1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
|
import logging
import pyvisa
import numpy as np
from qolab.hardware.power_supply.keysight_e3612a import KeysightE3612A
import qolab.tsdb as tsdb
# this should be done before justpy is called or log formatter does not work
logging.basicConfig(
format="%(asctime)s %(levelname)8s %(name)s: %(message)s",
datefmt="%m/%d/%Y %H:%M:%S",
)
tmplogger = logging.getLogger("qolab.tsdb")
tmplogger.setLevel(logging.INFO)
logger = logging.getLogger("BfieldDriver")
logger.setLevel(logging.INFO)
class BfieldDriver(KeysightE3612A):
"""need to set power supply"""
def __init__(self, *args, **kwds):
super().__init__(*args, **kwds)
self.config["Device type"] = (
"B field coil driver based on Keysight E3612A power supply"
)
self.config["Device model"] = "v0.1"
self.deviceProperties = self.deviceProperties.union(
{"B", "Bslope_TperA", "CoilAssignment"}
)
""""
Rough magnetic field calibration of the 3 axes coils in large magnetic shield
- Ch1: 70mA -> 650 kHz shift for delta m = 2
- Ch2: 70mA -> 700 kHz shift for delta m = 2
- Ch2: 70mA -> 659 kHz shift for delta m = 2
A better calibration obtained on 20220601 see file
20220601.magnetic_field_callibration/calibration_currentToB.dat
"""
# B response to current in a given channel
# Olivia's Calibration with flux gate magnetometer used from 2023/04/28
# +/- 0.0000007
self._Bslope_TperA = {1: 0.00065859269, 2: 0.00070732580, 3: 0.00066754994}
"""
# Irina's Calibration used prior 2023/04/27
self._Bslope_TperA = {
1: 0.0006571429,
2: 0.0007085714,
3: 0.0006675714
}
# Eugeniy's Calibration
self._Bslope_TperA = {
1: 0.0006574710928926532,
2: 0.0007064314754023079,
3: 0.0006635058865577695
}
"""
# assuming that Ch1 controls Bz, Ch2 -> Bx, Ch3 -> By
self._coil_assignment = {"chX": 2, "chY": 3, "chZ": 1}
def getBslope_TperA(self):
return self._Bslope_TperA
def getCoilAssignment(self):
return self._coil_assignment
def getB(self):
Bslope_TperA = self.getBslope_TperA()
coil_assignment = self.getCoilAssignment()
chX = coil_assignment["chX"]
chY = coil_assignment["chY"]
chZ = coil_assignment["chZ"]
Ix = self.getChanIout(chX)
Iy = self.getChanIout(chY)
Iz = self.getChanIout(chZ)
Bx = Ix * Bslope_TperA[chX]
By = Iy * Bslope_TperA[chY]
Bz = Iz * Bslope_TperA[chZ]
Bmag = float(np.sqrt(Bx * Bx + By * By + Bz * Bz))
theta = float(np.arccos(Bz / Bmag))
phi = float(np.arctan2(By, Bx))
theta_degree = float(theta / np.pi * 180)
phi_degree = float(phi / np.pi * 180)
return {
"Bmag": Bmag,
"theta": theta,
"phi": phi,
"theta_degree": theta_degree,
"phi_degree": phi_degree,
"Bx": float(Bx),
"By": float(By),
"Bz": float(Bz),
}
def setB(self, Bmag=50e-6, theta=0, phi=0):
"""Sets B field currents based on B (in T) and angles theta, and phi"""
self._Bmag = Bmag
self._theta = theta
self._phi = phi
Bx = Bmag * np.sin(theta) * np.cos(phi)
By = Bmag * np.sin(theta) * np.sin(phi)
Bz = Bmag * np.cos(theta)
Bslope_TperA = self.getBslope_TperA()
coil_assignment = self.getCoilAssignment()
chX = coil_assignment["chX"]
chY = coil_assignment["chY"]
chZ = coil_assignment["chZ"]
Ix = Bx / Bslope_TperA[chX]
Iy = By / Bslope_TperA[chY]
Iz = Bz / Bslope_TperA[chZ]
logger.info(f"Setting {Bmag=}, {theta=} {phi=} in radians")
logger.info(f"Setting {chX=} to {Ix}")
logger.info(f"Setting {chY=} to {Iy}")
logger.info(f"Setting {chZ=} to {Iz}")
self.setChanIout(chX, Ix)
self.setChanIout(chY, Iy)
self.setChanIout(chZ, Iz)
return Ix, Iy, Iz
def setBinDegrees(self, Bmag=50e-6, theta=0, phi=0):
logger.info(f"Setting {Bmag=}, {theta=} {phi=} in degrees")
return self.setB(Bmag=Bmag, theta=theta / 180 * np.pi, phi=phi / 180 * np.pi)
# TSDB logger setting
tsdb_client = tsdb.Client("influx", "http://qo.physics.wm.edu:8428", database="qolab")
tsdb_ingester = tsdb.Ingester(tsdb_client, batch=11, measurement_prefix="VAMPIRE.VCSEL")
logger.info("Accessing hardware")
rm = pyvisa.ResourceManager()
instr = rm.open_resource("USB0::10893::4354::MY61001869::0::INSTR")
app_nickname = "BfieldDriver"
Bfield = BfieldDriver(
instr,
device_nickname=".".join([app_nickname, "b_field_driver"]),
tsdb_ingester=None,
)
print("Use me as : Bfield.setBinDegrees(theta=Angle, phi=Angle)")
|