TDA8950_2
© NXP B.V. 2009. All rights reserved.
Product data sheet
Rev. 02 — 11 June 2009
9 of 39
NXP Semiconductors
TDA8950
2
×
150 W class-D power amplifier
8.3.1.2
OverTemperature Protection (OTP)
If TFB fails to stabilize the temperature and the junction temperature continues to rise, the
amplifier will shut down as soon as the temperature reaches the thermal protection
activation threshold, T
act(th_prot)
. The amplifier will resume switching approximately 100 ms
after the temperature drops below T
act(th_prot)
.
The thermal behavior is illustrated in
.
8.3.2 OverCurrent Protection (OCP)
In order to guarantee the robustness of the TDA8950, the maximum output current that
can be delivered at the output stages is limited. OCP is built in for each output power
switch.
OCP is activated when the current in one of the power transistors exceeds the OCP
threshold (I
ORM
= 9.2 A) due, for example, to a short-circuit to a supply line or across the
load.
The TDA8950 amplifier distinguishes between low-ohmic short-circuit conditions and
other overcurrent conditions such as a dynamic impedance drop at the loudspeaker. The
impedance threshold (Z
th
) depends on the supply voltage.
How the amplifier reacts to a short circuit depends on the short-circuit impedance:
•
Short-circuit impedance > Z
th
: the amplifier limits the maximum output current to I
ORM
but the amplifier does not shut down the PWM outputs. Effectively, this results in a
clipped output signal across the load (behavior very similar to voltage clipping).
•
Short-circuit impedance < Z
th
: the amplifier limits the maximum output current to I
ORM
and at the same time discharges the capacitor on pin PROT. When C
PROT
is fully
discharged, the amplifier shuts down completely and an internal timer is started.
The value of the protection capacitor (C
PROT
) connected to pin PROT can be between
10 pF and 220 pF (typically 47 pF). While OCP is activated, an internal current source is
enabled that will discharge C
PROT
.
(1) Duty cycle of PWM output modulated according to the audio input signal.
(2) Duty cycle of PWM output reduced due to TFB.
(3) Amplifier is switched off due to OTP.
Fig 6.
Behavior of TFB and OTP
001aah656
(T
act(th_fold)
−
5
°
C)
T
act(th_fold)
T
j
(
°
C)
T
act(th_prot)
Gain
(dB)
30 dB
24 dB
0 dB
1
2
3