ZHCST11 February 2024 INA185-Q1
PRODUCTION DATA
Although the INA185-Q1 does not have a shutdown pin, the low power consumption of these devices allows the output of a logic gate or transistor switch to power the INA185-Q1. This gate or switch turns on and off the INA185-Q1 power-supply quiescent current.
However, in current shunt monitoring applications, the amount of current drained from the shunt circuit in shutdown conditions is also a concern. Evaluating this current drain involves considering the simplified schematic of the INA185-Q1 in shutdown mode, as shown in Figure 6-4.
There is typically more than 500kΩ of impedance
(from the combination of 500kΩ feedback and
input
gain set resistors) from each input of the INA185-Q1 to the OUT pin
and to the REF pin. The amount of current flowing through these pins depends on the
voltage at the connection. For example, if the REF pin is grounded, the calculation
of the effect of the 500kΩ impedance from the shunt to ground is straightforward.
However, if the reference is powered while the INA185-Q1 is in
shutdown mode, the input current is determined by the 500kΩ impedance and the
voltage difference between the positive input and the voltage applied to the REF
pin.
Regarding the 500kΩ path to the output pin, the output stage of a disabled INA185-Q1 does constitute a good path to ground. Consequently, this current is directly proportional to a shunt common-mode voltage present across a 500kΩ resistor.
As long as the shunt common-mode voltage is greater than VS when the device is powered up, there is an additional and well-matched 55µA typical current that flows in each of the inputs. If less than VS, the common-mode input currents are negligible, and the only current effects are the result of the 500kΩ resistors.