I have done 3 governor springs now with no issue. I install them, loosen the jam nut on the idle screw, remove the high speed stop screw and set the throttle indexes to stock configuration, go 1-2 more turns in on the full power screw and take the intake tube off and have a board ready. Never had one run away on a first start up though. Usually, with the stock index, the idle is really high so you have to back the idle screw off 3-4 turns. Once that is done, it drives just like a stock spring until you get about half into the pedal. From there, the pedal is much more touchy especially with boost at that point. Kind of fun if you ask me! I usually put the star wheel all the way down and then back it off about 1.5-2 turns and have the smoke screw out past stock (less smoke) Throttle levers ground for cleareance and banjo bolts drilled makes it really fun. I can with this setup have very little smoke or I can tweak it to a mosquito killer.
Not sure if that answered your question, but keep this in mind too:
An aggressive fuel pin will give you a possible 40hp. That isn't governor related but it's how you set your star wheel and fuel screw. You need to have the air to support it too.A 3200 RPM spring has in my opinion no effect on how it drives unless you get it up in the higher RPMs (2200+). Once past 2200, you just start getting more fuel with less pedal movement.
Spring rates are different because of the wire size they are manufactured out of. Basic physics tells you how to understand this. Spring calculations are as such:
Force of the spring is based on the distance it moves multiplied by the springs constant. The springs constant is the characteristics of the metal, wire size and the number of coils. The force on the spring is the tension created by the throttle shaft moving. The more you hit the go pedal, the longer the spring stretches. As it stretches, the spring will create more resistance. To make it really easy to understand, I will set up a general chart of spring stretch. Note that these are in no way related to specific bosch spring designs but it gets the idea through. The spring equation is F=kx
Force=constant times the stretch length (cm or whatever unit of measure)
"stock"
Stretch lengh(cm) Constant (k) Force applied to governor (F)
1 cm k^2 = 1 (unit ie Newton)
2 cm k^2 = 4 Newtons
3 k^2 = 9 Newtons
Now, a "366" or "3200" spring example
Stretch length (cm) constant(K) Force applied to governor (F)
1cm k^3 = 1 (unit ie Newton)
2cm k^3 = 8 Newtons
3cm k^3 = 27 Newtons
For chits and gigs, a 4000 spring would look like this:
Stretch length (cm) constant (k) Force applied to governor (F)
1cm k^4 = 1 (unit ie Newton)
2cm k^4 = 16 Newtons
3cm k^4 = 81 Newtons
NOW, I am NOT saying your governor spring stretches 3 centimeters or that my (K) value is that of a governor spring. I left K as a variable because I do not know a cummins ve spring constant. I can figure it out easily though. Our governor springs, whether stock, 3200, 3800, 4000 or whatever, are all the same approximate length but the thicker the wire changes their spring constant. It only takes a minute change in spring wire thickness to make a BIG change at the pedal. Notice how all of the first values (1cm) result in the same force at the governor. This is what I am talking about when there's not much difference at lower rpms. The springs all behave the same with minimal stretching length. However, once you get past a certain stretch length, the thicker wire springs will produce a dramatic increase in force. This is why there isn't a more steady increase in fuel CCs when the rpms are increased by the throttle lever. Also, the concept of a governor is factored into this whole concept. The faster the governor spins, the harder it is to keep the weights "tight"=more fueling. This governor force however, is directly related to the speed at which it spins. Governor weight force is a more constant force in relation to RPMS unlike a spring force with distance as I set up.
Set the pump indexing to stock, ignore all I said about springs and crap and back idle off a little and you will be fine.
Charlie
. I've looked over old treads and seen where adding different gov springs changed how and when the pump fueled and when it decides to cut it. One such tread is 
