ZHCSHW1C March 2018 – January 2019 ADS1260 , ADS1261
PRODUCTION DATA.
Resistive bridge sensors are excited by DC or AC voltages; for DC or AC currents. DC voltage excitation is the most common type of excitation. AC excitation reverses the polarity of the voltage by the use of external switching components. Similar in concept to chop mode, the result of the voltage reversal removes offset voltage in the connections leading from the bridge to the ADC inputs. This removal includes the offset voltage of the ADC itself. The ADS1261 and ADS1261B devices provide the signals necessary to drive the external switching components in order to reverse the bridge voltage.
The timing of the drive signals is synchronized to the ADC conversion phase. During one conversion phase, the voltage polarity is normal. For the alternate conversion phase, the voltage polarity is reversed. The ADC compensates the reversed polarity conversion by internal reversal of the reference voltage. The ADC subtracts the data corresponding to the normal and reverse phases in order to remove offset voltage from the input.
The ADC output drive signals do not overlap in order to avoid bridge cross-conduction that can otherwise occur during excitation voltage reversal. The switch rate of the AC-excitation drive signals are at the data rate to avoid unnecessary fast switching. See Figure 7 for output drive timing.
Table 9 shows the AC-excitation drive signals and the associated GPIO pins. Program the AC-excitation mode using the CHOP[1:0] bits in register MODE1. AC excitation can be programmed for two-wire or four-wire drive mode. For two-wire operation, two drive signals are provided on the GPIOs. If needed, use two external inverters to derive four signals to drive discrete transistors. The GPIO drive levels are referred to the 5-V analog supply. Be aware that the AC-excitation mode changes the nominal data rate, depending on the order of the sinc filter. See the Chop Mode section for details of the effective data rate.
DEVICE PIN | GPIO | 2-WIRE MODE (CHOP[1:0] = 10) | 4-WIRE MODE (CHOP[1:0] = 11) |
---|---|---|---|
AIN2 | GPIO0 | ACX1 | ACX1 |
AIN3 | GPIO1 | ACX2 | ACX2 |
AIN4 | GPIO2 | — | ACX1 |
AIN5 | GPIO3 | — | ACX2 |