Nice video. Sage old advice (from formerly intact solar panel cables): If you have squirrels, you may wish to dab some clover oil on the outer casing of any exposed cable once in a while. Replacing damaged cables gets old fast.
Thanks for the inf Alex. Things I found very helpful... "Sealed Lead Acid" Battery is needed for freezing temps. I'll probably get the 30W panel, and 25-30 Ah battery. (btw, you used the trusty tweezers as a tool, LOL... could have used your fingernails)
great video, I'm trying to make this project as cheaply as possible any have zero electrical skills this seems perfect. Any idea for solar panels that just need daylight? There is usually no direct sunlight on my property in PNW. Thanks
The USB port on the controller is regulated to 5V at 2Amps. You can still access 12v power from the controller using the 'load' screws on the controller.
How do you match the panel size (watts), controller (amperage), LED light requirements (amperage), hours/day and battery capacity? In other words, if I used the same LED strips you have, which are 2A, but need them to run 8 hours/day what do I need in the panel, controller and battery capacity? Essentially, what specs do I need to look for? I'd probably go with strip lights that I can wire directly to the controller (vs. USB) or directly to the battery. Thanks.
Vey nice video, but you made a common mistake with your led light strip. You are supposed to face them away from you to stop you from being dazzled and to create a more defused light effect. Though I'm sure you are happy the way you installed them.
Excellent how to! Thanks. I've got the same brand shed as you do but mine is 15' deep. I noticed the lights you used from Amazon are only 6.5' in length. Can I add a couple more together so the lights go from the front to the back of my shed? Thanks again.
Good question - Nope, the charge controller has overcharge protection! And I don't know of a charge controller that doesn't protect against overcharging. It's a standard feature, regardless of whether it's a PWM or MPPT charge controller.
PRODUCTS Battery - amzn.to/3KN0VBq Charge controller - amzn.to/3KO2tLJ Solar panel - amzn.to/3GvdgaW Mounting tape - amzn.to/43lXOYn Adapter cable 1 - amzn.to/3zOffnc Adapter cable 2 - amzn.to/43m3L7H Lights - amzn.to/3meoJoE ~ Some things I didn’t mention in the video: - Alligator clips are far from the best way to connect wires long term, so if you want to make the connection a bit more permanent - especially in vehicles where everything gets moved around during transit - you can use electrical tape to tape the clips to the terminals - Lead acid batteries shouldn’t be charged below -4°F (-20°C) - The estimated solar panel and battery sizes at the end are conservative because I don’t want your lights to die unexpectedly 😜 - The adapter cable I used has a 7.5A fuse, so make sure you get a solar panel that won’t exceed this limit
I have a resin-type shed that's similar to yours. I'm hoping to maybe one day have solar panels covering the one full half of the roof (the south facing half of course) and running power (under ground) to a ductless minisplit unit (with the outside compressor about 30 feet from the shed, and the head unit of the minisplit installed in an upstairs bedroom). They now have minisplits that can run on a combination of DC and AC (where they prioritize the DC first). With the minisplit's variable speed compressor, they can apparently run at low speeds with relatively small power consumption. Since my shed is only 7'x7', and with only 1/2 of the roof facing south, there's not a ton of room for solar panels. Maybe I can fit four 100W panels I'm hoping. Anyway, this is just a thought so far. Haven't started taking measurements or running numbers yet. Current "concerns" are 1) how much panel and associated power generation can I fit on half of the roof of the shed, 2) how heavy will the panels be on the shed roof, 3) how can I safely run power underground from the shed to the outside compressor unit, 4) how much power I will lose in that ~30ft run, 5) what is the bare minimum power that a (maybe 9k or 12k BTU) minisplit can run at a slow speeds with its variable speed compressor (e.g. does it need say 250W or so to even run at all).
“No tool build” proceeds to just use the smallest most annoying tools he can find around the house…this is just dumb, if you are doing this project and can afford to buy the battery, panel, and charge controller you can afford to buy a few hand tools and probably know a friend with a drill…
Nice video. Sage old advice (from formerly intact solar panel cables): If you have squirrels, you may wish to dab some clover oil on the outer casing of any exposed cable once in a while. Replacing damaged cables gets old fast.
Thanks for the tip! I definitely do have squirrels so I'll try this out
Swiss multi-tool is a tool as are Tweezers!
Im high af rn this video was dope af !
Hahahahahhaa me to
Great comment
Are you trying to figure out how to grow in a shack too? 😂😂
thanks you may have just saved me in my DT school project
Nice 👍
Awesome guide, and great way to start getting into solar on the cheap
Thank you!
Nice job. Maybe next year for me. Ima continue using my phone light for those rare occasions i need something from shed in the dark.
Wow that was awesome! Very straightforward anyone can do it!
Thanks for the inf Alex. Things I found very helpful... "Sealed Lead Acid" Battery is needed for freezing temps. I'll probably get the 30W panel, and 25-30 Ah battery. (btw, you used the trusty tweezers as a tool, LOL... could have used your fingernails)
great video, I'm trying to make this project as cheaply as possible any have zero electrical skills this seems perfect. Any idea for solar panels that just need daylight? There is usually no direct sunlight on my property in PNW. Thanks
Great video. Exact application in the exact shed I have! Thanks
Thanks for a nice video. I can see you used a 12v battery and 5v lights. Does the controller somehow convert the voltage or how does it work?
The USB port on the controller is regulated to 5V at 2Amps. You can still access 12v power from the controller using the 'load' screws on the controller.
How do you match the panel size (watts), controller (amperage), LED light requirements (amperage), hours/day and battery capacity? In other words, if I used the same LED strips you have, which are 2A, but need them to run 8 hours/day what do I need in the panel, controller and battery capacity? Essentially, what specs do I need to look for? I'd probably go with strip lights that I can wire directly to the controller (vs. USB) or directly to the battery. Thanks.
Great video! Easy to follow and Thank you for the item links.
You're welcome :)
Amazing. Thanks for sharing great details & where to purchase.
Hi, can i use 12v led strip? And connect them to dc output on controler?
Awesome - very nice and simple
How much time is the light turn on?
All night?
Hey Alex, just wanted to say maybe you should just use the right tools for the job
Can you make a video adding a timer so that the lights turn on and off by themselves?
How long can you keep the lights on?
Vey nice video, but you made a common mistake with your led light strip. You are supposed to face them away from you to stop you from being dazzled and to create a more defused light effect.
Though I'm sure you are happy the way you installed them.
Excellent how to! Thanks. I've got the same brand shed as you do but mine is 15' deep. I noticed the lights you used from Amazon are only 6.5' in length. Can I add a couple more together so the lights go from the front to the back of my shed? Thanks again.
How much is all this
won't the batteries overcharged? i mean the controller doesn't have mppt feature right?
Good question - Nope, the charge controller has overcharge protection! And I don't know of a charge controller that doesn't protect against overcharging. It's a standard feature, regardless of whether it's a PWM or MPPT charge controller.
this is so cool
What charge controller do I use for 100 watt solar panel
There are lots of options! The one I use in this video works with a 100W panel. It can handle up to 130W. I'd recommend it as a good budget option
@@footprinthero thankyou
PRODUCTS
Battery - amzn.to/3KN0VBq
Charge controller - amzn.to/3KO2tLJ
Solar panel - amzn.to/3GvdgaW
Mounting tape - amzn.to/43lXOYn
Adapter cable 1 - amzn.to/3zOffnc
Adapter cable 2 - amzn.to/43m3L7H
Lights - amzn.to/3meoJoE
~
Some things I didn’t mention in the video:
- Alligator clips are far from the best way to connect wires long term, so if you want to make the connection a bit more permanent - especially in vehicles where everything gets moved around during transit - you can use electrical tape to tape the clips to the terminals
- Lead acid batteries shouldn’t be charged below -4°F (-20°C)
- The estimated solar panel and battery sizes at the end are conservative because I don’t want your lights to die unexpectedly 😜
- The adapter cable I used has a 7.5A fuse, so make sure you get a solar panel that won’t exceed this limit
About 110 dollars for this build . Might be cheaper just buying the solar power lights
do you have a video or if not help us diy "sunne" solar lamp
But in the summer time this type of shed temperature can reach more than 50°c. Isn’t it dangerous for the battery
I'm thinking of doing the same thing with 12v fluro lights, will have a couple panels and potentially a couple batteries aswell, would that work?
Yes but there’s a specific way to do it, you’ll probably want to connect multiple batteries in parallel.
great video!
Thanks!
That's cool..
I have a resin-type shed that's similar to yours. I'm hoping to maybe one day have solar panels covering the one full half of the roof (the south facing half of course) and running power (under ground) to a ductless minisplit unit (with the outside compressor about 30 feet from the shed, and the head unit of the minisplit installed in an upstairs bedroom). They now have minisplits that can run on a combination of DC and AC (where they prioritize the DC first). With the minisplit's variable speed compressor, they can apparently run at low speeds with relatively small power consumption. Since my shed is only 7'x7', and with only 1/2 of the roof facing south, there's not a ton of room for solar panels. Maybe I can fit four 100W panels I'm hoping. Anyway, this is just a thought so far. Haven't started taking measurements or running numbers yet. Current "concerns" are 1) how much panel and associated power generation can I fit on half of the roof of the shed, 2) how heavy will the panels be on the shed roof, 3) how can I safely run power underground from the shed to the outside compressor unit, 4) how much power I will lose in that ~30ft run, 5) what is the bare minimum power that a (maybe 9k or 12k BTU) minisplit can run at a slow speeds with its variable speed compressor (e.g. does it need say 250W or so to even run at all).
If you are powering a minisplit for an upstairs bedroom, and HOA rules aside, why wouldn't you set everything up on the house?
No tools 😂
Dude... You don't get to say tweezers aren't a tool just because they aren't part of the $10 handyman kit at Walmart! lol
İlk Türk abonen benim 🇹🇷
Teşekkürler! (Google Translate 😄)
for safety reasons never cut corners and use proper equipment and tools.
What equipment was not proper?
@@wardraven8755 Well, the tweezers for one.
Hair clip@@wardraven8755
I would like to transport the solar light into different places in my house (no batteries, no solar panel)
You can’t have solar light without a battery in night , the idea is the battery gets charged by solar and then the battery powers the lamp in night
Um, tweezers are a tool.
good video but tweezers or nail cutter are still tools 😉
😅
Here I am wondering why you're having to go into your shed so often at night to grab things 🤔
Tweezer and nail clippers still a tool 🔨bruh
Ummm...would have been easier with a standard screwdriver.
FYI anything you use as a tool is a tool.. you even said multi tool.
“No tool build” proceeds to just use the smallest most annoying tools he can find around the house…this is just dumb, if you are doing this project and can afford to buy the battery, panel, and charge controller you can afford to buy a few hand tools and probably know a friend with a drill…
I build this and it is trash.
That setup is junk