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7. Low Frequency (LF) Equalization
Low frequency bass channel equalization and crossover is accomplished in two active filter
stages.Thefirststageconsistsofop-ampU3(pin5,6,7),capacitorsC9and C10andresistors
R19, R20, and R21. It creates the sharp band-reject attenuation below 50 Hz. The second
stageconsistsofop-ampU5(pin1,2,3)capacitorsC13andC14,andresistorsR24,R25,R26
and R27. It acts as a combination 2nd order 50 Hz high-pass and 200 Hz low-pass filter. The
combined response of these two stages is shown in the bass channel frequency response
graph in Figure 1 on page 5.
8. Auto Turn-On/Off Mute
Animprovedversionofautoturn-on/offisusedintheAM-3PII.Aseparate3.5mmstereomini-
jack(J7)isusedtoreceivetheturn-onsignalfrom the serial data outputofthe Lifestyle®music
center. When the 3.5 mm plug is inserted, the audio sense circuit is disabled and the amplifier
outputs will only unmute if the DC control signal is present at J7 pin 3. This action occurs
through the built-in DPDT switch in J7 which connects J7 pin 3 directly to the Q9 mute circuit.
Therefore, the system is not subject to random false turn-on (from electrical noise, etc.) when
used with the Lifestyle®music center.
WhentheAM-3PIIisusedwithasourceotherthantheLifestyle®musiccenter,thestereomini-
plug is not inserted into the jack, and therefore mute transistor Q9 is directed to the output of
the audio detect comparator U6 (pin 5, 6, 7). This comparator uses hysteresis to achieve a
positive turn-on of at least 90 seconds before the system will revert to stand-by (mute) mode
after removal of the audio signal.
9. Compressor Detect
Theoutputofeachleft/rightamplifierishalf-wavedetectedthroughdiodesD108 and208.This
voltage is divided down by R53 and R54 and presented at the emitter of Q12. Power supply
voltage is similarly divided down by R50 and R51 and presented at the base of Q12. Diodes
D13 and D14 simulate the saturation voltage drop that occurs in the power amp stage.
Therefore, when the audio output of any amplifier comes within 2 volts of the instantaneous
power supply voltage, Q12 will conduct. This signals the compressor (limiter) to act. Current
from Q12 charges hold capacitor C35 and releases capacitor C36. Voltage at C35 is buffered
bytransistorU1 (pins5,6,7) and decreaseddowntoalogarithmicvoltagebyresistorR67 and
diodeU1 (pins12,13,14).This voltage isthen presented tothe base ofcompressor transistors
U1 (pins 1, 2, 3) and U1 (pins 8, 9, 10) which are described in the compressor section.
TheDCcontrolvoltagepresentacrosscapacitorC35isderivedthroughtheuseofanimproved
hold and release characteristic, resulting in lower compressor distortion. In conventional
limiters, this DC control voltage is derived by a simple series diode and parallel RC network to
ground. Unfortunately, for low frequency overload, this results in substantial ripple voltage
presentontheDCgaincontrolvoltage.Thisresultsinthealltoocommonproblemofmid-range
voices or instruments being badly “modulated” by low frequency overload. This problem is
solved by having two separate capacitors, one that “holds” the smooth DC voltage just long
enoughtopreventlowfrequencyripple(approximately40ms)andtheother(C36)whichquickly
releases the hold capacitor (through diode D17) at the proper time to maintain overall 100ms
release time.
