where Tdev¼EM torque, produced by the motor, Nm
Tm¼torque absorbed by the mechanical load, including the load losses and that used for useful
mechanical work, Nm
TRL¼rotational loss torque, internal to the motor, Nm
T^0 m¼TmþTRL¼equivalent load torque, Nm
J¼mass polar moment of inertia of all rotating parts, kg-m^2
vrm¼angular velocity of rotating parts, rad=s
Observe that whenever Tdev>T^0 m, the system accelerates; if Tdev<T^0 m, the system decelerates. The
system will inherently seek out the equilibrium condition of Tdev¼T^0 m, which will determine
the running speed. In general, the steady state running speed for any motor-load system occurs at the
intersection of the motor and load torque-speed characteristics, i.e., where Tdev¼T^0 m.IfTdev>T^0 m,
the system is accelerating; for Tdev<T^0 m, the system decelerates. Thus, torque-speed characteristics for
motors and loads are necessary for the design of a speed (or position) control system.
Electrical
Source MechanicalLoadMechanical
Load
TranslatorTranslatorStatorStator
Mechanical
LoadMechanical
Prime
MoverEnergy FlowEnergy FlowX, VXEnergy FlowEnergy Flow
a. the EM rotational machine; motor conventionb. the EM rotational machine; generator conventionc. the EM translational machine; motor conventiond. the EM translational machine; generator conventionTdevTRL TmWrmTdevFdevFdevTRLFTL
FmTmWrmEM Machine
(“motor”)EM Machine
(“motor”)EM Machine
(“motor”)EM Machine
(“generator”)Electrical
SourceElectrical
SourceElectrical
SinkFTL
FmX, VXFIGURE 27.1 Motor and generator sign conventions for EM machines.