Texas Instruments recommends a star-grounded layout, with the op-amp's ground pin connected to a central ground point, and the use of separate analog and digital ground planes to minimize noise coupling.
The input bias current of the TLE2072CDRG4 can cause voltage drops across the input resistors, leading to errors. To handle this, use high-impedance input resistors, and consider adding a bias current cancellation circuit or using a buffer stage to minimize the effect.
The TLE2072CDRG4 can drive capacitive loads up to 1nF without oscillation, but this can be affected by the op-amp's output impedance, PCB layout, and other factors. To ensure stability, use a series resistor to isolate the capacitive load, and consider adding a feedback capacitor to improve stability.
Choose an output capacitor with a low equivalent series resistance (ESR) and a high ripple current rating to minimize voltage ripple and ensure stability. A capacitor with a high ESR can cause oscillation or instability, while a capacitor with a low ripple current rating can overheat and fail.
The thermal impedance of the TLE2072CDRG4 is typically around 30°C/W. This means that the device can dissipate heat effectively, but high ambient temperatures, high power dissipation, or poor thermal design can still cause the device to overheat, leading to reduced reliability and lifespan.
TLE2072CDRG4 datasheet
by Texas Instruments
