AMIS30624C6245RG ON Semiconductor, AMIS30624C6245RG Datasheet - Page 14
AMIS30624C6245RG
Manufacturer Part Number
AMIS30624C6245RG
Description
IC STEPPER DVR I2C 800MA 32-NQFP
Manufacturer
ON Semiconductor
Type
I2C Micro Stepping Motor Driverr
Datasheet
1.AMIS30624C6244RG.pdf
(56 pages)
Specifications of AMIS30624C6245RG
Applications
Stepper Motor Driver, 2 Phase
Number Of Outputs
1
Current - Output
800mA
Voltage - Supply
8 V ~ 29 V
Operating Temperature
-40°C ~ 165°C
Mounting Type
Surface Mount
Package / Case
32-VSQFP
Product
Stepper Motor Controllers / Drivers
Operating Supply Voltage
8 V to 29 V
Supply Current
800 mA
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Load
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
766-1002-2
Available stocks
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AMIS-30624
13.0 Structural Description
See the block diagram in Figure 1.
13.1 Stepper Motor Driver
The motor driver receives the control signals from the control logic. The main features are:
Battery voltage monitoring is also performed by this block, which provides information to the control logic part. The same applies for the
detection and reporting of an electrical problem that could occur on the coils or the charge pump.
13.2 Control Logic (Position Controller and Main Control)
The control logic block stores the information provided by the I
positioning of the stepper motor in terms of speed and acceleration, by feeding the right signals to the motor driver state machine.
It will take into account the successive positioning commands to properly initiate or stop the stepper motor in order to reach the set
point in a minimum time.
It also receives feedback from the motor driver part in order to manage possible problems and decide on internal actions and reporting
to the I
13.3 Motion Detection
Motion detection is based on the back emf, generated internally in the running motor. When the motor is blocked, for example when it
hits the end-position, the velocity and as a result also the generated back emf, is disturbed. The AMIS-30624 senses the back emf,
calculates a moving average and compares the value with two independent threshold levels. If the back emf disturbance is bigger than
the set threshold, the running motor is stopped.
13.4 Miscellaneous
The AMIS-30624 also contains the following:
• Two H-bridges designed to drive a stepper motor with two separated coils. Each coil (X and Y) is driven by one H-bridge and
• The control block for the H-bridges including the PWM control, the synchronous rectification and the internal current sensing
• The charge pump to allow driving of the H-bridges’ high side transistors
• Two pre-scale 4-bit DACs to set the maximum magnitude of the current through X and Y
• Two DACs to set the correct current ratio through X and Y
• An internal oscillator needed for the control logic and the PWM control of the motor driver
• An internal trimmed voltage source for precise referencing
• A protection block featuring a thermal shutdown and a power-on-reset circuit
• A 5V regulator (from the battery supply) to supply the internal logic circuitry
2
C interface.
the driver controls the currents flowing through the coils. The rotational position of the rotor, in unloaded condition, is defined
by the ratio of current flowing in X and Y. The torque of the stepper motor when unloaded is controlled by the magnitude of the
currents in X and Y.
circuitry
Rev. 4 | Page 14 of 56 | www.onsemi.com
2
C interface (in a RAM or an OTP memory) and digitally controls the
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