DIY Solar Battery Charger, with a DC to DC Buck Converter.

Thanks a lot for the amazing feedback.
However, I believe that I added a control test with the MPPT charge controller to show that the issue was not as a result of insufficient input power from the solar panels.
Thanks, regardless.
👍😎
The Innovati0n Lab

Thank you so much for such wonderful feedback and for watching our videos. We greatly appreciate it.
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Hi friend,
Thanks a lot for the wonderful feedback. I do appreciate it. However, did you watch the entire video? 😊
I am only asking because if you did, then what I was saying about the converter being the likely culprit might make a bit more sense to you. I added a control test with the MPPT charge controller in the end (

Hi friend,
Thanks a lot for the wonderful suggestions, I am definitely going to give that a try. The goal of my channel is essentially to find cheaper alternatives through innovation.
Thanks again for the wonderful idea.
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I dont do that i have same buck converter for my 300W solar panel for 8 months now

Wow! I am glad to hear that. Thanks a lot for the feedback.👍
Well, as I said in the video, I really don't know why mine was charging at such a low current when clearly the solar panel was providing lots of power.
Please, if you don't mind, what was the maximum charging current you were getting with your setup on a good sunny day? Also, what is the Voc (Open-circuut Voltage) of your solar panel?
One of my concerns was that maybe my panel's Voc was too high for the buck converter. But it has a maximum rated input of about 40V, though - with was higher than my panel's Voc, with some good margin.
Thanks again.

​@theinnovati0nlab782 I have same buck converter also
Works fine with my 150w 20v solar panel.
Efficiency isn't as good as mppt controller but works perfectly

​@@theinnovati0nlab782I would check the solar panel

​@@theinnovati0nlab782looks like the voltage is too high for your buck converter... strange

@@theinnovati0nlab782 On a good sunny day, the charging current is 8-9 amps. Solar panels' VOC is 22 volts.😁

Hi friend,
Thanks a lot for the great suggestion, I will try that when I get some time to troubleshoot the system.
However, I honestly don't see the issue being the power monitor because the monitor is just a passive device that uses the voltage drop across a low resistance (miliohms) shut to calculate the input current. That was something I put together her myself, and I fully understand the inner workings - super simple, too😊. But you never know, you may be right, I will try removing it to see what will happen.
Thanks again for the wonderful interaction.
We appreciate it.
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Thanks a lot for the great feedback. MPPT charge controller is the best. Unfortunately they are too expensive for most people. This was meant to be an experimental project.
Thanks again.
👍👍
Respectfully,
The Innovati0n Lab💥
www.theinnovati0nlab.com

Yeah, you are correct about the cheap buck converter not replacing an MPPT charge controller. This was essentially the point I was making in this video because a lot of kept asking about it. Those converters are very cheap and the price is enticing. However, the efficiency losses and overall performance with varying solar irradiance, is something to be carefully considered. I will repeat this experiment with blocking diodes installed as this is something a lot of people have suggested in the past as well, but I haven't gotten the time to try it.
Thanks for the wonderful feedback.
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That is a great idea.
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Hi friend,
Thanks a lot for the wonderful feedback. I do appreciate it. Thanks for sharing your experience.
However, if you watched the video to the end, you will see that I performed a control experiment to rule out the issue of insufficient power from the solar panel.😊
Is the buck converter you are using a constant current buck converter?
I will be retesting in a future video.

Hahaha,
Hi friend. I didn't mean to imply that this buck converter is a bad product. I was just showing that it doesn't work well as a solar charger, as a lot of our audience implied in the past.

Thanks for the great feedback. Is your buck converter a constant current converter?

Thank you so much! We appreciate your wonderful feedback.
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Great feedback.
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However, it is not a good idea to cascade converters because it will double the amount of power losses due to efficiency hits.
Thanks again for thinking outside the box.
The Innovati0n Lab 💥
www.theinnovati0nlab.com

5:1 will mean a 20% Converter efficiency. This is not the case according to my measurements. At heavy loads, these converters are supposed to have efficiencies greater than 80%

I keep seeing this comment over and over.
Please watch the video to the end. I highly anticipated this very comment and I added a control test with an MPPT charge controller and the same solar panel.....same conditions, tested 5mins apart at full irradiance, gave the same batteries a charging current of 14A....so if the solar panel was not delivering, where did all that power come from?🤔🤔🤔
Sometimes, there is a big disconnect between the theories we are propounding and what actually happens during the test. You get the full picture only if you can be patient to fully review the test data. This would allow you to make an informed decision. You are saying that a tested 240W solar panel at full irradiance could only deliver 34W? Less than 15% of its power rating?
I encourage audience interactions and engagements. However, only ask from my audience is to watch the entire video before leaving your comments. This saves me time trying to explain something that I have already presented in the video.
I hope this makes sense to you.
The Innovati0n Lab💥
www.theinnovati0nlab.com

Thanks a lot for the feedback and for sharing your experience on these converters.
👍

It's definitely a great idea!
Now, you got me thinking. 😊.
I will definitely try that to see if it will help improve the stability issue. However, the system will still suffer lots of losses, as those are cheap buck converters, and they can't do MPPT.

Hi friend.
Thanks a lot for the wonderful feedback.
However, if you watched the video to the end, you see that I performed a control test with my MPPT charge controller under the same exact conditions, and I was able to charge the battery at 14A.
Secondly, the clip showing the solar panels was an old B-roll video clip taken a long time ago - when I installed the solar panels. Also, the shaded panel on the right was actually disconnected and not being used for the test.

@@theinnovati0nlab782 okay. So what went wrong? Did it overheat?

It did not overheat, at least not at delivered power

Make sure that your output current is set to the maximum point when you are driving bigger loads.

Sounds great!
Thanks a lot for the recommendation, I will search for those next time I am looking to buy a buck converter.

It sounds like a feasible idea in theory, but directly coupling an inverter to a solar panel is never a good idea. I know you are planning to connect the buck converter in the middle, but I would not recommend you try this. It will not work for many reasons....I mean, if the load you are going to put on the inverter is a 2W load...then it might work until a cloud goes over your panel.
You need to have an MPPT charge controller to charge your 12V battery. Then, connect your inverter to the 12V battery.
Even with this connection, if your inverter depletes all the energy you have stired in the battery and your load is greater that the input power from the solar panels, you are going to oscillations due to an over-damped response between your load and inverter.
This is hard to explain fully over text.

Hi friend,
Thanks for the feedback.
That part is explainable. I assume you looked at 5:25 minutes into the video and you saw that the measured input power was at 34.9W while the delivered output power was at 31.2W. This behavior is expected for any converter, actually, and the difference is due to converter efficiency losses.
So, in this case, power losses = 34.9 - 31.2 = 3.7W. This also means a converter efficiency of about 89.3%
Personally, the issue I had was that I expected the converter to deliver more power because I was using a 220W solar panel.
Typically, that effort was a failure for me. Getting barely 34W out of a 220W solar panel (at full irradiance) was a huge fail.
Maybe I will try a different buck converter in the future, but not that product.
Thanks again for watching the video.
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Check the cables thickness and connectors. Converter was working fine. You can see the input power

Hi friend,
I am not exactly sure at the exact point in the video that you saw that the output IV was greater than the input IV? Maybe I missed something - if I did, I would gladly welcome correction because I don't pride myself on being above mistakes.
Right at the 6-minute mark, the video showed a test summary with the following conditions;
Max INPUT POWER = 34.5W ==> Digital meter on the LEFT
Max OUTPUT POWER = 31.2W ==> Digital meter on the RIGHT.
Calculated EFFICIENCY of Buck converter (%):
((31.2/34.5)*100) = 90%
Now, if my numbers are correct, IV losses = 34.5 -31.2 = 3.3W.
Again, unless I am missing or overlooked something here, I will assure you that I have not invented new laws of physics with this 10-minute TH-cam video. So don't worry, our universe is still intact, at least until we understand how to harness the dark energy that fills the universe... Only then can we fly off to the Andromeda Galaxy...yes?🤔
Please, I would appreciate it if you could keep your comments less disparaging, cynical, and condescending. If you spot a mistake in my videos, please respectfully let me know. I keep my videos as honest as I possibly can, and I am equally here to learn from my audience.
My motivation and inspiration mostly come from my audience. Please keep your feedback constructive.

@@theinnovati0nlab782 hey there. It's all humour. Probably misunderstood. I'll keep it clean.
I did give you constructive feedback about why you were not able to get your CC above a certain point and suggested working on maximizing the input power supply. Please check my comment.
To explain further, the system crashes at;
13.2V x 2.52A = 33.2 W at the output side. With 90% efficiency, this is completely alright and functional.
The problem arises when you try to go above 2.5A. Also you were expecting close to 10A since the max rating of the device is 15A I(out).
While the buck converter can indeed output close to 15A, this will never be possible with an input power of 34.5W and V(out) at 13.2V.
You want a CC above 2.5A, let's say 3A, to the battery. Then;
P(out) = 13.2V x 3A = 39.6 W
You can never achieve ~ 40W from 34.5 Power(in). Impossible!
That's why I mentioned about the laws. Also the buck converter does not work according to the MPPT principle and hence maximum power does not come into play.
If you wanna continue using this setup for learning further, see my suggestions below:
1) Replace battery with another having lower capacity. Requires less Charging Current
OR
2) Increase the no of solar panels until the Power reading of the input meter shows at least 150W consistently. Even thought the solar panel is marketed as 200W, this is only the maximum.
The above will help you understand how make it better to your needs.
MPPT certainly comes with its benefits. Maybe have a go at that too. Once you understand how it works, I'm sure you could incorporate it into your DIY builds 👍

Thanks a lot for the great feedback.👍👍
However, I hope you watched the video to the end where I performed a control test with the MPPT charge controller - simply to show that the problem was not as a result of insufficient input power from the solar panel. I never expected a cheap $12 Amazon buck converter to give me the same performance/efficiency as an $80 MPPT charge controller that uses incremental conductance and a complex control algorithm. As you saw in the video, the control test shows that the solar panel was actually delivering close to 200W - given the same exact setup, test components, battery pack, irradiance, etc. Basically, the only variables were the buck converter and the EPEVER MPPT charge controller. The power monitors do not count as test variables because they are truly nothing but passive measuring devices, consuming less than 80mW each. I performed this same test in a previous video using a boost converter and the same solar panel and battery pack, but the result was better than this.
My suspicion was that the buck converter (maybe due to its switching noise/interference) was impeding the solar panels' ability to properly allow the flow of current from the photon-electron energy handshake (photovoltaic effect).
I have a good grasp of solar energy systems and converter design fundamentals, and I have built quite a few in the past.
I was not saying that I was expecting a charging current >10A based on the 34.5W that was observed at the input power monitor. All I was saying was that the constant current DC-DC buck converter used in this video was not doing a good job of harnessing the available power from the solar panel. Instead, it was only accessing 34.5W. I will not recommend anyone using it. Maybe a regular buck converter - that is not a constant current converter - might do a better job. However, I lean towards the CC converters for my battery charing projects/videos because they provide the user with the ability to adjust the charging currents of their batteries. A good battery charger should provide both voltage and current variability.
As you mentioned, I believe that this might have been a misunderstanding.
I have made multiple videos on similar subjects. Please feel free to check them out.
Thanks again😊.

Appreciate the response.
However I shall maintain my opinion that buck converter has upkept its main purpose as these devices are pretty straightforward and the even cheap ones found online are seldom faulty. I suggest looking at the specifications of the circuit or the datasheet of the IC available online. Any significant impedance will definitely be stated here.
Also like you said, to achieve the full power potential with Solar cells, a controller circuit is required. Preferably MPPT as opposed to PWM.
Lastly, I'm no scientist but I'm not shy to learn what stimulates my curiosity. So I know I could be wrong on many fronts.
Also I've been watching your stuff and have been a subscriber for a while now. Great ideas and productive content. Keep amazing yourself and then amaze your viewers!

👍👍
Honestly, I am very glad to have you as a subscriber!
I find your feedback super helpful.
Thanks a lot for keeping me on my toes. 😂
We need more people like you in here.

Hi, thanks for the thoughtful question. My intuition will be that the PWM controller should be more efficient than a buck converter - given the fact that PWM charge controllers are actually designed for solar charging....and buck converters are typically designed for constant power applications. However, I could be wrong since I have not actually compared the two. This is a good idea for a test video.
Stay tuned.
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Thanks for great feedback.
The quick answer is yes.
However, that is the case with every converter.
There is always a power, voltage, and current limit.

The battery pack is a lithium phosphate, and it can handle high current charging. Besides, the issue was that the buck converter was actually blocking the power from the solar panel. Why settle for a 3A charging current when you expected 15A? That seems like a lot of wasted power and horrible efficiency to me. Also, charging a 30Ah battery with 3A means that it will take 10 hours to charge. Then why build a lithium phosphate battery and slow charge it like a regular lead-acid battery?
😊
Thanks again for great feedback, friend!
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I have not done it myself, but I think you should be able to do it.
However, for a very efficient charging, you will need a solar MPPT charge controller.
👍👍
The Innovati0n Lab💥

Thanks a lot for the wonderful feedback.
What I am taking from your point is to expand the scope of the load tests in the future to accommodate converter output response to different load forms.
However, I respectfully disagree that a fully discharged battery should not be used as a test load. Also, the major focus of the video is to show that constant current buck converters can be used as efficient battery chargers.
The video is basically about solar battery charging.
Thanks again for the wonderful engagement.

It's a cheap and poorly designed buck converter, that's why. Watch the video to the end to see the control test.
Do you understand the concept of a control test?
I knew that a lot of people would blame the solar panels in the future, and this was the reason why I added the control test with an MPPT charge controller in the end. If the solar panels were not making much power, where was the 14A of charging current coming from - when I used the MPPT controller?
I welcome feedback and comments, but try to be patient and watch the entire video before we start propounding theories....before making comments that could be seen as disparaging to my work.... that is a fair ask - yes?
The Innovati0n Lab💥

Hi friend,
Thanks a lot for the feedback.
However, the solar panel was not the issue. Please, watch till the end.

Wonderful.
Thanks.

Thanks a lot for the feedback. 👍👍
You are absolutely on the right track regarding the functions of MPPT charge controllers. However, as the name goes,'Maximum Power Point Tracking' solar charge controllers do more complex functiond than just down-converting the input voltage to the battery charing voltage.
The cheap buck converters were crashing because they are not designed for solar application. This video was just an experiment to know if we could possibly have a breakthrough with a super cheap converter - because this is what we do here at The Innovati0n Lab.
We will be developing our our MPPT controller in the future - with the goal of making it super cheap.
Stay tuned.
- The Innovati0n Lab

I believe I mentioned that in the video. Were you able to watch the entire video?
👍😎
The Innovati0n Lab💥
www.theinnovati0nlab.com

In the video below, I explained our six-step process for DIY battery charging.
Step 1 is to know your battery's charging voltage and current specs or requirements. These converters are not smart, and they are not originally designed for battery charging. We are only showing how you can use them as cheap alternatives for those of us who can not afford expensive battery chargers.
If your set charging voltage and current is too high for your battery system - especially lead-acid batteries - you will overcharge them.
Please, I highly recommend you watch the video below. I took the time to explain how the diy charger system works and how you can prevent your batteries from getting damaged.
THE SIX-STEP PROCESS FOR DIY BATTERY CHARGING.
👇👇👇👇
th-cam.com/video/WDWJ77WWkXc/w-d-xo.htmlsi=rgVHD2y-7hCsrTxC
The Innovati0n Lab 💥

That is a great point.
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The Innovati0n Lab💥

Sorry to hear that.
However, that shouldn't be the case unless you have a faulty buck converter or if your input power source is too noisy for the buck converter.
If you can describe your setup, I will see if I point you in the right direction on how to troubleshoot it.
But this should really be a simple setup. Also, make sure that your input voltage level is within the converter specs.
If it is too LOW or too HIGH, you will run the risk of damaging the buck converter.
👍😎
The Innovati0n Lab.

I see you point.
I believed I repeated the test with a protection diode added to the input of the Buck converter and also achieved the same result. However, it was done a long time ago. I planned to make a follow-on video, but for some reason, the TH-cam algorithm does not favor a lot of my solar project videos.
Well, let's see what the future holds.....too many project ideas but no time. I am simply too busy 😊.
Thanks again for the amazing feedback.
👍😎
The Innovati0n Lab.

Almost looks like you could be hitting the max amps that the battery can soak in and the BMS is cutting of or if your charging lead acid your shorting them. could also be the limit of the buck converter. would be fun to revisit with different gear. @@theinnovati0nlab782

Thanks a lot for watching our videos!
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Wonderful feedback!
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Thanks a lot for such great feedback. I am glad to have you in here. We need more experienced people like you on this platform. I hope you are a subscriber.
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-The Innovati0n Lab 💥

Why dont you have any videos? If you do have this knowledge it be helpful to do so

@@beholder4465
I fully agree.
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@@beholder4465 i'm a professional Electrical engineering its my job day to day and I don't have time to do video and editing to busy .but to help you out always use silicone diode have high amp rating in series with the output of the converter,s you using for projects feedback battery currency will damage the converter causing failure to work properly

Hi friend!
Thanks for the feedback.
👍
That was exactly why I made this video. I was asked about it a few times in the earlier videos, and I don't think it's a good idea.

Okay. Can you explain why?