User's Manual
SARA-G3 and SARA-U2 series - System Integration Manual
UBX-13000995 - R18 Advance Information Design-in
Page 147 of 206
2.7.1.3 Guidelines for external analog audio device connection circuit design
The differential analog audio I/O can be used to connect the module to an external analog audio device. Audio
devices with a differential analog I/O are preferable, as they are more immune to external disturbances.
Figure 84 and Table 55 describe the application circuits, following the suggested circuit design-in.
Guidelines for the connection to a differential analog audio input:
x The SPK_P / SPK_N balanced output of the module must be connected to the differential input of the
external audio device by means of series capacitors for DC blocking (e.g. 10 μF) to decouple the bias present
at the module output, as described in the left side of Figure 84.
Guidelines for the connection to a single ended analog audio input:
x A proper differential to single ended circuit must be inserted from the SPK_P / SPK_N balanced output of
the module to the single ended input of the external audio device, as described in the Figure 84 right side:
10 μF series capacitors are provided to decouple the bias present at the module output, and a voltage
divider is provided to properly adapt the signal level from module output to external audio device input.
Guidelines for the connection to a differential analog audio output:
x The MIC_P / MIC_N balanced input of the module must be connected to the differential output of the
external audio device by means of series capacitors for DC blocking (e.g. 10 μF) to decouple the bias present
at the module input, as described in the Figure 84 left side.
Guidelines for the connection to a single ended analog audio output:
x A proper single ended to differential circuit has to be inserted from the single ended output of the external
audio device to the MIC_P / MIC_N balanced input of the module, as described in the Figure 84 right side:
10 μF series capacitors are provided to decouple the bias present at the module input, and a voltage divider
is provided to properly adapt the signal level from the external device output to the module input.
Additional guidelines for any connection:
x The DC-block series capacitor acts as high-pass filter for audio signals, with cut-off frequency depending on
both the values of capacitor and on the input impedance of the device. For example: in case of differential
input impedance of 600 : , the two 10 μF capacitors will set the -3 dB cut-off frequency to 53 Hz, while for
single ended connection to 600 :
external device, the cut-off frequency with just the single 10 μF capacitor
will be 103 Hz. In both cases the high-pass filter has a low enough cut-off for proper frequency response.
x Use a suitable power-on sequence to avoid audio bump due to charging of the capacitor: the final audio
stage should be always enabled as last one.
x The signal levels can be adapted by setting gain using AT commands (see u-blox AT Commands Manual [3],
+USGC, +UMGC), but additional circuitry must be inserted if SPK_P / SPK_N output level of the module is
too high for the audio device input or if the audio device output level is too high for MIC_P / MIC_N, as the
voltage dividers present in the circuits described in Figure 84 right side to properly adapt the signal level.
SARA-G340
SARA-G350
C1
C2
45
SPK_N
44
SPK_P
GND
49
MIC_P
GND
Analog IN (-)
Analog IN (+)
Analog OUT (-)
Analog OUT (+)
Audio Device
GND
GND
48
MIC_N
C3
C4
SARA-G340
SARA-G350
45
SPK_N
44
SPK_P
GND
49
MIC_P
GND
Analog IN
Audio Device
GND
Reference
48
MIC_N
Analog OUT
C5
C6
R2
R1
R4
R3
C7
C8
46
MIC_BIAS
47
MIC_GND
46
MIC_BIAS
47
MIC_GND
Figure 84: Application circuits to connect the module to audio devices with proper differential or single-ended input/output