Yeah, so what's the new motor? I haven't been by in a few days. <br><br>Is this just another buzzer, or some kind of rotationally-driven mechanical actuation?<div><br></div><div>Either way, sounds like some cool progress is being made. </div>
<div>Awesome!</div><div><span></span><br>On Sunday, July 14, 2013, Henner Zeller wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">On 14 July 2013 20:53, Martin Bogomolni <<a href="javascript:;" onclick="_e(event, 'cvml', 'martinbogo@gmail.com')">martinbogo@gmail.com</a>> wrote:<br>
> Quick thing--<br>
><br>
> Remember that Fire Code requires that any electric door strike, or<br>
> magnetic strike, must allow someone to leave without being impeded in<br>
> a panic. On magnetic doors, this requires a panic push bar that<br>
> physically breaks the electrical connection. On mechanical electric<br>
> strikes, this requires that either a pushbar or simple lever be<br>
> pushed/rotated to bypass the electrical lock.<br>
<br>
The regular lock will just work the way it is now - by rotating the lever.<br>
<br>
-h<br>
<br>
><br>
> -M<br>
><br>
> On Sun, Jul 14, 2013 at 10:41 PM, Jake <<a href="javascript:;" onclick="_e(event, 'cvml', 'jake@spaz.org')">jake@spaz.org</a>> wrote:<br>
>>> The motor Scotty found takes about 300mA at 6V when free-running (so<br>
>>> for no-load 'return', maybe 500mA with load). It runs about 1 second<br>
>>> for the amount of time we need. That is about 1.8 Joules.<br>
>>> Say we can charge up a capacitor to 18 V (peak voltage of a bit more<br>
>>> than 12 V AC) and drain it down to 4 V (when this particular motor<br>
>>> just works), then we'd need about 20'000 microfarad ( 2 * 1.8 joules /<br>
>>> ((18 - 4) volt)^2 ). The calculation would be similar for other<br>
>>> motors found in the pile.<br>
>><br>
>><br>
>> there are at least ten 1000 microfarad capacitors rated at 50 volts in the<br>
>> pile, and i can certainly find more. But i think the math is more<br>
>> complicated. But since it's based on voltage squared, one 50 volt 1000 uF<br>
>> capacitor is the same energy as a 20,000 uF capacitor rated at 11.1 volts.<br>
>><br>
>> anyway that motor sounds hella weak. The motor i already mounted on the<br>
>> door is rated 24 volts and probably can take a good amp or two at least,<br>
>> which is a lot more power.<br>
>><br>
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</blockquote></div>