 I thought it was a one of a kind find in the industry. its new and so cool I have added a home made storage box on top of van, It stores light weight stuff, ie folding chairs-table and out door rug etc. The top of the box is a used 250W 36x65 solar cell (see data below) its on lift struts and I think the combo of Jakery and Solar cell will allow us to camp anywhere :) The problem: I now find out there are several choices out there for portable batteries and the Jacker is limited to 30V on charging. Many questions swimming in head- don’t want to hurt the battery. Nate, If you can spell out the best the best route to make my roof top solar cell work for us -I WILL PAY YOU, and or buy what ever I need from you, Also and buy a sticker and a T-shirt!! Thanks for any help you can give! Here are the stats ... Model ss250P-60 max power W 250 open circuit V 37.6 Current @ Pmax A 8.27 max system Voltage V 600 fuse Rating A 15A
Great series! I'd love to see something similar for alternator charging lithium. DC to DC charger or not, high capacity alternators, alternator protection devises and battery isolation managers... What does it all mean! I'd sip whisky with you while you explain it for sure.
Very nice, love the app you made, found myself missing an big error when playing with it. Can you have the calculator highlight over/under bad things, like if you are running too small input voltage to the charger for a 48 volt system so it will flag the problem box? Also can you add what charge controller parameters (100/15 example) so if you also over power the controller it will flag you? if you can't that is OK, also you did ask for feedback.
I was charging an RV 12V battery using a new 200w setup. I’m using a 40A MPPT controller. The battery was already at about 80+% SOC. My panels were giving me about 44.3 volts on a clear sunny day. I expected to see at least 5 amps being delivered. I actually saw about 1.31A. Dang! I think I figured that because the battery was already at a fairly high SOC the controller had stepped down the amount of amps being delivered. Right?
Great video. I want to ask, in the event that you don't have solar panel and you opted for a laptop charger let's say 65w 19.5v and it's connected to the solar charge controller will the charge output rate from the controller decrease?
I have a small off grid system with 200 watt solar, 50amp Lifpo4 battery and a 20amp solar charge controller. When sun isn't available, can I disconnect the solar panels from the solar charge controller and attach a 12v 10 amp car battery charger to the solar charge controller input to charge my battery?
That answered allot of questions I had but didn't understand. I have about 1800 watts solar, 48 volts in series parallel, charge controller 100 amps but connected to 14.5 volt batteries. It was maxed out at 100 amps. What confused me is I see 2800 watt arrays that only have a 100 amp charge controller. I see now the voltages of the input to the controller and the output to the batteries are different.
Hey guys. I bought the Victron 150/45 and its working fine but the Victron app is showing im only pushing 38 watts on a 600 watt string. Its showing 87 volts which sounds correct due to they are around 27 volts each. Is this normal for the app to show a lower wattage?
Hello and thank you for your great clear and informative explanation on solar power supply. I would like to know if I can use 300w 24v solar allays with 50a solar charge controller to charge 12v 200ah battery. I have single 300w 24v solar panel and 12v 200ah battery
I’m wondering which charge controller will work best for my aray I have 15 Astronergy 415 watts I have 10 lithium 12 volt 100 amp lifepo4 batteries 3000 watt victron inverter
Hii. I want to charge lithium battery byd lvl 15.4 batteries which 12 batteries connected in parallel making a total of 184.8Kwhr battery bank.. i have 545w jinko panels of 60pcs. My question is which victron size mppt smart charge controller should i buy to charge these batteries? Should i buy the 150/100 or 250/100 or the 450/100 or 450/200? I live in dar es salaam tanzania and temperatures here are preety hot throughout the year around 27 degrees - 38 degrees celcius Thanks Nadeem
Hey in Explorist! In your 'How to Design a Solar Array for a Camper'. You have this video listed twice. Both in the 1st, and 15th video in the playlist. Just wanted you to know.
What do you do when your charge controller is maxed and you want to add a panel? You would have to look for a way around it right? But you don't want to mess things up or take risks.
I am building my own custom toy hauler and am considering adding solar. My question is when you plug in to shore power with a solar setup does the controller know to not charge the battery? Or how does that work?
@@EXPLORISTlife that makes sense and is what I was thinking. What would you recommend for size? I’m planning on using a 12v fridge 10quft, and standard water pump, propane heater and hot water heater. Undecided on weather or not to run an inverter or not because the only 110 appliances would be a coffee pot and ac both I can do without.
Looking at diagram for the OEM 50amp RV upgrade.... I'm not going to use the DC-DC charging but add second MPPT. VIctron has Tr model (supposedly discontinued but still available) and a model that is labeled Tr VE.Can. What is the difference and why would I want one over the other?
The VE.Can models can be controlled via CANBUS protocol (certain batteries, alternators, and such). But yeah... unless there is a significant cost savings and you are trying to 'do it right, do it once', the newer model would probably be the better choice for the long haul.
Thankd so much, great video. What do I do if I want to use a Victron Energy 150V 45 A MPPT Charge Controller with a Maximum PV input power at 12V: 650W and my 7 solar panels are run in series with a max voltage of 140 volts and max amps of 10 amps but the total wattage of the panels are 1400 watts which means I've more then doubled the watts of the controller but my volts and amps are under the alloud 150V 45A. Can I still use this charger or do I need a larger watt charger or spit them into 2 chargers? I was hoping I can use this 1 charger since the Volts and Amps are under what they allow.
Hey, traida111! I appreciate you taking the time to ask your question, but unfortunately, I don't have enough info about your specific question to provide an accurate answer, but here is a playlist that, if you watch all of the videos start-to-finish (and take notes 😉), you'll have a REALLY good idea of how to design a solar array: ua-cam.com/video/Jkbs84sBHsg/v-deo.html Alternatively, I have some of my most common solar array setups pre-built here: shop.explorist.life/product-category/all-products/camper-wiring-kits/solar-charging-wiring-kits/
Is there any harm in oversizing the MPPT? Your calculator tells me I need a 150|85 and Victrons calculator says 150|100. Should I go to the 100 just to be sure? 4x200 2S2P 24v panels. Thanks Nate!
Not much harm, no. Just more expensive. Let me save you a couple-hundred bucks here... 800W of panels feeding a 12V battery bank (charging at ~14.5V) is only 55A (800W/14.5V=55A) Wired in 2s2p, that'd be ~80V. The SmartSolar MPPT 150/60 is the best choice here without needlessly over-sizing. We don't stock that one in our store, but you can get it from Battle Born here: battlebornbatteries.com/product/victron-smartsolar-mppt-150-60-tr-solar-charge-controller/?afmc=explorist_bb67 From there, you could use this wiring kit: shop.explorist.life/shop/all-products/camper-wiring-kits/solar-charging-wiring-kits/1200w-solar-charging-wiring-kit-6x-200w-12v-battery-bank/ Just delete the: Solar panels, MPPT 150/85, and 2x PV connectors The MPPT 150/85 wiring kit in the previous kit works for the MPPT 150/60.
@@EXPLORISTlife THANK YOU. 100% ordering the entire electrical package from you (minus an inverter it seems) hopefully this week, just trying to get everything figured out before I load the cart. Again thank you, I owe you a few beers.
Great video. Is it normal at night time or anytime the solar leads on controller read the exact same voltage at battery side , like the controller is doesn't exist. Even when sun is shinning shouldn't controller be reading higher volatge somewhere 18+. Not 13.3 , and controller output is also 13.3. Weird.
At night, that is normal. If the panels are in full sun and the PV side is reading the battery voltage; that may indicate an issue in the array wiring.
@@EXPLORISTlife thanks man, I did check throughout the day here in az lot of sun and my 2 100w panels was gettin 18v . Batteries full charged , charge controller switches to float, equalize,, etc.. that's my guess why terminals read same voltage at night etc. Thanks keep up great videos
Hi, I'm a little confused, I've just used your latest calculator, I input the details but got a recommendation of a 100/30, but according to the figures, a 100/20 will be sufficient ... It's a 420w panel, VOC 37.58, ISC 14.10, 12v Battery, The voltage and amperage are within the tolerance of a 100/20 and probably a 100/15, so yes, confused .....
Thank you so much for this series of videos! Very well explained and the visuals make it much easier to understand. A solar equipment dealer told me that the panels amps should be around 10% of the battery bank capacity. Do you know what he might have meant by this? I can't find anything about it online. (We have 2x 12v 180ah batteries)
I got around a lot of my confusion by wiring each panel to it's own control box (which were supplied with each 350W panel I bought (x2)). The control box sends power according to the resistance it gets from the batteries so your batteries won't blow up from an excess of power input, although I have everything fused just to be safe. To have hooked my two panels up would have required another control box of greater capacity than 30Amp. There is little if any difference in linking panels or hooking them up separately as far as I can make out. Shade on one panel doesn't effect the other, and that's a bonus. I have 4x170Ah batteries linked in an evenly balanced parallel arrangement.
Were are you located at? I'm fromm Mississippi. I want solar for my van that I'm starting this year. But I want to run Fridge. microwave .2 📺 tvs Game consoles and wacher dryer combo.and coffee maker..exetera exetera exetera..im willing to have a generator too if I need to. But if I could run it all with solar What I need what setup?..and if I come to you can you install it for me?
Hopefully this gets seen, so say if you have 4, 460 watt panels and want to wire them in series parrellel you have 1840 watts are there any good charge controllers for that kind of load or should I split the system into 2 separate power lines of about 920 watts, going to the controller(s)? Am I aiming too high here?
Hey, Tomstone! I appreciate you taking the time to ask your question, but unfortunately, I don't have enough info about your specific question to provide an accurate answer, but here is a playlist that, if you watch all of the videos start-to-finish (and take notes 😉), you'll have a REALLY good idea of how to design a solar array: ua-cam.com/video/Jkbs84sBHsg/v-deo.html Alternatively, I have some of my most common solar array setups pre-built here: shop.explorist.life/product-category/all-products/camper-wiring-kits/solar-charging-wiring-kits/
@@EXPLORISTlife yea sorry was very unclear, I found a good deal on santan with what I believe are "power plant" panels at 460w and a voc rating of 188.8 per panel and an 2.44 amp but i think I would have to hook them up in parrellel to keep the voltage down and play with the amps, I have seen similar panels with lower vocs at 41.4 and at 10.96 amp that I will probably end up going with for easier use, I just stumbled upon your channel in my research all of your videos have been very helpful in the matter. I feel the first will blow out a majority of basic charge controllers
Good day Nate Firstly, great UA-cam vlog! Awesome info!!! I need a bit of advice with my system if possible. I ran a PWM controller with a 100w panel on an auxiliary battery that is connected to the starter battery with Cyrix. This only runs a small fridge and worked really well for the past 2 years. Yet I decided to upgrade the system. 2x100w panels in series with a Victron 100/20 controller. Rest of the system stayed the same. I now get a spiking in the system constantly. I have checked and double checked for poor connections and errors but all is 100%. Am I missing something? Many thanks Dewald
Hi hoping you could help me with this. 12V System ! Panels =250w Vmp =30.1V Voc =37.3 Imp =8.31A Isc =8.71A Charge Controller is a Renogy 60A MTTP. Nominal Voltage: 12V/24V/36V/48V Auto Recognition (for non-lithium batteries) Rated Charge Current: 60A Rated Load Current: 20A Max. PV Input Power: 800W/12V; 1600W/24V; 2400W/36V; 3200W/48V Max. PV Input Voltage: 150 VDC (25°C), 140VDC (-25°C) Battery's= x2 115AH AGM 12v Wired in Parallel Running a Companion Fridge 24/7 avg power consumption is 0.09amp What is the maximum panels i can use in any given wiring configuration to get the maximum out of my controller and battery's?
MPPT only but the PWM concepts are 'similar' just much more limiting in input voltage. Any time I talk about charge controllers on this channel I'm talking about MPPT controllers.
@@EXPLORISTlife So that was my problem. I had 2ea 210w Maxiums in series and then I hooked up 2 sets(4 panels) of windy nation 100 watt in series to them and then to the charge controller. So according to your video, my 800 watt of solar panels only put out 411.7w (71.6v x 5.75A=411.7w). Got to change that soon adding another cc and run the line to the battery, right?
Hey Nate , I am trying to find a 24V battery charger for below battery module - I have the Victron 100/30 Smart Solar MPPT and victron blue smart charger(24V) 24112 - but unfortunately both models doesn't allow me to go down on AB voltage below 25V (with advanced option), where as I need to set the AB and nominal volt around 24.5V .. Do we have any charger / MPPT which supports above volt range (for Tesla Model S Lithium Ion Battery 18650 EV Module - 22.8 Volt, 5.3 kWh) ? any help advise appreciated Capacity: 232Ah, 5.3kWh Voltage nominal: 3.8V/Cell, 22.8V/Module Charge voltage cut-off: 4.2V/Cell, 25.2V/Module Discharging cut-off: 3.3V/Cell, 19.8/Module
Nate, I gotta question. Using a solar array and solar charge controller, can I wire a inverter directly without a battery bank to run during daylight hours only? My dad wants to run a small AC unit during the heat of the day, and I know inverters auto shutdown when the voltage drops below its minimum rating. He doesn't need to run it at night, so a battery bank isn't required...or is it??? Thanks.
Theoretically, you could. The first problem is the limited current from a charge controller. Even with a 100 A unit, you're limited to about 1400 watts going to the inverter. So you would most likely need a number of controllers in parallel. Obviously, your solar array would need to be large enough to provide the needed watts at the AC.
I have an unrelated question that you may wish to answer..? I have two (about 8 amps combined) solar generators (herein called sogen(s)) and would like to power both at the same time using one 180 watt solar panel (instead of a separate for each).. Realizing that my sogens cannot be connected together in any way, my solution would be to provide the necessary branch 'Y' mc4 for the panel pos and neg leg, and isolate each pos leg of the branch (to the sogens) with an inline mc4 fuse which already has the diode built in to prevent vdc back charging on the pos legs. Your thoughts..?? If no, then why not..??
@@EXPLORISTlife Based on..??? In fact, the cc's cannot pull power from each other because they do not back feed(!), so my install of a fused line w/diode is redundant.. The 'Y' branch is acting like a voltage divider with two resistances attached to it.... From my perspective, the volts and amps are split between the two, depending upon their needs, with the possibility of one or both cc's not turning on or charging fast enough due to low volts or current. Then, if the two 180w panels are paralleled and then 'Y' ,d, the amperage would be restored.. Just my point of view that no one can answer with any authority... I'm not trying to be difficult, just looking for a common sense answer.. Thanks again..
Based on me trying to power 2 separate charge controllers from a single panel a few weeks ago. As one charge controller switched into bulk charging mode, the other would restart while it tried to find its max power point voltage. I only barely grasp the 'why'. I get it, but not enough to explain it. You won't be able to get a 'common sense' answer to this as you are proposing an incredibly uncommon setup and this is not really how these components are designed to work. But... feel free to try it out for yourself and let me know if it works.
@@EXPLORISTlife Thanks for you input, I actually called manufacturer today, before I saw your reply. Interesting the tech said NO it wouldn't change anything going to mttp controller which is not correct. I'm on the Western slope and haven't had alot of sun to really check the voltages yet. I'll keep you posted.
Its better to charge at higher voltage coz you can use thinner wire coz you use less amps. Higher amp cozes so much heat to some wires depending on the thickness. Its the reason why electric grids transmit power at 1000 to 3000 volts and steps it down with a huge ass transformer
Hey Explorist, love the channel but almost didnt click because the RED BORDER makes it look like an "already watched" video. Just giving you a heads up :)
The question is How if the landlord leave their home and there is no home's load used while landlords leave their home at all and all batteries is fully charged? Where does the solar panel energy will go or delivered when a daylight time and solar panel within produce the energy condition? Anyone can help to explained to me please?
Hi Nate, Been watching your video's and have some questions. I'm getting ready to install solar at my home, DIY. I've contacted several people who have channels/solar info and have gotten no response. I recently purchased 3000 watts in 12v solar panels and I've tried doing the math myself on batteries and other equipment. 100 Ah 12V LiFePO4 Deep Cycle Battery , these are Battle Born Batteries I want to buy 10 of the batteries. I can't even get BBB to contact me about what size charge controller and other things I'm going to need. When I initially contacted the company, they sent me a work sheet and told me if I needed help to contact them. I want to install 110v mini-splits and not use my central unit. I'm at a total fork in the road and don't know what to buy.Any help you can give me would be appreciated. Update to our prior conversations: BBB finally contacted me and I'm even more confused. They did confirm I needed to run 2 parallel strings of panels w/2 charge controllers @48v. So, I said okay I'm good with that. (They did tell me that they were battery manufacturers and not installers.) He asked that I send usage information, which I did based on prior use. My biggest draw is the central unit in my home and is why I'm doing away with it. As I said before I'm going to be installing 4 or 6 mini-splits which draw between 5-7 amps which will not run in unison. 2 days past and this morning I received a message stating I need to buy $28,000.00 in 12v 8d batteries ($2800.00 each). I'm not sure if this was done so I'd quit asking questions or what. So here I am with all these panels and I don't know where to go from here. I've established that I need 2-48v charge controllers but which ones? I really don't mind spending money on the batteries but not $28,000.00. Which batteries exactly? First they said, 48v, then 12v. Still need some help. I don't know what size or what type MPPT.
I realize you're a MMPT charge controller guy, but what happens if a PWM charge controller is used. Seems like this comparison should have been in a video about how charge controllers work IMO.
Can any one help me with a very small project? I have a small solar panel connected to a 12volt battery to power a led string of light, but the controler is not auto switching to lit the string of led lights. The battery is charger full with 12 volts, and when I press the controler button does not pass the power to the LED string. I need a controler that charge the battery and them the LED to turn on alone without any interation or switch.
It doesn't sound like you're using a Victron charge controller as I don't think the small Victron CC's have 'buttons' to turn on the load terminals? If you're using a different brand... Sounds like that's a great question for tech support for that brand to see if it's a faulty unit.
How efficient is the "Victron MultiPlus 2000VA Inverter" compared to the Renogy Inverter/Charger 2000W? In the blog you told the audience the different between cheap & expensive and that's super useful I know Victron uses 1 Ah per hour compared to the 5Ah per hour on Aim, but what about Renogy?
I have 4 320 watt Renergy Solar panels 33.7 volts@9.5amps wired 2 sets in series then those two sets in parallel so I have 67.3 volts at 20 amps charging 6 100Ahr BB batteries. My Victron charge controller 100/50 never shows more than approximately 700watts, why?
You are seeing 700W because your 50A charge controller is limiting its output to 50A. 50A @ 12V is about 700W (like you are seeing). Your charge controller is simply too small. For a 1280W array charging a 12v battery bank, you'll want a 100A charge controller: shop.explorist.life/shop/all-products/solar-charge-controllers/victron-smartsolar-mppt-150100/
@@EXPLORISTlife I guess I need to understand my charge controller better. This system was started by a company that installed panels and batteries then quit after having my RV for 2 months. Basically only batteries where connected so I could get it home. I had to finish up install from information I learned watching your installs. Thanks for all the help.
Fortunately, replays are free this week. :) There is also a blog post alongside this video that should help as well www.explorist.life/what-does-a-solar-charge-controller-do/
i have watch it and still confused. if we do the math v*a=w then if we have a 200w panel why do we / the watts by the charge controller volts?there is a set volts and amps for the panel but we are taking a number that is with another device and making it part of the total of the panel. to me that makes no sense
That's the difference in input vs output voltage. Input voltage is the solar array voltage. Output voltage is going to be the battery charging voltage.
Well - idea for some improvement: What's about a logic check about input and output voltage: I don't know any charge controller that is able to boost up the solar voltage. Wat is your stand: I would say: so many arrays, I would go for more charge controllers since many - if not most users (campers) having many panels also have different places for them and so different solar direction >> different production. I was told, an array in series can only be efficient as the worst panel is performing (due to sun direction). Are there additional restrictions to panels in parallel if they are exposed in different ways?
To my knowledge, there is not a charge controller that will boost voltage, but if the battery bank voltage is higher than the solar array... there have been errors made in the system design process which should be addressed so a 'boost charge controller' is not needed. Here's what happens when panels are 'exposed in different ways': ua-cam.com/video/jejro4zkl8I/v-deo.html
May I suggest that there are perhaps 10 times as many folks with vary limited funds for whom using far less expensive components is simply a requirement. Battleborn makes fine batteries. I wish I could afford them. I can't. Victron 5:43 makes very fine components. I wish I could afford them. I can't. What I can and must do is build a system that achieves 80 percent of the functionality of your high end system at 1/4 of the cost. So you might want to stop the snooty comments. It doesn't become you. In fact think about reaching out to those of us that live on a thousand dollars a month. We won't make you any real money but there are other things in life. ❤
Then take the education I provide and adjust for your own needs. Just because I'm not showing the absolute cheapest option available doesn't mean that the cheaper options don't work nearly the same.
100w/14.5v=6.8amps,200w/14.5v=13.7amps,300w/14.5=20.6amps so for every 100w the panel goes up the amps increase by 7.so here is another example,800w panel take the 8*7=56amps now take 800w/14.5v=55.17amps.this is too precise the volts and amps doesn't matter only the total watts
@@EXPLORISTlife what gets me way is there a max volts input? For my case I have a 200w bifacial panel.so I need a 15a controller but if I put another 100w panel then by the math I need 25 amp controller I get that. But I will never hit the max input because as watts increase the amps increase so you will never hit the max. That's where I'm at the max it so high never hit it unless you get up to 800w then I'm max out at 93 volts in 4 200w panels in series. Or am I just way over thinking this thanks for the help and sorry for the confusion questions
so by the math for every 100w the amps go up by7 on a 12v system. so how and why the amps only goes up all most 7 amps what math is this. but the volts max stays the same for most controllers. There is more here than what we are being told.
100w/14.4V is indeed 7A; so yes... for every 100w panel you add to the array; the output amperage would increase by 7A when connected to a 12V battery bank.
I’ve watched this at least 4 times trying to understand that at the end you’re showing 70 A charged at 14.4 V (a 12 v battery) = 1,008 W max. I finally understand the max watt rating. We’ll see how long until I forget that and watch this again lol.
Thank you so much for all your videos 💙🔋
wow it took an alcohol analogy help me understand solar kudos
This is a great video series. I think you do a great job of explaining and simplifying this otherwise complex information.
Glad it was helpful. Cheers!
Your Dec 12th, 2018 video on basic solar parts, one of the best instructional videos I’ve ever seen.
1 solar array to 2 icolated power banks using 2 charge controllers ...please how to??@@EXPLORISTlife
Thanks for sharing your knowledge . You have saved another life. Thanks.
Hey, Michael! I appreciate that. Thanks for watching! 🙂😀
Who else expected him to start slurring his words at the end of the video? Great Video Nate!!
Thanks for the effort but I got confused with all these calculations and what ifs. Your video was offered to me when I searched UA-cam for the simplest possible explanation for a diy design for a small (minimalistic) one person camper. I thought it makes more sense to start by calculating my max consumption and then work my way backwards to establish what hardware I need to support my needs. Is there a calculator to do that? Thanks!
Nate, your videos are great but I wish they were numbered!
They are sorted in each playlist that they are in. Check out ua-cam.com/users/exploristlife and navigate to our playlists page.
@@EXPLORISTlife Thank you!
Hi Nate, Glad I found you
I will cut to the chase because I know you would rather sheer sheep then talk to an old guy who thought he had an original idea- ha
I have a 2011 Dodge mini van I did a modular camping set up for my wife and I -test ran last year and loved it, but wanted to do more dry camping (summer time use only)
I bought a Jackery1000 I thought it was a one of a kind find in the industry. its new and so cool
I have added a home made storage box on top of van, It stores light weight stuff, ie folding chairs-table and out door rug etc.
The top of the box is a used 250W 36x65 solar cell (see data below) its on lift struts and I think the combo of Jakery and Solar cell will allow us to camp anywhere :)
The problem: I now find out there are several choices out there for portable batteries and the Jacker is limited to 30V on charging. Many questions swimming in head- don’t want to hurt the battery.
Nate, If you can spell out the best the best route to make my roof top solar cell work for us -I WILL PAY YOU, and or buy what ever I need from you, Also and buy a sticker and a T-shirt!!
Thanks for any help you can give! Here are the stats ...
Model ss250P-60
max power W 250
open circuit V 37.6
Current @ Pmax A 8.27
max system Voltage V 600
fuse Rating A 15A
Good clear analogy 🍻
Great series! I'd love to see something similar for alternator charging lithium. DC to DC charger or not, high capacity alternators, alternator protection devises and battery isolation managers... What does it all mean! I'd sip whisky with you while you explain it for sure.
I'll definitely be covering alternator charging in depth in some upcoming videos.
Very nice, love the app you made, found myself missing an big error when playing with it. Can you have the calculator highlight over/under bad things, like if you are running too small input voltage to the charger for a 48 volt system so it will flag the problem box? Also can you add what charge controller parameters (100/15 example) so if you also over power the controller it will flag you? if you can't that is OK, also you did ask for feedback.
U built amazing tool thank you!!! You my teacher #1!!!
I was charging an RV 12V battery using a new 200w setup. I’m using a 40A MPPT controller. The battery was already at about 80+% SOC. My panels were giving me about 44.3 volts on a clear sunny day. I expected to see at least 5 amps being delivered. I actually saw about 1.31A. Dang! I think I figured that because the battery was already at a fairly high SOC the controller had stepped down the amount of amps being delivered. Right?
0:43. AWESOME bullet points.
Glad it was helpful. Cheers!
Great video. I want to ask, in the event that you don't have solar panel and you opted for a laptop charger let's say 65w 19.5v and it's connected to the solar charge controller will the charge output rate from the controller decrease?
I have a small off grid system with 200 watt solar, 50amp Lifpo4 battery and a 20amp solar charge controller. When sun isn't available, can I disconnect the solar panels from the solar charge controller and attach a 12v 10 amp car battery charger to the solar charge controller input to charge my battery?
Another fantastic video Nate. Your new calculator is excellent as well. You are nailing it!
Glad it was helpful. Cheers!
That answered allot of questions I had but didn't understand. I have about 1800 watts solar, 48 volts in series parallel, charge controller 100 amps but connected to 14.5 volt batteries. It was maxed out at 100 amps. What confused me is I see 2800 watt arrays that only have a 100 amp charge controller. I see now the voltages of the input to the controller and the output to the batteries are different.
Thanks for relaying you experience to us.
Hey guys. I bought the Victron 150/45 and its working fine but the Victron app is showing im only pushing 38 watts on a 600 watt string. Its showing 87 volts which sounds correct due to they are around 27 volts each. Is this normal for the app to show a lower wattage?
So when shopping for panels should I look for 12v, 24, or 48v panels? I’d like to draw the highest wts possible for my bus from the roof.
Hello and thank you for your great clear and informative explanation on solar power supply.
I would like to know if I can use 300w 24v solar allays with 50a solar charge controller to charge 12v 200ah battery. I have single 300w 24v solar panel and 12v 200ah battery
Thank You very much ---- clear as a bell !!!!
Glad it was helpful. Cheers!
I’m wondering which charge controller will work best for my aray I have 15 Astronergy 415 watts I have 10 lithium 12 volt 100 amp lifepo4 batteries 3000 watt victron inverter
Hii. I want to charge lithium battery byd lvl 15.4 batteries which 12 batteries connected in parallel making a total of 184.8Kwhr battery bank.. i have 545w jinko panels of 60pcs. My question is which victron size mppt smart charge controller should i buy to charge these batteries? Should i buy the 150/100 or 250/100 or the 450/100 or 450/200?
I live in dar es salaam tanzania and temperatures here are preety hot throughout the year around 27 degrees - 38 degrees celcius
Thanks
Nadeem
Hey in Explorist! In your 'How to Design a Solar Array for a Camper'. You have this video listed twice. Both in the 1st, and 15th video in the playlist. Just wanted you to know.
It's a pretty important video. 🤣😂
Thanks for the heads up. 👍😁
What do you do when your charge controller is maxed and you want to add a panel? You would have to look for a way around it right? But you don't want to mess things up or take risks.
I am building my own custom toy hauler and am considering adding solar. My question is when you plug in to shore power with a solar setup does the controller know to not charge the battery? Or how does that work?
The charge controller simply senses the charging voltage from shore and turns off as appropriate.
@@EXPLORISTlife that makes sense and is what I was thinking. What would you recommend for size? I’m planning on using a 12v fridge 10quft, and standard water pump, propane heater and hot water heater. Undecided on weather or not to run an inverter or not because the only 110 appliances would be a coffee pot and ac both I can do without.
hi, how to equalize a battery park with 3 regulators connected in parallel
Thanks for the analogy!! Now you got my attention 😂🤙
Looking at diagram for the OEM 50amp RV upgrade.... I'm not going to use the DC-DC charging but add second MPPT. VIctron has Tr model (supposedly discontinued but still available) and a model that is labeled Tr VE.Can. What is the difference and why would I want one over the other?
The VE.Can models can be controlled via CANBUS protocol (certain batteries, alternators, and such). But yeah... unless there is a significant cost savings and you are trying to 'do it right, do it once', the newer model would probably be the better choice for the long haul.
Thankd so much, great video. What do I do if I want to use a Victron Energy 150V 45 A MPPT Charge Controller with a Maximum PV input power at 12V: 650W and my 7 solar panels are run in series with a max voltage of 140 volts and max amps of 10 amps but the total wattage of the panels are 1400 watts which means I've more then doubled the watts of the controller but my volts and amps are under the alloud 150V 45A. Can I still use this charger or do I need a larger watt charger or spit them into 2 chargers? I was hoping I can use this 1 charger since the Volts and Amps are under what they allow.
So if I had a 750w solar array on my van roof. What battery voltage and charge controller would you recommend? I was thinking 24v
Hey, traida111! I appreciate you taking the time to ask your question, but unfortunately, I don't have enough info about your specific question to provide an accurate answer, but here is a playlist that, if you watch all of the videos start-to-finish (and take notes 😉), you'll have a REALLY good idea of how to design a solar array: ua-cam.com/video/Jkbs84sBHsg/v-deo.html
Alternatively, I have some of my most common solar array setups pre-built here: shop.explorist.life/product-category/all-products/camper-wiring-kits/solar-charging-wiring-kits/
Is there any harm in oversizing the MPPT? Your calculator tells me I need a 150|85 and Victrons calculator says 150|100. Should I go to the 100 just to be sure? 4x200 2S2P 24v panels. Thanks Nate!
Not much harm, no. Just more expensive. Let me save you a couple-hundred bucks here...
800W of panels feeding a 12V battery bank (charging at ~14.5V) is only 55A (800W/14.5V=55A)
Wired in 2s2p, that'd be ~80V.
The SmartSolar MPPT 150/60 is the best choice here without needlessly over-sizing. We don't stock that one in our store, but you can get it from Battle Born here: battlebornbatteries.com/product/victron-smartsolar-mppt-150-60-tr-solar-charge-controller/?afmc=explorist_bb67
From there, you could use this wiring kit: shop.explorist.life/shop/all-products/camper-wiring-kits/solar-charging-wiring-kits/1200w-solar-charging-wiring-kit-6x-200w-12v-battery-bank/
Just delete the: Solar panels, MPPT 150/85, and 2x PV connectors
The MPPT 150/85 wiring kit in the previous kit works for the MPPT 150/60.
@@EXPLORISTlife THANK YOU. 100% ordering the entire electrical package from you (minus an inverter it seems) hopefully this week, just trying to get everything figured out before I load the cart. Again thank you, I owe you a few beers.
Great video. Is it normal at night time or anytime the solar leads on controller read the exact same voltage at battery side , like the controller is doesn't exist. Even when sun is shinning shouldn't controller be reading higher volatge somewhere 18+. Not 13.3 , and controller output is also 13.3. Weird.
At night, that is normal. If the panels are in full sun and the PV side is reading the battery voltage; that may indicate an issue in the array wiring.
@@EXPLORISTlife thanks man, I did check throughout the day here in az lot of sun and my 2 100w panels was gettin 18v . Batteries full charged , charge controller switches to float, equalize,, etc.. that's my guess why terminals read same voltage at night etc. Thanks keep up great videos
Hi, I'm a little confused, I've just used your latest calculator, I input the details but got a recommendation of a 100/30, but according to the figures, a 100/20 will be sufficient ... It's a 420w panel, VOC 37.58, ISC 14.10, 12v Battery, The voltage and amperage are within the tolerance of a 100/20 and probably a 100/15, so yes, confused .....
Thank you for this! liked and subscribed!
I did not know that....Thanks Explorist.
No problem. Happy to help!
Thank you so much for this series of videos! Very well explained and the visuals make it much easier to understand.
A solar equipment dealer told me that the panels amps should be around 10% of the battery bank capacity.
Do you know what he might have meant by this? I can't find anything about it online.
(We have 2x 12v 180ah batteries)
I got around a lot of my confusion by wiring each panel to it's own control box (which were supplied with each 350W panel I bought (x2)). The control box sends power according to the resistance it gets from the batteries so your batteries won't blow up from an excess of power input, although I have everything fused just to be safe. To have hooked my two panels up would have required another control box of greater capacity than 30Amp. There is little if any difference in linking panels or hooking them up separately as far as I can make out. Shade on one panel doesn't effect the other, and that's a bonus. I have 4x170Ah batteries linked in an evenly balanced parallel arrangement.
Were are you located at?
I'm fromm Mississippi.
I want solar for my van that I'm starting this year. But I want to run
Fridge. microwave .2 📺 tvs
Game consoles and wacher dryer combo.and coffee maker..exetera exetera exetera..im willing to have a generator too if I need to.
But if I could run it all with solar
What I need what setup?..and if I come to you can you install it for me?
Brb. Very GOOD. Man. Specifics. SPEAK.
Awesome! Glad it helped. Thanks for watching!
Thank you for the information! By the way, Avalanche Amber is one of my favorite beers! 😆
Hopefully this gets seen, so say if you have 4, 460 watt panels and want to wire them in series parrellel you have 1840 watts are there any good charge controllers for that kind of load or should I split the system into 2 separate power lines of about 920 watts, going to the controller(s)? Am I aiming too high here?
Hey, Tomstone! I appreciate you taking the time to ask your question, but unfortunately, I don't have enough info about your specific question to provide an accurate answer, but here is a playlist that, if you watch all of the videos start-to-finish (and take notes 😉), you'll have a REALLY good idea of how to design a solar array: ua-cam.com/video/Jkbs84sBHsg/v-deo.html
Alternatively, I have some of my most common solar array setups pre-built here: shop.explorist.life/product-category/all-products/camper-wiring-kits/solar-charging-wiring-kits/
@@EXPLORISTlife yea sorry was very unclear, I found a good deal on santan with what I believe are "power plant" panels at 460w and a voc rating of 188.8 per panel and an 2.44 amp but i think I would have to hook them up in parrellel to keep the voltage down and play with the amps, I have seen similar panels with lower vocs at 41.4 and at 10.96 amp that I will probably end up going with for easier use, I just stumbled upon your channel in my research all of your videos have been very helpful in the matter. I feel the first will blow out a majority of basic charge controllers
Good day Nate
Firstly, great UA-cam vlog! Awesome info!!!
I need a bit of advice with my system if possible.
I ran a PWM controller with a 100w panel on an auxiliary battery that is connected to the starter battery with Cyrix. This only runs a small fridge and worked really well for the past 2 years.
Yet I decided to upgrade the system.
2x100w panels in series with a Victron 100/20 controller. Rest of the system stayed the same.
I now get a spiking in the system constantly.
I have checked and double checked for poor connections and errors but all is 100%.
Am I missing something?
Many thanks
Dewald
Hi hoping you could help me with this. 12V System !
Panels =250w
Vmp =30.1V
Voc =37.3
Imp =8.31A
Isc =8.71A
Charge Controller is a Renogy 60A MTTP.
Nominal Voltage: 12V/24V/36V/48V Auto Recognition (for non-lithium batteries)
Rated Charge Current: 60A
Rated Load Current: 20A
Max. PV Input Power: 800W/12V; 1600W/24V; 2400W/36V; 3200W/48V
Max. PV Input Voltage: 150 VDC (25°C), 140VDC (-25°C)
Battery's= x2 115AH AGM 12v Wired in Parallel
Running a Companion Fridge 24/7 avg power consumption is 0.09amp
What is the maximum panels i can use in any given wiring configuration to get the maximum out of my controller and battery's?
Whats the name of your calculator?
Does this apply only to PWM charge controllers or MPPT also as I thought MPPT adjust everything?
MPPT only but the PWM concepts are 'similar' just much more limiting in input voltage. Any time I talk about charge controllers on this channel I'm talking about MPPT controllers.
@@EXPLORISTlife So that was my problem. I had 2ea 210w Maxiums in series and then I hooked up 2 sets(4 panels) of windy nation 100 watt in series to them and then to the charge controller. So according to your video, my 800 watt of solar panels only put out 411.7w (71.6v x 5.75A=411.7w). Got to change that soon adding another cc and run the line to the battery, right?
I love how he uses the drinking analogy as an excuse to get drunk
...for science, of course.
Hey Nate , I am trying to find a 24V battery charger for below battery module - I have the Victron 100/30 Smart Solar MPPT and victron blue smart charger(24V) 24112 - but unfortunately both models doesn't allow me to go down on AB voltage below 25V (with advanced option), where as I need to set the AB and nominal volt around 24.5V ..
Do we have any charger / MPPT which supports above volt range (for Tesla Model S Lithium Ion Battery 18650 EV Module - 22.8 Volt, 5.3 kWh) ? any help advise appreciated
Capacity: 232Ah, 5.3kWh
Voltage nominal: 3.8V/Cell, 22.8V/Module
Charge voltage cut-off: 4.2V/Cell, 25.2V/Module
Discharging cut-off: 3.3V/Cell, 19.8/Module
Nate, I gotta question. Using a solar array and solar charge controller, can I wire a inverter directly without a battery bank to run during daylight hours only? My dad wants to run a small AC unit during the heat of the day, and I know inverters auto shutdown when the voltage drops below its minimum rating. He doesn't need to run it at night, so a battery bank isn't required...or is it??? Thanks.
Theoretically, you could. The first problem is the limited current from a charge controller. Even with a 100 A unit, you're limited to about 1400 watts going to the inverter. So you would most likely need a number of controllers in parallel. Obviously, your solar array would need to be large enough to provide the needed watts at the AC.
I have an unrelated question that you may wish to answer..? I have two (about 8 amps combined) solar generators (herein called sogen(s)) and would like to power both at the same time using one 180 watt solar panel (instead of a separate for each).. Realizing that my sogens cannot be connected together in any way, my solution would be to provide the necessary branch 'Y' mc4 for the panel pos and neg leg, and isolate each pos leg of the branch (to the sogens) with an inline mc4 fuse which already has the diode built in to prevent vdc back charging on the pos legs. Your thoughts..?? If no, then why not..??
I feel that the charge controllers in each unit would fight against each other when trying to pull power from the solar panels.
@@EXPLORISTlife Based on..??? In fact, the cc's cannot pull power from each other because they do not back feed(!), so my install of a fused line w/diode is redundant.. The 'Y' branch is acting like a voltage divider with two resistances attached to it.... From my perspective, the volts and amps are split between the two, depending upon their needs, with the possibility of one or both cc's not turning on or charging fast enough due to low volts or current. Then, if the two 180w panels are paralleled and then 'Y' ,d, the amperage would be restored.. Just my point of view that no one can answer with any authority... I'm not trying to be difficult, just looking for a common sense answer.. Thanks again..
Based on me trying to power 2 separate charge controllers from a single panel a few weeks ago.
As one charge controller switched into bulk charging mode, the other would restart while it tried to find its max power point voltage.
I only barely grasp the 'why'. I get it, but not enough to explain it.
You won't be able to get a 'common sense' answer to this as you are proposing an incredibly uncommon setup and this is not really how these components are designed to work.
But... feel free to try it out for yourself and let me know if it works.
@@EXPLORISTlife Fair enough... Finally, a reasonable, 'learned/practiced' answer..! Thanks again for your candor...
Did you just slam a beer and take a shot as an analogy... wow sneaky
It's a hard job, but somebody's gotta do it.
So I've added equal panels in series to my system, total 300w, and 2 AGM 100ha. I have a WPM controller would it better to change to MTTP.
Likely yes. I would suspect that 3x panels in series will put out too much voltage for your PWM charge controller to handle.
@@EXPLORISTlife Thanks for you input, I actually called manufacturer today, before I saw your reply. Interesting the tech said NO it wouldn't change anything going to mttp controller which is not correct. I'm on the Western slope and haven't had alot of sun to really check the voltages yet. I'll keep you posted.
Its better to charge at higher voltage coz you can use thinner wire coz you use less amps. Higher amp cozes so much heat to some wires depending on the thickness. Its the reason why electric grids transmit power at 1000 to 3000 volts and steps it down with a huge ass transformer
Hey Explorist, love the channel but almost didnt click because the RED BORDER makes it look like an "already watched" video. Just giving you a heads up :)
That's actually a good piece of insight. Noted. Thanks!
The question is
How if the landlord leave their home and there is no home's load used while landlords leave their home at all and all batteries is fully charged? Where does the solar panel energy will go or delivered when a daylight time and solar panel within produce the energy condition? Anyone can help to explained to me please?
Hi Nate,
Been watching your video's and have some questions.
I'm getting ready to install solar at my home, DIY.
I've contacted several people who have channels/solar info and have gotten no response.
I recently purchased 3000 watts in 12v solar panels and I've tried doing the math myself on batteries and other equipment.
100 Ah 12V LiFePO4 Deep Cycle Battery , these are Battle Born Batteries I want to buy 10 of the batteries. I can't even get BBB to contact me about what size charge controller and other things I'm going to need. When I initially contacted the company, they sent me a work sheet and told me if I needed help to contact them. I want to install 110v mini-splits and not use my central unit.
I'm at a total fork in the road and don't know what to buy.Any help you can give me would be appreciated.
Update to our prior conversations: BBB finally contacted me and I'm even more confused. They did confirm I needed to run 2 parallel strings of panels w/2 charge controllers @48v. So, I said okay I'm good with that. (They did tell me that they were battery manufacturers and not installers.) He asked that I send usage information, which I did based on prior use. My biggest draw is the central unit in my home and is why I'm doing away with it. As I said before I'm going to be installing 4 or 6 mini-splits which draw between 5-7 amps which will not run in unison. 2 days past and this morning I received a message stating I need to buy $28,000.00 in 12v 8d batteries ($2800.00 each). I'm not sure if this was done so I'd quit asking questions or what. So here I am with all these panels and I don't know where to go from here. I've established that I need 2-48v charge controllers but which ones? I really don't mind spending money on the batteries but not $28,000.00. Which batteries exactly? First they said, 48v, then 12v. Still need some help. I don't know what size or what type MPPT.
Here is a tutorial that will teach you how to size a charge controller: ua-cam.com/video/MxziHKvTRh8/v-deo.html
I think it’s helpful.. are you looking for a van that needs wiring for solar? I need help with mine :)
Glad it helped! I am currently not offering installation services, unfortunately.
I realize you're a MMPT charge controller guy, but what happens if a PWM charge controller is used. Seems like this comparison should have been in a video about how charge controllers work IMO.
PWM controllers are going to do a similar function, just with much lower voltage thresholds.
Can any one help me with a very small project? I have a small solar panel connected to a 12volt battery to power a led string of light, but the controler is not auto switching to lit the string of led lights. The battery is charger full with 12 volts, and when I press the controler button does not pass the power to the LED string.
I need a controler that charge the battery and them the LED to turn on alone without any interation or switch.
It doesn't sound like you're using a Victron charge controller as I don't think the small Victron CC's have 'buttons' to turn on the load terminals? If you're using a different brand... Sounds like that's a great question for tech support for that brand to see if it's a faulty unit.
How efficient is the "Victron MultiPlus 2000VA Inverter" compared to the Renogy Inverter/Charger 2000W?
In the blog you told the audience the different between cheap & expensive and that's super useful
I know Victron uses 1 Ah per hour compared to the 5Ah per hour on Aim, but what about Renogy?
I've never used a Renogy inverter/charger, but I suspect it would be in the same ballpark as the Aims Inverter/Charger.
so why is there a max volts input watts=watts no matter how it is put together.
The max input volts is simply the maximum number of volts that the internals of the charge controller can handle.
I have 4 320 watt Renergy Solar panels 33.7 volts@9.5amps wired 2 sets in series then those two sets in parallel so I have 67.3 volts at 20 amps charging 6 100Ahr BB batteries. My Victron charge controller 100/50 never shows more than approximately 700watts, why?
Do you have a 12V or 24V battery bank?
@@EXPLORISTlife 12v
You are seeing 700W because your 50A charge controller is limiting its output to 50A. 50A @ 12V is about 700W (like you are seeing).
Your charge controller is simply too small.
For a 1280W array charging a 12v battery bank, you'll want a 100A charge controller: shop.explorist.life/shop/all-products/solar-charge-controllers/victron-smartsolar-mppt-150100/
@@EXPLORISTlife I guess I need to understand my charge controller better. This system was started by a company that installed panels and batteries then quit after having my RV for 2 months. Basically only batteries where connected so I could get it home. I had to finish up install from information I learned watching your installs. Thanks for all the help.
@@EXPLORISTlife The 150/100 is massive compared to the 100/50.
Lol perfect example!!
Haha! Glad it was helpful. Cheers!
Good info but way too rapid delivery for a layman with only one cup of coffee this morning! Maybe have to watch again later?
Fortunately, replays are free this week. :) There is also a blog post alongside this video that should help as well www.explorist.life/what-does-a-solar-charge-controller-do/
Thats what I did! Just pause and rewind😊
i have watch it and still confused. if we do the math v*a=w then if we have a 200w panel why do we / the watts by the charge controller volts?there is a set volts and amps for the panel but we are taking a number that is with another device and making it part of the total of the panel. to me that makes no sense
That's the difference in input vs output voltage. Input voltage is the solar array voltage. Output voltage is going to be the battery charging voltage.
Cool yeah...
Hey Jobert Page-et, Thanks so much! Cheers!
Well - idea for some improvement: What's about a logic check about input and output voltage: I don't know any charge controller that is able to boost up the solar voltage.
Wat is your stand:
I would say: so many arrays, I would go for more charge controllers since many - if not most users (campers) having many panels also have different places for them and so different solar direction >> different production. I was told, an array in series can only be efficient as the worst panel is performing (due to sun direction).
Are there additional restrictions to panels in parallel if they are exposed in different ways?
To my knowledge, there is not a charge controller that will boost voltage, but if the battery bank voltage is higher than the solar array... there have been errors made in the system design process which should be addressed so a 'boost charge controller' is not needed.
Here's what happens when panels are 'exposed in different ways': ua-cam.com/video/jejro4zkl8I/v-deo.html
I think I have to go deeper into that liquid comparisons 🤣
It really makes things make more sense.
May I suggest that there are perhaps 10 times as many folks with vary limited funds for whom using far less expensive components is simply a requirement. Battleborn makes fine batteries. I wish I could afford them. I can't. Victron 5:43 makes very fine components. I wish I could afford them. I can't. What I can and must do is build a system that achieves 80 percent of the functionality of your high end system at 1/4 of the cost. So you might want to stop the snooty comments. It doesn't become you. In fact think about reaching out to those of us that live on a thousand dollars a month. We won't make you any real money but there are other things in life. ❤
Then take the education I provide and adjust for your own needs. Just because I'm not showing the absolute cheapest option available doesn't mean that the cheaper options don't work nearly the same.
Should've left him guessing, he don't deserve your respond . @@EXPLORISTlife
1:10. Dam.
Glad it was helpful. Cheers!
100w/14.5v=6.8amps,200w/14.5v=13.7amps,300w/14.5=20.6amps so for every 100w the panel goes up the amps increase by 7.so here is another example,800w panel take the 8*7=56amps now take 800w/14.5v=55.17amps.this is too precise the volts and amps doesn't matter only the total watts
Are you asking me or telling me? 😂🤣 Hook me up with a question mark in there and I'll try to straighten you out.
@@EXPLORISTlife what gets me way is there a max volts input? For my case I have a 200w bifacial panel.so I need a 15a controller but if I put another 100w panel then by the math I need 25 amp controller I get that. But I will never hit the max input because as watts increase the amps increase so you will never hit the max. That's where I'm at the max it so high never hit it unless you get up to 800w then I'm max out at 93 volts in 4 200w panels in series. Or am I just way over thinking this thanks for the help and sorry for the confusion questions
Great Video ... I see you use any excuse to have a drink while the job gets done.
It's a tough job, but somebody has to do it. 🤣
0:58. BOOM.
Hey JRR31984, Thanks so much! Cheers!
Great videos just wish you would slow down when talking mate .
Glad it was helpful. Cheers!
so by the math for every 100w the amps go up by7 on a 12v system. so how and why the amps only goes up all most 7 amps what math is this. but the volts max stays the same for most controllers. There is more here than what we are being told.
100w/14.4V is indeed 7A; so yes... for every 100w panel you add to the array; the output amperage would increase by 7A when connected to a 12V battery bank.