Digital & analog co., ltd. (rev. 1.0) -16 – Calyx S1A0071 - Audio Processor for Class-D Power AMP User Manual
Page 16
S1A0071 Audio Processor for Class-D Power AMP
Digital & Analog Co., Ltd. (Rev. 1.0) -16-
Note 4
The internal gain of S1A0071 is 26dB. (Condition: R1 = R2)
When user wants to get a high gain system, User can do this by changing the values of R1 and R2.
In this case, the Total Gain can be obtained as follows:
26
1
2
20
)
(
+
×
=
R
R
Log
dB
GAINtotal
If the values of R1 and R2 are very high, it will expect the DC offset and if the values of R1 and R2 are
very low, then the THD+N value is high on high power system. By an appropriate R1 and R2 selection,
you can minimize the DC offset and get the good the THD+N characteristics.
Note 5
In the application circuit, the resistor Rp connected to the PDCTR and the resistor Rn connected to
NDCTR pins. User can adjust these resistors values to control the ON time delays of P-MOSFET and
N-MOSFET. Because there is a turn-on delay time and rising time and falling time, turn-off delay time
of each MOSFET drive, so user must set the on time delay for each P-MOSFET and N-MOSFET to
prevent arm-short situation. Also more important, the Rp and Rn selection affect the sound quality and
amplifier efficiency, so user should be select appropriate value.
Designed rule of S1A0071, the gate off time minimized and the ON time can be variable so that user
can set the overlap time externally. The PDCTR pin and NDCTR pin voltages are generally set to that
of VB (pin 22) and the flowing current, controlled by the values of Rp and Rn connected externally, can
be used to delay the internal gate ON time. The recommended current range is 10Kohm to 200Kohm,
from which one can select the appropriate current according to the selected output MOSFET and
circuit configuration.
As the resistances increase, ON time is further delayed. Rp and Rn can set the ON time delays of P-
MOSFET and N-MOSFET, respectively.
PMOS Gate Drive
Output (PO)
NMOS Gate Drive
Output(NO)
Tdpo
Tdno
Tdpo
Tdno
Figure 2. Gate Driver on Time Delay