PBD 3517/1
RExt
VZ
R
i
Figure 23. Zener diode turn-off circuit.
Figure 21. Diode turn-off circuit.
Figure 22. Resistance turn-off circuit.
7. To change actual motor rotation
direction, exchange motor connec-
tions at PA1 and PA2 (or PB1 and PB2).
8. Half-stepping. in the half-step mode,
the power input to the motor alter-
nates between one or two phase
windings. In half-step mode, motor
resonances are reduced. In a two-
phase motor, the electrical phase
shift between the windings is 90
degrees. The torque developed is the
vector sum of the two windings
V
V
2
C
1
S
0V
energized. Therefore, when only one
winding is energized, which is the
case in half-step mode for every
second step, the torque of the motor
is reduced by approximately 30%.
This causes a torque ripple.
Power supply
Figure 24. Power return turn-off circuit.
Figure 25. Power return turn-off circuit for
bilevel .
9. Ramping. Every drive system has
inertia which must be considered in
the drive scheme. The rotor and load
inertia plays a big role at higher
speeds. Unlike the DC motor, the
stepper motor is a synchronous
motor and does not change speed
due to load variations. Examination of
typical stepper motors’ torque versus
speed curves indicates a sharp
torque drop-off for the start-stop
without error curve. The reason for
this is that the torque requirements
increase by the cube of the speed
change. As it can be seen, for good
motor performance, controlled
necessary to connect in series with
center tap. This changes the L/R
time constant.
User Hints
1. Never disconnect ICs or PC-boards
when power is supplied.
5. Never use LA or LB for continuous
output at high currents. LA and LB on-
time can be altered by changing the
RC net. An alternative is to trigger
the mono-flip-flop by taking a STEP
and then externally pulling the RC
pin (12) low (0V) for the desired on-
time.
2. If second supply is not used, discon-
nect and leave open VSS, LA, LB, and
RC. Preferably replace the VMM
supply diodes (D1, D2) with a straight
connection.
3. Remember that excessive voltages
might be generated by the motor,
even though clamping diodes are
used.
4. Choice of motor. Choose a motor
that is rated for the current you need
to establish desired torque. A high
supply voltage will gain better
stepping performance. If the motor is
not specified for the VMM voltage, a
current limiting resistor will be
6. Avoid VMM and VSS power supplies
with serial diodes (without filter
capacitor) and/or common ground
with VCC. The common place for
ground should be as close as
possible to the IC’s ground pin (pin
3).
acceleration and deceleration should
be considered.
9