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Ray,I fully understand that you cannot see what is going on, however, I hope my descriptions make it fairlly clear what what I am doing Please feel free to ask away, if anything isn't clear!Hugh,I know about the Zobel corrections, and I will try with and without. For the tweeter, which will be replaced with the newest Scan-Speak beryllium dome tweeter that has a neodymium magnet system, there will probably not be much to gain. The current micdrange driver will be replaced with an Accuton ceramic driver (weighing around 3.5 kilos!). For this driver, there might be something to be had. However, this driver will be operating in an enclosure with an 'acoustic valve' (a dampened opening in the enclosure, which evens out the impedance peak), so the effect may be cancelled out by the passive components that are introduced. However, I will try it out!For the bass drivers - I don't know if there is anything to be had there ... Cheers,Jens
Hi Ray,I make my own interconnects. These are twisted to minimize capacitance issues. Also, the x-over inputs are designed with long interconnects in mind.I will need to shield the interconnects, but that is not an issue Cheers,Jens
With respect, Jens, if you are twisting 'hot' & 'ground' wires of your IC together, you are generating almost maximum 'C'. (The only configuration with higher 'C' would be foil ICs where the '+' & '-' foils are separated only by, say, 1 layer of plumber's teflon tape.)You need to space the wires apart to reduce 'C'. (BTW, this naturally increases 'L' but this is irrelevant in an IC, due to the extremely low current flowing.)Regards,Andy
Really?I've always been told that twisting reduces capacitance, but increases inductance ...However, it may turn out not to be a problem, since the long interconnect run will be between my GK-1R preamp and the x-overs, as this is what the x-over manufacturer recommends. I know of a few people that use these x-overs with long interconnects with no problems at all, i.e. no loss of high frequency (which could be the danger if capacitance goes too high). They all use interconnects that are either twisted or just standard parallel runs (supposedly worse than twisted).I'll try it out - haven't had any problems with long interconnects in the past. I even used to have a 10 metre shielded, standard, parallel-run interconnect from my hifi video recorder to my stereo system. This worked beautifully Cheers,Jens
I have a similar situation to you, Jens, in that I have 11m ICs between my GK-1 and the active XOs.I have no sonic problems (ie. HF roll-off) because:a) I use low-C cable (although, yes, the fact that the ICs are 11m long makes them have a higher 'C' than many other people have), andb) My Zin/Zout ratio is very high. Zout of the GK-1 is 120ohms, I believe; Zin of the active XOs is 100K. Hence my ratio is >800 ... and this high a ratio can cope with the relatively high total 'C' with no problems. And re. twisting and 'C' and 'L':* high 'C' and low 'L' results from having the two conductors very close together. (Foil cables are the best example of this.)* low 'C' and high 'L' result from spacing the two conductors apart. (Naim NAC-5 is a good example of this, for speaker cable.)Regards,Andy
Jens,Let us hope the transit is swift and secure, and that they arrive without damage. It's a long way from Oz to Denmark!! I received word yesterday from Miro in Ljubliana that his NAKSA 100s made it through safely just yesterday! I'm very happy; he is hooking them up this weekend, so very soon we shall have his assessment!These really are stunning performers, with a level of bass output, midrange liquidity and top end clarity that is a revelation. It's Saturday night and I've just started on the next ten modules, with more orders swiftly coming on..... Cheers,Hugh
Hi Ray,I use color coded multistrand high current wire I source locally, six nines copper, rated to 25A continuous. I have not noticed differences with the short runs used inside amps with the one exception of milspec aeronautical wire (Whitmore and Tygadure) which is silver coated copper, with teflon insulation. That seems to sound quite tizzy.YMMV, of course, but wire and cable choices become more significant with longer distances - like speaker cables.Cheers,Hugh
Hi Ray,I use about 6" of coax for inputs, and around 8" for outputs, left and right channels. Power supply leads are around the same length.Not a lot, in truth, most important qualities are EMI resistance for signal wire, and low DCR for all other leads. The output inductor and 10R resistor are inserted into the hot output wire.Cheers,Hugh
The inductor is a useful tool. It prevents EMI entering the amplifier from the oft unshielded speaker cables; they act as an aerial. Secondly, at very high frequencies, supersonic, should there be any transient instability in the amp, the inductor prevents the amp 'seeing' the highly reactive load of the speaker, with its voice coil inductance and high capacitance values in the crossover. This tends to stomp on oscillations before they do any damage.Any feedback amp should carry an inductor on its output, typically 1uF to abour 7uH, depending on the design. I use 1.4uH. The jury is out whether you can 'hear' any bad effects from this inductor, but I find that designing for worst case is only prudent.Cheers,Hugh
Hi Hugh,For an application with virtually no speaker cables (only approx. 20 cms) and no x-over (i.e. no capacitance) between amp and driver - do you think it would be safe to remove the inductor?Cheers,Jens
Andy, Jens,In the case of Maggies, absolutely, IF there is a 3.3nF cap across the speaker terminals to short out any RF which might be picked up and otherwise radiated into the amp.For conventional drivers, yes, you could try it with and without, but the NAKSA inductors are just 1.5uH, not big, and I rather doubt you'd hear a difference, but it's surely worth a try.The NAKSA has reduced global feedback, just 31dB, and a VERY low impedance feedback network, making it very difficult for EMI to get into the amplifier. These features make it possible to delete the output inductor, BUT, you need to verify first if there is an audible difference with it and without it.As you note, my conservatism and extreme caution is showing. After 15 years in this game, I've seen some might interesting things happen, so I'm very aware that problems lurk at every turn!!Hugh
Hi Hugh,Thank you for this input. I will try it once I have the NAKSA modules mounted on the rear of the speakers, which should make it very easy to bypass the inductor. Theoretically, I believe an inductor affects dampening factor, but I'm not sure how much. Anyway, an inductor is a passive component I would prefer to be without in an all-out active setup Andy, if you get to try it out before me, kindly post results here Cheers,Jens
