Forgot to add that I'm using 8108 motors on the three axis

I usually follow the white numbers on the indicators or realtime display ERR_ when tuning.

I think I had below 0.5 degrees error with 2.4 8 bit with Canon 5D and EF 24-105 f4 IS. so not quite 2.8 kg though.

It is absolutely worth trying Gyro High sense. I have been told that it only doubles the P and D, but my experience was that it changes also something else on 8 bit boards. Anyway the PIDs need to be retuned after activating it. Also gyro LPF can help on big gimbals.

I think acceleration compensation only works if FC is connected, anyway it should not affect much to accuracy, nor gyro trust. Limit acceleration only affects the maximum acceleration, useful in RC control and maybe Follow mode. I usually do not use it. If you have weak Yaw motor it could help but not really provide any more accuracy.

It is difficult to say anything about the PIDs without actually having the gimbal and camera in front, but your Yaw 'I' should probably be higher.

Ps. This was with 8 bit 2.40b7

One common reason for vibrations is flex. it could be the gimbal flexing under the heavy weight but it could also be the camera or camera installation. Supporting camera from bottom and top has always helped me. If this is not possible, chancing IMU position could help. If IMU is installed on the camera it could help.

That would be possibly most important single improvement to any gimbal design that does not already have it. After it you will be able to use higher PID values, there will be less vibrations and the gimbal is more accurate.

I mean simply connecting a support from flash shoe to the pitch motor.