Hi ATM,
The APT150GN120J IGBTs are real beasts.
The Texas Instruments UCC27524 dual gate driver, running from a 12V to 15V supply line is worth considering:
https://www.ti.com/lit/ds/symlink/ucc27525.pdf
Best to use one of the drivers in the chip for each pair of IGBTs. Gate resistors will not be required, as the APT150GN120J IGBTs have five Ohm gate resistors built in.
Make sure you decouple the UCC27524 supply lines with at least four 22uF, 25V minimum, X7R dialectic, ceramic capacitors, connected, with short leads, as close as possible to the UCC27524 supply pins. This will help to minimize any frequency stability problems even in a static state (the APT150GN120J IGBTs have enormous gate capacitances). These measures are necessary in spite of the fact that you are only switching the APT150GN120Js on and off now and then.
It is also important to switch the APT150GN120Js on and off fast and cleanly to avoid damaging the APT150GN120J by exceeding their safe operating area (SOA).
If you intend to turn the The APT150GN120J IGBTs on with a slow signal that will be OK because the UCC27524 drivers have Schmitt trigger inputs , but if you are using mechanical contacts (switch or relay), you will need a simple de-bounce circuit.
Just a general word of caution, don't underestimate the magnitude of the task you are considering: a good layout with hefty conductors will be required.
spec