There are many common gate driving circuits, but I think none of them solves my current issue. In my device, I need to slow down the MOSFET a little bit to remove ringing on the switching node, but doing so with a resistor makes Miller capacitance dominant over the gate driver - and then it's a mess.

I am thinking about decoupling the slope forming circuit from the gate. I am going to build something like maybe an RC circuit for the slope and an emitter follower amplifier on the gate. 

I have certain concerns about actually slowing down the MOSFET turn on this way - it's not the slope itself, right? It's the current that charges the gate above the threshold. It might happen that the amplifier will simply open the MOSFET up quickly once the threshold is reached. 

So the questions are:

 - Is this a valid way to drive a gate? 
 - What other ways are there to reliably slow down the MOSFET turn on without getting interference through Miller capacitance? 
 - Can I accomplish all that while keeping the timing of the turn on as accurate as possible to allow multiple MOSFETs to simultaneously turn on?

[![enter image description here][1]][1]


  [1]: https://i.sstatic.net/LOTdP.png