Page 56 5 Series
5 Series 5 Series
5 Series Operator’s Manual
Crossover Filter Slopes
It should also be noted that the turnover frequency displayed on the screen is the -3dB point for all types except Linkwitz-
Riley where the -6dB point is shown. If the -6dB point is to be used for the Bessel or Butterworth filter, take the required
crossover frequency, multiply this by the appropriate factor from the following table and then select the closest available
frequency on the display.
Please note that unlike conventional analogue crossovers, crossover points and slopes are set with absolute accuracy since
component tolerance problems do not occur.
Please see page 22 for details of how to adjust the high and low pass crossover filter settings.
Time Alignment
A further advantage of the 5 Series
5 Series 5 Series
5 Series over conventional products is the provision of an independently adjustable delay
section for each output. This allows the true arrival time from multiple drivers to precisely aligned rather than relying on
the compromise 'phase adjust' approach. Delay time is adjustable in 0.3µS steps (0.1mm).
Please see page 21 for details of how to adjust the delay times.
To convert from units of time (i.e. milliseconds) to units of distance use the following formula:
1 millisecond = 343mm (1.126ft) @ 20°C (68°F)
To calculate time delay for a known distance, use:
Time delay = Distance in meters
20.06 x √273+°C
where °C is the temperature in °C.
To simplify this equation at 20°C.
Delay time in milliseconds =
(Distance in meters x 2.192) or (Distance in feet x 0.955)
Note: Centigrade = (Fahrenheit –32) x 0.5555.
Remember that input delays are not available when in “Full Matrix” mode.
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