myCNC Online Documentation

User Tools

Site Tools

Trace:
mycnc:closed_loop_configuration

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
Last revisionBoth sides next revision
mycnc:closed_loop_configuration [2018/10/09 14:03] skirillovmycnc:closed_loop_configuration [2019/10/21 09:53] ivan
Line 42: Line 42:
   * Adjust DAC offset ratio to get "0V" value on DAC output for each channel. Theoretical DAC value for 0V is the middle of 12bits range \\ 4096/2=**2048**. \\ A real value may vary +/-5%. \\ {{mycnc:closed-loop:mycnc-closed-loop-003.png}}   * Adjust DAC offset ratio to get "0V" value on DAC output for each channel. Theoretical DAC value for 0V is the middle of 12bits range \\ 4096/2=**2048**. \\ A real value may vary +/-5%. \\ {{mycnc:closed-loop:mycnc-closed-loop-003.png}}
   * Fill Encoder channel for each PID (Motor#). \\ {{mycnc:closed-loop:mycnc-closed-loop-004.png}}    * Fill Encoder channel for each PID (Motor#). \\ {{mycnc:closed-loop:mycnc-closed-loop-004.png}} 
-  * To test selected channel, check "Enable" checkbox for the channel and enter initial value of "50" for Proportional P-ratio of PID controller. Press "Enter" to save the changes. We test PID#5 (motor channel #5) on the screenshot below. \\ {{mycnc:closed-loop:mycnc-closed-loop-005.png}}  +  * To test selected channel, check "Enable" checkbox for the channel and enter initial value of "50" for Proportional P-ratio of PID controller. Press "Savebutton to save the changes. We test PID#5 (motor channel #5) on the screenshot below. \\ {{mycnc:closed-loop:mycnc-closed-loop-005.png}}  
-  * Click on "Servo-ON" button to reset & enable selected PID and turn ON "Servo-ON" signal. Servo-On procedure +  * Click on "Servo-ON" button to reset & enable selected PID and turn ON "Servo-ON" signal. Servo-On procedure will ... 
     * Reset position error registers - **E(t)** and its Integral value.     * Reset position error registers - **E(t)** and its Integral value.
     * Turn ON Servo-ON output to enable a servo driver     * Turn ON Servo-ON output to enable a servo driver
-    * Turn ON PID all "Enabled" controllers (Checkboxes "Enable" are checked)+    * Turn ON all "Enabled" PID controllers (Checkboxes "Enable" are checked).
   * Select the channel for a scope widget to control and tune PID controller ratios. \\ {{mycnc:closed-loop:mycnc-closed-loop-006.png}}    * Select the channel for a scope widget to control and tune PID controller ratios. \\ {{mycnc:closed-loop:mycnc-closed-loop-006.png}} 
   * Check which Axis the PID controller attached to (Y axis for the screenshot below). \\ {{mycnc:closed-loop:mycnc-closed-loop-007.png}}   * Check which Axis the PID controller attached to (Y axis for the screenshot below). \\ {{mycnc:closed-loop:mycnc-closed-loop-007.png}}
-  * Jog buttons can be used to move the axis and tune PID coefficients. \\ {{mycnc:closed-loop:mycnc-closed-loop-008.png}} +  * Jog buttons can be used to move the axis while testing and tuning the PID coefficients. \\ {{mycnc:closed-loop:mycnc-closed-loop-008.png}} 
-  * An analogue servo driver normally has a linear function of rotation speed depends on input voltage. A linear coefficient of this function depends on Servo driver and motor, gears, ball-screw. PID **K** value represent this coefficient. \\ {{mycnc:closed-loop:mycnc-closed-loop-009.png}} \\ The value can be tuned manually. If rotate a motor shaft with speed more than 20 turn/sec, the controller calculates real Speed/Voltage coefficient and print it on the configuration widget. You can use this value as information to tune the PID **K** ratio. A button **<<** to the right of **PID K** input line can be used to copy the measured **K** ratio to **PID K**. \\ {{mycnc:closed-loop:mycnc-closed-loop-010.png}}+  * An analogue servo driver normally has a linear function of rotation speed depends on input voltage. A linear coefficient of this function depends on Servo driver and motor, gears, ball-screw etc\\ PID **K** value represent this coefficient. \\ {{mycnc:closed-loop:mycnc-closed-loop-009.png}} \\ The value can be tuned manually. If rotate a motor shaft with speed more than 20 turns/sec, the controller calculates real Speed/Voltage coefficient and print it on the configuration widget. You can use this value as information to tune the PID **K** ratio. A button **<<** to the right of **PID K** input line can be used to copy the measured **K** ratio to **PID K**. \\ {{mycnc:closed-loop:mycnc-closed-loop-010.png}}
  
 ==== Servo ON handling ==== ==== Servo ON handling ====
Line 97: Line 97:
   * Write "1" to register number **60000** will turn ON Motor closed-loop control PIDs   * Write "1" to register number **60000** will turn ON Motor closed-loop control PIDs
   * Write "1" to register number **60001** will turn OFF Motor closed-loop control PIDs   * Write "1" to register number **60001** will turn OFF Motor closed-loop control PIDs
-Reading this registers has no effect and return zero value.+Reading this registers has no effect and return zero value. Read more about Servo ON/Servo OFF commands in this short manual: [[mycnc:servo_on_off|Servo ON/OFF]].
  
 3. Automatic Servo ON/OFF. There are 2 handler procedures in Software PLC can be used to automatic PID ON/OFF. 3. Automatic Servo ON/OFF. There are 2 handler procedures in Software PLC can be used to automatic PID ON/OFF.
mycnc/closed_loop_configuration.txt · Last modified: 2019/11/05 08:54 by ivan
Donate Powered by PHP Valid HTML5 Valid CSS Driven by DokuWiki