Plus you paid through the %%5** to do it! ;-)
Thanks everyone I really had an uproarious chest filling laugh reading many of these threads; and a bit of true wisdom dust sometimes gets posted too. ;-)
synergistic research orange blue fuse direction.
Well of course one could do all the Deities a Dervish like homage by spending your money, take the product, bend over looking ever so diligently true North while noting the proper fuse holder aperture, insert said fuse into ......, stand up carefully allowing head to under body part clearance, praise yet again those Deities, flick the power switch with your most devil may care nonchalance; safe in the knowledge you've done your directional neutron proton transfer function BEST! Plus you paid through the %%5** to do it! ;-) Thanks everyone I really had an uproarious chest filling laugh reading many of these threads; and a bit of true wisdom dust sometimes gets posted too. ;-) |
cheeg: OK, I’ve been waiting for someone else to ask the obvious “dumb” question, but since none of you are volunteering, here goes: if it’s an AC signal, why does the directionality matter? The idea being, since its AC its alternating, back and forth, forth and back, what's the diff? That about it? In a nutshell? Okay so well first off in a house wired 120v the panel has 240v coming in with the breakers on the left connected to one 120v leg, the breakers on the right connected to the other 120v leg, and the 240v breakers taking up two spaces because they connect to both legs. Got it? Okay. So even taking the back and forth point of view they are not all the same. One swings one way. One swings the other. (As Seinfeld might add, "Not that there's anything wrong with that.") But what about 240v? What about the (admittedly rare) systems like mine where 240v steps down to 120v? There is no "leg" with a transformer. Well the answer is even then the power coming in one wire is positive, the other ground or negative. In any case the AC coming into all components, the first thing it does is go through a transformer (to get whatever voltage the component uses) then to some diode rectifiers and then to some power supply caps. Because all components, even though plugged into AC, they all run on DC. But you knew that, right? ;) So there's your flow. |
So from negative to positive... that I knew. I did read the whole thread before posting. Quite funny and interesting. Still going to test one.... Anyone got a rental fuse? What’s is the return policy on fuses from SR? I did read, not long ago, someone bought a blue receptacle with the carbon fiber plate and said it looked like a three year old painted it blue and the carbon looked horrible. I did notice Kimber Kable has outlets. After I run my new dedicated breaker and wire I think I’ll try one from them. Any other manufacturers make good quality outlets? |
@millercarbon I read your explanation twice, which is two times more than it deserves, and in those two readings I could not find a hint of an answer to the simple question fistatus1 posted. Just nonsense. And then when you finally do try to actually answer you go completely off the rails and talk about converting to DC - ignoring the fact that the majority of fuses are on the incoming AC line, not on the rectified and filtered DC. Your lack of understanding makes you a perfect candidate for the pseudo-scientific claims foisted by Ted Denney and his Synergistic Research con men. |
jerrybjReally!!! And they are suppose believe someone that does this to his system?? What a laugh! No, Really! What a laugh!
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