Safe In-Wall AC to DC Transformers??

Bertb

@aproxx The only varistor I see in your list is 5.5 Volt.

aproxx

@Bertb I see what is getting both of us confused.
Apparently something was wrong in the link of my previous post, resulting in the 2nd varistor not being listed. So now your comment about the varistor only being good for the output makes sense as well. :smiley:
I've fixed the link of my post above!

Bertb

@aproxx This is a different kind of notation, but when I look the device up in de Bourns catalog, I see it is rated for 250 Vac. That should be good.

link text

Bertb

Short update ... yesterday I asked or Chinese friends from Alie to send a HLK module to our test friend.
I also did an insulation test with 1000 Volt. The test shows more than 1000 MOhm between ac and dc. So far so good.

Atomfire

Not a big fan of soldering SMD components and I cannot find standard components, how essential is the 2nd fuse and varistor on the 5v side?

rvendrame

@Bertb said:

Short update ... yesterday I asked or Chinese friends from Alie to send a HLK module to our test friend.
I also did an insulation test with 1000 Volt. The test shows more than 1000 MOhm between ac and dc. So far so good.

:+1:

rvendrame

@Atomfire said:

Not a big fan of soldering SMD components and I cannot find standard components, how essential is the 2nd fuse and varistor on the 5v side?

We are trying to make it as safer as possible... Assuming such modules will stay in a wall box, very close to wires and/or other potential fireable materials, we should try to mitigate risks as much as possible.

As I mentioned above --- This is DIY, also means 'risk it yourself'. Don't tell your insurance company ;-)

Bertb

@rvendrame said:

@Atomfire said:

Not a big fan of soldering SMD components and I cannot find standard components, how essential is the 2nd fuse and varistor on the 5v side?

We are trying to make it as safer as possible... Assuming such modules will stay in a wall box, very close to wires and/or other potential fireable materials, we should try to mitigate risks as much as possible.

As I mentioned above --- This is DIY, also means 'risk it yourself'. Don't tell your insurance company ;-)

That is why I prefer to use fuses that blow, like the ones I mentioned earlier.
The resettable fuses also get warm. Can't wait for the package from Conrad to arrive. I am dying to do some further testing.

With respect to the brave HLK ... it is on for some three days and it is stable.

rvendrame

@Bertb said:

That is why I prefer to use fuses that blow,

In the other hand, you have to disassemble the wall box in order to reach regular fuses that eventually blow. So I tend to prefer PPTCs, at least for this 'discovery' phase.

But it is just my personal preference.

petewill

Thanks everyone for the help! I don't know much about this stuff and I am grateful to you for all your contributions!

I am starting to look at ebay for parts but I was wondering if it would be wise to wait a little longer before I order and more testing is performed? I am excited to start building but I don't want to do anything until it's safe. I know safe is a relative term so I guess I should say safe enough for you all to use in your houses. :)

Thanks again!

Pete

Bertb

@petewill I think this is a wise decision.
I liked the discussion on this thread, so I have to thank you too.

Now it is waiting time. Waiting until the hlk-s arrive at the lab of the test guy.
My Chinese friend said, the package is on its way.

rvendrame

Mine is on the way too.

petewill

@Bertb thanks, will do. The waiting is the hardest part :)

rvendrame

Just a heads up. Yesterday I blew up this module, which I bought some time ago (before we invest into the HLK analysis).

I really don't know what happened, it simply exploded without any further notice (and very near my face, like 30cm or so). I was calibrating the power sensor. Dummy I was, trying to find why it was measuring 10W while the PSU is rated 3W...

The sensor is based on a current transformer TA12-100 , measuring itself on ACMains.

Perhaps some old-school guy can tell me if I violated some some basic rule? I want to believe that some scrap wire or metal has shortened some track, but how to prove it?

Well after that, I measured the arduino + radio + measurement circuit and it never crossed 30mA... I also replaced the damaged PSU (by one identical), and now the power sensor measures 4W (instead the previous 10W), and despite some noising capacitor, no heat or instability after 12 hours or so on.

Pictures of the occurrence:

Botton one is the damaged one:

RJ_Make

@rvendrame Whatever happened (looks like something went to ground; were you probing with a scope?), that MB6S was the source, because that rectifier is blow out.

I don't think you will be able to buff that one out... :stuck_out_tongue:

rvendrame

@ServiceXp , no

rvendrame

@ServiceXp , no oscilloscope. I was Cheking why the power sensor was measuring 10w instead 3w or less.

The CT sensor was around the mains phase wire, and the psu was powering the sensor. I didn't change anything , just multimeter readings on DC side. Didn't touch the ac mains except to insert the current transformer around it.

I also connected a light bulb on same wire, in order to generate some load. The sensor was measuring the bulb correctly, however when the bulb was disconnected it read 10w, away too much for only an arduino.

Yveaux

@rvendrame I'm not sure if I really get your setup, but ground loops can be a very nifty cause of all kinds of stuff getting 'too hot' :grimacing:

Could this be the cause of the problem?

That 0 ohms resistor also looks like it been fried. What's its use on the board?

RJ_Make

@rvendrame Hard to say then, but I'd bet an ice cream sandwich that something went to ground/neutral. It's the high voltage side that is blown out of that rectifier.. You may never know what the cause was.

jemish

@petewill when you start home automation at that time please share photos wit me.
how to setup the no. of relay, power supply, arduino, radio etc in WALL box.