Easily fix a ‘dry’ or broken solder joint on printed circuit boards

And avoid paying for repairs or replacements

Picture the situation where something works just fine one minute, and then the next minute it doesn’t. Or maybe a situation where the item in question was working fine when you put it away and then the next time you go to use it, you get nothing? Sound familiar? Then you might have a broken solder joint on a printed circuit board (or PCB for short).

Broken solder joints (don’t worry they don’t hurt…)

These cracked, fractured or broken solder joints are sometimes (erroneously) called ‘cold’ or ‘dry’ joints (but both those terms relate to problems with soldered joints from the start). Broken solder joints works for me and is a better description for this very common electronic failure problem.

Especially electrical items which lead a hard life; for example, devices that create lots of heat, or ones that vibrate or even stuff you plug things into (and out off) repeatedly. All this heat, movement and action weakens the delicate solder joints holding all the gubbins onto the printed circuit board (PCB’s). Especially any joints that were not too good in the first place, most of our stuff is mass-produced by the lowest bidder don’t forget!

A broken solder joint is where the solder connecting the component pin or leg to the copper track on the circuit boards becomes damaged. Bad contact with the copper track of course means a poor connection (intermittent problems) or no contact at all (device stops working altogether).

Broken solder joints are often caused by…

1. Excess heat, where the pins/legs and the solder surrounding them expand and contract at different rates in use eventually causing cracking and erosion of the solder.
2. Fatigue, where the connection between the component pin/leg and the copper track cracks due to repeated movement or flexing.
3. Weakness in the joint from the start, due to poor soldering technique at the factory (too little solder or improper ‘wetting’ of the joint leading to poor connectivity between the component pin and the conductive track on the PCB).

The likelihood of a soldered joint failing is increased by…

• Intermittent heating/cooling where expansion and contraction stresses connections, (power tools for example).
• Frequent and repeated moving of switches and other controls. Often the one used most creates very localised stress, (the max setting on the vacuum cleaner or cooker hood for example).
• Repeated pushing and pulling on plugs or cables physically flexes the joints between the component pins/legs and the circuit board (audio equipment for example).
• Devices that get very hot in use will eventually suffer from one too many heating/cooling cycles. Expansion and contraction stresses connections, (panel heaters for example).
• Machines that vibrate a lot because they use a big, fast motor. Vibration stresses the joints between the component pins/legs and the circuit board, (washing machines for example).
• Devices that move around a lot. Electronics don’t like being thrown around too much or being knocked about as they are a bit delicate really, (laptops for example).

Fortunately fixing these broken joints is relatively simple. The hardest part is opening up the machine to expose the PCB affected. The range of machines and electronic devices is huge so I won’t go into detail about how to expose the electronics affected, but suffice to say, you’re going to need to undo any screws you can see and remove panels and/or parts that cover the PCB.

Once you can see the printed circuit board inside, go grab a magnifying glass (unless you have eyes like a peregrine falcon…) and look closely at the reverse side of the board (the side opposite the electronic wizardry). You’ll see hundreds of little shiny dots with pins sticking out of them.

A good solder joint looks nice and shiny whereas failing or ‘dry’ solder joint looks dull and crusty. You might even see a ring or crack around the pin or leg.

The fix…

The fix is to re-solder any bad joints with fresh solder. Provided the arcing or intermittent use hasn’t damaged any small electrical components, generally this fixes the problem. But first; the damaged joint has probably left the old solder in a dirty or even sooty condition due to arcing (sparks caused by a poor connection). Gently clean this away physically using a cotton bud or an old toothbrush. Dipping the bud/brush (and taking off the excess) into a light solvent (preferably isopropyl alcohol) works on more stubborn dirt (you can use water to dampen a cotton bud in a pinch, but make sure everything is bone dry before switching on again).

There are two important things to remember when trying this repair. First, always use a flux when soldering. This magical paste will chemically clean the joint making the solder ‘stick’ much better. In fact, soldering without it is very difficult for the amateur (trust me on this, I know!). Second; soldering irons get very hot so you need to work very quickly to avoid damaging the component.

How to solder a dry joint…

Get the iron really hot, wipe some fresh solder onto the tip and wipe it off again by drawing the tip across a damp sponge (this cleans or ‘tins’ the tip). Once you’re ready, touch the screaming hot tip to the component pin/copper on one side and touch the new solder to the other. Lift off the iron as soon as you see the solder melt (it runs and turns wet and shiny). It should only take a second or two… Repeat on all the ones that look suspect. It’s very common to see several that are poor. Wipe away any excess flux that sits around the new joints once they’ve cooled down.

Remember you heat the joint not the solder… Heat, feed in the new solder and then lift both quickly away.

All done? Cool, now you can re-assemble the thing and tentatively switch it back on….. with a bit of luck you’ve fixed it and if not, well, it does happen. But remember it was broken, probably beyond economic repair before you started, so there was absolutely nothing to lose by trying this repair. Remember that and chalk it down to experience.

If you need more help on the soldering side, take a look at the links below and of course my quick video (you can turn your speakers off if you like, the music is a bit much!).

Click here to learn how to solder and here to learn how to solve some common soldering problems.

Stay well

Ian

Broken solder joint update:

Even after more than 30 years I still get surprised from time to time. The ‘star’ lamp fitting in the above video is one of a pair and lo and behold the second one started some erratic behaviour this week too, a mere two months after the first one! Amazingly consistent build quality on these very old lamps. Impressed? Little bit!

Here is a couple of close ups of the offending dry solder joints. The pins are clearly loose and the arcing has damaged the board. Sadly, the PCB looks a little too far gone to be safe this time, but I might give it a go and keep a close eye on it to ensure it’s still safe.

Clear to see the damaged PCB around the left hand pin caused by arcing around the dry solder joint…

Rings of broken solder are easy to see close up… classic failed solder joints due to overheating.

Originally published at handycrowd.com.