User Manual

ManualsBrandsRane ManualsAudioAC 23B (1998 version)

Manual-10

OPERATING INSTRUCTIONS

Selecting Crossover

Frequencies

Most speaker manufacturers supply low and/or high

frequency cut-off points for each driver, especially if these are

supplied in a system. These cut-off frequencies are based on

each driver’s performance at and beyond this point, with a

certain safety margin to accommodate more gentle filter

roll-offs and resultant higher output beyond the recommended

performance range.

The AC 23B utilizes 41-detent crossover frequency

selectors which are precision potentiometers. The detents will

assure consistent accuracy from Channel to Channel and unit

to unit. This is a distinct advantage over the continuously

variable designs with low-tolerance parts, possible knob

misalignment and panel screening variations. Even with 41

choices it is possible that the exact recommended crossover

frequency may not fall on one of the detents on the selector.

Not to panic, for these sound reasons:

1. The AC 23B possesses 24 dB/octave roll-off, so the

crossover points may be set to the nearest detent above or

below the recommended limit with virtually no hazard to

the driver or degradation in sound quality. If extremely

high power levels are expected, it is safer to defer to the

high frequency drivers and shift the crossover point up in

frequency rather than down.

2. Detents do not rely on knob alignment, silk-screen

accuracy, parallax and other variables which erode the

accuracy of continuously variable designs. Chances are that

even careful visual alignment on these will often yield a

frequency error greater than a full detent on the AC 23B.

3. If it is absolutely critical to obtain the exact crossover

frequency (Mil Spec., P.A., etc.), the selector can be

positioned between detents if necessary. This of course will

require the aid of a precision signal generator and other

equipment to verify the exact setting.

For best overall system results, try to choose the speaker

components so that each operates well within its recom-

mended limits. This will provide valuable leeway so that you

may move crossover points in order to fine-tune the system,

and will also yield higher system reliability. If at all possible,

beg, borrow or best yet always use some kind of realtime

analyzer to tune your crossover and fine-tune the system for

each different location with an equalizer. Refer to the follow-

ing pages for further alignment details.

Time Delay Adjustment

Procedure

Before jumping feet first into the realm of time delay and

how to adjust it, it might help to spend a moment here to

re-affirm why on earth this delay is really necessary. For a

short course on time delay, Linkwitz-Riley and other

mouth-watering details, we urge you to pick up a free copy of

the “Linkwitz-Riley Crossovers” RaneNote. Ask your dealer,

call us here at the factory, or download it from Rane's web

site.

Problems pop up when two different speakers emit the

same frequency as occurs in the crossover regions of two,

three, four and five way systems. Because the two drivers are

displaced vertically, cancellation occurs somewhere off-axis

because the sound waves have to travel different distances

from the two speakers and hence, will arrive out of phase.

This forms a “lobe” or radiation pattern, bounded on either

side by cancellation lines or axes, which narrow the disper-

sion pattern or listening area of the speaker.

Fine. So we put up with it. But to make matters worse,

when the two drivers are horizontally displaced – that is, one

is in the front of or behind the other, this “lobe” or dispersion

pattern gets tilted (usually upward) toward the driver that is

further behind. This gets hard to put up with, because the end

result is that your speaker system will have two, three, four or

more tilted radiation patterns and only two or three people in

the house will have decent seats. And we’re not talking trivial

pursuits here—this rampant lobing error can make a sound

system a real headache to listener and operator alike.

The idea, then, is to be sure that all drivers are vertically

aligned and that all components are always in phase. Then all

the main lobes are on-axis, well behaved, and the system

enjoys the widest possible dispersion pattern so that everyone

gets good sound. The one catch is that in many cases it is

physically or otherwise impossible to get all the drivers

vertically lined up at the sound source. This is where time

delay comes in.

By electronically delaying the signal going to the front

driver, enough time allows the sound from the rear driver to

literally catch up to the forward driver’s voice coil, so that

signal from both drivers is emitted in phase—and it works!

Time delay makes an appreciable improvement in overall

sound. The trick is finding the proper time delay amount:

hence the rest of this section.

Unfortunately the amount of time delay is a function of

two factors (life ceased to be simple after age 9, right?): the

amount of horizontal displacement between driver voice coils,

and the actual crossover frequency involved. Setting delay

controls by ear is supposedly possible, but very tricky and

unreliable. The following methods are a couple of (but by no

means all) means of setting time delay.