Input pressure required to produce controller output values

AI Thread Summary
A direct acting proportional pressure controller with a gain of 3 and a range of 0-40 bar is set to control at 25 bar, with an output signal of 60% when the measured and desired values are equal. The proportional band (PB) is calculated to be 33.33%, which corresponds to an input scale of 13.33 bar. To achieve different output values, the input pressures required are determined: 10% output requires 18.3 bar, while 90% output requires 29 bar. The discussion also suggests a formulaic approach to calculating output based on set point, gain, and offset adjustments. Overall, the thread emphasizes the importance of understanding the relationship between input pressure and controller output values.
oxon88
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Homework Statement



A direct acting proportional pressure controller has a gain of 3, a range of 0-40 bar and is set to control at 25 bar. When the measured value and the desired value are equal, the output signal is 60%. Determine the input pressure required to produce controller output values of 10% and 90%

Homework Equations


Gain = 100 / % proportional band setting

The Attempt at a Solution

 
Last edited:
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Ho oxon,

So far I have read 1. How about providing 2 and 3 as well ? -- if only to avoid being shot into the black hole ...
 

Homework Statement



A direct acting proportional pressure controller has a gain of 3, a range of 0-40 bar and is set to control at 25 bar. When the measured value and the desired value are equal, the output signal is 60%. Determine the input pressure required to produce controller output values of 10% and 90%

Homework Equations


Gain = 100 / % proportional band setting
PB = 100/gain

The Attempt at a Solution



PB = 100/3 = 33.33%

33% of input scale (0-40 bar) = 13.33 bar

not sure where to go with this now...
 
ok here is what i got...

33.33% of input scale (0 - 40 bar) is 13.33 bar60% of 13.33 bar = 8 bar

50% of 13.33 bar = 6.67 bar

40% of 13.33 bar = 5.332 bar

30% of 13.33 bar = 4 bar0% Output = 25 - 8 = 17 bar

10% Output = 25 – 6.67 = 18.3 bar

90% Output = 25 + 4 = 29 bar

100% Output = 25 + 5.332 = 30.3 bar
 
Could it be that the recipe for your proportional controller is as follows (consult your notes or textbook - I'm just guessing)
  • set point is subtracted
  • result is converted to %
  • gain is applied
  • offset is applied
Example: 25 Bar in. 25 bar is subtracted. 0 Bar is 0% 0% is multiplied by 3 add offset 62.5% to get result
Example: 27 Bar in. You see what comes out. Now express the recipe in a formula.
 

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