TDA8922 PHILIPS [NXP Semiconductors], TDA8922 Datasheet - Page 17
TDA8922
Manufacturer Part Number
TDA8922
Description
2 x 25 W class-D power amplifier
Manufacturer
PHILIPS [NXP Semiconductors]
Datasheet
1.TDA8922.pdf
(36 pages)
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Philips Semiconductors
16.5
In some applications it may be necessary to connect an
external heatsink to the TDA8922. The determining factor
is the 150 C maximum junction temperature T
cannot be exceeded. The expression below shows the
relationship between the maximum allowable power
dissipation and the total thermal resistance from junction
to ambient:
P
The efficiency measured in the TDA8922 as a function of
output power is given in Fig.19. The power dissipation can
be derived as function of output power (see Fig.18).
The derating curves (given for several values of the R
are illustrated in Fig.9. A maximum junction temperature
T
allowable power dissipation for a given heatsink size can
be derived or the required heatsink size can be determined
at a required dissipation level.
Example 1:
The required R
The R
of the TDA8922 is 1.3 K/W, thus a heatsink of 20.1 K/W is
required for this example.
In actual applications, other factors such as the average
power dissipation with music source (as opposed to a
continuous sine wave) will determine the size of the
heatsink required.
Example 2:
The required R
The R
of the TDA8922 is 1.3 K/W, thus a heatsink of 15.1 K/W is
required for this example.
2003 Mar 20
R
j
diss
th(j-a)
P
T
T
P
P
T
T
P
= 150 C is taken into account. From Fig.9 the maximum
2
j(max)
amb
j(max)
amb
o
diss(tot)
o
diss(tot)
is determined by the efficiency ( ) of the TDA8922.
= 2
= 2
th(j-a)
th(j-a)
Heatsink requirements
=
= 60 C
= 60 C
25 W class-D power amplifier
= 150 C
= 150 C
T
---------------------------------- -
= 4.2 W (from Fig.18)
= 5.5 W (from Fig.18)
of the TDA8922 in free air is 35 K/W; the R
of the TDA8922 in free air is 35 K/W; the R
25 W into 8
25 W into 4
j(max)
P
th(j-a)
th(j-a)
diss
–
T
amb
= 21.4 K/W can be calculated.
= 16.4 K/W.
j(max)
which
th(j-a)
th(j-c)
th(j-c)
)
17
16.6
To guarantee the robustness of the class-D amplifier the
maximum output current which can be delivered by the
output stage is limited. An overcurrent protection is
included for each output power switch. When the current
flowing through any of the power switches exceeds a
defined internal threshold (e.g. in case of a short-circuit to
the supply lines or a short-circuit across the load), the
amplifier will shut down immediately and an internal timer
will be started. After a fixed time (e.g. 100 ms) the amplifier
is switched on again. If the requested output current is still
too high the amplifier will switch-off again. Thus the
amplifier will try to switch to the operating mode every
100 ms. The average dissipation will be low in this
situation because of this low duty cycle. If the overcurrent
condition is removed the amplifier will remain operating.
Because the duty cycle is low the amplifier will be switched
off for a relatively long period of time which will be noticed
as a so-called audio-hole; an audible interruption in the
output signal.
handbook, halfpage
(1) R
(2) R
(3) R
(4) R
(5) R
Fig.9
P diss
(W)
30
20
10
Output current limiting
0
th(j-a)
th(j-a)
th(j-a)
th(j-a)
th(j-a)
0
Derating curves for power dissipation as a
function of maximum ambient temperature.
= 5 K/W.
= 10 K/W.
= 15 K/W.
= 20 K/W.
= 35 K/W.
20
(1)
(2)
(3)
(4)
(5)
40
60
Objective specification
80
T amb ( C)
TDA8922
MBL469
100
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