First you need the schematic of the module to know about the pot's signals (voltages and currents).
Then read the digital post's datasheet to get information about it's power supply requirements and signal limits.
How do you consider to generate the power supply?
Are the module voltages and currents all within the pot's specifications?
First you need the schematic of the module to know about the pot's signals (voltages and currents).
Then read the digital post's datasheet to get information about it's power supply requirements and signal limits.
How do you consider to generate the power supply?
Are the module voltages and currents all within the pot's specifications?
Hopefully you can identify the pot in the linked schematic.
It is connected to the FB pin of the regulator --> look at the regulator datasheet about FB pin voltage
The other side is connected to the output voltage --> the output voltage range is given in the schematic
It would be difficult to replace the potentiometer with a digital one in that schematic because of the high voltages it would have to endure. You could 'reverse' the feedback by swapping R1 and R2, it would at least let you ground reference the digital pot but it would work 'backwards' compared to the present position and to some degree sacrifice the ability to stabilize the output voltage.
A better method would be to use a DAC to drive the FB pin to set the voltage and also sense the output to maintain regulation.