External Components Description
(Figure
1
and
Figure 2)
Components
1.
2.
3.
4.
5.
R
IN
R
A
C
A
C
R
B
Functional Description
Acts as a volume control by setting the voltage level allowed to the amplifier’s input terminals.
Provides DC voltage biasing for the single supply operation and bias current for the positive input terminal.
Provides bias filtering.
Provides AC coupling at the input and output of the amplifier for single supply operation.
Prevents currents from entering the amplifier’s non-inverting input which may be passed through to the load
upon power-down of the system due to the low input impedance of the circuitry when the under-voltage
circuitry is off. This phenomenon occurs when the supply voltages are below 1.5V.
Reduces the gain (bandwidth of the amplifier) at high frequencies to avoid quasi-saturation oscillations of
the output transistor. The capacitor also suppresses external electromagnetic switching noise created from
fluorescent lamps.
Inverting input resistance to provide AC Gain in conjunction with R
f1
.
Feedback capacitor. Ensures unity gain at DC. Also a low frequency pole (highpass roll-off) at:
f
c
= 1/(2πRi Ci)
Feedback resistance to provide AC Gain in conjunction with Ri.
At higher frequencies feedback resistance works with C
f
to provide lower AC Gain in conjunction with R
f1
and Ri. A high frequency pole (lowpass roll-off) exists at:
f
c
= [R
f1
R
f2
(s + 1/R
f2
C
f
)]/[(R
f1
+ R
f2
)(s + 1/C
f
(R
f1
+ R
f2
))]
Compensation capacitor that works with R
f1
and R
f2
to reduce the AC Gain at higher frequencies.
Mute resistance set up to allow 0.5 mA to be drawn from pin 8 to turn the muting function off.
→
R
M
is calculated using: R
M
≤
(|V
EE
| − 2.6V)/I8 where I8
≥
0.5 mA. Refer to the Mute Attenuation vs.
Mute Current curves in the Typical Performance Characteristics section.
Mute capacitance set up to create a large time constant for turn-on and turn-off muting.
Works with C
SN
to stabilize the output stage by creating a pole that eliminates high frequency oscillations.
Works with R
SN
to stabilize the output stage by creating a pole that eliminates high frequency oscillations.
f
c
= 1/(2πR
SN
C
SN
)
Provides high impedance at high frequencies so that R may decouple a highly capacitive load and reduce
the Q of the series resonant circuit due to capacitive load. Also provides a low impedance at low
frequencies to short out R and pass audio signals to the load.
Provides power supply filtering and bypassing.
Mute switch that mutes the music going into the amplifier when opened.
6.
C
C
(Note 17)
Ri
Ci
(Note 17)
R
f1
R
f2
(Note 17)
C
f
(Note 17)
R
M
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
C
M
R
SN
(Note 17)
C
SN
(Note 17)
L
(Note 17)
R
(Note 17)
C
S
S1
Note 17:
Optional components dependent upon specific design requirements. Refer to the Application Information section for more information.
OPTIONAL EXTERNAL COMPONENT INTERACTION
Although the optional external components have specific desired functions that are designed to reduce the bandwidth and elimi-
nate unwanted high frequency oscillations they may cause certain undesirable effects when they interact. Interaction may occur
for components whose reactances are in close proximity to one another. One example would be the coupling capacitor, C
C
, and
the compensation capacitor, C
f
. These two components act as low impedances to certain frequencies which will couple signals
from the input to the output. Please take careful note of basic amplifier component functionality when designing in these compo-
nents.
The optional external components shown in
Figure 2
and described above are applicable in both single and split voltage supply
configurations.
7
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