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TDA7293_10 Datasheet, PDF (8/21 Pages) STMicroelectronics – 120-volt, 100-watt, DMOS audio amplifier with mute and standby
Circuit description
TDA7293
While a linearization of the DC transfer characteristic of the stage is obtained, the dynamic
behaviour of the system must be taken into account.
A significant aid in keeping the distortion contributed by the final stage as low as possible is
provided by the compensation scheme, which exploits the direct connection of the Miller
capacitor at the amplifier’s output to introduce a local AC feedback path enclosing the output
stage itself.
3.2
Protection
In designing a power IC, particular attention must be reserved to the circuits devoted to
protection of the device from short circuit or overload conditions. Due to the absence of the
2nd breakdown phenomenon, the SOA of the power DMOS transistors is delimited only by a
maximum dissipation curve dependent on the duration of the applied stimulus.
In order to fully exploit the capabilities of the power transistors, the protection scheme
implemented in this device combines a conventional SOA protection circuit with a novel local
temperature sensing technique which " dynamically" controls the maximum dissipation.
In addition to the overload protection described above, the device features a thermal
shutdown circuit which initially puts the device into a muting state (@ Tϕ = 150 °C) and then
into stand-by (@ Tj = 160 °C).
Full protection against electrostatic discharges on very pin is included.
3.3
Other Features
The device is provided with both standby and mute functions, independently driven by two
CMOS logic compatible input pins.
The circuits dedicated to the switching on and off of the amplifier have been carefully
optimized to avoid any kind of uncontrolled audible transient at the output.
The sequence that we recommend during the on/off transients is shown in Figure 8. The
application of figure 9 shows the possibility of sing only one command for both st-by and
mute functions. On both the pins, the maximum applicable range corresponds to the
operating supply voltage.
8/21
Doc ID 6744 Rev 8