SNOAA35F April 2019 – December 2024 LM2901 , LM2901B , LM2901B-Q1 , LM2903 , LM2903-Q1 , LM2903B , LM2903B-Q1 , LM339 , LM339-N , LM393 , LM393-N , LM393B , LM397 , TL331 , TL331-Q1 , TL331B
Commonly designers add small value capacitors to the inputs to provide filtering, either for EMI filtering or to filter or clean up the input signals.
One common oversight is to add a capacitor (CF) to the non-inverting (IN+) node while using hysteresis (positive feedback), as shown in Figure 6-14
The hysteresis feedback through RH1 shifts the threshold slightly on the very first transition of the output, muting further transitions. Adding the capacitor CF delays the hysteresis feedback, possibly allowing multiple transitions (bursting) before and after the transition, or even completely negating the hysteresis feedback action completely. Adding a large capacitor to the output can also have a similar effect (and can be asymmetrical due to the asymmetrical rise and fall times of a open-collector output).
Adding a capacitor to the inverting input is acceptable. The capacitor can be added to the non-inverting (IN+) node when hysteresis is not being used (no RH1). If filtering is still required when using hysteresis, the capacitor needs to be placed to the left of RFB2.