EEVblog Electronics Community Forum
Products => Crowd Funded Projects => Topic started by: kindiana on February 27, 2015, 09:42:31 pm
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Here is an improvement on the age old stripboard or perfboard, it allows two dimensional connections with only small solder bridge connections, an kickstarter campaign will be up soon but I want to get your opinions first. Constructive criticism, bashing and disapproval allowed.
Images:
http://imgur.com/a/GpXoO (http://imgur.com/a/GpXoO)
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I am sorry, but I don't see that much improvement over normal perfboard with single pads or with strips.
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I rather like it. I would rather use that vs. the traditoinal (pad per hole) perf or (strip) vero boards. It is somewhat the best of both worlds.
I would prefer that the strips be centrally located between the holes. To make it less accidental that you would make a connection,
and also to allow connection from either side.
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I am sorry, but I don't see that much improvement over normal perfboard with single pads or with strips.
It allows you to route an connection between any two points while only using a small amount of solder
e.g. red = solder
http://imgur.com/i12UoOR (http://imgur.com/i12UoOR)
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I think it could be a good idea. Are the lines in the centre between the holes? It looks as if lines are almost touching holes. Also, if you are going in this direction, why not add small strip lines in perpendicular direction as well? (full vertical lines and dashed horizontal lines)
I don't like pad per hole boards because I need to add massive amounts of solder or add wire for connections, it gets messy. Strip lines are better because you can use strip lines as bus bars and easily cut out unneeded parts.
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I think it could be a good idea. Are the lines in the centre between the holes? It looks as if lines are almost touching holes. Also, if you are going in this direction, why not add small strip lines in perpendicular direction as well? (full vertical lines and dashed horizontal lines)
I don't like pad per hole boards because I need to add massive amounts of solder or add wire for connections, it gets messy. Strip lines are better because you can use strip lines as bus bars and easily cut out unneeded parts.
There are vertical lines in the back so you can just flip it over because the holes are plated through so it connects both sides. The lines are 8 mills(0.2mm) off the holes, within tolerance to the fabs I'm using.
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I've been working on something similar, still haven't got it just right. Wish you the best of luck! :-+
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You need to define the "value proposition" clearly and succinctly. I will spend 30 seconds determining whether to continue looking at your product.
The value proposition is "I suggest <X>. If you follow my suggestion, then you will get benefits <B>, will loose <L>, and <U> will remain unchanged".
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You need to define the "value proposition" clearly and succinctly. I will spend 30 seconds determining whether to continue looking at your product.
The value proposition is "I suggest <X>. If you follow my suggestion, then you will get benefits <B>, will loose <L>, and <U> will remain unchanged".
Thanks for the tips, I'll keep that in mind when I am writing for the Kickstarter
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I think it would require too much time-consuming board flipping to be practical.
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I quite like the idea, but perhaps some shaping of the pads - maybe one side shaped to X-busses, and the other to Y busses...
Also some way to incorporate SMD pitched components on main board - or daughter 'conversion' boards with solder mask - so they can be dropped flush to the carrier 'buss' board.
My mind is racing, and I can see a few ways to make this work really nicely.
Image is just one part of the idea I'm suggesting... works top & bottom copper, with rotated 90-degrees for other side of the board as mentioned.
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I quite like the idea, but perhaps some shaping of the pads - maybe one side shaped to X-busses, and the other to Y busses...
Also some way to incorporate SMD pitched components on main board - or daughter 'conversion' boards with solder mask - so they can be dropped flush to the carrier 'buss' board.
My mind is racing, and I can see a few ways to make this work really nicely.
Image is just one part of the idea I'm suggesting... works top & bottom copper, with rotated 90-degrees for other side of the board as mentioned.
I quite like your SMD component idea, although the pad shapes looks like the bottom should be rotated 180 degrees so there will be one rail per row of pads, here is my original pad design
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Yes - in fact. I was suggesting both top & bottom 'extensions' (to meet either or both interleaved X busses...)
--- and identical (rotated 90 deg) on the other side of PCB to match the Y busses.
Extend the copper half-way - not just mask the solder mask - so solder bridges are easy and robust (no need to wick across to the curved edge of the ring).
Sorry quick scrappy sketch wasn't all that great.
SMD 'slices' would be really useful - and maybe other odd footprints.
I have LOTs of spare time, so can chat offline for a whole 'system' - which I reckon could have some legs...
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Interesting idea, but IME the hard work with stripboard is not making solder bridges - hell, I get those for free! - but cutting the strips. These boards make neat connections, but you still need to cut the strips (and now on both sides). Some way of dealing with that would be really cool, IMO.
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Another thought - running two (very thin) busses in each gap could be nice.
Combine them as a single buss if needed, or use independently for data or supply pins on either side... it needs a little more design with slightly smaller rings, and tiny lay-bys on the bus tracks (with solder mask between the buss lay-bys) to help with solderability...
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I think it would require too much time-consuming board flipping to be practical.
+1
And after a few connections I think I would quickly lose track of what is connected to what.
I would put the bus strips into groups of 5 to minimize need for bridging and track cutting.
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I think it would require too much time-consuming board flipping to be practical.
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And after a few connections I think I would quickly lose track of what is connected to what.
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These are great prototyping PCB ideas. It also seems like there needs to be an application for circuit layout to keep track of the "nodes" and parts placement.
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I like the idea. But why not go for dual layer instead of double sided?
Much easier to keep track of your connections.
As a downside it will be more challenging to cut tracks.
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Biting my tongue here, but you're supposed to use real wire on those perf boards not just smear solder across two pads.
I'd rather see two-sided normal perf board with round pads.
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Another thought - running two (very thin) busses in each gap could be nice.
Combine them as a single buss if needed, or use independently for data or supply pins on either side... it needs a little more design with slightly smaller rings, and tiny lay-bys on the bus tracks (with solder mask between the buss lay-bys) to help with solderability...
The problem with running two strips is that you need to separate them by at least the tolerance of the pcb fab, and have reasonable width for the tracks for current carrying capacity, so you quickly run out of the couple millimeters between the holes.
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You could patent this. Just saying.
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Biting my tongue here, but you're supposed to use real wire on those perf boards not just smear solder across two pads.
I'd rather see two-sided normal perf board with round pads.
And you can if you want to.
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A few years back I saw this pcb that is the opposite of this idea - instead of make the tracks easy to cut they made it easy to make controlled solder bridges. I kinda like the idea, but I've never tried it myself.
http://www.elecfreaks.com/2362.html (http://www.elecfreaks.com/2362.html)
(http://www.elecfreaks.com/wp-content/uploads/2011/12/10.jpg)
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Nice lateral thinking... X busses on one side, Y busses on the other
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You could patent this. Just saying.
Not any more, he couldn't. It has been disclosed by publication.
OTOH nobody else could patent it and prevent him from making it himself.
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You could patent this. Just saying.
Not any more, he couldn't. It has been disclosed by publication.
OTOH nobody else could patent it and prevent him from making it himself.
Depends on the country. In US, you can publish and still file a patent application up to a year later. But I doubt any perfboard innovation could make enough money to justify the patent costs.
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A few years back I saw this pcb that is the opposite of this idea - instead of make the tracks easy to cut they made it easy to make controlled solder bridges. I kinda like the idea, but I've never tried it myself.
http://www.elecfreaks.com/2362.html (http://www.elecfreaks.com/2362.html)
(http://www.elecfreaks.com/wp-content/uploads/2011/12/10.jpg)
I quite like that, tempted to knock a load out myself. I hate standard veroboard, having to do wires and tracks not cutting properly and cusing problems. I soon loose track of what I am doing and have connected already. I'm tempted to have a load of these knocked out if anything for myself unless i can buy them. I seem to keep getting people asking for one off projects and veroboard is hard to make a good design on first time round.
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Nope. You can file a provisional a year before a patent application, but you can't do a provisional after public disclosure.
You could patent this. Just saying.
Not any more, he couldn't. It has been disclosed by publication.
OTOH nobody else could patent it and prevent him from making it himself.
Depends on the country. In US, you can publish and still file a patent application up to a year later. But I doubt any perfboard innovation could make enough money to justify the patent costs.
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I'm sure there are variations on the theme. What happens if someone designs a slightly different pad, is the pad design or concept patented ?
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is the pad design or concept patented
Depends on the claims (and only on the claims). If you claimed the specific pattern then some other pattern would be OK. If you claim the principle (i.e. pads joined with tracks with 0.1mm gaps) then that would cover any pattern with 0.1mm gaps. The more general your claim the harder it is get it accepted, and it is very easy indeed to make a claim with a bunch of holes anyone can drive a truck through. Thus a patent agent is usually good value for money if you're serious about a patent.
OTOH, you might just want to be able to say "my patented product" and not give a toss if anyone else rips it off - they won't be able to claim their knock-off is patented (unless they think up their own one). In such a case, a patent agent is wasted money, as may be the patent (depends what it's worth to your ego).
In this case, I would think that there is plenty of prior art to make a reasonably generalised claim impractical. But you could probably get quite specific and acquire patent status that way. Or, if it's just for a kickstarter project (i.e. the sales period is limited and not long term), shove in any old rubbish and say it's "patent pending". By the time it's rejected you'll either have your money or given up and be on a different scam :)
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Oh I'm not interested in patenting it jut getting some made for myself and see how i get on with them. I've just done a design and will start getting manufacturing pricing for a small batch.
I was wondering if someone did patent it could they patent the concept or would they be limited to their specific pad design.
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You can patent absolutely anything, just be prepared to defend yourself in case if someone disagrees. At least USPTO seems to grant most of the filed applications.
The thing that really matters in the patent is the last part where all the claims are enumerated, if you mention a specific pad design, then this patent will cover only that design. But what usually happens is that patent mentions a specific design and the rest of the claims are just variations on the first one, as many as you can think of.
The good news is that you are allowed to manufacture patented stuff for your own use (not for sale).
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If you missed out on the kickstarter and would like to buy some:
The Perf+ Store is now open at the-perf-shop.myshopify.com.
All the items are stocked and ready for shipping.