SLAC Magnetic Measurements Date: 02-02-1995 Time: 10:33:47 Magnet Name: 2Q4-02 Project: PEP II Injection Line Test Stand: Rotating Coil Stand 2 Measurement Coil: DC100 Operator: WS Run Number: 74 Comment: 12 Amps, after 3rd stdzn, reverse pol Standardization Currents (A): 45.0 2.0 45.0 2.0 45.0 2.0 Test Currents (A): 3.0 9.0 15.0 21.0 24.0 27.0 30.0 33.0 36.0 40.0 45.0 40.0 30.0 20.0 10.0 HARMONICS MEASUREMENTS Date: 02-02-1995 Time: 10:41:17 Magnet Name: 2Q4-02 Project: PEP II Injection Line Run Number: 74 FIELD HARMONICS Magnet Current, Imag = 12.00203 +- 2.369837E-05 A Coil Radius, Rcoil = .0189973 m Coil # Turns, Nturns = 30 Average, # Rotations/Measurement = 8 , # Measurements = 4 N BLn sigBLn THspole sigTH BLn/BL2 sBLn/BL2 (Gm) (Gm) (deg) (deg) (%) (%) --- -------+------- -------+------- -------+------- 1 0.137 0.001 -94.73 0.73 0.405 0.002 2 33.883 0.013 47.66 0.00 100.000 0.000 3 0.063 0.001 53.62 0.21 0.187 0.002 4 0.014 0.004 34.83 3.41 0.042 0.012 5 0.004 0.002 -13.49 24.92 0.010 0.005 6 0.107 0.013 -13.19 0.60 0.317 0.037 7 0.037 0.005 -14.62 0.89 0.110 0.015 8 0.011 0.008 0.07 15.85 0.032 0.024 9 0.031 0.003 5.07 0.53 0.093 0.009 10 0.052 0.001 -6.02 0.24 0.153 0.004 11 0.012 0.001 -1.99 2.50 0.034 0.004 12 0.003 0.001 12.81 0.94 0.009 0.002 13 0.002 0.001 -1.95 1.74 0.006 0.002 14 0.011 0.001 -4.18 0.30 0.033 0.002 15 0.001 0.000 4.40 5.74 0.004 0.001 16 0.001 0.000 -0.52 5.47 0.003 0.001 The magnetic center is at X = 76.7 +- 0.4 microns Y = 6.4 +- 1.0 microns The magnetic center is measured relative to the coil axis effectively at the longitudinal center of the magnet. Pitch and yaw are not seen by the coil. View from the non-lead end of the magnet: y ^ | N S --> x S N SUMMARY OF THE CALCULATIONS AND CONVENTIONS USED Calculation of GL using a double coil (assumed flat): V2 = (Nturns * velocity * B2 * L)_1 + (Nturns * velocity * B2 * L)_2 = (Nturns1 * Rcoil1 * ang_freq * GL * Rcoil1) + (Nturns2 * Rcoil2 * ang_freq * GL * Rcoil2) = (Nturns1 * Rcoil1^2 + Nturns2 * Rcoil2^2) * ang_freq * GL If Nturns1 = Nturns2 == Nturns12, then V2 = Nturns12 * (Rcoil1^2 + Rcoil2^2) * ang_freq * GL Let Reff^2 = Rcoil1^2 + Rcoil2^2, then V2 = Nturns12 * Reff^2 * ang_freq * GL Or, GL = V2 / (Nturns12 * Reff^2 * ang_freq) Calculation of the harmonics: The integrated radial field for the n'th harmonic at the coil radius is given by BLn(th) = BLn * cos(n*(th - THspole)) The coil voltage is V = Nturns * v_theta * B_r * L Vn(th) = Nturns * velocity * BLn(th) = Nturns * Rcoil * ang_freq * BLn * cos(n*(th - THspole)) The FFT gives Vn and PhiVn in the formula Vn(i) = Vn * cos(n*2pi*i/N + PhiVn) Then, Vn = Nturns * Rcoil * ang_freq * BLn PhiVn = - n * THspole Or, BLn = Vn / (Nturns * Rcoil * ang_freq) THspole = - PhiVn / n Calculation of the magnetic center: Xcenter = - (1/GL) * BL1 * sin(THspole1) Ycenter = - (1/GL) * BL1 * cos(THspole1)