lugano
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- Nov 18, 2005
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Hello folks,
Yesterday a skilled technician came to my place and we did some measurements of my CLS II's (built in february 1990). I wanted to know what's their impedance related to frequency, and he did a full plot of both channels. You can see the curve below - it might be interesting for all CLS II owners.
Some remarks:
1) The 2 ML's are practically identical in their attitude - one is plotted in red, the other in blue and the 2 curves are practically the same.
2) We measured this with 1 watt, then tried with 4 watt - no change.
3) we also measured the mean value of the sound pressure level at which I normally listen - it's 91 dB. The sound pressure level at which you feel the need to get out of the room was measured, too: 95 dB.
4) As you can see on the plot, the impedance at 1 kHz is exactly 4 ohm. Then it begins to go down, reaching 2 ohm at 5 khz and there it remains, up to 20 khz.
Yesterday a skilled technician came to my place and we did some measurements of my CLS II's (built in february 1990). I wanted to know what's their impedance related to frequency, and he did a full plot of both channels. You can see the curve below - it might be interesting for all CLS II owners.
Some remarks:
1) The 2 ML's are practically identical in their attitude - one is plotted in red, the other in blue and the 2 curves are practically the same.
2) We measured this with 1 watt, then tried with 4 watt - no change.
3) we also measured the mean value of the sound pressure level at which I normally listen - it's 91 dB. The sound pressure level at which you feel the need to get out of the room was measured, too: 95 dB.
4) As you can see on the plot, the impedance at 1 kHz is exactly 4 ohm. Then it begins to go down, reaching 2 ohm at 5 khz and there it remains, up to 20 khz.
)
