Al .. I havent been completely Transparent about my obsession with series resistance ...
My original post was nothing but an attempt to offer some incite on matching the metallurgy of the power cord to the wall outlet for a better compatibility
Any body that can afford Elrod Diamond series and PAD 25th anniversary certain has the ware with all to move above Hubble and Pass Seymour
When I stumbled upon the Receptilock I was intrigued by the advanced looking body shell which looks like ground up purpose built and intoxicated by the low resistance and grip numbers vs the other well known outlets
So why my obsession with low series resistance ... isnt resistance equated with the DC side ... if we were talking about AC current ... wouldnt we refer to the opposing force against the signal as Impedance and not Resistance
With my very limited knowledge Im guessing that if you know the L/C/R values you can calculate Impedance ... and if you held the L and C values dead fixed in place and varied the R value ... then Impedance would swing in the same direction as series resistance ... If the resistance goes up and L and C are held constant ... wouldnt impedance go up and vice versa
Let me ask this .. if series resistance rises does impedance also rise and do I want a power deliver component with a high or higher Impedance or a low or lower impedance for current delivery
.
My original post was nothing but an attempt to offer some incite on matching the metallurgy of the power cord to the wall outlet for a better compatibility
Any body that can afford Elrod Diamond series and PAD 25th anniversary certain has the ware with all to move above Hubble and Pass Seymour
When I stumbled upon the Receptilock I was intrigued by the advanced looking body shell which looks like ground up purpose built and intoxicated by the low resistance and grip numbers vs the other well known outlets
So why my obsession with low series resistance ... isnt resistance equated with the DC side ... if we were talking about AC current ... wouldnt we refer to the opposing force against the signal as Impedance and not Resistance
With my very limited knowledge Im guessing that if you know the L/C/R values you can calculate Impedance ... and if you held the L and C values dead fixed in place and varied the R value ... then Impedance would swing in the same direction as series resistance ... If the resistance goes up and L and C are held constant ... wouldnt impedance go up and vice versa
Let me ask this .. if series resistance rises does impedance also rise and do I want a power deliver component with a high or higher Impedance or a low or lower impedance for current delivery
.