AMIS-30623 Datasheet, PDF(16/67 Page) AMI SEMICONDUCTOR

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

AMIS-30623 Datasheet, PDF (16/67 Pages) AMI SEMICONDUCTOR – LIN Microstepping Motordriver

◁

AMIS-30623 LIN Microstepping Motordriver

Data Sheet

14.0 Structural Description

See also the Block Diagram in Figure 1.

14.1 Stepper Motordriver

The Motordriver receives the control signals from the control logic. The main features are:

â¢ 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 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.

â¢ The control block for the H-bridges including the PWM control, the synchronous rectification, and the internal current sensing

circuitry.

â¢ The charge pump to allow driving of the H-bridgesâ high side transistors.

â¢ Two pre-scale 4-bit DACâs to set the maximum magnitude of the current through X and Y.

â¢ Two DACâs to set the correct current ratio through X and Y.

Battery voltage monitoring is also performed by this block, which provides needed information to the control logic part. The same

applies for detection and reporting of an electrical problem that could occur on the coils or the charge pump.

14.2 Control Logic (Position Controller and Main control)

The control logic block stores the information provided by the LIN interface (in a RAM or an OTP memory) and digitally controls the

positioning of the stepper motor in terms of speed and acceleration, by feeding the right signals to the motordriver 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 motordriver part in order to manage possible problems and decide on internal actions and reporting

to the LIN interface.

14.3 Motion Detection

Motion detection is based on the back emf generated internally in the running motor. When the motor is blocked , e.g. when it hits the

end-position, the velocity and as a result also the generated back emf, is disturbed. The AMIS-30623 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.

14.4 LIN Interface

The LIN interface implements the physical layer and the MAC and LLC layers according to the OSI reference model. It provides and

gets information to and from the control logic block, in order to drive the stepper motor, to configure the way this motor must be driven,

or to get information such as actual position or diagnosis (temperature, battery voltage, electrical statusâ¦) and pass it to the LIN master

node.

14.5 Miscellaneous

The AMIS-30623 also contains the following:

â¢ An internal oscillator, needed for the LIN protocol handler as well as the control logic and the PWM control of the motordriver.

â¢ An internal trimmed voltage source for precise referencing.

â¢ A protection block featuring a thermal shutdown and a power-on-reset circuit.

â¢ A 5V regulator (from the battery supply) to supply the internal logic circuitry.

AMI Semiconductor â June 2006, Rev 3.0

www.amis.com

▷