- #1
ATRIX
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People of physics forum
i have come here to ask for help.
i am trying to model a armature controlled dc motor with no load but and opposite force in the form of frictional damping
the expression i have raised and am assuming it to be right is
ωout/Vin = k/(L(s)+R)(I(s)+C)+ kt.k
where K,kt are constants
L inductance
I inertia
R resistance armature circuit
C damping
the reference voltage is 25 volts. i really need i think a partial fraction expansion of this to allow me to do the inverse laplace transform
any body out there can you help me please?
thanks people.
i have come here to ask for help.
i am trying to model a armature controlled dc motor with no load but and opposite force in the form of frictional damping
the expression i have raised and am assuming it to be right is
ωout/Vin = k/(L(s)+R)(I(s)+C)+ kt.k
where K,kt are constants
L inductance
I inertia
R resistance armature circuit
C damping
the reference voltage is 25 volts. i really need i think a partial fraction expansion of this to allow me to do the inverse laplace transform
any body out there can you help me please?
thanks people.