I like the seemingly obvious idea of using the breadboard to hold everything while soldering. It was that obvious I was going to go with tape. Thanks, it's a much better idea
An other advantage of not having the pins pre-fitted is it lets you decide if you want to put the Nano into a breadboard or use female DuPont cables for connection. i.e. pins pointing up or down. great tutorial thanks.
And another advantage is that these new Arduino boards have no components on the underside and can be soldered directly onto another PCB using the edge connections.
@4m10s area: To be clear, that's a freeze frame. You don't leave your hot iron on the joint for an entire minute. As mentioned, just a second or two; just until it melts and maybe a half-second more (to make sure). Cheers.
Unfortunately the Nano Every has the silkscreen pin labels on the underside, as opposed to the old Nano. On the other hand the switch from mini USB to micro USB (along with the other improvements) is welcome
Thanks. I just got a Nano IoT 33 for Uni. No idea why they leave out such important information. I guess I will have to learn soldering on such a tiny thing. As a concreter, I understand those hands.
I'm no critic but I do have a tip about the brass wool you're using to clean the iron 's tip. Don't do that. I have, on two different occasions, used this brass wool, too. Inside of 3 weeks, the tip developed a trench and the tip went to crap. Normally, I use a wet sponge. The replacment tip, after 6 months, still looks and performs like new. You're video was very informative and filled in some gaps in my knowledge.
Hi. I am looking for a basic replacement for my Arduino UNO. I don't need extra feature, just a smaller footprint, cheaper but with the same features and libraries as the UNO. Is the Nano Every a good candidate for that purpose ?
Depends really, if you find either to be easier to use, personally I use 0.8mm and it works like a charm. The tin to lead ratio is usually 60/40 or 63/37, both will work fine! But if ur using lead free solder it may be a bit difficult.
As long as you can access the pins, you'll be fine. When on a breadboard, with the pins down, you may have trouble reaching the reset button, but otherwise, good to go!
When people in America first read "Soldering", do some of them pronounce the L and then get corrected? BTW, how many watts iron for this job? Can I get a cheap Chinese 60w?
OMG, did you just dig a hole in the garden? :D
No one’s talking about those hands
They gave me goosebumps all the way loo
I like the seemingly obvious idea of using the breadboard to hold everything while soldering. It was that obvious I was going to go with tape. Thanks, it's a much better idea
I hope it helps! It is worth noting, if due care is not taken you can melt the breadboard some where the pins get hot.
I never thought about using the breadboard as a holder. Im so dumb or you're so smart. amazing tip.
I’m definitely not so smart. You do have to be careful, because if you apply too much heat it can melt the breadboard in spots.
4K Res textures on these hands. Thanks for the tips.
Ha :) forgive that - I had just changed the breaks on my car and REALLY should have been wearing gloves...
@@programmingelectronicsSorry, I was referring more to the super quality of the camera.
An other advantage of not having the pins pre-fitted is it lets you decide if you want to put the Nano into a breadboard or use female DuPont cables for connection. i.e. pins pointing up or down. great tutorial thanks.
Great point!
And another advantage is that these new Arduino boards have no components on the underside and can be soldered directly onto another PCB using the edge connections.
@@Ed.R Thanks for adding that!
Doing this for my TeamUP Science porject in the ECE station!
Cool! Best of luck!
@4m10s area: To be clear, that's a freeze frame. You don't leave your hot iron on the joint for an entire minute. As mentioned, just a second or two; just until it melts and maybe a half-second more (to make sure). Cheers.
:)
Gotta do my Nano tomorrow morning.
Cool!
Soldering intoxicated here!
*sizzle sizzle* 😂
Unfortunately the Nano Every has the silkscreen pin labels on the underside, as opposed to the old Nano. On the other hand the switch from mini USB to micro USB (along with the other improvements) is welcome
Thanks. I just got a Nano IoT 33 for Uni. No idea why they leave out such important information. I guess I will have to learn soldering on such a tiny thing.
As a concreter, I understand those hands.
Best of luck! It is actually pretty fun once you get the hang of it.
I'm no critic but I do have a tip about the brass wool you're using to clean the iron 's tip. Don't do that. I have, on two different occasions, used this brass wool, too. Inside of 3 weeks, the tip developed a trench and the tip went to crap. Normally, I use a wet sponge. The replacment tip, after 6 months, still looks and performs like new. You're video was very informative and filled in some gaps in my knowledge.
Brilliant tutorial.
Hi. I am looking for a basic replacement for my Arduino UNO. I don't need extra feature, just a smaller footprint, cheaper but with the same features and libraries as the UNO. Is the Nano Every a good candidate for that purpose ?
Yes, I think the Arduino Nano Every would be a great option for what you are describing.
Hey man, where is the link to the GPU with deep learning for cat image recognition?! I'm trying to recognize some cats here man.
Plz make a video on How to power nano every from 18650 3.7 V battery cell
Thank You
Thank for watching!
Can you surface mount it to pads on a PCB? I have a Arduino Nano footprint for a SMD type so I assume with enough flux it would work
Great question! Yes you can, in fact thats what those edge cut outs allow for.
What are the half/semicircle/incomplete pins on the outer side of the generic header pins for?
Those are for if you wanted to solder the nano to a circuit board.
@@programmingelectronics but we can do that for the through hole ones anyways, why have those half ones then?
How thick should the solder be?
0.8mm? 0.4mm? And does the tin to lead ratio matter?
That I also want to know. And was your temperature in Celsius or Fahrenheit?
Depends really, if you find either to be easier to use, personally I use 0.8mm and it works like a charm. The tin to lead ratio is usually 60/40 or 63/37, both will work fine! But if ur using lead free solder it may be a bit difficult.
@@mrmaglet Celsius, if it was Fahrenheit I belive it would be around 300-400 ish.
I made it reverse, so long side to the top, is this bad?
As long as you can access the pins, you'll be fine. When on a breadboard, with the pins down, you may have trouble reaching the reset button, but otherwise, good to go!
Only the cool people with soldering irons buy Arduino anyway 🙈😂
Would someone who bought the original Nano and has a soldering iron, but soldered the ICSP pins on the wrong side still be cool? Asking for a friend.
LOL! That friend would still be cool for sure :) although, getting the pins into a breadboard might be kind of tough...
I am sure his name is Jack !😁
this is great thanks. appreciate the jokes
Thanks for watching!
this is god damn perfect
Fool pool
When people in America first read "Soldering", do some of them pronounce the L and then get corrected? BTW, how many watts iron for this job? Can I get a cheap Chinese 60w?