MAX9716EBL+TG45 Maxim Integrated Products, MAX9716EBL+TG45 Datasheet - Page 10
MAX9716EBL+TG45
Manufacturer Part Number
MAX9716EBL+TG45
Description
IC AMP AUDIO PWR 1.4W MONO 9UCSP
Manufacturer
Maxim Integrated Products
Type
Class ABr
Datasheet
1.MAX9716ETAT.pdf
(21 pages)
Specifications of MAX9716EBL+TG45
Output Type
1-Channel (Mono)
Max Output Power X Channels @ Load
1.4W x 1 @ 4 Ohm
Voltage - Supply
2.7 V ~ 5.5 V
Features
Depop, Differential Inputs, Shutdown, Thermal Protection
Mounting Type
Surface Mount
Package / Case
9-UCSP®
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX9716/MAX9717 are designed to drive a load
differentially, a configuration referred to as bridge-tied
load or BTL. The BTL configuration (Figure 1) offers
advantages over the single-ended configuration, where
one side of the load is connected to ground. Driving the
load differentially doubles the output voltage compared
to a single-ended amplifier under similar conditions.
Thus, the differential gain of the device is twice the
closed-loop gain of the input amplifier. The effective
gain is given by:
Substituting 2 x V
equations yields four times the output power due to
doubling of the output voltage:
There is no net DC voltage across the load because the
differential outputs are each biased at midsupply. This
eliminates the need for DC-blocking capacitors
required for single-ended amplifiers. These capacitors
can be large and expensive, consume board space,
and degrade low-frequency performance.
Low-Cost, Mono, 1.4W BTL Audio
Power Amplifiers
Figure 1. Bridge-Tied Load Configuration
10
______________________________________________________________________________________
Applications Information
OUT(P-P)
V
+1
-1
RMS
P
A
OUT
V
=
=
=
for V
2
V
OUT P P
×
V
RMS
OUT(P-P)
2 2
R
R
R
L
(
IN
F
2
−
)
BTL Amplifier
into the following
V
2 x V
V
OUT(P-P)
OUT(P-P)
OUT(P-P)
Under normal operating conditions, the MAX9716/
MAX9717 dissipate a significant amount of power. The
maximum power dissipation for each package is given
in the Absolute Maximum Ratings section under
Continuous Power Dissipation or can be calculated by
the following equation:
where T
and θ
specified in the Absolute Maximum Ratings section. For
example, θ
The increase in power delivered by the BTL configuration
directly results in an increase in internal power dissipation
over the single-ended configuration. The maximum power
dissipation for a given V
following equation:
If the power dissipation for a given application exceeds
the maximum allowed for a given package, reduce
power dissipation by increasing the ground plane heat-
sinking capability and the size of the traces to the device
(see the Layout and Grounding section). Other methods
for reducing power dissipation are to reduce V
increase load impedance, decrease ambient tempera-
ture, reduce gain, or reduce input signal.
Thermal-overload protection limits total power dissipation
in the MAX9716/MAX9717. Thermal protection circuitry
disables the amplifier output stage when the junction
temperature exceeds +160°C. The amplifiers are
enabled once the junction temperature cools by 15°C. A
pulsing output under continuous thermal-overload condi-
tions results as the device heats and cools.
The MAX9717B, MAX9717C, and MAX9717D feature
internally fixed gains of 6dB, 9dB, and 12dB, respec-
tively (see the Selector Guide). Fixed gain simplifies
designs, reduces pin count, decreases required foot-
print size, and eliminates external gain-setting resistors.
Resistors R
Typical Operating Circuit are used to achieve each
fixed gain.
JA
J(MAX)
is the reciprocal of the derating factor in °C/W as
Power Dissipation and Heat Sinking
P
JA
DISSPKG MAX
IN
of the TDFN package is 41°C/W.
is +150°C, T
and R
P
DISS MAX
(
(
F
shown in the MAX9717B/C/D
)
CC
)
A
=
=
is the ambient temperature,
and load is given by the
T
J MAX
2
(
π
V
2
CC
R
θ
JA
L
)
2
−
T
Fixed Gain
A
CC
,
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