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50mil pitch plated through and ENIG matrix board — Parallax Forums

50mil pitch plated through and ENIG matrix board

Peter JakackiPeter Jakacki Posts: 10,193
edited 2020-09-27 06:14 in General Discussion
Here's a close-up shot of my 50mil prototyping matrix board. There is enough clearance between pads and I alternate a 25mil hole pad with a 35 mil hole pad so that I can still use 100mil header pins etc, but also 50mil as well as SOIC and other SMD parts on the board. They charge a little extra since there are 3,996 holes on each 3.75" x 2.75" panel and they are also ENIGed too. I will get 50 of these at least but possibly hundreds since they are so much better quality and cheaper than other stuff.

There is no wasted space on these boards, even in the corners since who needs to have fixed mounting holes when you may not even use them, or use rubber feet, or slots or just plain plug them into the P2LAB. For those of you who may wonder what ENIG is, it is basically the gold flash finish which is much easier to solder to and normally better for SMD work. The pads are plated through so they are plenty strong and 50mil connectors won't jiggle around since every second hole is 25mil. You will find that there are connectors that will be easier to fit simply because of the pitch without needing to drill extra holes and hacking the board.

I don't bother with power rails or any of that so called convenient stuff as it is inconvenient most of the time. It is just as easy to strip back some wire-wrap wire and tack it into place along the way so you can run it where you need. Alternatively I have used stick-on copper tape but normally that is totally unnecessary.

btw, I had to work this on Kicad since my Protel messes up the plotting of octagonal pads, so I exported to PCAD ASCII, imported into Kicad and saved it, then did a global search and replace on the 35mil hole pads in a text editor, then reloaded this back into Kicad.



protomat.png

Comments

  • Clock LoopClock Loop Posts: 2,069
    edited 2020-09-27 06:20
    When you get them in, put a soic prop on one with its smt caps and a prop plug header, and a soic eeprom! TAKE A PIC OF THAT!
    I'd like to see how well it all fits. (am I understanding this pcb properly?)
    I like through hole pads, no rippin the pad off.
  • Peter JakackiPeter Jakacki Posts: 10,193
    edited 2020-09-27 06:26
    @"Clock Loop" - the Prop is in a QFP44 with a 0.8mm pitch so that won't work with 1.27mm pitch (50mil). But SOICs such as the standard EEPROM package are 50mil pitch. What will solder directly is the ESP32 module itself. No doubt I could do a QFP44 to 50mil pad adapter :)
  • Peter,

    That layout is freaking brilliant! Price? Shipping?

    Thanks,
    -Phil
  • Cluso99Cluso99 Posts: 18,066
    Nice job as always Peter :sunglasses:
    @"Clock Loop" - the Prop is in a QFP44 with a 0.8mm pitch so that won't work with 1.27mm pitch (50mil). But SOICs such as the standard EEPROM package are 50mil pitch. What will solder directly is the ESP32 module itself. No doubt I could do a QFP44 to 50mil pad adapter :)
    Think he means the DIP40.
  • Peter JakackiPeter Jakacki Posts: 10,193
    edited 2020-09-27 07:07
    @Cluso99 - nah, he said "soic" (not technically correct but it is smd), and while I can't do it directly I might look at a compact adapter than has smd pads under it so it will only be around the same size as the QFP44 or maybe one specially for the Prop with the grounds and VDD connected so I can minimize and improve the connections.

    @"Phil Pilgrim (PhiPi)" Think cheap, think very soon in October. I will include a batch of these in the shipment to publison so he will have them "in stock".
  • Clock LoopClock Loop Posts: 2,069
    edited 2020-09-27 07:31
    Yea, I didn't state it correctly, the qfp prop is what I meant, I also forgot the qfp has a much closer pitch than a soic, and not what this pcb is for.
    I should have realized what i was asking, if I had thought about the size each hole would need to be, and how close, that would be hella small.
    I just want everything all in one. Micro holes in micropads... that fits everything, auto adjusted, on demand, automagically!
    How about a pcb that changes based on the code you program into it, lol.
    (however some would have laughed at the concept of a fpga long ago)

    I want an Elastomeric pcb?
    https://en.wikipedia.org/wiki/Elastomeric_connector
  • Nicely done Peter! This is probably what should have been done for that last POS a couple of us tried a few years back. Posted pictures of it before dropping it into the proper container. I will see if I can find the post.
    When you get them done and have a price, I may want a few.

  • I don't expect any problems with these boards but I will wait to check the quality and usability when I get them back. Since this are matrix prototyping boards for micros I decided to call it a MicroMAT for the moment, or uMAT for short.
    2558 x 1280 - 1M
  • Now that I see the entire board, one possible concern might be adequate rigidity. But you'll know when you get the boards back.

    -Phil
  • By my calculations the holes take away 28% of the material so that will still be very strong. It is 1.6mm FR4 after all.

    Pi*(0.035/2)^2*1998 = 1.922
    Pi*(0.025/2)^2*1998 = 0.98
    Total area of holes = 2.9
    Total are of pcb = 3.75*2.74 = 10.3
    Area remaining = 7.4

    Did I make a mistake?
  • jmgjmg Posts: 15,140
    I don't bother with power rails or any of that so called convenient stuff as it is inconvenient most of the time. It is just as easy to strip back some wire-wrap wire and tack it into place along the way so you can run it where you need.

    Ground can benefit from a wider trace to lower impedance, and the boards I've used like this have GND and VCC strips on the edges, and they have also included USB sockets and regulators, so that you have easy plug-able power.

  • By my calculations the holes take away 28% of the material so that will still be very strong. It is 1.6mm FR4 after all.
    But a majority of the woven glass fibers comprising the FR4 substrate will be much shorter. Nonetheless, I hope you're right! :)

    -Phil
  • Phil Pilgrim (PhiPi)Phil Pilgrim (PhiPi) Posts: 23,514
    edited 2020-09-27 21:24
    ...
  • Phil Pilgrim (PhiPi)Phil Pilgrim (PhiPi) Posts: 23,514
    edited 2020-09-27 21:33
    jmg wrote:
    Ground can benefit from a wider trace to lower impedance, and the boards I've used like this have GND and VCC strips on the edges, ...
    I'm not so concerned about this. Solder-tacking a length of stripped Kynar wirewrap wire along a row of holes should provide the same low impedance. Although providing printed busses would make this easier, where to put them? If I had Peter's boards, I would probably have them through the bandsaw more than once to get just the sizes I need. That's the beauty of uncommitted holes.

    -Phil
  • Cluso99Cluso99 Posts: 18,066
    Yes, it is easy to add strips using kynar wire. Any built-in strips are always going to be in the wrong location.

    And as Phil said, you often want to cut down the pcb to a suitable size for your current project to suit. Same goes for mounting holes - just drill out wherever you want them which is often NOT around the edges as that is where you have connectors - easier with 0.050" (1.27mm) grid as pilot holes.

    As for power supplies, easier to add a pcb on top with power as required.
  • Peter JakackiPeter Jakacki Posts: 10,193
    edited 2020-09-28 04:00
    I placed some smd components onto the Protel version of the matrix board to see how they would fit. The SOT89 and SOT23 could be regulators and 0603 parts fit nicely too.
    There's also a photo of a tacked kynar wire matrix board. When I want a heavier ground I either run solder along the length of it or just double it up or loop it.
    1408 x 1326 - 469K
  • Cluso99Cluso99 Posts: 18,066
    edited 2020-09-28 06:37
    Peter,
    A 3d model would work better because you would see where the legs fit. But yes, you can squeeze a lot of parts on 0.1" pitch, and 0.050" pitch will be even better! Only last week I put SOT223 regulators and SODxxx (diodes) on a 0.1" pitch pcb easily and wired with kynar wire.
    Will be even better to use 0.050" pitch headers and shunts rather than 0.1" headers and shunts for alternatives.
  • Finally found it. The @#$@ I mentioned earlier was called the RoutaBoard. You can look it up on google. I pitched it.
  • I expected an additional charge from JLCPCB for the sheer number of holes because in the "additional charges" section it explains that for boards with say 4,000 holes, that there is this extra charge. Well, they didn't charge anything extra although I had to pay a little extra for the tiny 1"x0.5" uPORT USB serial boards because they are so small and it's a problem for the vcut machine.

    Fingers crossed and let's see how all these boards turn out, but these microMAT boards end up costing me around $2 USD each which is about 3 times cheaper than I pay for my standard 100mil boards the same size from Protostack. If the finish and usability is there I will order a few hundred, and then the price should come down. In fact, I just checked and even with my shipping I can get them under $1 each. Factor in handling and shipping out etc means that I could probably charge $30 for 10 boards. I checked ebay and while there are cheap boards out there ..... there are cheap boards out there. Many are single sided coated copper, and the plated through ones are only HASL, but there are no 50mil or ENIG'd ones I came across.
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