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Reference Manual
USE CASE CONFIGURATIONS
The R
measurement is used to calibrate the R
CAL
measurement in Step 3 by using ratiometric measurements. As
shown in
Figure
43, the electrochemical sensor is biased via the
low-power potentiostat and low-power TIA amplifiers for Step 4.
The waveform generator and the high-speed DAC generate a 10
mV amplitude sine waveform.
The AC excitation loop D node, P node, and RCAL0 pin are shorted
by setting the Dx switch and Px switch to close the DR0 and PR0
switches (SWCON, Bits[7:0] = 0x11). Other Dx switches and Px
switches are open. The AC excitation loop N node, high-speed TIA
T node, and RCAL1 pin are shorted by setting the Nx switches
and Tx switches to close the NR1 and TR1 switches (SWCON,
Bits[15:8] = 0x85). Close T9 to select R
1). Other Nx switches and Tx switches are open. The stimulus is
added to the 200 Ω R
and the high-speed TIA. The ADC signal
CAL
chain and DFT block are used to calculate the impedance of R
Set the low-power loop switches to allow the excitation amplifier
and the high-speed TIA to set the DC bias voltage level of the
sensor. The following example code demonstrates how to configure
the switches in the low-power loop:
AfeLpTiaSwitchCfg (channel,
SWMODE_AC);
//Low Power Loop for AC impe►
dance switch settings (0x3180)
analog.com
Figure 43. R
+ R
SENSOR
LOAD
(SWCON Bit 17 =
TIA02
.
CAL
Measurement
CAL
ADuCM356
Rev. A | 158 of 312
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