TDA7374 データシートの表示(PDF) - STMicroelectronics
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TDA7374 Datasheet PDF : 19 Pages
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TDA7374
3
Output stage
Output stage
The fully complementary output stage was made possible by the development of a new
component: the ST exclusive power ICV PNP.
A novel design based upon the connection shown in Figure 17 has then allowed the full
exploitation of its possibilities.
Figure 17. The new output stage
The clear advantages this new approach has over classical output stages are as follows:
3.1
Rail-to-rail output voltage swing with no need of bootstrap
capacitors
The output swing is limited only by the Vcesat of the output transistors, which are in the range
of 0.6 Ω each.
Classical solutions adopting composite PNP-NPN for the upper output stage have higher
saturation loss on the top side of the waveform. This unbalanced saturation causes a
significant power reduction. The only way to recover power consists of the addition of
expensive bootstrap capacitors.
3.2
Absolute stability without any external compensation
Referring to the circuit of Figure 17 the gain VOUT/VIN is greater than unity, approximately 1 +
R2/R1. The DC Output (VCC/2) is fixed by an auxiliary amplifier common to all the channels).
By controlling the amount of this local feedback it is possible to force the loop gain (A * β) to
less than unity at frequency for which the phase shift is 180°C. This means that the output
buffer is intrinsically stable and not prone to oscillation.
Most remarkably, the above feature has been achieved in spite of the very low closed loop
gain of the amplifier.
In contrast, with the classical PNP-NPN stage, the solution adopted for reducing the gain at
high frequencies makes use of external RC networks, namely the Boucherot cells.
11/19
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