104 August 2019 http://www.designworldonline.com DESIGN WORLD
Motion Control
by imagining a line parallel to the speed-
torque curve at roughly ½ to 2/3 the height
of the published curve. This imaginary line
represents an amount of torque that a step
motor can reliably produce with minimal
risk of stalling. See Figure 1 (typical speed-
torque curve of a step motor) for more on
this.
2
“The step motor is so hot;
there must be something
wrong with it.”
Step motors are designed to run hot. The
most common insulation class used in
step motors is Class B, which is rated for
operation up to 130° C. This means that
the surface temperature of a step motor
can reach 90°C or more before failing. This
temperature is much hotter than a person
could touch without burning the skin. For
this reason, mount step motors away from
areas with a high chance of human contact.
Step motors are designed to run at high
temperatures because of their use in open-
loop control systems. Because an open-loop
step motor operates without any current
feedback (or velocity or position feedback),
the current supplied by the drive is constant,
regardless of the torque demand.
To get the most torque from step motors,
manufacturers specify them with the Class
B insulation in mind; so, current ratings are
designed to maximize torque output without
overheating. The end result is that step
motors produce a lot of torque ... but they
also get quite hot in doing so.
3
“Can I use a 12-volt
power supply to power
my step motor and
drive?”
For any kind of electric motor, not just step
motors, the supply voltage is directly related
to motor speed. As higher voltages are
supplied to the system, the motor achieves
higher speeds. The rated supply voltage
specified for servo and dc motors correspond
to other rated specifications including
speed, torque, and power. If a step motor is
specified with a rated voltage, it is typically
no more than the step motor’s winding
resistance times the rated current. This is
useful for producing holding torque but of
very little use when the step motor moves.
Like all electric motors, when the shaft
starts moving, the step motor produces a
back EMF (BEMF) voltage that impedes
the current flowing into the windings. To
produce usable torque, the supply voltage
must be substantially higher than the
BEMF. Because no hard and fast rules exist
for how high to specify the supply voltage,
users should review the published speed-
torque curves for a given step motor, drive,
and power supply combination. The supply
DESIGN WORLD August 2019 105
Figure 1 — typical speed-torque curve of a step motor. In published data
from the manufacturer, only the solid line is shown, which indicates stall
torque versus speed. The user must estimate a usable torque range as
shown by the dashed line.
Figure 2 — two speed-torque curves of the same step motor and drive
combination. Only the power supply voltage is different. The dark green line
shows stall torque with a 48-V power supply. The light green line shows stall
torque with a 24-V supply. A 12-V supply would result in an even lower curve.
Motion Control 8-19_Vs3 NEW.LE.indd 104 8/5/19 1:52 PM