CDB4271
7
dielectric absorption properties. The HPF formed by this R-C pair must be such that the volt-
age across the aluminum electrolytic DC-block capacitor is minimal at 20 Hz. This keeps the
distortion due to the electrolytic's dielectric absorption properties to a minimum. For a design
utilizing only LPF configuration 1, there is no post-LPF resistor-divider pad, and a much
smaller value capacitor can be used (22
µ
F).
Similar to the output DC-block capacitor described above, the value of the AC coupling
capacitor from the non-inverting input of the 2-pole low pass to ground (C23 for AOUTR) was
also chosen to minimize the rise in distortion performance at low frequency due to the elec-
trolytic's dielectric absorption properties. These properties become apparent only as the
signal level on that leg increases to the levels output from the differential amp used in LPF
configuration 2. For a design utilizing only LPF configuration 1, the levels on that leg are suf-
ficiently low, and a much smaller value capacitor can be used (22
µ
F).
1.7
Stand-Alone Control
Switch S1 allows stand-alone hardware signal routing and configuration of the CDB4271.
See Table 2 for a list of the various options available. After changing settings using S1, the
user must assert a reset by pressing the RESET button (S2).
Operation in stand-alone mode requires the parallel port cable to remain disconnected from
the DB-25 connector (J31). Connecting a cable to the connector will enable the PC control
port, automatically disabling switch S1 and its associated logic.
1.8
PC Parallel Port Control
A graphical user interface is included with the CDB4271 to allow easy manipulation of all reg-
isters of the CS4271 and hardware configuration of the CDB4271. Connecting a cable to the
DB-25 connector (J31) will enable the PC control port, automatically disabling switch S1 and
its associated logic.
Summary of Contents for CDB4271
Page 16: ...CDB4271 16 5 SCHEMATICS AND LAYOUT Figure 6 Hierarchy Schematic Sheet 1 ...
Page 17: ...CDB4271 17 Figure 7 CS4271 Schematic Sheet 2 ...
Page 18: ...CDB4271 18 Figure 8 Analog Input Schematic Sheet 3 ...
Page 19: ...CDB4271 19 Figure 9 Analog Output Schematic Sheet 4 ...
Page 20: ...CDB4271 20 Figure 10 CS8416 S PDIF Receiver Schematic Sheet 5 ...
Page 21: ...CDB4271 21 Figure 11 CS8406 S PDIF Transmitter Schematic Sheet 6 ...
Page 22: ...CDB4271 22 Figure 12 Board Setup Schematic Sheet 7 ...
Page 23: ...CDB4271 23 Figure 13 PCM Header Schematic Sheet 8 ...
Page 24: ...CDB4271 24 Figure 14 Control Port Schematic Sheet 9 ...
Page 25: ...CDB4271 25 Figure 15 Power Schematic Sheet 10 ...
Page 26: ...CDB4271 26 Figure 16 Component Placement and Reference Designators ...
Page 27: ...CDB4271 27 Figure 17 Top Layer ...