CDB4272
6
The resistor designated by R2 (see Figure 1) can be adjusted to change the gain of the in-
strumentation amp. The feedback resistors ‘R’ on the two sides of the instrumentation amp
must be equal.
Figure 1. Instrumentation Amplifier Configuration
A resistor divider pad (parallel combination of R5 // R8 // R10 and R22 for AOUTR) has been
placed after the low pass filter to bring the circuit back to unity gain (selectable with jumper
J15 for AOUTR).
In the resistor divider pad, three 3.92 k
Ω
, 1/4 W, 1210 size resistors are used in parallel to
provide a combined resistance of 1.30 k
Ω
and a combined power handling of 3/4 W. This is
done to provide sufficient power handling capability to accommodate the high signal levels
output from the instrumentation amplifier stage. When not using the instrumentation amplifi-
er, these resistors may be reduced to a single 1.30 k
Ω
, 1/10 W, 0805 size resistor (for muting
attenuation purposes).
In certain places throughout the output circuit, 1/8 W, 1206 size and 1/4 W, 1210 size resis-
tors are used. Similar to the parallel resistors in the resistor divider pad, these are used to
provide sufficient power handling capability in order to accommodate the high signal levels
output from the instrumentation amplifier stage. When not using the instrumentation amplifi-
er, these resistors may all be replaced with 1/10 W, 0805 size resistors.
The attenuation provided by the output mute transistor (Q2 for AOUTR) is determined by the
resistor-divider formed between the collector-emitter on-resistance and the output resistance
of the LPF (R5 // R8 // R10 for AOUTR). The greater the output resistance, the greater the
attenuation will be for a given transistor. The trade off is that a high output impedance is not
usually desirable, and may affect the voltage transfer to the next stage based upon its input
impedance.
The same resistance that affects the transistor mute level also affects the HPF formed with
the output DC-block capacitor (C26 for AOUTR). For LPF configuration 2, the values for the
DC-block capacitor and output resistor pad (R5 // R8 // R10 and R22 for AOUTR) were cho-
sen to minimize the rise in distortion performance at low frequency due to the electrolytic's
-
+
R
-
+
R
R
2
In+
In-
Out+
Out-
Содержание CDB4272
Страница 16: ...CDB4272 16 5 SCHEMATICS AND LAYOUT Figure 6 Hierarchy Schematic Sheet 1 ...
Страница 17: ...CDB4272 17 Figure 7 CS4272 Schematic Sheet 2 ...
Страница 18: ...CDB4272 18 Figure 8 Analog Input Schematic Sheet 3 ...
Страница 19: ...CDB4272 19 Figure 9 Analog Output Schematic Sheet 4 ...
Страница 20: ...CDB4272 20 Figure 10 CS8416 S PDIF Receiver Schematic Sheet 5 ...
Страница 21: ...CDB4272 21 Figure 11 CS8406 S PDIF Transmitter Schematic Sheet 6 ...
Страница 22: ...CDB4272 22 Figure 12 Board Setup Schematic Sheet 7 ...
Страница 23: ...CDB4272 23 Figure 13 PCM Header Schematic Sheet 8 ...
Страница 24: ...CDB4272 24 Figure 14 Control Port Schematic Sheet 9 ...
Страница 25: ...CDB4272 25 Figure 15 Power Schematic Sheet 10 ...
Страница 26: ...CDB4272 26 Figure 16 Component Placement and Reference Designators ...
Страница 27: ...CDB4272 27 Figure 17 Top Layer ...
Страница 28: ...CDB4272 28 Figure 18 Bottom Layer ...
Страница 29: ...CDB4272 29 6 APPENDIX Complete Analog Input Buffer Schematic Figure 19 Complete Analog Input Buffer Schematic ...