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Les langues disponibles
Les langues disponibles
System examples
■ 2-channel system
CENTER UNIT
■ 2-channel + Subwoofer system
CENTER UNIT
■ Tri-mode
(High pass)
CENTER UNIT
6
English
Left speaker
Right speaker
Left speaker (High pass)
Right speaker (High pass)
Subwoofer
(L + R)
(Bridged)
Principle of Tri-mode
Subwoofer
Method of frequency band division using a coil and capacitor...in case of 6dB/oct. slope.
(L + R) (Bridged)
0 dB
-3 dB
Example:
When it is required to set a crossover frequency of 120 Hz using speakers with an
impedance of 4 ohms.
Prepare commercially-available coil and capacitor with the closest ratings to the
results calculated from the formula above. The capacitor rating should be as close as
possible to 331.25 (µF) and the coil rating should be as close as possible to 5.3 (mH).
• If you wish to bridge-connect a speaker, the speaker impedance must be no less
than 4 ohms. Connecting a speaker with an impedance lower than 4 ohms may
damage the unit.
• Be sure to connect capacitors to speakers to which high frequencies will be passed.
Failure to do so will result in a drop of the combined impedance with the subwoofer.
• Ensure that the withstand voltage and current ratings of the capacitors (C) and coils
(L) are sufficient.
■ High-power 2-channel subwoofer system
CENTER UNIT
Crossover Frequency
L
C
Frequency
159 x R
159000
L=
(mH)
C=
fc
fc × R
2CAUTION
Left subwoofer (Bridged)
Right subwoofer (Bridged)
Coil (L):
Passes low frequencies and blocks high
frequencies. (Low pass)
Capacitor (C):
Passes high frequencies and blocks low
frequencies. (High pass)
fc=Cut of Frequency (Hz)
(µF)
R=Speaker Impedance (Ω)
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