... | ... | @@ -2,7 +2,7 @@ Suggested definition of 'differences' to be shown by tuneDisplay for various dev |
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* Quads (both magnetic and electrostatic): The percent difference between the quad's calculated setpoint (current or voltage) $`\left({SP}_{theo}\right)`$ and its actual setpoint $`\left({SP}_{act}\right)`$.
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```math
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\Delta = \frac{100 \cdot \left( {SP}_{act} - {SP}_{theo}\right)}{{SP}_{theo}} \\
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\Delta = \frac{100 \cdot \left( {SP}_{act} - {SP}_{theo}\right)}{{SP}_{theo}}
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```
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... | ... | @@ -11,7 +11,7 @@ Suggested definition of 'differences' to be shown by tuneDisplay for various dev |
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\Delta = \frac{100 \cdot \left( U_{act} - U_{theo}\right)}{\Delta U} \cdot \frac{U_{max, \: source}}{U_{act, \: source}}
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For a typical ISAC electrostatic steerer this becomes:
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```math
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\Delta = \frac{100 \cdot \left( U_{act} - U_{theo}\right)}{1000} \cdot \frac{60}{U_{act, \: source}} \\
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\Delta = \frac{100 \cdot \left( U_{act} - U_{theo}\right)}{1000} \cdot \frac{60}{U_{act, \: source}}
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```
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... | ... | @@ -22,19 +22,19 @@ Suggested definition of 'differences' to be shown by tuneDisplay for various dev |
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`Diff = 100*[(actual_setpoint - calc_setpoint)/steerer_range]*(max_Bp/actual_Bp)`
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For a typical 100 A ISAC magnetic steerer in MEBT this becomes:
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```math
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\Delta = \frac{100 \cdot \left( I_{act} - I_{theo}\right)}{200} \cdot frac{1700 \left[\mathrm{kG} \cdot \mathrm{cm}\right]}{\left(B\rho\right)_{act}} \\
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\Delta = \frac{100 \cdot \left( I_{act} - I_{theo}\right)}{200} \cdot frac{1700 \left[\mathrm{kG} \cdot \mathrm{cm}\right]}{\left(B\rho\right)_{act}}
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```
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`Diff = 100*[(actual_setpoint - calc_setpoint)/200]*(1700 kG*cm/actual_Bp)`
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* Magnetic dipoles: The percent difference between the dipole's calculated field setpoint (Gauss) $`\left(B_{theo}\right)`$ and its actual setpoint $`\left(B_{act}\right)`$.
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```math
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\Delta = \frac{100 \cdot \left( B_{act} - B_{theo}\right)}{B_{theo}} \\
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\Delta = \frac{100 \cdot \left( B_{act} - B_{theo}\right)}{B_{theo}}
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```
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* RF phases: The difference between the calculated phase setpoint (in degrees) $`\left(\varphi_{theo}\right)`$ and its actual setpoint $`\left(\varphi_{act}\right)`$, normalized to 180 degrees.
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```math
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\Delta = \frac{100 \cdot \left( A_{act} - A_{theo}\right)}{A_{theo}} \\
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\Delta = \frac{100 \cdot \left( A_{act} - A_{theo}\right)}{A_{theo}}
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```
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