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Manual-4

Mid range

Amplitude (dB)

100 

H

z F

ilter

Frequency (Hz)

Low pass

Sub

High pass

Low/Mid

Mid/High

Crossover Philosophy

Now it gets real fun. The idea is to set the output LEVEL 

controls on the crossover so that the entire speaker system has 

a uniform, flat response. Unfortunately, the 

room 

 in which the 

speakers are placed has a habit of always getting into the act, so 

things get messy. As a result there seems to be two schools of 

thought regarding the use of active crossovers.

The Set‑lt‑Once‑And‑Glue‑lt School

The philosophy here is to use the crossover to flatten system re-

sponse as much as possible 

without

 room acoustics involved. This 

means setting up the system outside (unless you happen to have 

very

 large anechoic chamber handy) and with the aid of a real-

time analyzer and pink noise source, adjust all of the crossover 

outputs so that the system is as flat as possible. Once the system 

is tuned, the crossover is then locked behind a security cover 

(posted guard is optional) and never again touched. It is then the 

job of the system

 equalizer(s)

 to normalize or flatten the response 

for each different room.

The Fix‑lt‑With‑The‑Crossover School

Here the crossover knobs get a good workout, for the crossover 

is used at each location to help flatten the system along with the 

equalizer.

Regardless of which school you profess, the absolute impor-

tance and effectiveness of some kind of realtime analyzer in your 

system cannot be overstressed! An analyzer saves tremendous 

amounts of time and provides the absolute consistency, accuracy, 

and plain old good sound that very few ears on this earth can 

deliver. They are affordable, easy to use and amazingly effective. 

You owe it to yourself and your audience to at least look into one 

of today’s cost-effective analyzers—you’ll wonder how you man-

aged at all without one.

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, with a certain safety margin to accommodate more 

gentle filter roll-offs.

The SAC 23 utilizes 31-position precision DC control voltage 

potentiometers to select the frequency points. This crossover 

design assures consistent accuracy from channel-to-channel and 

unit-to-unit. This is a distinct advantage over continuously vari-

able designs using ganged potentiometers which can yield large 

variations in channel-to-channel matching. Even with 31 choices 

it is possible that the exact recommended crossover frequency 

may not fall on one of the selector detents. Not to panic, for 

drivers have their own gradual rolloffs and tolerance variations. 

Just pick the closest one. When in doubt, choose the higher 

frequency setting.

 For best overall system results, try to choose the speaker 

components so that each operates well within its recommended 

limits. This provides valuable leeway so that crossover points 

may be adjusted in order to fine-tune the system. This also yields 

higher system reliability. If at all possible, always use some kind 

of realtime analyzer to tune your crossover, and then fine-tune 

each system with an equalizer. Keep reading for further align-

ment details.

Setting the Output Level Controls

The INPUT LEVEL is an overall system sensitivity adjustment. 

Use this control to decrease the overall sensitivity of the entire 

sound system, including the mono subwoofer if you are using 

one. You will generally want to start with this control in the full 

clockwise (or “10”) position.

The LOW, MID, HIGH, and MONO SUB OUTPUT 

LEVEL controls allow you to compensate for sensitivity varia-

tions in amplifiers and drivers. Do not use these to adjust overall 

system sensitivity unless you plan to re-align the system after-

ward. With these set to the 0 dB mark and the INPUT LEVEL 

set to 10, the crossover yields no level change from input to 

output. This is the best gain structure and provides the best 

signal-to-noise performance.

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