Mackie S500 Speaker User Manual


 
S500 Series Loudspeakers
8
S500 Series Loudspeakers
A protection circuit is built into the S512, S515
andS525toprotecttheirhigh-frequencydriversfrom
excessive power. When tripped, the protection circuit
substantiallyreducesthepowertotheHFdriver.After
the driver cools to a safe operating temperature, the
protection circuit resets and normal operation resumes.
However, if the protection circuit senses excessive power,
itwilltripagain.Inthiscase,itisnecessarytoreduce
the power to the loudspeaker by either turning down the
gain controls on the power amplifier or turning down
the master volume control on the mixer or other sound
source.
CAUTION: The protection circuit is designed
toprotecttheHFdriverunderreasonable
and sensible conditions. Should you choose
toignorethewarningsigns(i.e.,frequentclipLED
indications on the mixer or power amplifier, excessive
distortion), you can still damage the drivers in the S500
Series loudspeakers by overdriving them past their
recommended amplifier power-handling ratings, or past
the point of amplifier clipping. Such damage is beyond the
scope of the warranty.
Amplifier Power
The S500 Series loudspeakers have three power-
handling numbers: continuous, program and peak.
So how much power do you really need to drive these
loudspeakers?Theanswertothatquestiondependson
what type of program material you are running through
the system and how loud it needs to be.
Some audio signals have lots of momentary peaks
whose amplitudes extend far above the average overall
level of the program. Percussion instruments are a
good example of this. Other types of signals, like highly
compressed rock music, have a higher average signal
levelwithfewerpeaks.Speechreinforcementrequires
less power overall, but involves large moment-to-
moment variations in level.
Assuming you want to use the full capability of the
loudspeaker, and the program contains at least some
momentary peaks, we recommend that you use an
amplifier that is rated at twice the continuous power
ratingoftheloudspeaker(into8ohms).FortheS512
loudspeakers, this would be 250 watts x 2 = 500 watts
perchannelinto8ohms.Thisensuresthattheamplier
can reproduce peaks that are 6 dB higher than the
continuous (rms) power-handling rating before clipping
occurs.
Protection
Recommended Power Ratings
• S512:500wattsinto8ohms(250wattsrmsx2)
• S515:600wattsinto8ohms(300wattsrmsx2)
• S525:1200wattsinto8ohms(600wattsrmsx2)
• S518S:900wattsinto8ohms(450wattsrmsx2)
Preventing Loudspeaker Damage
Speaking of clipping, this is likely the number one
cause of damage to loudspeakers. Clipping occurs when
the signal at the output of any device in the system
(not just the amplifier) reaches its maximum level. The
input signal to the device may continue to increase, but
the output simply stops, and is characterized by a “flat-
top” appearance to the waveform.
Clipping interrupts the motion of the transducer,
creating distortion and excessive heat in the driver,
which can damage it over time.
Some folks think that if they use a power amplifier
whose power rating is below the maximum power-
handling rating of the loudspeaker, then they can’t
possibly damage the loudspeaker. But if the amplifier is
driven into clipping, even a lower power amplifier can
damage the loudspeaker.
The bottom line is that to prevent damage to the
loudspeakers, you must have a properly operating sound
system. Proper operation of a sound system includes
being aware of types of audio signals being reproduced,
controlling the output levels accordingly, and operating
all the devices in the system so that no clipping occurs
within the signal chain.
Normal Sine Wave Signal
Clipped Sine Wave Signal