Author Topic: Advice for soldering many SOT-363 parts onto boards that are already populated  (Read 1637 times)

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Offline K3mHtHTopic starter

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Hey everyone,

So I'm about to pull the trigger on getting some boards made at a decent quantity (100pc) from JLCPCB. The only problem is that they are now out-of-stock on one part, which is a SOT-363 (the smallest part on the entire board - doh!).

I'm still waiting for other quotes, but I think the price difference is going to be pretty huge from any other place - so I'm wondering what it would take to set myself up to solder these missing SOT-363 parts (one per board) on myself. With the money saved using JLCPCB, I'm cool with investing in some gear to make it easier..

I have hand-soldered these a few times in the past just using a little eye-piece/loupe to check my work as I bodged solder onto the sides of the chip and miraculously it worked for me. But going forward with these 100 boards I'd like some repeatable, quick and not prone to errors or requiring further rework.

Here is the dimensions of the footprint: https://www.diodes.com/assets/Package-Files/SOT363.pdf

For example: would solder syringe work for this (.650mm pitch) and maybe a hot air reflow station with a shield covering the other parts? There are some 0806 resistors about 3-4mm away from the SOT-363 footprint. I don't know.. I'm just guessing based on watching youtube videos :)
 

Online ataradov

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I would just use a microscope and a soldering iron. But that depends on your equipment and skills. And also on how dense the board is. Not only in the immediate area, but tall components away from the place may still be an issue.

100 boards is not a lot, once you get into it, it should be doable in a couple hours.

Manually applied solder paste would 100% require cleanup with soldering iron on almost all parts. Might as well just do it with the iron in a first place.
Alex
 

Offline T3sl4co1l

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They'll already have solder on them from pasting the whole board.

Hot air: apply flux, hold the component in tweezers and wait for it to melt.  Position gently, bump it into place -- if it doesn't snap into place with a little wiggling/bumping, apply more flux, or try to remove solder bridges.  An iron should be easy enough to remove bridges with, or fine solder wick if nothing else.

Iron: position the component over the footprint, tack one pin; it'll probably be floating a bit over everything because the solder on the other pads is standing proud.  Take a moment to nudge the part into alignment on the other row (moving the body, bending the one tacked pin), and tack the opposite corner.  Go back and forth until it's centered and lined up.  (Back-and-forth really shouldn't be necessary for a mere SOT-363, but is important for getting TSSOP, TQFP etc. in place.)  Then melt a whole row at once, and press it into place.  You'll need a wide/flat enough tip to do this; conical tips suck, a wedge or chamfered-cylinder style is better.  You shouldn't need any added solder (again, it's on the board already), and just flux as needed to keep things clean and flowing.

FYI, I have average to good vision, so take this as-is, but I find it surprisingly easy to spot minuscule details of things -- this works because you don't necessarily need to know the exact shape of what you're looking at, just whether something's out of place, misaligned, or connected improperly.  Namely: if the solder doesn't form a fillet, you won't see the shiny band around the leads; if it forms a short, you'll see extra shiny between leads.  It's about the specular reflection -- which itself might manifest as a blob the size of the pad in your visual field -- but seeing where it's aligned, how it's shaped, and the relative brightness, you can still see what's going on.  It may be poor resolution, but it's high contrast, too.  Uh, needless to say, work in a well-lit room too! :)

And then, yes absolutely, use a 10x loupe or even better microscope to inspect things up close and really get to see the profile of solder joints: toe, side and even heel fillets, component alignment, etc.

Finally, test it cautiously, if you can.  Bring it up slowly, or a piece at a time, so nothing powerful is likely to destroy itself.  Sections you can't isolate, take extra time to inspect.  The assembler won't have taken time to inspect and rework your boards, not at that budget -- this is your responsibility.  Head-on-pillow, tombstone, tilted and absent parts are the most likely issues, the first one being hardest to inspect.

I take it it's probably too late to change this, but a note for the future (and if you already have, then a note for readers) -- if you're going to be doing lots of manual (iron) rework, be sure to leave ample toe fillet (sometimes side as well) to get a wedge (or even radiused) tip in there.  Typically 0.3mm toe (MMC) is the minimum, and 0.5, up to 1mm for large parts, is a good idea.

Hot air is generally preferable, albeit slower (for which, a preheater helps reduce heating time).  Entry-level units are cheaper than good soldering irons, there's hardly any reason to avoid having one.

You'll certainly need hot air anyway for no-lead parts, but it's also preferable for small parts (0402 say) which just wash away under the iron, whereas under hot air you just put the part in the general vicinity of both molten fluxed pads and *click* it snaps into place.  (I tend to use minimal size pads for 0402, for this reason -- large pads are more prone to tombstoning).

0603 is kind of marginal between preference (hot air vs. iron), obviously they're a bit harder to see (especially with poorer vision) but they're not terrible for iron soldering.  0805 up seems to be the more suitable range for soldering iron work, and is still my default component size if I don't have any particular requirements on a project.  Maybe you'd prefer 1206 if your vision isn't as sharp, or your hands are a bit shaky.

I find SMT better to hand assemble than THT, if for no other reason, it's less bother -- that's a lot of forming and trimming leads, and the soldering is slower.  And there are many other reasons: lower profile, better performance, tighter layout, meaningful component choice (most stuff isn't available in DIP), etc.!

Tim
Seven Transistor Labs, LLC
Electronic design, from concept to prototype.
Bringing a project to life?  Send me a message!
 

Online ataradov

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Oh yeah, if they will have solder, then hand soldering with iron will be annoying. In that case flux and hot air indeed.
Alex
 

Offline T3sl4co1l

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Yeah, and even if they do have solder, can always wick that off and start more-or-less fresh -- that may be more handy for iron soldering so as to avoid so much bending of leads.  But yeah, more steps either way.

Tim
Seven Transistor Labs, LLC
Electronic design, from concept to prototype.
Bringing a project to life?  Send me a message!
 

Offline K3mHtHTopic starter

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They'll already have solder on them from pasting the whole board.


Oh right! I didn't think about that.. i thought the paste would just be applied to the components they are actually mounting. Is this true for sure? I have some JLC boards that were missing a few parts previously, I will go inspect them and see.

It's not too late for me to modify the footprint for that part, increasing the length of those pads to make it easier to hit with an iron.
 

Online ataradov

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If they have not made the stencils yet, you can remove that part and there will be no solder on it, but if you leave it as is, there will be. I doubt they change the stencils based on what parts they have in stock, they just make them as in your submitted design.

Also, longer pads don't help that much, so I would leave it as is.
Alex
 


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