Led4power.com : LD-4 CC linear drivers, ILC-0/1 illuminated tailcaps, optics, MOSX, copper DTP MCPCBs...

Do you happen to have an e-switch version of the LD-4 driver?

No.

…but you’re still planning on one, right? :laughing:

In 2019 I will have more free time for drivers development.

That’s good to hear. I hope to see an e-switch version of an already established design like the LD-4.

Seconded, different diameters would be a plus also (22mm especially.)

Ah yes that would be so great! :+1:

+1 on both :wink:

+2 but I expressed this several pages ago as well

And I agreed with that as well :wink:

Neven, you would probably sell a lot of e-switch versions if you had them.
Then people can finally put decent drivers in their e-switch lights, like Astrolux S42 and 43 and the Emisars.

I’ll second that. I have an Emisar S42 that could use a good driver.

Me too. (i think you mean Astrolux)
And my Convoy / Sofirn C8 triple host is waiting for something like this too.
I also have a Skilhunt H03 with a driver that behaves like it will die soon…

As always, thank you for your fast delivery and good packaging.

But a word of caution for everyone buying a luxeon MZ: This LED does not like solvents / cleaning.
I managed to turn mine into a beautiful blue by trying to clean the flux from soldering: https://i.imgur.com/rszOsls.jpg

Also, are there tips and tricks how to solder the MosDTP + LD-4B driver in a host with an integrated shelf like the Convoy M1?
I had huge problems soldering the MCPCB inside the head and even when I managed to solder everything, the solderjoints at + and - were to big and were shorting to the reflector.

My approach was a small piece of wire which lifted the MCPCB enough so it was possible to limit heat transfer to the head.
Would another aproach like soldering the MCPCB first, inserting it and then soldering everything to the driver be a better idea?

What did you use for removing the flux?
It should withstand alcohol.

As for soldering very thermally conductive LED boards, you just need a powerful soldering iron, which can heat up a small area really fast.
That means a pointed solder tip is not what you want.
A chisel bit is much better.
When it’s really difficult i get my 100 Watt iron with a big chisel bit out.
Then the solder pads of the LED board have no other choice but to get hot. :slight_smile:
First tin both parts you want to solder, of course.
Add some flux grease too.

It was this “Leiterplattenreiniger” from a german company: Kontakt Chemie KONTAKT LR 84009-AA Leiterplattenreiniger 200 ml kaufen
The brush probably also did it’s part…

Until now, my 75W Hakko 888D did a good job. But I didn’t increase the temperature.

I’m using a BC-Style Tip

Did that. Tinned the pad and then added extra flux.

But back to my last question: Which one would you suggest:

a) Solder wires to driver; insert into head; cut to length, strip and tin; add thermal paste; insert MCPCB into head with a spacer; solder wires to MCPCB
b) Solder wires to MCPCB; add thermal paste; insert into head; cut to length, strip and tin; solder wires to driver, insert driver and wire-slack into the head and fix

Or something different?

I would suggest a).
It’s often much more difficult to solder wires coming from the pill or head onto the driver, especially when you want to keep the wires short.

I think it would help to turn up the heat.
Just put it on max for the occasion.
That way the tip has a bunch of extra heat stored to heat up the LED board fast locally.

Your choice of bit is probably even better than a chisel bit.

(bit or tip? i mean the same…)

If you pre-tinned the MCPCB +/- pad and wire (preferably with leaded solder so everything is easier) your solder blob that you pre-tinned should melt quickly with the chisel tip and iron turned up high (I think I do around 410-420c for this purpose).

Since the tip is so hot it will turn black, you want to clean it with a brass tip cleaner right before you go at it so it’s nice and shiny.

Your trick with using something to break the tight bond between shelf and MCPCB is good too if you can do it. I will sometimes prop up one side with a tweezer or lay it uneven on the shelf for a second but it’s not necessary.

Yes it was pre-tinned on both sides and I was using classic 60/40 solder. The temperature was probably the problem as I was using my standard 340°C soldering temperature…

Well, I’ll see on the next try as soon as I get another LED.

I would recommend b) for mosX/mosDTP boards, people who says a) - it's like trying to solder solid piece of metal with these boards, and you risk LED damage from too high temp.