P, PI, PID Controller Experiment and demonstration.
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- Опубліковано 16 вер 2022
- Practical demonstration of PID controller.
A PID controller is an instrument used in industrial control applications to regulate temperature, flow, pressure, speed and other process variables. PID, which stands for proportional integral derivative, controllers use a control loop feedback mechanism to control process variables and are the most accurate and stable controller.
PID controller gain tuning can be difficult. The proportional method is the easiest to understand. In this instance, the output of the proportional factor is the product of gain and measured error ε. Thus, larger proportional gain or error makes for greater output from the proportional factor. Setting the proportional gain too high causes a controller to repeatedly overshoot the setpoint, leading to oscillation. While setting the proportional gain too low make the loop output negligible. One way to offset this steady-state error is using the method of setting the I and D gains to zero and then increasing P gain until the loop output starts to oscillate.
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Thank you very much, Sir, I appreciated your explanation of the PID controller
Wonderful demonstration by wonderful teacher, thanks a lottt sir ji
يا ريت الترجمة العربية
Very informative
Great sir, more power to you
Good 👏👏👏
Zabardast adil sir
Excellent *
Very good tasks....
WoW very nice idol 💓💓
Thanku
Well explained❤
Thank you so much sir...❤❤❤❤❤❤
Always welcome
Please black marker/pen so that your writing can be visible
Where to connect the probes
Ground connection of the probe you have to connect with the ground connection on the panel (i.e black). Positive connection of the probe you have to connect at the output
Kindly use Mike