SBOS959C December 2018 – June 2020 INA819
The stability and temperature drift of the external gain setting resistor (RG ) also affects gain. The contribution of RG to gain accuracy and drift is determined from Equation 1.
The best gain drift of 5 ppm/℃ (maximum) is achieved when the INA819 uses G = 1 without RG connected. In this case, gain drift is limited by the mismatch of the temperature coefficient of the integrated 40-kΩ resistors in the differential amplifier (A3). At gains greater than 1, gain drift increases as a result of the individual drift of the 25-kΩ resistors in the feedback of A1 and A2, relative to the drift of the external gain resistor (RG.) The low temperature coefficient of the internal feedback resistors improves the overall temperature stability of applications using gains greater than 1 V/V over alternate solutions.
Low resistor values required for high gain make wiring resistance an important consideration. Sockets add to the wiring resistance and contribute additional gain error (such as a possible unstable gain error) at gains of approximately 100 or greater. To maintain stability, avoid parasitic capacitance of more than a few picofarads at RG connections. Careful matching of any parasitics on the RG pins maintains optimal CMRR over frequency; see Figure 17.