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In lugnet.robotics, Philippe Hurbain wrote:
> Good thing, the load is not inductive.
No, purely resistive. Although it does have a "boot up" time, I think it's just
due to heating up the element. I'm not completely sure if the element will
respond better to a "dimmer" type set-up (running it at less than normal
voltage) or a "pulsed" set-up with a relay... but with the relay I'd have
all-electronic NXT-based control, which I really like.
> Looks like some people do:
> http://www.amazon.com/Leviton-61500-I-Single-Pole-Electro-Mechanical-Incandescent/dp/B003AUDF0Y/ref=sr_1_1?ie=UTF8&s=hi&qid=1294925232&sr=1-1
Wow! Thank you, I didn't realize they made those (although they aren't cheap...
but it's at least viable).
> Fortunately no, they are not dissipating all the power not going
> in the load!
Thanks for that tidbit as well... I wasn't aware of that, and was worried about
it.
--
Brian Davis
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Message has 1 Reply:
 | | Re: Motors comparison page updated
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| (...) I have come across some industrial heater controls. To get the heaters at part power (to run them in a closed-loop temperature control), a method of burst firing is used. The circuit measures the zero crossings of the AC supply and turns the (...) (14 years ago, 25-Feb-11, to lugnet.robotics)
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Message is in Reply To:
| | Re: Motors comparison page updated
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| (...) Good thing, the load is not inductive. (...) OK, with a 1 second cycle time, and pure on/off, it is simpler. All you need is a solid state relay. (...) Looks like some people do: (URL) and worse, most of these dimmers work by dissipating and (...) (14 years ago, 13-Jan-11, to lugnet.robotics, lugnet.org.us.smart)
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