FAN7031 Fairchild Semiconductor, FAN7031 Datasheet - Page 16
FAN7031
Manufacturer Part Number
FAN7031
Description
2W Stereo Power Amplifier with Four Selectable Gain Setting and Headphone Drive
Manufacturer
Fairchild Semiconductor
Datasheet
1.FAN7031.pdf
(20 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
FAN7031MTFX
Manufacturer:
FAIRCHILD/仙童
Quantity:
20 000
FAN7031
Functional Description
The FAN7031 is a stereo 2W amplifier capable of delivering 1.85W continuous RMS power into a 4-ohm load. This
device has less than 0.75% THD+N across the entire frequency range at an output power of 1W. A thermally
enhanced TSSOP package is used to allow for maximum dissipation of package heat.
Gain selection is achieved by driving G0 and G1 inputs according to the table below.
Gain select pins are activated only when SE/BTL pin is set to low level. If SE/BTL pin is high, the amplifier configu-
ration is changed as SE(single-ended) mode and the gain of SE amplifier is fixed to 4.3dB (about 1.64).
Gain is varied by changing the taps on input resistors, and such change in gain will cause variation in the input
impedance. Input impedance (Zin) is described in the above table. The impedance variation determines amplifier
lowest bandwidth. Thus, input DC decoupling capacitors must be carefully selected.
Applications Information
PCB Layout and Supply Regulation
Metal trace resistance between the BTL output and the parasitic resistance of the power supply line both heavily
affect the output power. In order to obtain the maximum power depicted in the performance characteristics figures,
outputs, power and ground lines need wide metal trace. The parasitic resistance of the power line increases ripple
noise and degrades the THD and PSRR performance. To reduce such unwanted effect, large capacitor must be
connected between V
use a low ESR capacitor.
Power Supply Bypassing
Selection of proper power supply bypassing capacitor is critical to obtaining lower noise as well as higher power
supply rejection. Larger capacitors may help to increase immunity to the supply noise. However, considering eco-
nomical design, attaching 10µF electrolytic capacitor or tantalum capacitor with 0.1µF ceramic capacitor as close
as possible to the VDD pins are enough to get a good supply noise rejection.
Selection of Input Capacitor
Input capacitor blocks DC signal also low frequency input signal. Thus, this capacitor acts as a high pass filter. The
-3dB frequency of this filter is determined by input capacitor and input impedance of the amplifier. The frequency is
As shown previously, the input impedance is changed by selecting gain. Considering smallest Zin (=15kW), the
capacitance which meets f
the lowest frequency of audio signal can be amplified without gain loss.
16
f 3dB
–
G0
X
0
0
1
1
=
---------------------------- -
2π Zin C
⋅
1
⋅
G1
X
0
1
0
1
DD
pin and GND pin as close as possible. To improve power supply regulation performance,
-3dB
SE/BTL
frequency of 20Hz is 0.53uF. Thus, selecting the capacitance higher than 0.53uF,
0
0
0
0
1
10.3dB
15.6dB
21.6dB
4.3dB
6dB
A
V
90kΩ
55kΩ
30kΩ
15kΩ
55kΩ
Zin
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