<div dir="ltr"><div><div><div>Thank you Torrie. Thank you John.<br><br></div>That explanation of the capacitors and gif are quite helpful.<br><br></div>The ATX PSU idea is a great one, but I don't have very much clearance in the interior of the cavity to fit one (>2") so I went ahead and ordered two separate PSUs that should each fit inside the table. We'll see...<br><br></div>We will begin testing the electronics setup during CHM on 04/20/2015 using bread boards to see if we are heading in the right direction.<br></div><div class="gmail_extra"><br><div class="gmail_quote">On Mon, Apr 13, 2015 at 9:23 AM, Torrie Fischer <span dir="ltr"><<a href="mailto:tdfischer@hackerbots.net" target="_blank">tdfischer@hackerbots.net</a>></span> wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">I don't have much familiarity with WS2812 strips yet, just LPD8806. Those are<br>
the kind that I've installed in the space. I'm totally out of free LPD8806s,<br>
having just recently assembled most of my rolls into two more skylighting<br>
cells.<br>
<br>
Like Mitch said, you'll want to wire up your capacitors in parallel with your<br>
VCC/GND lines:<br>
<br>
<br>
o--VCC-------o<br>
|<br>
+--- 1000uF<br>
---<br>
|<br>
o--GND-------o<br>
<br>
Electricity doesn't flow through a capacitor. To use the water analogy,<br>
imagine the capacitor as a section of pipe with an elastic impermeable<br>
membrane in the middle. Electricity will push up against it resulting in the<br>
membrane storing energy. Once the source is cut off, the membrane starts<br>
pushing its stored energy back into the system.<br>
<br>
Obligatory gif:<br>
<br>
<a href="http://upload.wikimedia.org/wikipedia/commons/c/c1/CapacitorHydraulicAnalogyAnimation.gif" target="_blank">http://upload.wikimedia.org/wikipedia/commons/c/c1/CapacitorHydraulicAnalogyAnimation.gif</a><br>
<br>
As a suggestion, you could just use a regular ATX PSU to power the whole<br>
system instead of two separate boxes. Yellow lines provide +12VDC and red<br>
provides +5VDC. they're usually very well regulated so you shouldn't need to<br>
worry too much about filter caps. There is a bin in the hack shelves full of<br>
PSUs just waiting to be repurposed for stuff like this :D<br>
<br>
Looking at the physical layout a bit more, I don't think you'll be able to get<br>
an LED strip to lay flat and make those curves. You'll need to snip some short<br>
1 or 2 LED segments and make a segmented turn. Tedious work, but c'est la vie.<br>
<div class="HOEnZb"><div class="h5"><br>
On Sunday, April 12, 2015 02:52:34 AM jarrod hicks wrote:<br>
> Hello Noisebridge discussers<br>
><br>
> My name is Jarrod and I mostly do woodworking projects at NB. So I am very<br>
> excited to finally be asking an electronics questions to the discussion<br>
> list. This is in regards to the Maker Faire booth table we're building. I<br>
> am new to LED/Arduino projects, but want to make sure I get a decent setup<br>
> put together so others can take things further that I can.<br>
><br>
> First, I have drawn a PDF diagram of how I think the electrical system<br>
> inside the table will go together. Here the location of it on the wiki:<br>
><br>
> <a href="http://noisebridge.net/images/1/1e/Noisebridge_Table_ElectricalDiagram_v1.pdf" target="_blank">noisebridge.net/images/1/1e/Noisebridge_Table_ElectricalDiagram_v1.pdf</a><br>
><br>
> 1. Does this power scheme make sense, is there a significantly better way?<br>
> I plan on installing over 4 meters of 60/Meter WS2812B strips. My count is<br>
> about 301 light sources (>5m). The documentation I have been reading makes<br>
> it clear that 4m is the max that I can power as a single strip. Based on<br>
> this I think I can separate the installation into 2 halves. To power theses<br>
> strips I am thinking I can connect them both to a single 5v 20a power<br>
> supply based on 301 lights x .06A = 18.06A at full white.<br>
><br>
> 2. Should I not use an Arduino Mega 2560 R3 to run this? I am concerned<br>
> that this has the headers installed, would this make the wiring difficult<br>
> or unreliable?<br>
> I read that the WS2812Bs will take up a fair about of the Arduino's memory<br>
> and that the UNO or Pro Mini with 2k SRAM may not be enough to allow<br>
> additional "libraries". This doesn't mean much to me yet, but the price<br>
> difference isn't too bad and I would like for others to be able to make<br>
> this LED installation do other things in the future, so unless there is a<br>
> "deal breaker" I am not aware of I will stick with it.<br>
><br>
> 3. This table will be connected to a 120VAC outlet for power. With the 5V<br>
> 20A LED power supply and the 12v Arduino power supply running, is there<br>
> still a decent amount of electricity left over from a typical 120VAC power<br>
> outlet to make it worth installing AC power outlets in the table?<br>
><br>
> I plan to buy parts very soon so any help is appreciated. Please let me<br>
> know if clarification is needed.<br>
><br>
> Cheers.<br>
<br>
</div></div></blockquote></div><br></div>