How to Install Solar Inverter | Off-grid Solar Power System | 12V Battery | 100W Panel
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- Опубликовано: 10 июл 2024
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800W Off-Grid Solar Power System | Solar Inverter DIY Tutorial
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An off-grid solar system has four main components. A Solar panel, battery pack, charge controller, and an inverter. The diagram below explains how each and component are connected together ina sn off-grid solar power system.
Solar panels convert solar energy directly to electricity. The principle behind this conversion is photovoltaics.
A solar charge controller manages the power going into the battery bank from the solar array. It ensures that the deep cycle batteries are not overcharged during the day and that the power doesn’t run back to the solar panels overnight and drain the batteries.
The solar battery also is known as solar panel battery, solar power battery, or solar battery storage. It refers to devices that store energy generated from the solar panels for later use.
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If you want text version of any of my Projects visit 👇👇
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There You can read my experiences while I’m making that particular Project. Thank you. Happy Making.
How many dollars was the price
Around $230
Nice vdio sir
💕thank you
@@newphysicist sir where u from
*Super compact and easy to carry and travel with accessories for the electric **Generater.Systems** .I was worried this was going to be bulky or hard to use.Hooks up easy and charges quickly*
This panel can put out close to 100 watts ruclips.net/user/postUgkxOqI2yqX0XVrhR2BMJciTWrHJpG8FhJyg when positioned in the appropriate southernly direction, tilted to the optimal angle for your latitude/date, and connected to a higher capacity device than a 500. The built in kickstand angle is a fixed at 50 degrees. Up to 20% more power can be output by selecting the actual date and latitude optimal angle.The 500 will only input 3.5A maximum at 18 volts for 63 watts. Some of the excess power from the panel can be fed into a USB battery bank, charged directly from the panel while also charging a 500. This will allow you to harvest as much as 63 + 15 = 78 watts.If this panel is used to charge a larger device, such as the power station, then its full output potential can be realized.
Better than many guides I have been through. Thanks 🎉
I appreciate your teaching a lot sir, more grease, much love from Africa
Very cool,well explained, shot and edited.
Standardized. Very useful. Good presentation. Lot to learn.
Hello sir, I have same setup but I run only DC load like lights etc. I am thinking about installing the inverter after seeing your video. Which model of inverter do you use? The one in the link is different that one shown in the video. Thanks!
Yup. It’s different. I used a 400W inverter manufactured locally. Low cost 200w inverters are available online. If u want I can provide link. Go green..
Wow, I love the way work is done
Thanks for breaking this down perfectly ❤️👌❤️💕
Very nicely explained. Much appreciation.
Thanks for the video. It is very good and well explained. Thanks also for providing the list of components. This will help us start building a basic, yet fully functional solar system. I have a few questions, please, if you don't mind:
(Q1) I see that you have 2 X 50W solar panels, configured in parallel, which will add the amperage of the two panels together while the voltage remains unchanged. I can also see that you are using a 10A charge controller. My question is, what is the amperage of each solar panel?
(Q2) Since you are using a parallel configuration for the solar panels, is there a need for an in-line fuse for each panel to protect them, should one panel develop a fault? Equally, if an in-line fuse is needed, what capacity fuse will be most appropriate?
(Q3) I may be mistaken, but it looks like you are using 40A 2pole DC circuit breakers on the charge controller to isolate the solar panels, battery and DC loads respectively. Is this the most appropriate method, i.e. should the capacity of the circuit breaker, depend on the component at the other end? Or would you recommend, in addition to having the 40A breakers on the charge controller, adding fuses to protect each component, e.g. 100A (or so) fuse on the battery, 10A in-line fuse on each solar panel, etc.?
(Q4) Finally, does the circuit between the battery and inverter, require a breaker or fuse? This may be on the model, but I am not able to see it properly.
Thanks in advance and carry on with the good work. Your work is appreciated.
Thank you, I am just learning this solar tech,you must be an engineer, I learned so.much from.your system, now I have to program my control charger for which battery type I will use, thanks mate ,good job , ac
Small tip I learned from another channel, to avoid a spark when connecting -ve wire from the inverter to battery -ve terminal hold a small resistor between the wire and battery terminal for a few seconds to charge up the capacitors inside the inverter then proceed to connect the cable. Also you do not need this trick for LFP as the BMS inside the battery will prevent the sudden power surge.
haha RIGHT! That Huge spark! I've done that too many times! Good info!
Explained beautifully
Thank you Nadeem. 🙏
Thank you for this video sir. Please kindly consider doing one for on grid. Thank you.
Sure. Keep in touch ✌️
This is the best teacher in planet, i wish i had his no
From Haiti . Good job
Super presentation and interesting project 👌👌👌
Thank u sooo much bro
Thanks for sharing sir, , watching here in Philippines
Amazing!!
Thank u girl
beautifully explained.
Your setup looks very neat and perfect ❤
Thanks for your video well explained
God bless you, you have helped me
Love that presentation most how to connect to power inverter
Thanks for explaining 👍
Excellent presentation
🔥✌️
Very good projetc!
Good presentation and correct installation !
Thank you. Are you working in solar industry?
@@newphysicist yes i am a solar integrator
It’s a pleasure to meet you Nathan Tilak. Where do you work?
@@newphysicist small own setup in tamilnadu thanjavur 😃
Can u kindly tell me the DC and the AC isolator specifications? (Voltages and Current)
Really very nice and clear video Thanks for share
Thank you for such a complicated application made simple. NOW, I understand the hook up process. I was missing isolators and that's WHY my inverter keep screaming 😱 at me. #NewSubHere #Godblessyou I will stay tuned and #Keepupthegreatwork
Nice video, thanks :)
Thank you Sir,it is well explain and clear.
💙💙
I like how you make your project and i really like how you speak English because as i now Indian don't speak English hehe but i like you
Thank you. Keep in touch. Let’s build a better tomorrow. More off-grid living projects are on the way...
Great and easy to follow
Great project 👍👌✋
Very grateful
Machane...Super
Broi 🌷🌷
Good, informative video
Very nice thank you
Thanks so much for this video. Please, Which one is better between Parrarel and Series connection for two Solar Panels?
That's great 👍 thanks for subjet
Nice information Sir...
Bro nic idea and nice presentation
Great explanation, thank u very much
Good job easy to install
Good job Weldon
Very nice thank you sir good job
You are a genius man...👍
Very nice video Thanks for share
Very interesting and useful channel
Top video thanks
Very nice👍👍👍
TQ good explanation
This is very nice 😌
Very good 👍
🔥 thank you 🙏
Thanks for the video. Please, what's the best connection for two 300W panels, one 200ah battery and 1kva inverter? Parallel or Series?
It's okay 👍👍👍 informative
Thangkyou..
Hi, is interesting to note that you connect the inverter to LOAD connectors in the MPPT/PWM instead of the battery? Any good explanation why this way is preferred?
As per instruction provided with charger ,we have to connect battery first (then only display will show), second solar penal and thirdly load.disconnect in reverse order.
thanks for the easy-to-understand video. I wonder about the specs of the isolators?
These are actually 30 amps AC isolators. Not DC. I recommend you to use DC Isolators. But they are expensive.
Hi . If you want to charge the batery from the AC outlets what extra you are going to use? And also how much greater the voltage from the Solar panel can be from the voltage of the battery?
If you are using an MPPT charge controller it’ll adjust the voltage & current best for the battery. It’s not the voltage but the current you have to take care about.
There is an option in most investors for “IN”. There you can connect the AC. The adapter inside the inverter will convert the AC to DC and charge the battery.
Good job
❤
Thank you 🙏
Very nice
Good content
I want to run a ceiling fan and two 12 Watt LED bulbs in my home. Which solar panel and battery I should use?
I love it
Nice idea
Thanks u Boss
Itsokay. Super bro
Hi good demo on installation of charge controller and inverter. I have a 200 watt panel with some damaged cells, how can I replace or repair them. Thank in advance for assistance.
Hi thank you for you interesting content. I have one question, I know this is not relevant for a small system but can't we plug the inverter to the DC in charge controller to prevent battery drain during the day (considering a bigger solar system power input)? Aren't all these off grid systems always draining the battery when solar alone during the day could be perfectly capable of powering the appliances (after converting to ac).
Good questions.
1. You can connect inverter to the controller and you must. But your charge controller rating must be enough to handle the possible power draw by the inverter. That’s all. If the inverter draw 12A through a charge controller, it’ll die.
2. You can directly connect inverter to the panel as long as the load is ok with a fluctuating power input. Otherwise it’s bad for both the load and inverter. That’s why we use batteries. But in Grid tie systems there’re no batteries. Grid will supply the required power.
Appreciate your questions 👍
Most inverters have a low voltage warning "beep" and will also automatically shut off if battery voltage gets too low.
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@new physicist my inverter is 4000W,230V one..and my power code from the inverter is 3 core including earth wire..what ac circuit breaker spud I buy and what Ampere limit??
👍👍
Super ji 🙏
Well done for speaking in english!from cameroon!
Different from that of the common indian.if it's natural,waoo!!
😁
Wish your channel a bright future!
Wish your channel a bright future!
Thank you Roger
💛💛
Good job
Good accent bro...❤️❤️❤️
Thanks man ❤️🔥
Some say I’m mimicking foreigners, and not to do that.. 😄
Good work
very well explain, u r using out and N, for home connection that i know. 1 question is what is the use of IN port in invertor. waiting for reply and next video..
IN is used to charge your battery using grid electricity incase there isn’t enough current from solar panels. Thanks for watching 💕
@@newphysicist thanksss
Good Explain
Nice Bro ❤
I like this video
🔥🔥🌞
😍
Dc and a both great man
Thank you very much for the explanation. Now I wanted to charge the battery using the 'Line in' from the inverter but Iam connecting the inverter to the regulator so I'm a little bit hesitant to do so. Can I do it or will it affects the regulator
Connect inverter directly to the battery. It’s safe.
Thank you so much
അടിപൊളി
Nice and profitable idea
Also wish to see a Dc Solar system , instead of using Inverter , bcz when we use inverter to invert dc to ac we lose some power through the process via heat.
Yeah. You are right. At the same time all our appliances run on DC. AC transmission is easy to manage cost effectively. That’s the advantage. DC system is best for Off-grid setups. ✌️
If we want to use DC current directly from the charging controller for certain numbers of bulb, we will have to decide the capacity of the solar panels, right ? Should the charging controller too need to be matched in capacity ?
Yes. Charge controllers with different ratings are available. It’s Ampere rating must match with solar panel current.
Nice video - I am new to this but have a PWM charge controller (30A) and purchased a 100W solar panel. I want to use it to charge LED lights on my garden - (12V 40W) - I can just hook up the lights directly to the load and they will switch on and off as per the timer. I dont think I need an isolator etc for that setup as the power levels are not so high. If I wanted to get an inverter (will need isolators) and powered a garden feature from the AC output - can that output be controlled with a timer so it will come and and off as per the load? or will it always be on? My battery will be a standard (used) car battery, SLA 12V 50Ah
I am using 35w panels 3no’s
65ah battery
Using DC lights only 10w
If I use inverter in that Ac 20w light won’t run till morning.
Good
Une question pourquoi le convertisseur n'est pas connecté directement à l'utilisation du régulateur de charge?
What is the standard of charge controler to use 260 amh battry ?
How many volts came from the ac side of the inverter and what is the name of the isolater