Spin coating is a procedure used to apply uniform thin films to flat substrates. In short, an excess amount of a solution is placed on the substrate, which is then rotated at high speed in order to spread the fluid by centrifugal force. The thickness of the coat is related to the spinning velocity, and for how long it is spinning at different speeds. Acceleration also affects the coated film’s properties as it provides a twisting force to the resin. Spin speeds vary between 500 rpm and 10,000 rpm, depending on the resin used and the required thickness. This use case explains how to maximize uniformity of thin film thickness.
Feature / Function
Description
Velocity Range
500 rpm - 10,000 rpm
Accuracy and Repeatability
+/- 1 rpm
Acceleration/deceleration
+/-1 rpm per second
Actuator Type
Three-phase Brushless DC (BLDC) motor
The diagram on page two shows an implementation using an ION 500 Digital Drive to control the spin velocity and acceleration. The system host computer controls the ION 500 through a serial RS485 link.
Using the velocity profile mode the system can be set up to change the velocity at predetermined time points that match the specific thin film coating recipe. In velocity contouring profile mode the motion is controlled by changing the acceleration, velocity, and deceleration parameters while the profile is being executed.
Breakpoints
The stand alone ION digital drive supports up to 2 breakpoints. The trigger condition can be one of 10 parameters. For this application the trigger condition is time. At each trigger point the acceleration and velocity parameters are updated and the next set of parameters is buffered in preparation for the next trigger.
Field oriented control is ideal for this high RPM spinning application. Field Oriented Control provides the smooth motion at slow speeds as well as efficient operation at high speeds. FOC also can improve motor efficiency and can help in motor sizing. Also, the fully digital control loops, and easy to use hardware trace feature for ultra‐accurate tuning can improve the overall motion system.
The figure above illustrates the motion control connections from the system control card to the digital drive, motor and spin coating substrate. The digital drive provides motor control and amplification and can be connected via CAN or serial communication.
The motion control features and products described in this solution would also apply to many other industrial applications such as spindle control, bar code reader or drum scanners/printers.
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