參數(shù)資料
型號: LM4873
廠商: National Semiconductor Corporation
元件分類: 運動控制電子
英文描述: Dual 2.1W Audio Amplifier Plus Stereo Headphone Function
中文描述: 雙2.1W音頻功率放大器加立體聲耳機功能
文件頁數(shù): 11/19頁
文件大小: 532K
代理商: LM4873
Application Information
(Continued)
livered to the load. For example, with a 4
load and 0.1
of
trace resistance in each output, output power at the load
drops from 2.1W to 2.0W
Output power is also dependent on supply regulation. To
keep the supply voltage from sagging under full output
power conditions, the supply traces should be as wide as
practical.
BRIDGE CONFIGURATION EXPLANATION
As shown in Figure 1 the LM4873 has two pairs of opera-
tional amplifiers internally, allowing for a few different ampli-
fier configurations. The first amplifier’s gain is externally con-
figurable, while the second amplifier is internally fixed in a
unity-gain, inverting configuration. The closed-loop gain of
the first amplifier is set by selecting the ratio of R
to R
while
the second amplifier’s gain is fixed by the two internal 20 k
resistors. Figure 1 shows that the output of amplifier one
serves as the input to amplifier two which results in both am-
plifiers producing signals identical in magnitude, but out of
phase 180. Consequently, the differential gain for each
channel of the IC is
A
VD
= 2
*
(R
f
/R
i
)
By driving the load differentially through outputs +OutA and
OutA or +OutB and OutB, an amplifier configuration com-
monly referred to as “bridged mode” is established. Bridged
mode operation is different from the classical single-ended
amplifier configuration where one side of its load is con-
nected to ground.
A bridge amplifier design has a few distinct advantages over
the single-ended configuration, as it provides differential
drive to the load, thus doubling the output swing for a speci-
fied supply voltage. Four times the output power is possible
as compared to a single-ended amplifier under the same
conditions. This increase in attainable output power as-
sumes that the amplifier is not current limited or clipped. In
order to choose an amplifier’s closed-loop gain without caus-
ing excessive clipping, please refer to the
Audio Power Am-
plifier Design
section.
A bridge configuration, such as the one used in LM4873,
also creates a second advantage over single-ended amplifi-
ers. Since the differential outputs, +OutA, OutA, +OutB,
and OutB, are biased at half-supply, no net DC voltage ex-
ists across the load. This eliminates the need for an output
coupling capacitor which is required in a single supply,
single-ended amplifier configuration. If an output coupling
capacitor is not used in a single-ended configuration, the
half-supply bias across the load would result in both in-
creased internal IC power dissipation as well as permanent
loudspeaker damage.
POWER DISSIPATION
Whether the power amplifier is bridged or single-ended,
power dissipation is a major concern when designing the
amplifier. Equation 1 states the maximum power dissipation
point for a single-ended amplifier operating at a given supply
voltage and driving a specified load.
P
DMAX
= (V
DD
)
2
/(2
π
2
R
L
):
However, a direct consequence of the increased power de-
livered to the load by a bridge amplifier is an increase in in-
ternal power dissipation. Equation 2 states the maximum
power dissipation point for a bridge amplifier operating at the
same given conditions.
P
DMAX
= 4
*
(V
DD
)
2
/(2
π
2
R
L
):
Single-Ended
(1)
Bridge Mode
(2)
Since the LM4873 is a dual channel power amplifier, the
maximum internal power dissipation is 2 times that of Equa-
tion 1 or Equation 2 depending on the mode of operation.
Even with this substantial increase in power dissipation, the
LM4873 does not require heatsinking. The power dissipation
from Equation 2, assuming a 5V power supply and an 8
load, must not be greater than the power dissipation that re-
sults from Equation 3:
P
DMAX
= (T
JMAX
T
A
)/
θ
JA
For packages M16A and MTC20,
θ
JA
= 80C/W, and for
package N16A,
θ
= 63C/W. T
= 150C for the
LM4873. Depending on the ambient temperature, T
, of the
system surroundings, Equation 3 can be used to find the
maximum internal power dissipation supported by the IC
packaging. If the result of Equation 2 is greater than that of
Equation 3, then either the supply voltage must be de-
creased, the load impedance increased, or the ambient tem-
perature reduced. For the typical application of a 5V power
supply, with an 8
bridged load, the maximum ambient tem-
perature possible without violating the maximum junction
temperature is approximately 48C provided that device op-
eration is around the maximum power dissipation point and
assuming surface mount packaging. Internal power dissipa-
tion is a function of output power. If typical operation is not
around the maximum power dissipation point, the ambient
temperature can be increased. Refer to the
Typical Perfor-
mance Characteristics
curves for power dissipation infor-
mation for different output powers.
(3)
POWER SUPPLY BYPASSING
As with any power amplifier, proper supply bypassing is criti-
cal for low noise performance and high power supply rejec-
tion. The capacitor location on both the bypass and power
supply pins should be as close to the device as possible. The
effect of a larger half supply bypass capacitor is improved
PSRR due to increased half-supply stability. Typical applica-
tions employ a 5V regulator with 10 μF and a 0.1 μF bypass
capacitors which aid in supply filtering. This does not elimi-
nate the need for bypassing the supply nodes of the
LM4873. The selection of bypass capacitors, especially C
,
is thus dependent upon desired PSRR requirements, click
and pop performance as explained in the section,
Proper
Selection of External Components
, system cost, and size
constraints.
SHUTDOWN FUNCTION
In order to reduce power consumption while not in use, the
LM4873 contains a shutdown pin to externally turn off the
amplifier’s bias circuitry. This shutdown feature turns the am-
plifier off when a logic high is placed on the shutdown pin.
The trigger point between a logic low and logic high level is
typically half supply. It is best to switch between ground and
the supply V
to provide maximum device performance. By
switching the shutdown pin to V
DD
, the LM4873 supply cur-
rent draw will be minimized in idle mode. While the device
will be disabled with shutdown pin voltages less than V
DD
,
the idle current may be greater than the typical value of
0.7 μA. In either case, the shutdown pin should be tied to a
definite voltage to avoid unwanted state changes.
In many applications, a microcontroller or microprocessor
output is used to control the shutdown circuitry which pro-
vides a quick, smooth transition into shutdown.Another solu-
tion is to use a single-pole, single-throw switch in conjunction
with an external pull-up resistor. When the switch is closed,
the shutdown pin is connected to ground and enables the
amplifier. If the switch is open, then the external pull-up re-
L
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11
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