For optimal performance, it's recommended to follow a star-ground layout, keep the input and output traces short and away from noise sources, and use a solid ground plane. Additionally, decoupling capacitors should be placed close to the power pins, and the device should be powered from a low-impedance source.
The input bias current and input offset voltage can be minimized by using a high-impedance source, such as a voltage divider, and by using a low-impedance feedback network. Additionally, the input bias current can be cancelled by using a matched resistor in the feedback path.
The LMC6036IM can drive a maximum capacitive load of 100pF, but this can be increased by adding a series resistor to the output to reduce the output impedance and prevent oscillation.
To ensure stability, the LMC6036IM should be used with a gain of 5 or greater, and the feedback network should be designed to provide a phase margin of at least 45 degrees. Additionally, the output should be decoupled from the input using a series resistor and capacitor.
The recommended power supply decoupling for the LMC6036IM is a 0.1uF ceramic capacitor in parallel with a 10uF tantalum capacitor, placed close to the power pins.
LMC6036IM datasheet
by Texas Instruments
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