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--- en:exercises:motor [2015/11/12 10:35] – heikopikner
+++ en:exercises:motor [2020/07/20 09:00] (current) – external edit 127.0.0.1
@@ Line 9: / Line 9: @@
   - DC motor accelerates when S1 is pressed down and holds achieved speed when the button is released. By holding S2 pressed down, the motor decelerates smoothly. By pressing button S3, the motor stops instantly.
   - Servo motor, the servo motor is controlled via the buttons of the User Interface module. By pressing down S1 the servomotor moves one step to the right. By pressing down S3, the servo motor moves one step to the left and S2 makes the servo motor to move to the initial (middle) position. The position of the servo motor is displayed live on the 7 segment display (each number corresponds to 10 degrees of the turn: middle position equals 5).
-  - Radar, functioning of radar is simulated. In order to identify objects closer than 0,5 meters, IR distance sensor is installed to the lever of the servo motor. The lever of servo motor is moving constantly form one extreme position to the other and it carries this sensor all the time with itself. If there happens to be an object in closer range than 0,5 meters of the sensor, then the servo motor is stopped for 5 seconds and by signaling a LED (PB7) on the controller board detection of the object is announced.
+  - Radar, UH sensor based radar is simulated. Sensor is installed to the lever of the servo motor. The lever of servo motor is moving constantly form one extreme position to the other. If there happens to be an object in closer range than 0,5 meters of the sensor, then the servo motor is stopped for 5 seconds and by signaling a LED that detection of the object is announced. After 5 seconds of flashing of the LED, scanning continues.
-  - Stepper motor, after each pressing on the buttons S1 and S3 it rotates 10 steps, accordingly clock wise and anti clock wise. The rotation is stopped immediately by pressing on the button S2.
+  - Stepper motor, after each pressing on the buttons S1 and S3 it rotates 50 steps, accordingly clock wise and anti clock wise.
-  - All three different types of the motors are connected. By pressing a button it starts and stops a certain motor. S1 controls the DC motor. S2 controls the servo-motor and S3 controls the stepper-motor.
 ===== For advanced =====
   - Tracking an object. By using ultrasonic distance sensor, which is installed on the lever of the servo-motor, the servomotor has to track a bypassing object. The motor turns according to the movement of the object so that the object is all the time in the middle of the tracking sector of the sensor.
-  - Stepper motor keeps the last position of the motor after change of each sequence. When activating new sequence, use variable, so the movement continues exactly from the last position of the motor.
+  - Using a stepper motor, make a second dial of the analog clock. The motor must be make exactly 60 steps on one complete rotation. Movement should be stepped and not smooth.
   - Acceleration, the program allows changing the acceleration/deceleration of the stepper motor. Use linear speed slopes which can be easily identified at visual inspection. Longer movements have to follow the following scheme: acceleration --> steady speed --> deceleration.
-  - Design a PID regulator for a DC motor. NB! This exercise demands a motor with feedback. This exercise may be solved also theoretically.
+  - Design a PID regulator (or its simplified form) for a DC motor. NB! This exercise demands a motor with feedback (encoder).
+  - DC motor. The DC motor is controlled via the buttons of the User Interface module. By pressing down S1 the motor moves one step (x encoder pulses) to the left. By pressing down S3, the motor moves the same amount of steps to the back. The motor rotates exact amount of a predetermined steps, regardless of a torque applied to the shaft (in the case where applied torque is less than the engine maximum output torque).
 ====== Questions ======

en/exercises/motor.1447324551.txt.gz · Last modified: 2020/07/20 09:00 (external edit)