TDA8932B NXP Semiconductors, TDA8932B Datasheet - Page 27

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TDA8932B

Manufacturer Part Number
TDA8932B
Description
The TDA8932B is a high efficiency class-D amplifier with low power dissipation
Manufacturer
NXP Semiconductors
Datasheet

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NXP Semiconductors
TDA8932B_4
Product data sheet
14.8 Pumping effects
The HTSSOP32 package has an exposed die-pad that reduces significantly the overall
R
plane for cooling. The HTSSOP package will have a low thermal resistance when used on
a multi-layer PCB with sufficient space for one or two thermal planes.
Increasing the area of the thermal plane, the number of planes or the copper thickness
can reduce further the thermal resistance R
Typical thermal resistance R
application board (55 mm
Typical thermal resistance R
application board (55 mm
Equation 10
the thermal resistance from junction to ambient.
Where:
The power dissipation is shown in
The thermal foldback will limit the maximum junction temperature to 140 C.
When the amplifier is used in a SE configuration, a so-called 'pumping effect' can occur.
During one switching interval, energy is taken from one supply (e.g. V
that energy is delivered back to the other supply line (e.g. V
the power supply cannot sink energy, the voltage across the output capacitors of that
power supply will increase.
The voltage increase caused by the pumping effect depends on:
The pumping effect should not cause a malfunction of either the audio amplifier and/or the
power supply. For instance, this malfunction can be caused by triggering of the
undervoltage or overvoltage protection of the amplifier.
Pumping effects in a SE configuration can be minimized by connecting audio inputs in
anti-phase and changing the polarity of one speaker. This is illustrated in
R
th(j-a)
th j a
R
T
T
P = power dissipation which is determined by the efficiency of the TDA8932B
j(max)
amb
th(j-a)
Speaker impedance
Supply voltage
Audio signal frequency
Value of decoupling capacitors on supply lines
Source and sink currents of other channels
. Therefore it is required to solder the exposed die-pad (at V
= ambient temperature
= maximum junction temperature
= thermal resistance from junction to ambient
=
T
----------------------------------- -
shows the relation between the maximum allowable power dissipation P and
j max
P
T
Rev. 04 — 18 December 2008
amb
45 mm), 35 m copper, FR4 base material is 44 K/W.
40 mm), 35 m copper, FR4 base material is 48 K/W.
th(j-a)
th(j-a)
of the SO32 package soldered at a small 2-layer
of the HTSSOP32 package soldered at a small 2-layer
Figure 22
th(j-a)
(SE) and
of both packages.
Figure 34
SSP1
) and visa versa. When
Class-D audio amplifier
(BTL).
SSD
TDA8932B
DDP1
level) to a copper
© NXP B.V. 2008. All rights reserved.
), while a part of
Figure
12.
27 of 48
(10)

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