L6472 STMICROELECTRONICS [STMicroelectronics], L6472 Datasheet - Page 25
L6472
Manufacturer Part Number
L6472
Description
dSPIN fully integrated microstepping motor driver
Manufacturer
STMICROELECTRONICS [STMicroelectronics]
Datasheet
1.L6472.pdf
(69 pages)
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Part Number:
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L6472
6.7.3
6.7.4
6.7.5
Motion commands
Motion commands produce a motion in order to perform a user-defined number of
microsteps in a user-defined direction that are sent to the device together with the command
(see
The performed motor motion is compliant to programmed speed profile boundaries
(acceleration, deceleration, minimum and maximum speed).
Note that with some speed profiles or motion commands, the deceleration phase can start
before the maximum speed is reached.
Figure 11. Motion command examples
Stop commands
A stop command forces the motor to stop. Stop commands can be sent anytime.
The SoftStop command causes the motor to decelerate with a programmed deceleration
value until the MIN_SPEED value is reached and then stops the motor maintaining the rotor
position (a holding torque is applied).
The HardStop command stops the motor instantly, ignoring deceleration constraints and
maintaining the rotor position (a holding torque is applied).
The SoftHiZ command causes the motor to decelerate with a programmed deceleration
value until the MIN_SPEED value is reached and then forces the bridges into high-
impedance state (no holding torque is present).
The HardHiZ command instantly forces the bridges into high-impedance state (no holding
torque is present).
Step-clock mode
In step-clock mode the motor motion is defined by the step-clock signal applied to the STCK
pin.
At each step-clock rising edge, the motor is moved by one microstep in the programmed
direction and the absolute position is consequently updated.
When the system is in step-clock mode the SCK_MOD flag in the STATUS register is raised,
the SPEED register is set to zero and the motor status is considered stopped whatever the
STCK signal frequency (the MOT_STATUS parameter in the STATUS register equal to
g00h).
Figure
11).
Doc ID 022729 Rev 1
Functional description
25/69
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