3Com iQ 10 Refrigerator User Manual


 
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12. System Configurations & OEM Controllers
Passive or Biamp?
The iQ 10 is supplied as standard for bi-amp operation, therefore there is no internal
passive crossover network between the mid & hf units. The Bi-amp controller
parameters below must be adhered to for optimum performance.
An optional iQ 10P (passive version) can be ordered if (part no. 8001 2210)
A loudspeaker driven in Biamp mode offers a number of performance advantages,
such as increased system headroom. Audio program materiel is made up of many
different frequencies and harmonics. In music materiel, most of the energy is in the
low frequencies, with less in the highs. When both high and low frequencies are
present in a signal, the stronger low frequencies can use up amp power, leaving little
or no reserve for the highs, so they are more likely to cause the power amplifier to
clip. In a Biamp driven system, a smaller amp can handle high frequencies, LF amp
clipping is less of a factor, and less overall amplifier capacity is needed due to the
efficiency improvement in the absence of a passive crossover.
Bi-amp System Parameters (iQ 10 & iQ 10C)
Parameter Unit/Name Mid Section High Section
Gain
(dB) 0 0
Delay*
(ms) 3.669 3.578
Polarity
Positive Positive
HPF
Freq (Hz) 180 2820
Slope (dB/oct) 24 24
Filter Shape Linkwitz Riley Linkwitz Riley
LPF
Freq (Hz) 2820 Thru
Slope (dB/oct) 24 NA
Filter Shape Linkwitz Riley NA
Freq (Hz) 354 7080
Level (dB) +1.7 +5
Type Parametric Parametric
PEQ 1
Q / Bandwidth 0.8 / 1.25 3.1 / 0.32
Freq (Hz) 1120 17800
Level (dB) -2 +6
Type Parametric Parametric
PEQ 2
Q / Bandwidth 2 / 0.5 2.5 / 0.4
ÄNote Apply only when an iQ 10 is stacked directly on top of an iQ 18B Sub bass. Otherwise apply 0.1ms
to the Midrange and then any other required delay to compensate for distance between relevant sources.